Just Born A Pharma Goliath: Would India Be Impacted?

Just born a potential pharma Goliath, as Actavis – the Dublin-based one of the largest global generic drug makers, in its biggest ever purchase, acquires New York based R&D based pharma major – Forest Laboratories, for a whopping US$ 25 billion.

It is worth noting that as on date Actavis has grown mainly through Mergers and Acquisition (M&A) route. In 2012, the company took over American generic drug major Watson Pharma for €4.5 bn and then Ireland’s Warner Chilcott, marketing patented drugs for gastrointestinal and urological conditions, for US $8.5 bn. Post buy out of Forest Laboratories, Actavis would have annual sales turnover of US$15 bn.

So far, mostly R&D based Pharma players acquired generic drug makers:

This acquisition is interesting. The reason being, since the last few years, mostly research based global pharmaceutical companies are taking over generic pharma players in the emerging markets with a reasonable speed. To cite a few examples:

In June, 2010, British drug major GlaxoSmithKline (GSK) announced acquisition of ‘Phoenix’, a leading Argentine pharmaceutical company focused on the development, manufacturing and marketing of branded generic products, for a cash consideration of around US $253 million. With this acquisition, GSK planned to accelerate its business growth in Argentina and the Latin American region.

Similarly, Paris based Sanofi with the acquisition of Zentiva, became an important player in the European generic drug market. Zentiva, is also a leading generic player in the Czech, Turkish, Romanian, Polish, Slovak and Russian markets, besides the Central and Eastern European region. In addition to Zentiva, in the same year 2009, Sanofi also acquired other two important generic players, Medley in Brazil and Kendrick in Mexico.

In February 2014, the German Drug major Bayer reportedly announced that it would buy Dihon Pharmaceutical Group Co of China, expanding the German company’s footprint in a key growth country. Dihon’s products are also sold in Nigeria, Vietnam, Myanmar and Cambodia. Privately held Dihon specializes in ‘Over-The-Counter (OTC)’ and herbal ‘Traditional Chinese Medicine (TCM)’ products.

Back home, MNCs acquired the following generic companies from 2006 to 2011:

Year Indian Companies Multinational Companies

Value ($Mn)

Type of Deal
2006 Matrix Labs Mylan 736 Acquisition
2008 Ranbaxy Labs Daiichi Sankyo 4,600 Acquisition
Dabur Pharma Fresenius Kabi 219 Acquisition
2009 Shantha Biotech Sanofi-aventis 783 Acquisition
2010 Orchid Chemicals Hospira 400 Acquisition
Piramal Healthcare Abbott 3,720 Acquisition
Paras Pharma Reckitt Benckiser 726 Acquisition
2011 Universal Medicare Sanofi 110 Acquisition
2013 Mylan Agila Specialities 1750 Acquisition

Key drivers for generic acquisition:

From 2012 to 2015 patented drugs with a combined turnover of US$ 183 billion have already faced or would face intense generic competition resulting in, as high as, around 90 percent price erosion for those products. It is not just patent expirations that are exerting pressure on innovator companies. Added to this, a relatively weak R&D pipeline and increasing focus of various governments to reduce healthcare costs, have forced many research based global pharma players to imbibe the inorganic growth strategy in the generic space to quickly grab a sizable share of this large and fast growing market, especially in the emerging economies of the world.

Actavis acquisition is different:

In the above light Actavis’s acquisition of Forest Laboratories is quite different. Here, instead of a predominantly research-based company’s acquiring a generic player, a basically generic drug major has bought a research based global pharmaceutical player.

Interestingly, Forest Laboratories follows a unique R&D model. It is focused on, instead of discovering on its own, identifying strong medically relevant product candidates and guiding them through the complex development lifecycle, from proof-of-concept through post-marketing.

Strong global portfolio of both generic and patented drugs:

Post buy out, Actavis would have a strong combo-portfolio of generic drugs together with a relatively robust line-up of a diverse range of patented products, spanning across therapy areas such as Anti-Infective, Respiratory, Cardiovascular, Central Nervous System, Gastrointestinal, Obstetrics and Pain Management and that too not just in the emerging markets, but globally, unlike many others.

In addition, acquisition of Forest Laboratories would also provide Actavis access to former’s large US sales teams, transforming the merged entity a formidable force to reckon with in the topmost pharmaceutical market of the world, besides many others.

An intriguing recent decision:

That said, it is interesting to note that in January 2014, Actavis, then the second-biggest generic drug maker by market capitalization, announced that it would quit China as “It is not a business friendly environment… China is just too risky”. This is indeed intriguing, because by 2015, China’s generic market is expected to be close to US$ 82 billion.

Be that as it may, post acquisition Actavis would be in a position to offer all its customers in all the markets of the world a rainbow of products from patented to generics, carving out a critical strategic advantage for itself in the global pharmaceutical market.

Impact in India:

The question now boils down to what would be the impact of the just born Goliath on the domestic pharmaceutical industry in India.

Differentiated generic business:

The generic drugs market is usually classified as simple generics, super-generics and biosimilars. To differentiate, by adding value in the generic medicines, many domestic players are gradually entering into the ‘Super Generic’ and ‘biosimilar’ category of drugs. For example, Dr Reddy’s Laboratories has reportedly chosen to go for a difficult to copy drug formulation with its blood-thinner Fondaparinux. Sun Pharma, on the other hand, is focusing on innovative delivery platforms for its ophthalmic drugs and oral contraceptives. Cadila is looking at newer drug delivery modes for its painkiller Diclofenac. So is Lupin in other areas. In the biosimilar arena, Biocon has already developed Trastuzumab formulation of Roche. Moreover, the biosimilar business of Dr Reddy’s Laboratories continues with its impressive growth trend, besides many other Indian players in the same fray.

Simultaneously, India is improving its effectiveness in ‘Contract Research and Manufacturing Services (CRAMS) space. As we have recently witnessed in India the alliances between Merck & Co and Cipla and earlier with Sun Pharma. Even prior to that, collaborative agreements of Pfizer with Aurobindo Pharma; GSK with Dr Reddy’s Laboratories; Abbott India with Cadila and many more, would vindicate this point.

Merck Serono of Germany also announced a partnership to co-develop a portfolio of biosimilar compounds in oncology, primarily focused on monoclonal antibodies (MAbs) with Dr. Reddy’s Laboratories. The partnership covers co-development, manufacturing and commercialization of the compounds around the globe, with some specific country exceptions. Mylan has also signed similar agreement with Biocon.

Glenmark Pharma has chosen yet another route, by entering into collaboration with Forest Laboratories (now Actavis) in 2013, for the development of a novel mPGES-1 inhibitor for chronic inflammatory conditions, including pain management.

Advantage India, provided…

Global generic drugs market would get its next booster dose with reportedly around 46 drugs going off patent opening a market of another US$ 66 billion from monopolistic to intense generic competition in 2015.

Details of ANDA status from the US-FDA source, as I indicated in my earlier blog post, probably indicate that several Indian players have already started moving in that direction at a brisk pace, keeping their eyes well fixed on the crystal ball. Over 30 percent of Abbreviated New Drug Applications (ANDAs) and around half of the total Drug Master Filings (DMF) now come from the Indian Companies. In 2013 alone, the US-FDA granted 154 ANDAs and 38 tentative ANDAs to the Indian companies.

Despite all these, a serious apprehension does creep in, which finds its root in much-publicized fraudulent behavior of a few large Indian drug manufacturers, seriously compromising with the cGMP standards of some high profile global drug regulators. This challenge has to be overcome, sooner, to reap rich harvest out of the emerging global opportunities in the space of generic drugs.

Conclusion: 

Geographically, North America is the largest consumer of generic drugs followed by Europe and Japan. However, the highest growth of the generic drugs market is observed in the Asia-Pacific region. Besides Actavis, some of the major generic drugs manufacturers of the world are Mylan, Apotex, Hospira, Par Pharmaceutical., Sandoz International and Teva Pharmaceutical.

From India, Ranbaxy Laboratories (before the recent fiasco), Dr. Reddy’s Laboratories, Lupin and Sun Pharma, besides many others, are competing quite well in the global generic drugs market with success.

Though Actavis has its manufacturing operations in India with its registered office located in Mumbai, the company is not yet engaged in serious local marketing operations in the country. In 2006 as Watson Pharma Pvt Ltd., the company acquired Sekhsaria Chemicals in a move to push forward its generic drug agenda globally. In 2005, it acquired a manufacturing facility in Goa from Dr. Reddy’s Laboratories to produce solid dosage generic drugs for the US market.

Taking all these into considerations, if much deliberated cGMP issues with the foreign drug regulators are resolved sooner, Actavis is not expected to make any major difference for Indian pharma players either in the domestic market or for that matter globally, any time soon.

Thus Indian pharma players are unlikely to be adversely impacted with the emergence of this new potential Goliath in the global pharmaceutical landscape.

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

A Potential Game Changer For Pharma R&D

The ghost of ‘Patent Cliff’ has been haunting the ‘Big Pharma’ since quite some time. This situation has been further aggravated by cost containment pressures of various Governments both in the developed and the emerging markets together with contentious issues on Intellectual Property Rights (IPR).

The ‘dream run’ that the innovator companies enjoyed in launching patented products so frequently and making many those blockbuster drugs of billions of dollars, is no longer a reality.

According to the findings of ‘Pharmaceutical R&D returns performance’ by Deloitte and Thomson Reuters of December 2012, the R&D Internal Rate of Return (IRR) of leading pharmaceutical companies had fallen to 7.2 percent in 2012 from 7.7 percent in 2011.

Many would, therefore, tend to believe that the paradigm is changing significantly. The new paradigm in the brand new millennium throws some obnoxious challenges, including some related to IPR, triggering a process of churning in the global pharma industry. Some astute CEOs of ‘Big Pharma’, having a deep introspection, are bracing for restructuring, not just in the business processes, but also in the process of organizational behavior, mindset, ethics and values. Unfortunately, there are many who seem to believe that this giant wheel of change can be put on the reverse gear again with might.

A new PPP initiative in pharma research:

This trying situation calls for collaborative initiatives to achieve both knowledge and cost synergies for a quantum leap in harnessing R&D output.

One such big laudable initiative has come to the fore recently in this arena. Having experienced something like the ‘law of diminishing return’ in pursuit of high resource intensive R&D projects aimed at critical disease areas such as Alzheimer’s, 10 big global pharma majors reportedly decided in February 2014 to team up with the National Institutes of Health (NIH) of the United States in a ‘game changing’ initiative to identify disease-related molecules and biological processes that could lead to future medicines.

This Public Private Partnership (PPP) for a five-year period has been named as “Accelerating Medicines Partnership (AMP)”. According to the report, this US federal government-backed initiative would hasten the discovery of new drugs in cost effective manner focusing first on Alzheimer’s disease, Type 2 diabetes, and two autoimmune disorders: rheumatoid arthritis and lupus. The group considered these four disease areas among the largest public-health threats, although the span of the project would gradually expand to other diseases depending on the initial outcome of this project.

Not the first of its kind:

AMP is not the first PPP initiative of its kind. The Biomarkers Consortium was also another initiative, not quite the same though, of a major public-private biomedical research partnership managed by the Foundation for the NIH with broad participation from a variety of stakeholders, including government, industry, academia, patient advocacy groups and other not-for-profit private sector organizations.

Open innovation strategy of GlaxoSmithKline (GSK) to discover innovative drugs for malaria is yet another example, where GSK collaborated with the European Bioinformatics Institute and U.S. National Library of Medicine to make details of the molecule available to the researchers free of cost with an initial investment of US$ 8 million to set up the research facility in Spain, involving around 60 scientists from across the world to work in this facility. 

Nearer home, ‘Open Source Drug Discovery (OSDD)’ project of the Council of Scientific and Industrial Research (CSIR) is a now a global platform to address the neglected tropical diseases like, tuberculosis, malaria, leishmaniasis by the best research brains of the world working together for a common cause.

