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.

Is Fraud or Negligence in Drug Quality Standards Not a Fraud on Patients?

As we know, a substance is called a drug when it has scientifically proven and well documented efficacy and safety profile to reduce both mortality and morbidity of patients. Any fraud or negligence in the drug quality standards, for whatever may be the reasons or wherever these take place, is a fraud on patients and should warrant zero tolerance.

A perception survey on drug quality:

According to a poll released in 2010 by the ‘Pew Charitable Trusts’s Prescription Project’ of the United States:

  • More than three out of four voters are confident that prescription drugs made in the USA are free from contamination
  • While less than one in 10 feel confident about medications made in India or China.
  • 54 percent of Americans distrusted Indian drugs and 70 percent distrusted Chinese drugs.
  • “When you buy a shirt, it will say right on the label where it was made, but when you get a pharmaceutical, you don’t know.”

Despite all these, the survey points out that in 2007, 68 percent of the ingredients of all drugs sold worldwide came from India or China, as compared to 49 percent in 2004.

Experts comment that USFDA does not have either people or resources required to monitor manufacturing in the geographically widespread locations, as these are today.

Recent spate of charges against Indian pharmaceutical companies – a vindication?

Recent spate of charges against some top ranked Indian companies, will further dent the image of India not just in the United States or Europe, but also as a pharmacy of high quality yet low cost generic drugs for the developing countries of the world.

In May 2013, well known India-based pharma major Ranbaxy reported to have pleaded guilty to criminal charges of manufacturing and distributing some adulterated medicines, produced at its Paonta Sahib and Dewas, facilities and agreed to US$ 500-millon settlement. Can this be considered as a vindication of the above perception on the quality of ‘made in India’ drugs?

The view of WHO:

Interestingly the World Health Organisation (WHO) even after the above USFDA indictment has commented that at present it has no evidence that Ranbaxy manufactured medicines that are currently prequalified by WHO are of unacceptable quality.

Indian drug regulator initiates action:

It is good to know that the Drugs Controller General of India (DCGI) and the Ministry of Health will reportedly decide the way forward in this matter on completion of a fact-finding study initiated by the Central Drugs Standards Control Organization (CDSCO) on the subject.

Other incidents in India:

Following are examples of other reported serious regulatory violations involving the domestic pharmaceutical companies:

No.

Year

Company

Issue

Status

2009 Lupin USFDA warning for Mandideep plant Resolved in 2010
2010 Claris Life Sciences USFDA ban products for manufacturing norms violations Ban revoked in 2012
2011 Zydus Cadila USFDA warns Co. over Moraiya, Gujarat Facility Ban revoked in 2012
2011 Dr Reddy’s USFDA bans sale of drugs from Mexico facility Ban revoked in 2012
2013 Jubilant Life Sciences Gets USFDA warning for Canada facility Company taking corrective steps
2013 Wockhardt Banned from exporting products from its Aurangabad factory to the US due to quality concerns In discussion

Source: The Economic Times (May 22, 2013), Financial Express (May 25, 2013)

Though some other countries also have faced bans from exporting products, it cannot be taken, I reckon, as any consolation by anyone.

A Mumbai Hospital demonstrated the mood of zero tolerance:

The above expression of good intent should not just remain as a ‘lip service’. Indian drug regulator is expected to take a leaf out of all these allegations and initiate appropriate audit as required. Otherwise, exhibiting zero tolerance, like Jaslok Hospital of Mumbai, many other institutions will ask their doctors not to prescribe products of these companies to protect patients’ interest. More hospitals reportedly are mulling similar action against Ranbaxy.

IMA expresses apprehension:

Even ‘The Indian Medical Association (IMA)’ has reportedly asked the DCGI to investigate quality of medicines manufactured by Ranbaxy.

It happens in the ‘heartland’ too just as in the ‘hinterland’:

Contrary to the above poll released in 2010 by the ‘Pew Charitable Trusts’s Prescription Project’, pointing accusing fingers, in this respect, exclusively to India and China, may not be just fair. Incidents of such regulatory violations are not just restricted to Indian pharmaceutical companies either. Unfortunately, these happen with the global majors too.

None of these should be condoned in any way by anyone and attract as much global publicity, public wrath and zero tolerance, as all these would possibly deserve.

Following are some examples:

No

Company

Issues with USFDA

Consent decree signed (year)

Issue status

Penalty amount

Schering-Plough GMP violations affecting four manufacturing sites and 125 products

Yes (2002)

Closed (2007)

$500 Mn.
GlaxoSmithKline Manufacturing deficiencies found at Puerto Rico facility

Yes (2005)

Pending

$650 Mn. Bond
Wyeth GMP violations at plant in Pennsylvania and New York which were producing FluShield

Yes (2000)

Pending

$297 Mn. Plus 18.5% of sales of FluShield
Abbott Labs Non-conformance with quality system regulations for in vitro diagnostic products at an Illinois facility

Yes (1999)

Pending

$212 Mn.
Boehringer Ingelheim To bring its Ohio facility into compliance with regulatory requirements

Yes (2013)

Pending

Not specified

Source: Financial Express (May 25, 2013)

Further, in December 1998 the US FDA reportedly had stopped shipments of Abbott Laboratories’ clot-busting drug Abbokinase till the company had resolved undisclosed manufacturing problems at its plant. Abbott subsequently resolved this to the satisfaction of the drug regulator.

Even end May 2011, the USFDA reportedly raised concerns about contamination of drugs of the American pharmaceutical major – Hospira, at its Indian manufacturing facility.This issue was highlighted as the latest in a string of manufacturing and quality problems dogging the company since 2010.

