The Game is Changing: Ensure Better Treatment Outcomes: Leverage Technology

Today, several pharma players, mostly ‘encouraged’ by many non-pharma tech companies, are trying to gain, at least, a toehold in the digital health care space. It is visible even within the generic drug industry. Such initiatives, as they gain a critical mass, will remold the process of doing – almost everything in the pharma business, catapulting the concerned drug companies to a much higher growth trajectory, as many believe.

This is quite evident from an interview of Fierce Pharma with the senior management of Sandoz – the generic drug arm of Novartis, that was published on May 14, 2019. The honchos said: “We’re looking across the whole value chain to make sure we’re embracing digital and technology wherever we can. So that means from the way that we innovate, to the way that we sell and the way that we operate and do day-to-day business.” The process covers “a whole range of activities from how you use AI and automation, all the way through to prescription digital therapies.”

I discussed about leveraging technology in the pharma space to address many burning issues – both for patients and the pharma industry. One such article, “Focus on Patient Compliance To Boost Sales…And More…”, was published in this blog on May 20, 2019. It establishes that even world-class sales and marketing programs can, at best, ensure higher prescription generations, but can’t prevent over 50 percent revenue loss from those prescriptions, due to patient non-compliance.

Interestingly, the issue of ‘nonadherence to treatment’ is being debated, since several decades. Various conventional measures were suggested and also taken. But the problem still persists in a huge scale, with probably an increasing trend. Thus, fresh measures, preferably by leveraging modern technology, are of high relevance in this area.

In this article, I shall illustrate the above point, with one of the most exciting areas in the digital space – the digital therapeutics. This is a reality today and marching ahead at a much faster pace than many would have anticipated.

Unfolding another disruptive innovation in healthcare:

One of the articles that I wrote on this subject is ‘Unfolding A Disruptive Innovation in Healthcare,’ which highlights a different facet of the same subject. Thus, let me begin today’s discussion with a recapitulation of some important aspects of a drug, particularly the following ones:

  • A large number of patients don’t find many drugs accessible and affordable during the entire course of treatment.
  • Drugs have to be administered orally, systemically or through any other route
  • Alongside effective disease prevention or treatment, many drugs may bother patients with long and short-term side-effects, including serious ones.
  • Treatment outcomes can’t often be easily measured by patients.

These are, of course, known to many, but several questions come up in this area, which also deserve serious answers, such as:

  • Are drugs indispensable for the treatment of all types of disease?
  • Can a holistic disease treatment be made more accessible and affordable with radically different measures?
  • Can the same effectiveness of a drug, if not more, be achieved with no side-effects with a non-drug therapy?
  • Can outcomes be significantly improved following this process, as compared to drugs?

In search of answers to these questions – arrive digital therapeutics:

In search of answers to the above questions, a number of tech savvy whiz kids. dared to chart an uncharted frontier by asking themselves: Is it possible to treat a disease with a software – having no side-effects, but providing better cost effectiveness and treatment outcomes to patients?

Today, with the signs of healthy growth of the seed – sown with the above thoughts, ushers in – yet another game changing pathway for disease treatment. The quest for success of these pathfinders can benefit both – the drug innovators and also the generic players, in equal measure, besides patients. Digital therapeutics is an upshot of this pursuit.

Its ‘purpose’ outlines – why it’s one of the most exciting areas in digital space: 

The Digital Therapeutics Alliance well captures the purpose of digital therapeutics, as, “Improving healthcare quality, outcomes, and value through optimizing the use and integration of digital therapeutics.”

What do digital therapeutics actually do?

There are several, but quite similar descriptions of digital therapeutics. For example, Deloitte described digital therapeutics as software products used in the treatment of medical conditions, enabling patients to take greater control over their care and are focused on delivering clinical outcomes. It also highlights, ‘digital therapeutics are poised to shift medicine’s emphasis from physically dosed treatment regimens to end-to-end disease management based on behavioral change.’

Digital therapeutics offers all positives of a drug and more:

In indications where digital therapy is approved and available, the new approach offers all positive attributes of an equivalent drug, with no side-effect. There isn’t any need of its physical administration to patients, either. Deloitte elucidated this point very aptly: “As software and health care converge to create digital therapeutics, this new breed of life sciences technology is helping to transform patient care and deliver better clinical outcomes.” More importantly, all this can be made available for better compliance and at a cheaper cost in many cases.

For example, according to the article published in the MIT Technology Review on April 07, 2017, carrying the title ‘Can Digital Therapeutics Be as Good as Drugs?’: “Some digital therapeutics are already much cheaper than average drug. At Big Health, people are charged $ 400 a year, or about $ 33 a month to use the insomnia software. The sleeping pill Ambien, by contrast, costs $ 73 for six tablets of shut-eye.”

Two basic types of digital therapeutics:

The Digital Therapeutics Alliance also underscores: “Digital therapeutics rely on high quality software to deliver evidence-based interventions to patients to prevent, manage, or treat disease.” It further elaborates: “They are used independently or in concert with medications, devices, or other therapies to optimize patient care and health outcomes.” In line with this description, the above MIT Technology Review article, as well, classifies digital therapy into two basic categories:

  • For medication replacement
  • For medication augmentation

It also says that the digital therapy for sleep (sleep.io), belongs to the first category, making sleeping pill most often unnecessary and with outcomes better than those of tablets. Whereas, the second category includes various disease specific software apps that improve patient compliance with better self-monitoring, just as co-prescription of drugs.