Challenges in going solo:

In this context, it is worth mentioning that the CEO of Sanofi, Chris Viehbacher reportedly said in an interview on April 15, 2013 that his company “Won’t push hard to find an Alzheimer’s treatment because the science isn’t advanced enough to justify the costs to develop a drug. Therefore, Sanofi definitely won’t commit major resources seeking to discover an Alzheimer’s therapy.” He further stated, “I think we have to do a lot more basic science work to understand what’s going on. We really, at best, partially understand the cause of the disease. It’s hard to come up with meaningful targets.”

The above report also mentioned that the first Alzheimer’s drugs, should they prove successful, would lead to a market worth US$ 20 billion as estimated in 2012.

Long desired OSDD model:

The new AMP R&D model in the United States seems to have derived its impetus from the “open-source” wave that has swept the software industry. Keeping that spirit unchanged, in this particular ‘open source’ model too, the participants would share all scientific findings with the public and anyone would be able to use these results freely for their own research initiatives.

The collaborators of this PPP project are expected to gain a better understanding of how each disease type works, and thereafter could make use of that collaborative knowledge to discover appropriate new molecules for the target disease areas.

AMP is also expected to arrive at methods to measure a disease progression and its response to treatment much more precisely. This will enable the pharma participants getting more targets right and early, thereby reducing the high cost of failures. Just to cite an example, there have been reportedly 101 failures since 1998 in late-stage clinical trials by Pfizer, J&J and Elan Corp.

Commendable initiative in the uncharted frontier:

The ‘open source’ AMP initiative of ‘Big Pharma’ in the uncharted frontier is indeed very unusual, as the innovative drug companies are believed to be not just quite secretive about the science that they are engaged in, but also near obsessive in pursuing and clinging-on to the Intellectual Property Rights (IPR) through patents for each innovative steps related to potential new drugs.

It is worth noting that like any OSDD model, this PPP agreement also denies the participating players from using any discovery for their own drug research up until the project makes all data public on that discovery.

However, as soon as the project results will be made public, fierce competition is expected all around to develop money-spinning winning drugs.

Participating companies:

Ten pharma companies participating in AMP are reportedly, AbbVie, Biogen Idec, Bristol-Myers Squibb, GlaxoSmithKline, Johnson & Johnson, Eli Lilly, Merck & Co., Pfizer, Sanofi and Takeda. It is good to find within the participants some staunch business rivals. According to a report, a number of foundations, including the American Diabetes Association and the Alzheimer’s Association have also agreed to get involved in the project.

Some key non-participants:

For various different reasons some key pharma majors, such as, Amgen, Roche and AstraZeneca have decided not to participate in AMP.

AMP project and cost:

AMP reportedly has reportedly articulated its intent to: “Map molecular paths that each disease follows and to identify key points that could be targets for treatment. In Type 2 diabetes, for instance, researchers hope to catalog the genetic changes that raise or lower a person’s risk for developing the disease. It also will seek novel methods to measure each disease’s course while assessing if a potential drug is working. Being able to measure a disease’s progress in that way, could speed drug development by raising a company’s confidence that an experimental drug is working, or let it more quickly end a project if a drug isn’t working.”

The participating companies and the NIH have jointly agreed that the AMP would put together a research system on cost sharing basis by pooling the brightest minds who are experts on each disease, along with the best drug discovery laboratories, relevant data and samples from clinical trials to decipher the diseases in ways, which none of these pharma players has been able to achieve just yet on its own.

To achieve all these, the total cost has been estimated at roughly just US$ 230 million, as compared to US$135 billion that the global drug industry claims to spend in a year on R&D.

This should also be seen in context of a study of December 2012 carried out by the Office of Health Economics (OHE), UK with a grant from AstraZeneca, which estimated that the cost of developing new medicine has risen by ten times from US$100 million in the 1970s to as high as US$ 1.9 billion in 2011.

As a head honcho of a global pharma biggie had put it earlier, a large part of these R&D expenses are the costs of failure, as stated above.

Criticism:

As usual, criticism followed even for this path-breaking project. Critics have already started questioning the rationale of the choice of the above four disease areas, with an exception perhaps for Alzheimer’s and wondered whether the participating players are making use of the federal fund to push hard the envelope of their respective commercial intents.

Another new collaborative approach: 

In another recently announced collaborative initiative, though not of the same kind, where Merck & Co has reportedly entered three separate collaboration agreements to evaluate an immunotherapy cancer treatment that is part of a promising new class of experimental drugs that unleash the body’s immune system to target cancer cells.

Conclusion:

There could still be some hiccups in the process of effective implementation of the AMP project. Hope, all these, if any, will be amicably sorted out by the participants of stature for the benefits of all.

Be that as it may, ‘open source’ model of drug discovery, as believed by many, would be most appropriate in the current scenario to improve not only profit, but also to promote more innovative approaches in the drug discovery process.

On May 12, 2011, in an International Seminar held in New Delhi, the former President of India Dr. A.P.J. Abdul Kalam highlighted the need for the scientists, researchers and academics to get effectively engaged in ‘open source’ philosophy by pooling talent, patents, knowledge and resources for specific R&D initiatives from across the world for newer and innovative drugs.

According to available reports, one of the key advantages of the ‘open source’ model would be substantial reduction in the high cost of failures of R&D projects, which coupled with significant saving in time would immensely reduce ‘mind-to-market’ span of innovative drugs in various disease areas, making these medicines affordable to many more patients.

Thus, PPP initiatives in pharmaceutical R&D, such as AMP, are expected to have immense potential to create a win-win situation for all stakeholders, harvesting substantial benefits both for the pharmaceutical innovators and the patients, across the world.

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

 

 

 

 

Humongous Pharma Corruption: China Ups The Ante…and India?

In the ‘pharma bribery’ related scandal in China, many postulated that the Chinese Government has cracked down selectively on Multinational Corporations (MNCs) to extend unfair business advantages for its local players.

Media reports of September 2013 indicate that in all probability the intent of the Chinese Government is not to spare homegrown corruption in this area. The country appears to be taking tough measures against both global and local perpetrators of such criminal acts, which have spread their vicious tentacles deep into the booming Chinese pharmaceutical industry.

The report names the following domestic companies:

  • Sino Biopharmaceutical Ltd has set up a team to investigate allegations broadcast on the state television that its majority-owned subsidiary had paid for illegal overseas trips for doctors to Thailand and Taiwan.
  • Privately held Gan & Lee Pharmaceuticals investigating allegations of spending around US$ 130.75 million to bribe doctors to promote their pharmaceutical products over five years.

More MNCs under investigation:

At the same time, international media are reporting names of more and more big global pharma players allegedly involved in this humongous scam, as follows:

  • In July 2013, the British drug maker GlaxoSmithKline (GSK) was allegedly involved in around US$ 490 million deceptive travel and meeting expenses as well as trade in sexual favors. Chinese authorities detained four senior executives of GSK in China to further investigate into this matter.
  • In the same month Chinese police reportedly visited the Shanghai office of another British pharmaceutical major AstraZeneca for investigation related to this scam.
  • In August 2013, Sanofi of France reportedly said that it would cooperate with a review of its business in China after a whistle-blower’s allegations that the company paid about US$ 276,000 in bribes to 503 doctors in the country.
  • Again in August 2013, a former employee of the Swiss pharmaceutical major Novartis has reportedly claimed that her manager urged her to offer ‘kickback’ to doctors to increase use of the cancer drug Sandostatin LAR. She had about US$ 105,000 budget for payments to doctors who prescribed at least 5 doses, aiming for 50 doses in all. She filed the compensation claim of US $817,000 after resigning from the company.
  • In the same month, another whistleblower has reportedly made bribery allegations involving Eli Lilly of the United States and US$ 4.9 million in purported kickbacks to Chinese doctors.
  • In September 2013, media reports indicated that the Chinese authorities are investigating the German pharma major – Bayer over a “potential case of unfair competition”.
  • Another very recent report of September 17, 2013 states, Alcon Eye Care division of Novartis is investigating allegation of fabricated clinical trials to bribe doctors. The report says Alcon outsourced the trials to a third-party research company, which in turn compensated doctors with “research payments”. It is claimed by the whistleblower that Alcon used funds earmarked for “patient experience surveys” on lens implants to bribe doctors at more than 200 hospitals. One doctor received about US$ 7,300, for studying 150 patients. Alcon allegedly spent more than US$ 230,000, on such studies last year.

This list of pharmaceutical companies involved in alleged serious malpractices to boost their sales and profits in China is probably not exhaustive.

However, only time will unravel whether this juggernaut of scams will keep moving unabated despite all high voltage actions, bulldozing patients’ interest.

Crack down on food companies too:

Crack down of the Chinese Government on alleged malpractices has reportedly extended to milk products’ companies too.

Again in August 2013, Mead Johnson Nutrition and Danone were among six dairy companies ordered to pay a combined 669 million Yuan by the Chinese Government for price fixing of their products.

Global industry lobby has a different view point:

In an interview with the BBC, an expert from APCO Worldwide, considered as the giant of the lobbying industry said:

“China’s behavior was very worrisome for foreign companies. They don’t know what’s hitting them right now. The government is resorting to its traditional “toolbox” of coercive methods, including shaming and ordering people to confess that they’ve done wrong so that your penalties can be minimized. They’re just treating foreign companies the way they’ve treated their own for many years, and this is the way the Party does things.”

He continued, “What may be going on is they’re telling foreign companies and they’re telling private companies here: Behave yourself; remember we’re the Party, we’re in charge.”

This is seemingly an interesting way of pooh-poohing serious allegations of bribery and other malpractices by the pharmaceutical companies in China without even waiting for the results of the pending enquiry.

However, such comments coming from an industry lobbying organization or any Public Relations (PR) Agency is not uncommon. That’s their business.

Possible reasons for crack down:

Experts opine that China has a high drug price problem. This is vindicated by the fact that while most developed nations of the world spend not more than 10-12 percent of their healthcare budget on medicines, in China it exceeds 40 percent. This huge disparity is believed to have prompted Beijing’s crackdown on the industry, especially the MNCs that dominate the Chinese pharmaceutical industry with newer drugs. The powerful National Development and Reform Commission (NDRC) of China has already said that it is examining pricing by 60 local and international pharmaceutical companies.

Some other reports point out, low basic salary of the doctors at the 13,500 public hospitals in China, who are the key purchasers of drugs, is the root cause of corruption in the Chinese healthcare industry.

According to McKinsey with estimated healthcare spending of China nearly tripling to US$1 trillion by 2020 from $357 billion in 2011, the country is increasingly attracting pharma and medical equipment companies from all over the world in a very large number.

The fall out:

A recent media report indicates that Chines crackdown on the widespread pharma bribery scandal in the country is quite adversely affecting the sales of both global and local players, as many doctors in the Chinese hospitals are now refusing to see medical representatives for fear of being caught up in this large scam.

Drug expenditure is even more for healthcare in India:

Several studies indicate that Out Of Pocket Expenditure towards Healthcare in India is one of the highest in the world and ranges from 71 to 80%.

According to a 2012 study of IMS Consulting Group, drugs are the biggest expenditure in the total Out Of Pocket (OOP) spend on healthcare as follows:

Items Outpatient/ outside Hospital (%) Inpatient/ Hospitalization (%)
Medicines 63 43
Consultation/Surgery - 23
Diagnostics 17 16
Minor surgeries 01 -
Private Consultation 14 -
Room Charge - 14
Others 05 04

Despite these facts, India has remained virtually inactive in this critical area so far, unlike China, except some sporadic price control measures like, Drug Price Control Order (DPCO 2013) for essential drugs (NLEM 2011), which covers around 18% of the total pharmaceutical market in India.

Universal Healthcare (UHC): A possible answer?