American lawmakers demand thorough review of USFDA oversight procedures:

Pressure has reportedly started mounting in the United States for a thorough review into the effectiveness of oversight procedures for all bulk drugs and formulations manufactured in foreign facilities.

Simultaneously, there is also a specific demand for an in-depth review of all actions of the US regulator for so many years, which allowed Ranbaxy’s ‘massive fraud to remain unchecked’.

Beyond regulatory oversight, need robust internal system driven model as a fire-wall:

To address such issues only drug regulators interventions may not be just enough, maintaining total integrity of ‘Supply Chain’ of an organization proactively in a well structured, fool-proof and a system-driven way, will continue to play the most critical role. This will help creating ‘fire-wall’, which will be difficult to breach.

The scope of Supply Chain:

The scope of ‘Supply Chain’, which is comprised of the entire network of entities from vendors who supply raw and packaging materials, manufacturers who convert these materials into medicines, together with warehouses, distributors, retailers and healthcare centers who will reach these medicines ultimately to patients exactly the way these will deserve.

Thus, just not in the manufacturing process, any breach of security at any place of the supply chain can cause serious problems to patients. 

Accordingly, pharmaceutical companies need to adequately invest along with appropriate staff training programs to ensure that the Supply Chain Integrity is maintained, always.

Supply Chain Security (SCS) is critical:

SCS, therefore, deserves to be of prime importance for the pharmaceutical companies across the globe. Recent high profile SCS related cases, as mentioned above, have exposed the vulnerability in addressing this global menace effectively.

All pharmaceutical players should realize that not just ‘show-off’, an effective integrated approach is of paramount importance to eliminate this crime syndicate, which is taking lives of millions of patients the world over.

Mixing-up counterfeit drugs with this menace may not be prudent:

Shouting for counterfeit drugs involving mainly intellectual property related issues, may be  important, but will in no way help resolving self-created menaces arising out of breach of supply chain integrity endangering million of lives, in another way.

Though an expensive process, can’t be compromised:

It is worth repeating, securing pharmaceutical supply chain on a continuous basis is of critical importance for all the pharmaceutical players across the globe. However, the process will no doubt be expensive for any company.

Like other industries, in the pharmaceutical sector, as well, cost effective procurement is critical, which entices many pharmaceutical players, especially, in the generic industry not to go for such expensive process just to maintain the SCS.

A serious SCS related tragedy:

I would like to reinforce my argument on the importance of SCS with the following example of the ‘Heparin tragedy’ where the supply chain integrity was seriously violated with ‘ingeneuity’.

In the beginning of 2008, there were media reports on serious adverse drug events, some even fatal, with Heparin, a highly sulfated glycosaminoglycan of Baxter International. Heparin is widely used as an injectable anticoagulant. Baxter voluntarily recalled almost all their Heparin products in the U.S. Around 80 people died from contaminated Heparin products in the U.S. The US FDA reported that such contaminated Heparin was detected from at least 12 other countries.

A joint investigation conducted by Baxter and the US FDA ascertained that the Heparin used in batches associated with the serious adverse drug events was contaminated with Over Sulfated Chondroitin Sulfate (OSCS). It was reported that Heparin Scientific Protein Laboratories, Changzhou, China supplied Heparin to Baxter.

The cost of OSCS is just a fraction of the ingredient used in Heparin. Being driven by the criminal profiteering motive the manufacturers in Changzhou, China had reportedly used OSCS for highly sulfated glycosaminoglycan, as the former could not be detected by the pharmacopeia test in use, until 2008. This is because OSCS mimics Heparin in the pharmacopeia test. Post this criminal event, at present, all over the world more specific pharmacopeia test methods have been adopted for Heparin.

Stakeholders need to be extremely vigilant:

Considering all these, pharmaceutical players and the drug regulators from across the world should put proper ‘fool proof’ systems in place to eliminate the growing menace of criminal adulteration of APIs, drug intermediates, excipients entering in the supply chain together with preventing any breach in their logistics support systems.

Apprehension against generic drugs as a class:

Taking advantage of the situation, one can possibly say, as some vested interests have already started propagating that generic equivalents of the branded drugs are really not quite the same in quality.

However, the point that cannot be ignored is the comment of a senior USFDA, who was quoted in the same article saying, “I have heard it enough times from enough people to believe that there are a few products that aren’t meeting quality standards.

Generic drug manufacturers should make serious note of such comments and act accordingly to allay prevailing lurking fear on the use of generic medicines, in general, though small in number.

Conclusion:

Following the recent series of incidents including that of Ranbaxy, the image of India as a low cost generic drugs manufacturer of high quality could get adversely impacted. Although there are enough instances that such things happen in the developed world, as well, including the United States.

Moreover, in the backdrop of high decibel quality concerns raised by USFDA, the level of apprehension regarding effectiveness of generic drugs made in India may increase significantly, unless some tangible, well thought out and highly publicized remedial measures are taken forthwith.

The decision of Jaslok Hospital, Mumbai advising their doctors for not using Ranbaxy products to patients on the same ground, will further strengthen the public apprehension.

Whatever may be the reason, as long as any company is in the business of manufacturing medicines, there should be demonstrable zero tolerance on any compromise, fraud or negligence in the drug quality standards. Any fraud and negligence in drug quality, I reckon, is virtually a fraud against humanity.

That said, changing mindset towards a strong corporate governance by walking the talk, all pharmaceutical companies must guarantee safe and high quality medicines to the society, come what may.

This, I believe, could be achieved by putting in place a robust SCS system and ensuring that this is not compromised in any way… anywhere…ever… for patients’ sakeboth globally and locally.

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.