Another interesting study titled, ‘The Cost of Universal Health Care in India: A Model Based Estimate’ concludes as follows:

The estimated cost of UHC delivery through the existing mix of public and private health institutions would be INR 1713 (USD 38) per person per annum in India. This cost would be 24% higher, if branded drugs are used. Extrapolation of these costs to entire country indicates that Indian government needs to spend 3.8% of the GDP for universalizing health care services, although in total (public+private) India spent around 4.2% of its GDP on healthcare (2010) at 11% CAGR from 2001 to 2010 period.

Moreover, important issues such as delivery strategy for ensuring quality, reducing inequities in access, and managing the growth of health care demand need be explored.

Thus, it appears, even UHC will be 24% more expensive after a public spend of staggering 3.8% of the GDP towards healthcare, if branded drugs are used, which attract huge avoidable marketing expenditures, as we have seen in the Chinese pharma industry scandal.

High marketing costs making drugs dearer?

A recent article, captioned “But Don’t Drug Companies Spend More on Marketing?” vindicates the point, though the drug companies spend substantial money on R&D, they spend even more on their marketing related activities, legally or otherwise.

Analyzing six global pharma and biotech majors, the author highlights that SG&A (Sales, General & Administrative) and R&D expenses vary quite a lot from company to company. However, in this particular analysis the range was as follows:

SG&A: 23% to 34%
R&D: 12.5% to 24%

SG&A expenses typically include advertising, promotion, marketing and executive salaries. The author says that most companies do not show the break up of the ‘S’ part separately.

In the pharmaceutical sector all over the world, the marketing practices have still remained a very contentious issue despite many attempts of self-regulation by the industry. Incessant media reports on alleged unethical business practices have not slowed down significantly, across the world, even after so many years of self-regulation. This is indeed a critical point to ponder.

Scope and relevance of ‘Corporate Ethical Business Conducts and Values’:

The scope of ‘ethical business conducts and value standards’ of a company should not just be limited to marketing. These should usually encompass the following areas, among many others:

  • The employees, suppliers, customers and other stakeholders
  • Caring for the society and environment
  • Fiduciary responsibilities
  • Business and marketing practices
  • R&D activities, including clinical trials
  • Corporate Governance
  • Corporate espionage

That said, codes of ethical conduct, corporate values and their compliance should not only get limited to the top management, but must get percolated downwards, looking beyond the legal and regulatory boundaries.

Statistics of compliance to codes of business ethics and corporate values are important to know, but perceptible qualitative changes in ethics and value standards of an organization should always be the most important goal to drive any business corporation and the pharmaceutical sector is no exception.

Foreign Corrupt Practices Act (FCPA): A deterrent?

To prevent bribery and corrupt practices, especially in a foreign land, in 1997, along with 33 other countries belonging to the ‘Organization for Economic Co-operation and Development (OECD)’, the United States Congress enacted a law against the bribery of foreign officials, which is known as ‘Foreign Corrupt Practices Act (FCPA)’.

This Act marked the early beginnings of ethical compliance program in the United States and disallows the US companies from paying, offering to pay or authorizing to pay money or anything of value either directly or through third parties or middlemen.

FCPA currently has some impact on the way American companies are required to run their business, especially in the foreign land.

However, looking at the ongoing Chinese story of pharma scams and many other reports of huge sums paid by the global pharmaceutical companies after being found guilty under such Acts in the Europe and USA, it appears, levy of mere fines is not good enough deterrent to stop such (mal)practices in today’s perspective.

China acts against pharma bribery, why not India? 

Like what happened in China, many reports, including from Parliamentary Standing Committee, on alleged pharma malpractices of very significant proportions, which in turn are making drugs dearer to patients, have been coming up in India regularly, since quite sometime.

Keeping these into consideration, abject inertia of the government in taking tough measures in this area is indeed baffling and an important area of concern.

Conclusion:

The need to formulate ‘Codes of Business Ethics & Values’ and more importantly their effective compliance, in letter and spirit, are of increasing relevance in the globalized business environment.

Unfortunately, as an irony, increasingly many companies across the world are reportedly being forced to pay heavy costs and consequences of ‘unethical behavior and business practices’ by the respective governments.

Intense quarterly pressure for expected business performance by stock markets and shareholders, could apparently be the trigger-points for short changing such codes and values.

There is, of course, no global consensus, as yet, on what is ethically and morally acceptable ‘Business Ethics and Values’ uniformly across the world. However, even if these are implemented in country-specific ways, the most challenging obstacle to overcome by the corporates would still remain ‘walking the talk’ and ‘owning responsibility’.

That said, to uphold patients’ interests, China is already giving the perpetrators of the ongoing humongous pharma scam a ‘run for life’, as it were, despite what the industry lobbyists have been laboriously working on for the world to believe. Today, common patients’ in India being in a much worse situation for similar sets of reasons, should the domestic regulators not now wake up from the ‘deep slumber’, up all antennas, effectively act by setting examples and bring the violators to justice?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

 

MNCs to Challenge MNC Patents in India: Boon for Patients?

Close on the heels of a reasonably successful patent challenge by the German pharma Multinational Corporation (MNC) Fresenius Kabi for the breast cancer drug Tykerb of GlaxoSmithKline (GSK) in India, another MNC Mylan, with its headquarter in the United states, has explicitly expressed its plan to challenge frivolous and weak patents of MNCs, in conformance to the Indian Patents Act, to provide less expensive generic drugs to patients.

This is indeed another interesting development, which could possibly culminate into robust, cleverly crafted and fiercely competitive business strategies of many other MNCs, revolving around patent challenges in India, for business excellence in the country.

Mylan develops new products in India:

Mylan is now reportedly working with the local Indian player Biocon to develop a strong new product pipeline, which would include a portfolio of biosimilar drugs. The advanced breast cancer drug Trastuzumab (Herceptin) of Roche is just one of many in the list. Mylan has also expressed its intent to market ‘Herceptin’ at a price, which will be affordable to many more cancer patients of India.

It is worth mentioning that some other domestic Indian companies like, Reliance Life Sciences and BDR Pharma are reportedly working on generic Trastuzumab (Herceptin), besides some South Korean bio-pharma players.

Mylan has also inked an agreement with Biocon to develop and market an insulin drug derived from the global major Sanofi’s expensive patented product Lantus.

All these developments apparently augur well for India.

Weak patent?…Recapitulating Herceptin saga in india:

Though Roche decided to discontinue its patent rights for Herceptin in India, it reportedly lost this patent earlier in Europe. This vindicates the views of experts that Herceptin patent was weak, as it would probably not be able to clear the litmus test of a stringent patent scrutiny. The report, therefore, argues that core reason for withdrawal of Herceptin patent in India by Roche cannot be attributed, even remotely, to the ‘weak IP ecosystem’ in India.

To extend the patent right for Herceptin, in early September 2013, Roche reportedly announced that the European Commission has approved a new formulation of its breast cancer drug Herceptin, which allows the medicine to be administered more quickly.

A tough market, yet difficult to ignore:

For global innovator pharma majors, India still remains a tough market to crack, despite strong overseas political pressures of various types, intense collective and individual lobbying efforts and deployment of expensive global ‘Public Relations’ firms working in full steam.

Their strong success factors of the yesteryears in this area, which worked so well across the world, are getting mostly negated by the ‘evolving patient friendly IP laws’ of the emerging economies.

Considering the vast business potential of the pharmaceutical market of 1.2 billion people in India, it is now envisaged by many, more like-minded MNCs will gradually jump into this fray with similar intent of patent challenges in conformance with the Indian Patents Act 2005.

If this scenario assumes a cascading effect on a broader canvas, ultimate beneficiary will be the ailing patients, having much greater access to more affordable newer drugs for many dreaded diseases, like cancer.

Other countries too tightening up the patent laws:

To provide less-expensive generic drugs to patients, other countries also have started following India to leash astronomical prices for new drugs, especially for life threatening and intensely debilitating ailments. China has reportedly strengthened its compulsory licensing provisions already for dealing with costly drugs, paving the way to force entry of generic drugs in the Chinese market well before patent expiry.

In 2012, Indian Patent Office, in a path breaking decision granted Compulsory License (CL) to a local company, Natco Pharma, to manufacture the patented kidney-cancer drug, Nexavar of Bayer reportedly at a cost of Rs. 8,800 (around US$ 176) for a month’s therapy of 120 capsule against Bayer’s price of Rs. 280,000 (around US$ 5,600) for the same.

This is the first-ever case of CL granted in India thus far to make life saving drugs affordable to patients.

On September 3, 2012, the Indonesian government took the unprecedented step of overriding the patents on seven HIV and hepatitis treatments, citing urgent need to improve patient access. These drugs were reportedly beyond the reach of most of the patients in Indonesia.

Thailand has also used this provision more than once, and countries like, Brazil has reportedly threatened quite often for invoking CL during price negotiations of such drugs with global pharma majors.

Winds of Change in South Africa:

Now South Africa has also exhibited its firm intent to have a tight leash on the grant of pharmaceutical patents of all types.

A recent report indicates that the Department of Trade and Industry (DTI) of the Government of South Africa is calling for comments on its proposed ‘National Policy on Intellectual Property’ by October 4, 2013, which if implemented, would significantly curb patent evergreening and expand production of generics.

The same report mentions that at present, South Africa does not examine patent applications. Instead, the system allows pharmaceutical companies to obtain multiple patents on the same drug, even for inventions, which do not fall under the country’s definition of innovation. This allows the pharma players to extend their respective patent lives, blocking competition and charging exorbitant prices.

The report also points out, while in 2008, South Africa granted 2,442 pharmaceutical patents, Brazil approved only 278 in the 5 years between 2003 and 2008.

Patents revoked in India:

Since November 2010 following 8 MNC patents have been revoked in India after respective patent challenges:

  • Combigan and Ganfort of Allergan (for specified eye conditions)
  • Tykerb of GSK (for breast cancer)
  • Sutent of Pfizer (for liver and kidney cancer)
  • Pegasys of Roche (for hepatitis C)
  • Iressa of AstraZeneca (Anti-cancer)
  • Anti-asthma FDC aerosol suspension of Merck & Co (Anti-asthma)
  • Dulera of Novartis (Anti-asthma)

China and Brazil revoked patents

In August 2013, just about a year after China introduced the country’s amended patent law, its State Intellectual Property Office (SIPO) has reportedly revoked the patent on HIV/AIDS and hepatitis B drug – Viread (tenofovir disoproxil fumarate) of Gilead Science Inc.

Aurisco, the largest manufacturer of Active Pharmaceutical Ingredients (APIs) in China, challenged this patent. The ground of patent revocation was that the drug lacked novelty and was not entitled to protection.

In 2008 Brazil also declared the patent of tenofovir invalid. It is worth mentioning that tenofovir of Gilead is the third-best-selling drug of the company, clocking sales of US$ 849 million in 2012.

Top 10 ‘jaw-dropping’ most expensive medicines of the world:

No. Name Disease Price US$ /Year
1. ACTH Infantile spasm 13,800,00
2. Elaprase Hunter Syndrome 657,000
3. Soliris Paroxysmal nocturnal hemoglobinuria 409,500
4. Nagalazyme Maroteaux-Lamy Syndrome 375,000
5. Folotyn T-Cell Lymphoma 360,000
6. Cinryze Hereditary Angioedema 350,000
7. Myozyme Pompe 300,000
8. Arcalyst Cold Auto-Inflammatory Syndrome 250,000
9. Ceredase / Cerezyme Gaucher Disease 200,000
10. Fabrazyme Fabry Disease 200,000

(Source: Medical Billing & Coding, February 6, 2012)

The good news is, protests against such ‘immoral and obscene pricing’ have started mounting, which are expected to have a snow-balling effect in the years ahead.

Mounting global protests:

Probably due to this reason, drugs used for the treatment of rare diseases are being reported as ‘hot properties for drug manufacturers’, all over the world.

The above report highlighted a changing and evolving scenario in this area.

In 2013, the Dutch Government had cut the prices of new enzyme-replacement therapies, which costs as high as US$ 909,000. Similarly, Ireland has reduced significantly the cost of a cystic fibrosis drug, and the U.K. rejected a recommendation to expand the use of a drug for blood disorders due to high costs.

Soon, the United States is also expected to join the initiative to reduce high prices of orphan drugs as both the government and private insurers increasingly come under the cost containment pressure.

Emerging markets – the Eldorado:

Competition within MNCs is expected to be even more fierce in the coming years as the developed markets continue to slow down, as follows, due to various reasons:

No. Country

USD Bn.

% Share

Val. Gr.

Global Pharma Market

961

100

5

USA

329

38

-1

Japan

112

13

0

China

82

10

24

Germany

42

5

-6

France

37

4

-8

Brazil

29

3

6

Italy

27

3

-8

13. India

14

1

11

Source: IMS Knowledge Link Global Sales 2012

This compelling scenario is prompting a change in the dynamics of competition within  MNCs in the emerging pharmaceutical markets. The intents of Fresenius Kabi and Mylan, as enunciated above, I reckon, are just very early signals of this challenge of change.

All these would probably help turning the tide in favor of a seemingly win-win solution to bring down the prices of patented medicines at an affordable level, improving their access to vast majority of patients in the world.

Scope for more patent challenges in India:

Quoting a study, a recent media report highlighted that only 3% of the patent applications filed in India since 2006 were challenged. The study concluded:

“This demonstrates that given the various resource constraints faced by the Indian patent office, one can never really be sure of the patent quality unless the patent is challenged.”

Therefore, this process is expected to gain momentum in the years ahead as more MNCs join the fray of patent challenges, though driven primarily by business interests, but nevertheless, would benefit the patients, in the long run.

Further, as indicated in my previous columns, study indicates that 86 pharmaceutical patents granted by the IPO post 2005 are not breakthrough inventions but only minor variations of existing pharmaceutical products and demanded re-examination of them.

Since, most of the above patents have not been challenged, as yet, the quality of these patents cannot be ascertained beyond any reasonable doubt, as we discuss today. If challenged, some experts envisage, these patents may not be able to stand the scrutiny of section 3(d) of the Indian Patents Act.

In that sense, if the pharma MNCs with deep pockets, challenge these patents, there stands a good chance of making generic equivalents of those products at affordable prices for the Indian patients.

However, considering different degree and elements of market entry barriers, it appears, most of the patent challenges in India by the MNCs would probably be for biologics, as compared to small molecule chemicals.

Flow of newer drugs in the Indian market is now irreversible:

Taking stock of the emerging scenario, it appears, India will continue to see newer drugs coming into the market at a lower price in the years ahead, come what may. This flow seems to be unstoppable due to the following reasons:

  • Stricter implementation of Section (3d) of the Patents Act in India will ensure that NCEs/NMEs not conforming to this act will not be granted patents. In that case, those products will be open to generic copying by all, in India. Thus, in the absence of a market monopoly situation and fuelled by intense price competition, the patients will have access to those newer drugs.
  • More patent challenges of already granted patents could lead to revocation of more number of patents paving the way for entry of their generic equivalents.
  • If any MNC decides not to launch a new product in India having obtained its patent from the IPO, after three years, as per the statute, the same product becomes a candidate for CL in the country.
  • If any patented new product is launched without ‘reasonably affordable price’, again as per statute, the possibility of applications for CL coming to the IPO from the local players will loom large.

Hence, considering all these points, it appears, if the new products do not conform to the Indian Patents Act and are not launched with responsible pricing, the possibility of their generic entry at much lower prices is almost inevitable.

Conclusion: 

Legal battle is expensive, even in India, and patent challenges are perhaps more expensive. All those new products, which are not patentable in India or may otherwise be challenged against other statutes of the Patents Act, will carry risks of getting caught in protracted litigations or generic competition.

MNCs with deep pockets coming forward with such intent, though may be based purely on their business interest in India, would ultimately offer spin-off benefits of affordable pricing, especially, to the patients suffering from life threatening and fast debilitating illnesses like, cancer.

That said, do all these developments unravel yet another way to improve access to newer medicines in India, signaling a boon for patients?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

 

R&D: Is Indian Pharma Moving Up the Value Chain?

It almost went unnoticed by many, when in the post product patent regime, Ranbaxy launched its first homegrown ‘New Drug’ of India, Synriam, on April 25, 2012, coinciding with the ‘World Malaria Day’. The drug is used in the treatment of plasmodium falciparum malaria affecting adult patients.  However, the company has also announced its plans to extend the benefits of Synriam to children in the malaria endemic zones of Asia and Africa.

The new drug is highly efficacious with a cure rate of over 95 percent offering advantages of “compliance and convenience” too. The full course of treatment is one tablet a day for three days costing less than US$ 2.0 to a patient.

Synriam was developed by Ranbaxy in collaboration with the Department of Science  and Technology of the Government of India. The project received support from the Indian Council of Medical Research (ICMR) and conforms to the recommendations of the World Health Organization (WHO). The R&D cost for this drug was reported to be around US$ 30 million. After its regulatory approval in India, Synriam is now being registered in many other countries of the world.

Close on the heels of the above launch, in June 2013 another pharmaceutical major of India, Zydus Cadilla announced that the company is ready for launch in India its first New Chemical Entity (NCE) for the treatment of diabetic dyslipidemia. The NCE called Lipaglyn has been discovered and developed in India and is getting ready for launch in the global markets too.

The key highlights of Lipaglyn are reportedly as follows:

  • The first Glitazar to be approved in the world.
  • The Drug Controller General of India (DCGI) has already approved the drug for launch in India.
  • Over 80% of all diabetic patients are estimated to be suffering from diabetic dyslipidemia. There are more than 350 million diabetics globally – so the people suffering from diabetic dyslipidemia could be around 300 million.

With 20 discovery research programs under various stages of clinical development, Zydus Cadilla reportedly invests over 7 percent of its turnover in R&D.  At the company’s state-of-the-art research facility, the Zydus Research Centre, over 400 research scientists are currently engaged in NCE research alone.

Prior to this in May 14, 2013, the Government of India’s Department of Biotechnology (DBT) and Indian vaccine company Bharat Biotech jointly announced positive results, having excellent safety and efficacy profile in Phase III clinical trials, of an indigenously developed rotavirus vaccine.

The vaccine name Rotavac is considered to be an important scientific breakthrough against rotavirus infections, the most severe and lethal cause of childhood diarrhea, responsible for approximately 100,000 deaths of small children in India each year.

Bharat Biotech has announced a price of US$ 1.00/dose for Rotavac. When approved by the Drug Controller General of India, Rotavac will be a more affordable alternative to the rotavirus vaccines currently available in the Indian market. 

It is indeed interesting to note, a number of local Indian companies have started investing in pharmaceutical R&D to move up the industry value chain and are making rapid strides in this direction.

Indian Pharma poised to move-up the value-chain:

Over the past decade or so, India has acquired capabilities and honed skills in several important areas of pharma R&D, like for example:

  • Cost effective process development
  • Custom synthesis
  • Physical and chemical characterization of molecules
  • Genomics
  • Bio-pharmaceutics
  • Toxicology studies
  • Execution of phase 2 and phase 3 studies

According to a paper titled, “The R&D Scenario in Indian Pharmaceutical Industry” published by Research and Information System for Developing Countries, over 50 NCEs/NMEs of the Indian Companies are currently at different stages of development, as follows:

Company Compounds Therapy Areas Status
Biocon 7 Oncology, Inflammation, Diabetes Pre-clinical, phase II, III
Wockhardt 2 Anti-infective Phase I, II
Piramal Healthcare 21 Oncology, Inflammation, Diabetes Lead selection, Pre-clinical, Phase I, II
Lupin 6 Migraine, TB, Psoriasis, Diabetes, Rheumatoid Arthritis Pre-clinical, Phase I, II, III
Torrent 1 Diabetic heart failure Phase I
Dr. Reddy’s Lab 6 Metabolic/Cardiovascular disorders, Psoriasis, migraine On going, Phase I, II
Glenmark 8 Metabolic/Cardiovascular /Respiratory/Inflammatory /Skin disorders, Anti-platelet, Adjunct to PCI/Acute Coronary Syndrome, Anti-diarrheal, Neuropathic Pain, Skin Disorders, Multiple Sclerosis, Ongoing, Pre-clinical, Phase I, II, III

R&D collaboration and partnership:

Some of these domestic companies are also entering into licensing agreements with the global players in the R&D space. Some examples are reportedly as follows:

  • Glenmark has inked licensing deals with Sanofi of France and Forest Laboratories of the United States to develop three of its own patented molecules.
  • Domestic drug major Biocon has signed an agreement with Bristol Myers Squibb (BMS) for new drug candidates.
  • Piramal Life Sciences too entered into two risk-reward sharing deals in 2007 with Merck and Eli Lilly, to enrich its research pipeline of drugs.
  • Jubilant Group partnered with Janssen Pharma of Belgium and AstraZeneca of the United Kingdom for pharma R&D in India, last year.

All these are just indicative collaborative R&D initiatives in the Indian pharmaceutical industry towards harnessing immense growth potential of this area for a win-win business outcome.

The critical mass:

An international study estimated that out of 10,000 molecules synthesized, only 20 reach the preclinical stage, 10 the clinical trials stage and ultimately only one gets regulatory approval for marketing. If one takes this estimate into consideration, the research pipeline of the Indian companies would require to have at least 20 molecules at the pre-clinical stage to be able to launch one innovative product in the market.

Though pharmaceutical R&D investments in India are increasing, still these are not good enough. The Annual Report for 2011-12 of the Department of Pharmaceuticals indicates that investments made by the domestic pharmaceutical companies in R&D registered an increase from 1.34 per cent of sales in 1995 to 4.5 percent in 2010. Similarly, the R&D expenditure for the MNCs in India has increased from 0.77 percent of their net sales in 1995 to 4.01 percent in 2010.

Thus, it is quite clear, both the domestic companies and the MNCs are not spending enough on R&D in India. As a result, at the individual company level, India is yet to garner the critical mass in this important area.

No major R&D investments in India by large MNCs:

According to a report, major foreign players with noteworthy commercial operations in India have spent either nothing or very small amount towards pharmaceutical R&D in the country. The report also mentions that Swiss multinational Novartis, which spent $ 9 billion on R&D in 2012 globally, does not do any R&D in India.

Analogue R&D strategy could throw greater challenges:

For adopting the analogue research strategy, by and large, the Indian pharma players appear to run the additional challenge of proving enhanced clinical efficacy over the known substance to pass the acid test of the Section 3(d) of the Patents Act of India.

Public sector R&D:

In addition to the private sector, research laboratories in the public sector under the Council for Scientific and Industrial Research (CSIR) like, Central Drug Research Institute (CDRI), Indian Institute of Chemical Technology (IICT) and National Chemical Laboratory (NCL) have also started contributing to the growth of the Indian pharmaceutical industry.

As McKinsey & company estimated, given adequate thrust, the R&D costs in India could be much lower, only 40 to 60 per cent of the costs incurred in the US. However, in reality R&D investments of the largest global pharma R&D spenders in India are still insignificant, although they have been expressing keenness for Foreign Direct Investments (FDI) mostly in the brownfield pharma sector.

Cost-arbitrage:

Based on available information, global pharma R&D spending is estimated to be over US$ 60 billion. Taking the cost arbitrage of India into account, the global R&D spend at Indian prices comes to around US$ 24 billion. To achieve even 5 percent of this total expenditure, India should have invested by now around US$ 1.2 billion on the pharmaceutical R&D alone. Unfortunately that has not been achieved just yet, as discussed above.

Areas of cost-arbitrage:

A survey done by the Boston Consulting Group (BCG) in 2011 with the senior executives from the American and European pharmaceutical companies, highlights the following areas of perceived R&D cost arbitrage in India:

Areas % Respondents
Low overall cost 73
Access to patient pool 70
Data management/Informatics 55
Infrastructure set up 52
Talent 48
Capabilities in new TA 15

That said, India should realize that the current cost arbitrage of the country is not sustainable on a longer-term basis. Thus, to ‘make hay while the sun shines’ and harness its competitive edge in this part of the world, the country should take proactive steps to attract both domestic as well as Foreign Direct Investments (FDI) in R&D with appropriate policy measures and fiscal incentives.

Simultaneously, aggressive capacity building initiatives in the R&D space, regulatory reforms based on the longer term need of the country and intensive scientific education and training would play critical role to establish India as an attractive global hub in this part of the world to discover and develop newer medicines for all.

Funding:

Accessing the world markets is the greatest opportunity in the entire process of globalization and the funds available abroad could play an important role to boost R&D in India. Inadequacy of funds in the Indian pharmaceutical R&D space is now one of the greatest concerns for the country.

The various ways of funding R&D could be considered as follows:

  • Self-financing Research: This is based on:
  1. “CSIR Model”: Recover research costs through commercialization/ collaboration with industries to fund research projects.
  2. “Dr Reddy’s Lab / Glenmark Model”: Recover research costs by selling lead compounds without taking through to development.
  • Overseas Funding:  By way of joint R&D ventures with overseas collaborators, seeking grants from overseas health foundations, earnings from contract research as also from clinical development and transfer of aborted leads and collaborative projects on ‘Orphan Drugs’.
  • Venture Capital & Equity Market:  This could be both via ‘Private Venture Capital Funds’ and ‘Special Government Institutions’.  If regulations permit, foreign venture funds may also wish to participate in such initiatives. Venture Capital and Equity Financing could emerge as important sources of finance once track record is demonstrated and ‘early wins’ are recorded.
  • Fiscal & Non-Fiscal Support: Should also be valuable in early stages of R&D, for which a variety of schemes are possible as follows:
  1. Customs Duty Concessions: For Imports of specialized equipment, e.g. high throughput screening equipment, equipment for combinatorial chemistry, special analytical tools, specialized pilot plants, etc.
  2. Income tax concessions (weighted tax deductibility): For both in-house and sponsored research programs.
  3. Soft loans: For financing approved R&D projects from the Government financial institutions / banks.
  4. Tax holidays: Deferrals, loans on earnings from R&D.
  5. Government funding: Government grants though available, tend to be small and typically targeted to government institutions or research bodies. There is very little government support for private sector R&D as on date.

All these schemes need to be simple and hassle free and the eligibility criteria must be stringent to prevent any possible misuse.

Patent infrastructure:

Overall Indian patent infrastructure needs to be strengthened, among others, in the following areas:

  • Enhancement of patent literacy both in legal and scientific communities, who must be taught how to read, write and file a probe.
  • Making available appropriate ‘Search Engines’ to Indian scientists to facilitate worldwide patent searches.
  • Creating world class Indian Patent Offices (IPOs) where the examination skills and resources will need considerable enhancement.
  • ‘Advisory Services’ on patents to Indian scientists to help filing patents in other countries could play an important role.

Creating R&D ecosystem:

  • Knowledge and learning need to be upgraded through the universities and specialist centers of learning within India.
  • Science and Technological achievements should be recognized and rewarded through financial grants and future funding should be linked to scientific achievements.
  • Indian scientists working abroad are now inclined to return to India or network with laboratories in India. This trend should be effectively leveraged.

Universities to play a critical role:

Most of Indian raw scientific talents go abroad to pursue higher studies.  International Schools of Science like Stanford or Rutgers should be encouraged to set up schools in India, just like Kellogg’s and Wharton who have set up Business Schools. It has, however, been reported that the Government of India is actively looking into this matter.

‘Open Innovation’ Model:

As the name suggest, ‘Open Innovation’ or the ‘Open Source Drug Discovery (OSDD)’ is an open source code model of discovering a New Chemical Entity (NCE) or a New Molecular Entity (NME). In this model all data generated related to the discovery research will be available in the open for collaborative inputs. In ‘Open Innovation’, the key component is the supportive pathway of its information network, which is driven by three key parameters of open development, open access and open source.

Council of Scientific and Industrial Research (CSIR) of India has adopted OSDD to discover more effective anti-tubercular medicines.

Insignificant R&D investment in Asia-Pacific Region:

Available data indicate that 85 percent of the medicines produced by the global pharmaceutical industry originate from North America, Europe, Japan and some from Latin America and the developed nations hold 97 percent of the total pharmaceutical patents worldwide.

MedTRACK reveals that just 15 percent of all new drug development is taking place in Asia-Pacific region, including China, despite the largest global growth potential of the region.

This situation is not expected to change significantly in the near future for obvious reasons. The head start that the western world and Japan enjoy in this space of the global pharmaceutical industry would continue to benefit those countries for some more time.

Some points to ponder:

  • It is essential to have balanced laws and policies, offering equitable advantage for innovation to all stakeholders, including patients.
  • Trade policy is another important ingredient, any imbalance of which can either reinforce or retard R&D efforts.
  • Empirical evidence across the globe has demonstrated that a well-balanced patent regime would encourage the inflow of technology, stimulate R&D, benefit both the national and the global pharmaceutical sectors and most importantly improve the healthcare system, in the long run.
  • The Government, academia, scientific fraternity and the pharmaceutical Industry need to get engaged in various relevant Public Private Partnership (PPP) arrangements for R&D to ensure wider access to newer and better medicines in the country, providing much needed stimulus to the public health interest of the nation.

Conclusion:

R&D initiatives, though very important for most of the industries, are the lifeblood for the pharmaceutical sector, across the globe, to meet the unmet needs of the patients. Thus, quite rightly, the pharmaceutical Industry is considered to be the ‘lifeline’ for any nation in the battle against diseases of all types.

While the common man expects newer and better medicines at affordable prices, the pharmaceutical industry has to battle with burgeoning R&D costs, high risks and increasingly long period of time to take a drug from the ‘mind to market’, mainly due to stringent regulatory requirements. There is an urgent need to strike a right balance between the two.

In this context, it is indeed a proud moment for India, when with the launch of its home grown new products, Synriam of Ranbaxy and Lipaglyn of Zydus Cadilla or Rotavac Vaccine of Bharat Biotech translate a common man’s dream of affordable new medicines into reality and set examples for others to emulate.

Thus, just within seven years from the beginning of the new product patent regime in India, stories like Synriam, Lipaglyn, Rotavac or the R&D pipeline of over 50 NCEs/NMEs prompt resurfacing the key unavoidable query yet again:

Has Indian pharma started catching-up with the process of new drug discovery, after decades of hibernation, to move up the industry ‘Value Chain’?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

Vaccines Development: Is it Just a Business Based on Fear?

‘Vaccination – A Business based on fear’, is the title of a book written by Dr. Gerhard Buchwald M.D, a German medical doctor and a vaccination critic. This book talks about:

“The damage and the deaths caused by vaccination are written off as ‘pure coincidence’, as something which would have occurred anyway, even without vaccination. Often damage is trivialized by claiming that vaccine damage occurs only very, very rarely, or the damage is covered up by naming as the cause, the most unlikely syndromes which can only be found in special literature.”

However, his critics and pro-vaccination experts do opine that this book “is a pathetic presentation of vaccination, from a self-proclaimed anti-vaccination lobbyist. It is full of half-truths, blatant lies and misrepresented statistics”.

Vaccination – one of the most important development in medicines: 

Quite in contrary to what Dr. Gerhard Buchwald wrote, vaccination was voted as one of the four most important developments in medicine of the past 150 years, alongside sanitation, antibiotics and anesthesia by readers of the ‘British Medical Journal’ in 2007. No wonder, Vaccines are one of the most successful and cost-effective public health interventions, which help preventing over 3 million deaths every year throughout the world topping the list in terms of lives saved.

Vaccines that are being developed and marketed today, though provide high level of protection against increasing number of diseases with reduction of associated morbidity and mortality, there is still a crying need for greater encouragement, more resource deployment and sharper focus towards newer vaccines development for many more dreaded and difficult diseases.

In tandem, concerted efforts need to be made by both the industry and the government to improve affordable access to all these vaccines for a larger section of the population, especially in the developing world.

Rejuvenating trend:

However, from the business perspective, the vaccine market, though initially considered to be a low-profit initiative, now has started being under rejuvenated focus keeping pace with improved understanding of the human immune system. The future scope of vaccines is immense, as the management of several potentially preventable diseases remains still unaddressed.

Consequently, the focus of the global vaccine industry is getting expanded from prophylactic vaccination for communicable disease (e.g. DTP vaccine) to therapeutic vaccines (e.g. Anti-cancer vaccines) and then possibly non-communicable disease vaccines (e.g. vaccines for coronary artery disease).

Shifting focus on vaccines types:

As per the ‘National Institute of Health (NIH)’ of USA, following are some types of vaccines that researchers usually work on:

  • Live, attenuated vaccines
  • Inactivated vaccines
  • Subunit vaccines
  • Toxoid vaccines
  • Conjugate vaccines
  • DNA vaccines
  • Recombinant vector vaccines

Among all these segments, sub-unit vaccine is the largest revenue generator, though synthetic vaccines, recombinant vector vaccines, and DNA vaccines are emerging as the fastest-growing segments.

The first vaccine of the world:

In 1796, Edward Anthony Jenner not only discovered the process of vaccination, alongside developed the first vaccine of the world for mankind – smallpox vaccine. To develop this vaccine Jenner acted upon the observation that milkmaids who caught the cowpox virus did not catch smallpox.

As per published data prior to his discovery the mortality rate for smallpox was as high as up to 35%. Thus, Jenner is very often referred to as the “Father of Immunology”, whose pioneering work has “saved more lives than the work of any other person.”

Later on in 1901 Emil Von Behring received the first Nobel Prize (ever) for discovering Diphtheria serum therapy.

R&D costs for vaccines:

According to a paper published by the US National Library of Medicine and National Institute of Health (NIH):

“A vaccine candidate entering pre-clinical development in 2011 would be expected to achieve licensure in 2022; all costs are reported in 2022 Canadian dollars (CAD). After applying a 9% cost of capital, the capitalized total R&D expenditure amounts to $ 474.88 million CAD.”

Issues and challenges:

To produce a safe and effective marketable vaccine, besides R&D costs, it takes reportedly around 12 to 15 years of painstaking research and development process.

Moreover, one will need to realize that the actual cost of vaccines will always go much beyond their R&D expenses. This is mainly because of dedicated and highly specialized manufacturing facilities required for mass-scale production of vaccines and then for the distribution of the same mostly using cold-chains.

Around 60% of the production costs for vaccines are fixed in nature (National Health Policy Forum. 25. January 2006:14). Thus such products will need to have a decent market size to be profitable.

Unlike many other medications for chronic ailments, which need to be taken for a long duration, vaccines are administered for a limited number of times, restricting their business potential.

Thus, the long lead time required for the ‘mind to market’ process for vaccine development together with high cost involved in their clinical trials/marketing approval process, special bulk/institutional purchase price and limited demand through retail outlets, restrict the research and development initiatives for vaccines, unlike many other pharmaceutical products.

Besides, even the newer vaccines will mostly be required for the diseases of the poor, like Malaria, Tuberculosis, HIV and ‘Non Communicable Diseases (NCDs)’ in the developing countries, which may not necessarily guarantee a decent return on investments for vaccines, unlike many other newer drugs. As a result, the key issue for developing a right type of newer vaccine will continue to be a matter of pure economics.

A great initiative called GAVI: 

Around 23 million children of the developing countries are still denied of important and life-saving vaccines, which otherwise come rather easily to the children of the developed nations of the world.

To resolve this inequity, in January 2000, the Global Alliance for Vaccines and Immunization (GAVI) was formed. This initiative was mainly aimed at generating sufficient fund to ensure availability of vaccines for children living in the 70 poorest countries of the world.

The GAVI Alliance has been instrumental in improving access to six common infant vaccines, including those for hepatitis B and yellow fever. GAVI is also working to introduce pneumococcal, rotavirus, human papilloma virus, meningococcal, rubella and typhoid vaccines in not too distant future.

In August 2013, GAVI has reportedly launched a campaign in Kenya to fight the world’s leading killer of children under five with a new Pneumococcal Vaccine for prevention from pneumonia, meningitis and sepsis, which kill more than half a million people a year.

GAVI hopes to avert 700,000 deaths by 2015 through the immunization of 90 million children with pneumococcal vaccines.

Global pharma majors Pfizer and GlaxoSmithKline (GSK) are producing the vaccines as a part of a deal part-funded by Britain, Italy, Canada, Russia, Norway and the Bill Melinda Gates Foundation.

Current trend in newer vaccine development:

Malaria Vaccine:

According to the National Institute of Health (NIH) of the United States, the results of an early-stage clinical trial published in August 8, 2013 in the ‘Journal Science’ for an investigational malaria vaccine has been found to be safe to generate an immune system response and to offer protection against malaria infection in healthy adults.

The scientists at Sanaria Inc., of Rockville, Md. Research Center developed this vaccine known as PfSPZ. The researchers reportedly found that injecting patients with live-but-weakened malaria causing parasites appeared to create a protective effect.

Earlier, Reuters on December 20, 2011 reported that the British scientists have developed an experimental malaria vaccine, which has the potential to neutralize all strains of the most deadly species of malaria parasite.

In October 2011, the data published for a large clinical trial conducted in Africa by GlaxoSmithKline on their experimental malaria vaccine revealed that the risk of children getting malaria had halved with this vaccine. Reuters also reported that other teams of researchers around the world are now working on different approaches to develop a malaria vaccine.

Tuberculosis vaccines:

The Lancet reported in March 2013, as BCG vaccination provides incomplete protection against tuberculosis in infants, a new vaccine, modified Vaccinia Ankara virus expressing antigen 85A (MVA85A), has been designed to enhance the protective efficacy of BCG. MVA85A was found well-tolerated and induced modest cell-mediated immune responses. However, the reasons for the absence of MVA85A efficacy against tuberculosis or M tuberculosis infection in infants would need exploration.

Universal Cancer vaccines:

In a breakthrough development, the Israeli company Vaxil BioTherapeutics has reportedly formulated a therapeutic cancer vaccine, now in clinical trials at Hadassah University Medical Center in Jerusalem.

If everything falls in place, the vaccine could be available about six years down the road, to administer on a regular basis not only to help treating cancer but also to keep the disease from recurring.

Though the vaccine is being tested against a type of blood cancer called multiple myeloma, if it works as the initial results indicate, its platform technology VaxHit could be applied to 90 percent of all known cancers, including prostate and breast cancer, solid and non-solid tumors.

HIV Vaccine:

A recent effort to find a vaccine for HIV is reportedly beginning in 2013 at laboratories in a London hospital and two centers in Africa. The work will be split equally between London, the Rwandan capital Kigali and Nairobi in Kenya.

It has been reported that scientists are recruiting 64 healthy adult volunteers for the trial, which is expected to take up to two years.

Vaccines requirements of the developing world: 

Developing countries of the world are now demanding more of those vaccines, which no longer feature in the immunization schedules of the developed nations. Thus to supply these vaccines at low cost will be a challenge, especially for the global vaccine manufacturers, unless the low margins get well compensated by high institutional demand.

India needs a vibrant vaccine business sector:

For greater focus on all important disease prevention initiatives, there is a need to build a vibrant vaccine business sector in India. To achieve this objective the government should create an enabling ecosystem for the vaccine manufacturers and the academics to work in unison. At the same time, the state funded vaccine R&D centers should be encouraged to concentrate more on the relevant vaccine development projects ensuring a decent return on their investments, for longer-term economic sustainability.

More often than not, these stakeholders find it difficult to deploy sufficient fund to take their vaccines projects successfully through various stages of clinical development in order to obtain marketing approval from the drug regulator, while registering a decent return on investments. This critical issue needs to be appropriately and urgently addressed by the Government to make the disease prevention initiatives in the country sustainable.

Changing market dynamics: 

Even in a couple of decades back, ‘Vaccines Market’ in India did not use to be considered as a focus area by many pharmaceutical companies. Commoditization of this market with low profit margin and unpredictable interest of the government/the doctors towards immunization were the main reasons. Large global players like Glaxo exited the vaccine market at that time by withdrawing products like, Tetanus Toxoid, Triple Antigen and other vaccines from the market.

Currently, the above scenario is fast changing. The vaccine market, as stated above, is getting rejuvenated not only with the National Immunization Program (NIP) of the country, but also with the emergence of newer domestic vaccines players and introduction of novel vaccines by the global players, which we shall discuss below.

In addition, the ‘Indian Academy of Pediatrics (IAP) Committee on Immunization’ now recommends the ‘best individual practices schedule’ for the children in consultation with their respective parents. Such schedule may not conform to NIP and include newer vaccines, broadening the scope of use of vaccines in general.

Global Market:

According to GBI Research Report, overall global vaccines market was valued at US$ 28 billion in 2010 and is expected to reach US$ 56.7 billion by 2017 with a CAGR of 11.5%. The key growth driver of this segment will be introduction of newer vaccines, which are currently either in the regulatory filing stage or in the late stages of clinical development.

The important international players in the vaccines market are GlaxoSmithKline, Sanofi, Pfizer, Novartis AG, Merck and SP-MSD. Together they represent around 88% of the total vaccine segment globally, the report highlights.

Indian Market:

McKinsey in its report titled, “India Pharma 2020: Propelling access and acceptance, realizing true potential“ stated that at 2% penetration, the vaccines market of India is significantly under-penetrated with an estimated turnover of around US$ 250 million, where the private segment accounts for two-thirds of the total. McKinsey expects the market to grow to US$ 1.7 billion by 2020.

India is one of largest markets for all types of vaccines in the world. The new generation and combination vaccines, like DPT with Hepatitis B, Hepatitis A and Injectable polio vaccine, are driving the growth. The demand for veterinary vaccines is also showing ascending trend. Pediatric vaccines contribute to around 60% of the total vaccines market in India.

Domestic Indian players like, Serum Institute, Shantha Biotecnics, Bharat Biotech and Panacea Biotech are poised to take greater strides in this direction. Bharat Biotech is incidentally the largest Hepatitis B vaccine producer in the world. Likewise, Serum Institute is reportedly one of the largest suppliers of vaccines to over 130 countries and claim that ’1 out of every 2 children immunized worldwide gets at least one vaccine produced by Serum Institute.’

The first new vaccine developed in India:

Indian scientists from Bharat Biotech Ltd in Hyderabad have reportedly developed a new oral vaccine against the Rotavirus induced diarrhea, where both vomiting and loose motion can severely dehydrate children very quickly. This is the first new vaccine developed in India, establishing itself as the first developing country to achieve this unique distinction.

Two recent vaccine JV and Partnership agreements in India:

British drug major GlaxoSmithKline (GSK) has reportedly agreed to form a 50-50 venture with the domestic Indian vaccine manufacturer Biological E Limited in January 2013 to develop a product that would combine GSK’s injectable polio shot with a vaccine produced by Biological E to protect against five diseases including diphtheria and tetanus.

In addition, MSD pharma of the United States and Indian drug major Lupin have announced a partnership agreement to market, promote and distribute, MSD’s 23-valent Pneumococcal Polysaccharide Vaccines under a different brand name in India for prevention of Pneumococcal disease, pneumonia being its most common form affecting adults.

A possible threat: 

As per reports most Indian vaccines manufacturers get a major chunk of their sales revenue from exports to UN agencies, charitable organizations like, the Bill & Melinda Gates Foundation and GAVI, and other country-specific immunization programs.

The report predicts, the virtual monopoly that Indian vaccines manufacturers have enjoyed in these areas, will now be challenged by China, as for the first time, in 2012, the Chinese national regulatory authority received World Health Organization’s (WHO) ‘pre-qualification’ certification that allows it to approve locally manufactured vaccines to compete for UN tenders. 

Action areas to drive growth:

McKinsey in its above report ‘India Pharma 2020’ indicated that the action in the following 4 areas by the vaccine players would drive the vaccine market growth in India:

  • Companies need to go for local production of vaccines or leverage supply partnerships. MSD and GlaxoSmithKline’s local partnership in India and for the HiB vaccine with Bio-manguinhos in Brazil may be cited as examples.
  • Companies will need to conduct studies on the economic impact of vaccination and establish vaccine safety and performance standards.
  • Extension of vaccine coverage beyond pediatricians and inclusion of general practitioners, consulting physicians and gynecologists will be essential.
  • Companies will need to enhance supply chain reliability and reduce costs.

Conclusion: 

On January 7, 2012, while requesting the ‘Overseas Indian Medical Professionals’ to partner with the institutions in India, the Health Minister, in his address, announced that the Ministry of Health has already introduced the second dose of measles vaccine and Hepatitis-B vaccination across the country. Moreover, from December 2011 a ‘Pentavalent Vaccine’ has been introduced, initially in 2 States, covering 1.5 million children of India.

All these augur quite well for the country. However, keeping in view of the humongous disease burden of India, immunization program with various types of vaccines should receive active encouragement from the government as disease prevention initiatives, keeping the future generation in mind.

If vaccine related pragmatic policy measures, with equal focus on their effective implementation, are initiated in the country, without delay, the domestic vaccine market, in turn, will receive much awaited further growth momentum. Such initiatives together with newer foreign players and modern imported vaccines coming in, would help the country addressing effectively a prime healthcare concern of the country in a holistic way.

It is about time to aggressively garner adequate resources to develop more modern vaccines in the country, promote and implement vaccine awareness campaigns in the nation’s endeavor for disease prevention before they strike hard and at times fatally.

That said, taking available real world facts into account, doesn’t Dr. Gerhard Buchwald’s and today’s anti-vaccination lobbyists’ postulation, ‘Vaccination – A Business based on fear’, appear to be emanating from a self created world of doom and gloom, defying public health interest for effective disease prevention?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

 

India, China Revoke Four Pharma Patents in A Fortnight: A Double Whammy for MNCs?

Revocation of four pharma patents by India and China within a fortnight has raised many eyebrows, yet again, across the globe. In this short period, India has revoked three patents and China one.

While this quick development is probably a double whammy for the Multinational Corporations (MNCs) operating in both the countries, a future trend could possibly emerge by analyzing and connecting the evolving dots.

On August 8, 2013, a judicial body, the Intellectual Property Apellate Board (IPAB) of India reportedly revoked two patents of Allergan Inc on Combigan and Ganfort, both are Fixed Dose Combination (FDC) drugs of known molecules, used in the treatment of specified eye conditions. Local pharmaceutical player Ajantha Pharma had challenged these patents granted earlier to Allergan Inc. by the Indian Patent Office (IPO), alleging that the patents were obtained on false representation, the compositions were obvious ones, mere admixture of two pharmaceutical substances and not inventions.

IPAB in its order, while revoking the patent, has also said:

  • “The revocation of the patent was sought on various grounds that the patent was obtained on a false suggestion or representation, that it is not an invention, that it is obvious and does not sufficiently disclose and that the Section 8 of the Patents Act, 1970 was violated.”
  • The “respondents (Allergan Inc) have incorrectly deciphered enhancement in therapeutic efficacy as reduction in interocular pressure comparable to serial application.”
  • “The respondent has not shown that it had complied with the Section 8 of Patents Act, 1970.”

Though Allergan claimed to have achieved enhanced efficacy with reduced side effects for these FDCs, the IPAB did not find the claims justifiable. Interestingly, Ajantha’s product reportedly is much less expensive too. As compared to Allergan’s Ganfort drops (3 ml) costing about Rs 580, Ajanta’s equivalent formulation costs just Rs 131.

The other pharma patent revocation of the fortnight:

On July 27, 2013, IPAB revoked yet another patent granted earlier to GlaxoSmithKline (GSK)’s Lapatinib ditosylate salt of its breast cancer drug Tykerb, while upholding the patent on the original API, Lapatinib. IPAB in its order has stated that the ditosylate salt version of Lapatinib is not patentable as per patentability criteria of the Indian Patents Act.

Experts believe, with these decisions, the Indian legal system has clearly demonstrated that despite intense anger, pressure and protests mainly from the United States and Europe, to dilute public health interest related safeguards enshrined in the current Indian patent regime, the rule of law still prevails in the country for IP disputes.

Tykerb decision of IPAB follows the landmark judgment of the Supreme Court of India clarifying patentability criteria for incremental innovations.

An interesting precedent set:

In case of Tykerb of GSK, unlike other occasions, for the first time one MNC has challenged the patent of another MNC in India, instead of domestic companies doing so. The German drug manufacturer, Fresenius Kabi, instead of criticizing Indian IP law like other MNCs, had challenged the British drug maker GSK’s patent on the patentability criteria as provided in the Indian Patent Law and obtained a favorable decision from the IPAB against one of their two patent challenges on Tykerb.

A different case, yet worth mentioning:

Earlier, in late 2012, Delhi High Court while recognizing the validity of Roche’s patent for Tarceva (erlotinib), ordered that Cipla’s generic equivalent of erlotinib has different molecular structures. Hence, Cipla has not infringed Roche’s patent.

The generic version of Cipla’s erlotinib is reportedly available at a price of Rs 1,600 against Roche’s price of Rs 4,800 for Tarceva. Though this is not a patent revocation, but an interesting case nevertheless.

Other patent revocations:

Besides the only Compulsory License (CL) issued, so far, by the IPO for Bayer’s Nexavar to Natco (Cost of a pack of 120 tablets of Natco generic is Rs.8,800 against Nexavar’s Rs. 280,000), such patent challenges are now taking place in India quite close on the heels of one another as follows:

Sutent (Pfizer): 

In this case, the patent for liver and kidney cancer drug of Pfizer – Sutent (Sunitinib), granted earlier by the IPO in 2007, was revoked by the IPAB in October 2012, after a post grant challenge by Cipla and Natco Pharma on the ground that the claimed ‘invention’ does not involve inventive steps.

However, on November 26, 2012 in a new twist to this case, the Supreme Court of India reportedly restored the patent for Sutent. Interestingly, at the same time the court removed the restraining order, which prevented Cipla from launching a copycat generic equivalent of Sunitinib.

The cost of 45 day’s treatment with Cipla generic is Rs. 50,000 against Rs. 196,000 of Sutent. (Source ET, April 7, 2013)

Pegasys (Roche):

Again, on November 2, 2012 the IPAB revoked the patent of Pegasys (Peginterferon alfa-2a) – the hepatitis C drug of the global pharmaceutical giant Roche. It is worth mentioning, Pegasys enjoys patent protection across the world.

Though Roche was granted a patent for Pegasys by IPO in 2006, this was subsequently contested by a post-grant challenge by the Indian pharma major – Wockhardt and the NGO Sankalp Rehabilitation Trust (SRT) on the ground that Pegasys is neither a ‘novel’ product nor did it demonstrate ‘inventiveness’ as required by the Patents Act of India.

It is worth noting, although the IPO had rejected the patent challenges by Wockhardt and SRT in 2009, the judicial body IPAB reversed IPO’s decision revoking the patent of Pegasys, costing Rs. 360,000 for a six month course of treatment for a patient.

Iressa (AstraZeneca):

On November 26, 2012, IPAB reportedly denied patent protection for AstraZeneca’s anti-cancer drug Iressa (Gefitinib) on the ground that the molecule lacked invention.

The report also states that AstraZeneca suffered its first setback on Gefitinib in June 2006, when the Indian generic company Natco Pharma opposed the initial patent application filed by the global major in a pre-grant opposition. Later on, another local company, GM Pharma, joined Natco in November 2006.

After accepting the pre-grant opposition by the two Indian companies, IPO in March 2007 rejected the patent application for Iressa Gefitinib citing ‘known prior use’ of the drug. AstraZeneca contested the order through a review petition, which was dismissed in May 2011.

Anti-asthma FDC aerosol suspension (Merck & Co):

Similar to Allergan case, on December 11, 2012 Indian Patent Office (IPO) reportedly revoked a patent granted to an anti-asthma FDC drug of Merck & Co on the ground of lack of invention, after the domestic pharma major Cipla Ltd challenged an earlier granted patent of this FDC drug.

This aerosol suspension combines three molecules: mometasone furoate, formoterol and heptaflouropropane.

A similar asthma treatment, Dulera, reportedly lost its Indian patent held by Novartis AG in 2010.

Patentability for ‘Incremental Innovations’ in India:

Patentability criteria for any ‘incremental innovation’ has been defined in the Section 3(d) of the Indian statute as follows:

“The mere discovery of a new form of a known substance which does not result in the enhancement of the known efficacy of that substance or the mere discovery of any new property or new use for a known substance or of the mere use of a known process, machine or apparatus unless such known process results in a new product or employs at least one new reactant.”

“Explanation: For the purposes of this clause, salts, esters, ethers, polymorphs, metabolites, pure form, particle size isomers, mixtures of isomers, complexes, combinations and other derivatives of known substance shall be considered to be the same substance, unless they differ significantly in properties with regard to efficacy.”

Indian Patents Act prevails: 

As is well known, way back in 2006, IPO refused to grant patent to the cancer drug Glivec of Novartis on the ground that the molecule is a mere modification of an existing substance known as Imatinib.

In that case, on April 1, 2013 the Supreme Court of India upheld the validity of Section 3(d), where the rules of the game for patentability of incremental pharmaceutical innovations, as captured in the Indian Patents Act 2005, were cast in stone.

Court did not disallow all incremental innovations:

Point 191 in page number 95 of the Glivec judgment very clearly states as follows:

“191. We have held that the subject product, the beta crystalline form of Imatinib Mesylate, does not qualify the test of Section 3(d) of the Act but that is not to say that Section 3(d) bars patent protection for all incremental inventions of chemical and pharmaceutical substances. It will be a grave mistake to read this judgment to mean that section 3(d) was amended with the intent to undo the fundamental change brought in the patent regime by deletion of section 5 from the Parent Act. That is not said in this judgment.”

Thus, it should not be highlighted unfairly by concerned constituents that all ‘incremental innovations’ are not patentable in India. The above judgment just says that Glivec is not patentable as per Section 3(d) of Indian Patents Act based on the data provided and the arguments of Novartis.

Only 3% of patents are challenged:

Quoting a study, a recent media report highlighted that only 3% of the patent applications filed in India since 2006 were challenged. The study concluded, “This demonstrates that given the various resource constraints faced by the Indian patent office, one can never really be sure of the patent quality unless the patent is challenged.”

Rejection by IPO under Section 3d is minimum – is that a key issue?

Another study done by Columbia University reportedly found that out of 214 patents filed in India last year, only 3 patents were rejected by IPO exclusively for failing to prove better efficacy, as required under Section 3d. Turning this finding on its head, would it be reasonable to ponder:

Could this be a key issue for so many patents failing to pass the acid test of judicial scrutiny when challenged?

Government has no role to play in IP disputes:

The proponents of ‘no change required in the Section 3(d)’ argue, patent challenge is a legal process all over the world, where the Government has hardly any role to play in resolving these disputes. The law should be allowed to take its own course for all disputes related to the Patents Act of the country, including Section 3(d).

They also opine that India must be allowed to follow the law of justice without casting aspersions on the knowledge and biases of the Indian judiciary by the vested interests.

That said, there is certainly an urgent need to add speed to this legal process by setting up ‘Fast-track Courts’ for resolving all Intellectual Property (IP) related disputes in a time bound manner.

Pharma patents granted in India:

As reported in the media, pharma MNCs have been granted over 1,000 patents since 2005. Moreover out of 4,036 patents granted in the past six years, 1,130 have been awarded to MNCs, like:

  • AstraZeneca 180 patents
  • Roche with 166 patents
  • Sanofi with 159 patents
  • Novartis with 147 patents

It is therefore understandable, as pharma MNCs have secured more number of pharma patents they are facing larger number of litigations at this point of time.

China and Brazil revoke patents:

Last week, just about a year after China introduced the country’s amended patent law, its State Intellectual Property Office (SIPO) has reportedly revoked the patent on HIV/AIDS and hepatitis B drug – Viread (tenofovir disoproxil fumarate) of Gilead Science Inc. Aurisco, the largest manufacturer of active pharmaceutical ingredients in China, challenged this patent. The ground of patent revocation was that the drug lacked novelty and was not entitled to protection.

In 2008 Brazil also declared the patent of tenofovir invalid. It is worth mentioning that tenofovir of Gilead is the third-best-selling drug of the company, clocking sales of US$ 849 million in 2012.

South Africa mulls new law to stop ‘Evergreening’:

Recently, the Department of Trade and Industry of South Africa has reportedly submitted to the South African Cabinet a draft Intellectual Property Policy with far-reaching changes to the country’s Intellectual Property Rights (IPR) for medicines in order to increase access to cheaper drugs by making it harder for companies to obtain and extend patents.

The draft includes a proposal to introduce a patent examination office to stop pharmaceutical companies from “evergreening” where companies take out new patents based on minor changes or new uses. 

Currently, South Africa uses a depository system, in which patent applications are granted without extensive scrutiny. Experts believe, “this system allows companies to file multiple patents on the same medicine and extend the life of their monopoly, keeping prices artificially high.”

Innovators Angry:

In this context, the following report recently captured the anger of the innovator companies and stated that the US drug giants are once again pushing for stronger patent protection in India:

“A coalition of U.S. lawmakers and business groups outlined concerns about Indian policies as a threat to American exports, jobs and innovation in a letter to President Barack Obama on June 18. Among the business groups were the Pharmaceutical Research and Manufacturers of America and the Biotechnology Industry Association. On June 14, the top Democrat and Republican on the Senate Finance Committee urged that Kerry raise trade concerns on his visit.”

Quoting US Chamber of Commerce’s Global Intellectual Property Center another report highlighted, “Recent policy and judicial decisions that invalidate intellectual property rights, which have been increasing in India, cast a daunting shadow over its otherwise promising business climate. From the revocation of patents to the staggering rates of piracy, India stands alone as an international outlier in IP policies. This trend is bad for investment, innovation and international trade.”

Does it benefit patients? 

In the paper titled ‘TRIPS, Pharmaceutical Patents and Access to Essential Medicines: Seattle, Doha and Beyond’, published in ‘Chicago Journal for International Law, Vol. 3(1), Spring 2002’, the author argues, though the reasons for the lack of access to essential medicines are manifold, there are many instances where high prices of drugs deny access to needed treatments for many patients. Prohibitive drug prices, in those cases, were the outcome of monopoly due to strong intellectual property protection.

The author adds, “The attempts of Governments in developing countries to bring down the prices of patented medicines have come under heavy pressure from industrialized countries and the multinational pharmaceutical industry”.

While the ‘Trade-Related Aspects of Intellectual Property Rights Agreement (TRIPS)’ of the World Trade Organization (WTO) sets out minimum standards for the patent protection for pharmaceuticals, it also offers adequate safeguards against negative impact of patent protection or its abuse in terms of extraordinary and unjustifiable drug pricing. The levels of these safeguards vary from country to country based on the socioeconomic and political requirements of a nation, as in India.  

Following table is an example of price differential between patented and generic equivalents of those molecules used in the treatment of HIV/AIDS:

1

2

3

3TC (Lamivudine)

Zerit (Stavudine)

Viramune (Nevirapine)

Price / Year / Patient in US$

Price / Year / Patient in US$

Price / Year /Patient in US$

GSK

Cipla

Hetero

BMS

Cipla

Hetero

B.I.*

Cipla

Hetero

3271

190

98

3589

70

47

3508

340

202

(Source: Third World Network, *B.I: Boehringer Ingelheim) 

Patentability for ‘genuine innovations’:

A report on ‘Patentability of the incremental innovation’ indicates that the policy makers keeping the following points in mind formulated the Indian Patents Act 2005:

  • The strict standards of patentability as envisaged by TRIPS pose a challenge to India’s pharmaceutical industry, whose success depended on the ability to produce generic drugs at much cheaper prices than their patented equivalents.
  • A stringent patent system would severely curtail access to expensive life saving drugs to a large number of populations in India causing immense hardships to them.
  • Grant of a product patents should be restricted only to “genuine innovations” and those “incremental innovations” on existing medicines, which will be able to demonstrate significantly increased efficacy over the original drug.

Conclusion:

study by the ‘Indian Pharmaceutical Alliance (IPA)’ indicates that 86 pharmaceutical patents granted by the IPO post 2005 are not breakthrough inventions but only minor variations of existing pharmaceutical products and demanded re-examination of them.

Since, most of the above patents have not been challenged, as yet, the quality of these patents cannot be ascertained beyond any reasonable doubt, as we discuss today.

If the apprehension, as expressed above in the IPA study has any merit, right answers to the following questions, I reckon, would help charting out the future direction for the IP ecosystem of India:

  • Is there a theoretical possibility of revocation of all these 86 already granted product patents, if and when challenged in a court of law?
  • Is the current Patents Act of India pragmatic?
  • Does it reasonably benefit both the innovators and the Indian patients,  signifying a paradigm shift in the global IPR scenario?
  • Will it inspire other countries also to emulate similar IP system in the years ahead?
  • Will it then invite more intense ire of the global pharma innovator companies creating increasing  pressure on the Indian Government to amend the current Patents Act?
  • Being under continuous public scrutiny, would it be feasible for any Indian Government, now or in future, in the near or medium term, to amend the Indian Patents Act due to any amount of outside pressure?
  • And finally, is the Act then irreversible, at least, for quite some time from now?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.

 

After Mollycoddling China Cracks Down on Pharma MNCs…But Why Now?

In tandem with exemplary growth in the healthcare sector, China has started confronting with some consequential hazards in form of serious regulatory violations involving, besides many others, hospitals, pharmaceutical pricing and food and drug safety, which reportedly include contaminated milk powder and rat meat sold as mutton.

A recent report indicates, there are rampant kickbacks at various stages in the healthcare delivery process. For example, hospitals get kickbacks from drug and device companies, and hospital executives give a portion of these kickbacks to their doctors, involving even the pharma MNCs.

While looking back, in 1997, China took its first healthcare reform measures to mend the earlier not so good practices, when medical services used to be considered just as any other commercial product or services in the country. As a result, staggering healthcare expenses made Chinese medical services unaffordable and difficult to access for a vast majority of the local population.

In April 2009, China, a country with over 1.35 billion population, unfolded a blueprint of a new phase of healthcare reform to provide safe, effective, convenient and affordable healthcare services to all its citizens. An incremental budgetary allocation of US$ 124 billion was made for the next three years to achieve this objective.

The core principle of healthcare reform in China:

The core principle of the new phase of Chinese healthcare reform is to provide basic health care as a “public service” to all its citizens, where more government funding and supervision will play a critical role.

This reform process will ensure availability of basic systems of public health, medical services, medical insurance and medicine supply to the entire population of China. It was also announced that priority would be given to the development of grass-root level hospitals in smaller cities and rural China. The general population will be encouraged to use these facilities for better access to affordable healthcare services. However, public non-profit hospitals would continue to remain one of the important providers of medical services in the country.

Medical Insurance and access to affordable medicines:

Chinese government has planned to set up diversified medical insurance systems to provide basic medical coverage to over 90 percent of the country’s population. In tandem, the new healthcare reform measures will ensure better availability of affordable essential medicines at all public hospitals.

Highly lucrative healthcare business destination:

New Chinese healthcare reform process carries an inherent promise of a large additional spending worth billions of US dollars every year catapulting China as one of the most lucrative healthcare markets of the world.

China’s healthcare spending has reportedly been projected to grow from US$ 357 billion in 2011 to US$1 trillion in 2020.

Consequently, this huge investment has started attracting a large number of global companies of various types, sizes and nationality competing for the right size of their respective pies of profits.

In that process, as the media reports highlight, global pharmaceutical players started fast increasing both their top-line revenue and bottom-line profits from the booming Chinese healthcare market.

Pharma MNCs growing bigger, outpacing local industry:

Another report highlighted, “60% of China’s healthcare stimulus money ended up going to non-Chinese multinationals”. Quoting a recent JP Morgan report the article indicated AstraZeneca, Sanofi, Roche, GlaxoSmithKline, Novo Nordisk, Johnson & Johnson and Pfizer realized over 30 percent growth from their China operations in the early part of 2011.

With the slow down of business in Europe and in the United States, even large global pharmaceutical players like, Bayer, Sanofi, Novartis, Eli Lilly, Novo Nordisk and many more have reportedly invested huge resources for capacity building in sales and distribution channels, local manufacturing and R&D.

Chinese Government woke-up:

Kick starting the reform process and in the face of high level of corruption, Chinese government initiated monitoring the effective management and supervision of healthcare operations of not only the medical institutions, but also the health services, together with basic medical insurance system, in good earnest.

It has been reported, though the public hospitals will receive more government funding and be allowed to charge higher fees for quality treatment, they will not be allowed to make profits through expensive medicines and treatment, which has been a common practice in China.

Violations meted with harsh measures:

Accordingly, with increased vigil in many of these areas since last couple of years, Chinese regulators have started cracking down on the culprits, who are being meted out severe and harsh punishments, consequently.

In 2012, seven public hospital directors were reportedly sent to jails for accepting kickbacks. One corrupt drug regulator was even executed along with two food-company managers involved in a poisoned milk scandal, as the report mentions.

Pharma MNCs targeted for alleged corrupt practices:

As stated above, the new healthcare reform measures include regulation of prices of medicines and medical services, together with strengthening of supervision of health insurance providers, pharmaceutical companies and retailers.

China has now reportedly targeted Multinational Companies (MNCs) for allegedly corrupt practices, including price-fixing, quality issues and consumer rights. This has forced some MNCs to defend their reputations in China where global brands often have a valuable edge over local competitors in terms of public trust.

Recently, in an effort to reduce drug prices, China has initiated probes involving 60 drug manufacturers.

According to a recent report, to make the pricing system for medicines more effective, the regulatory agencies in China are investigating the costs and prices of drug manufacturers including global pharma majors like:

  • GlaxoSmithKline Plc (GSK)
  • Merck & Co.
  • Novartis AG
  • Baxter International Inc.

The regulators are expected to go through the details of 27 companies for costs and 33 companies for pricing, as per the July 2, 2013 statement posted on China’s National Development and Reform Commission’s (NDRC) Evaluation Center of Drug Pricing.

The report highlights that a possible impetus for the NDRC to probe into pricing and costs of domestic and foreign drug companies was the announcement of China’s National Essential Drugs List in March, which increased the items on the list to 500 from 305.

Clampdown on government spending:

To exercise control on public expenditure towards drugs, the government has also reportedly clamped down on drug spending, placing some foreign drug makers’ products under price controls for the first time.

Since 2011, the Chinese Government has reduced the drug prices four times, including 15 percent reduction earlier in 2013, though the price reduction will be as much as 20 percent for the expensive drugs. At the same time, the government has reduced tax rebates on investments.

Mr. Chen Zhu, Health Minister of China has reportedly expressed that healthcare in China is still too expensive and there is still inadequate control over improper use of drugs in the country.

Another report indicates that Nestlé, Abbott Laboratories and Danone are under investigation in China for “monopolistic” pricing.

Crackdown on bribery and kickbacks:

An article in a similar context mentions that the “Chinese police started an investigation into the Chinese unit of the biggest pharmaceutical manufacturers of UK – GlaxoSmithKline and Senior executives at the unit are suspected of ‘economic crimes”.

On the same subject, a different news report also indicates, a senior Glaxo finance executive in Shanghai and employees in Beijing were detained as part of a corruption investigation.

Recently a Chinese Security Ministry official has reportedly said that GlaxoSmithKline (GSK) executives in China have confessed to bribery and tax violations.

The same report quoting the ministry highlighted that the case against GSK involved a large number of staff and a huge sum of money over an extended period of time, with bribes offered to Chinese government officials, medical associations, hospitals and doctors to boost sales and prices. Concerned executives also used fake receipts in unspecified tax law violations.

Interestingly, earlier in 2012, Global CEO of GSK reportedly admitted that the company made “unacceptable” mistakes in “mismarketing” their antidepressants Paxil and Wellbutrin, which were the subject of a US$ 3 billion settlement with the Justice Department of the United States. At that time the CEO was reported to have said “very sorry” for the incident and “determined that this is never going to happen again.” 

Another very recent news highlights that currently China is investigating at least four pharma MNCs as it widens its probe. Chinese enforcers had suggested that these pharma companies were using the same tactics to boost their businesses in the country.

It is now learnt that anti-trust body of China - State Administration for Industry and Commerce (SAIC)  has also visited  Shanghai office of UCB. 

Happening elsewhere too:

Reports of similar alleged malpractices have started surfacing from elsewhere in the world too. For example, in Denmark, a country known for low incidence of corrupt practices, a Norwegian cardiologist was reportedly charged with taking 2 million kronor, or about US$ 350,000, from Merck and Pfizer, despite the fact, Danish law prohibits doctors from accepting money directly from the drug makers. The concerned doctor allegedly used the cash to buy expensive furniture and salmon-fishing holidays in his home country.

Last year, both the Department of Justice and the Securities and Exchange Commission of the United States reportedly charged Pfizer and its subsidiary Wyeth for paying millions of dollars in bribes to officials, doctors and healthcare professionals in Bulgaria, China, Croatia, Czech Republic, Italy, Kazakhstan, Russia, and Serbia during 2001-2007 in violation of the US Foreign Corrupt Practices Act. They had also set hefty fines on the two to settle the charges.

Conclusion:

To effectively address serious and longer term healthcare related issues of the country, the Chinese Government has already started implementing its new healthcare reform measures earnestly. Possibly to maintain equity, stay on course and uproot corrupt practices, they have now started cracking down on the violators in all seriousness, be they are from within the country or beyond its shores.

So far as the pharma MNCs are concerned, such harsh measures are being taken for alleged malpractices probably for the first time ever of this scale and that too with full media glare.

All these measures coupled with pricing pressure and gradual rise of local Chinese players, would make the Chinese market increasingly challenging to  pharma MNCs.

Some global players have already started feeling the scorching heat of tough Chinese measures. But China is too powerful a country and too lucrative a market for any entity to flex its muscle to stall the current juggernaut, at least, till the ‘Dragon’  achieves its objective of bringing down public healthcare expenditure to its expectations…Or is there more to the problem than meets the eye?

Thus, the key question emerges: 

Why has China, after mollycoddling the pharma MNCs for so many years, now started cracking down on them so hard?

By: Tapan J. Ray

Disclaimer: The views/opinions expressed in this article are entirely my own, written in my individual and personal capacity. I do not represent any other person or organization for this opinion.