Nonetheless, the same MIT article gave a nice example of ‘medication augmentation’ with digital therapy. The paper mentioned, Propeller Health – a digital company, has inked a deal with GlaxoSmithKline for a ‘digitally guided therapy’ platform. The technology combines GSK’s asthma medications with Propeller Health made sensors that patients attach with their inhalers to monitor when these are used. Patients who get feedback from the app, end up using medication less often, the study reported.

The first USFDA approved digital therapy:

Let me give one example each of the launch of ‘medication replacement’ and ‘medication augmentation’ digital therapy, although there were other similar announcements.

  • On November 20, 2018, by a media release, Sandoz (Novartis) and Pear Therapeutics announced the commercial availability of reSET – a substance use disorder treatment that was the first software-only digital therapeutic cleared by the US-FDA, for medical prescriptions.
  • Closely followed by the above, on December 21, 2019, Teva Pharmaceutical announced US-FDA approval for its ProAir Digihaler for treatment and prevention of bronchospasm. Scheduled for launch in 2019, it is the first and only digital inhaler with built-in sensors that connects and transmit inhaler usage data to a companion mobile application, providing insights on inhaler use to asthma and COPD patients – for prevention and better treatment of the disease.

Many other projects on digital therapeutics are fast progressing.

Conclusion:

Stressing a key importance of digital therapeutics in chronic disease conditions, McKinsey article of February 2018, titled ‘Digital therapeutics: Preparing for takeoff’, also underlines: ‘Digital therapeutics tend to target conditions that are poorly addressed by the healthcare system today, such as chronic diseases or neurological disorders.’

It also, further, emphasized that digital therapeutics can often deliver treatment more cheaply than traditional therapy, by demonstrating their value in clinical terms. It illustrated the point with US-FDA’s approval for a mobile application that helps treat alcohol, marijuana, and cocaine addiction, well-supported by clinical trial data. The results showed 40 percent of patients using the app abstained for a three-month period, compared with 17.6 percent of those who used standard therapy alone.

I now come back to where I started from. The pharma ball game is changing, and that too at a faster pace.Ensuring and demonstrating better treatment outcomes for patients – both for patented drugs and the generic ones, will increasingly be the cutting-edge to gain market share and grow the business. Thus, leveraging technology to its fullest is no longer just an option for pharma companies. The evolution of digital therapeutics as a game changer, vindicates the point.

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.

Stem Cell Therapy in India: A Potential Game Changer in Disease Treatment

Stem Cells (SC) offer an incredible potential to instill a new lease of life virtually to any organ of the human body, bringing them back to the pre-disease state through its own biological repair mechanism. Intensive research initiatives are on across the world to harness this unique possibility that will be able to successfully address a plethora of serious and chronic ailments for mankind. The good news is, the global scientific community is taking rapid strides in understanding the complex stem cell biology to give shape to a game changing medical treatment blue print for tomorrow.

Capturing one such pursuit, on February 21, 2017, well-reputed British news daily – ‘The Telegraph’, reported the outcome of a path-breaking medical study for freezing the progression of yet another complex and crippling ailment – Multiple Sclerosis (MS). This research followed a unique SC transplantation process. Intriguingly, both such diseases and the treatment are not generally much talked about, particularly in India. If done, it would increase public awareness and help many patients fetch greater benefits from the available and approved SC therapy in the country. Probably, considering the unfathomable scope of the body’s own repairing toolbox with SC, Prime Minister Narendra Modi reportedly called on Indian biologists to motivate school children for pursuing a career in stem cell research.

Let me now go back for a moment to Multiple Sclerosis (MS) as I am aware of this this disease condition rather closely. One of our close family friends who was a very senior official in one of the top multinational corporations of the world, had to give up his job prematurely being a victim to this serious illness. In that sense, this particular news item rekindles a new hope for many to look for a better quality of life while managing many other diseases of such kind, all over the world, including India.

‘The Telegraph’ reported: in so far, the largest long-term follow-up of SC transplantation treatment study of MS, which was spearheaded by Imperial College London, established that 46 per cent of patients who underwent this treatment did not suffer a worsening of their condition for five years. The treatment works by destroying the immune cells responsible for attacking the nervous system. This is indeed a very significant development in the space of medical research.

This new treatment, called autologous hematopoietic stem cell transplantation (AHSCT), was given to patients with advanced forms of MS who had failed to respond to other medications. However, the researchers noted that the nature of the treatment, which involves aggressive chemotherapy, carried “significant risks”.

It’s worth recapitulating here that MS is caused by the immune system malfunctioning and mistakenly attacking nerve cells in the brain and spinal cord, leading to problems with movement, vision, balance and speech. It’s a lifelong condition and often causes serious disability, with no cure still in sight. The disease is most commonly diagnosed in people in their 20s and 30s, although it can develop at any age.

A new hope with a game changing potential:

The above study of SC transplantation conducted by Imperial College London in MS, is just a recent example, among scores of major steps being taken in this frontier of medical science in preparation of a decisive battle against many more life-threatening and serious debilitating diseases.

No doubt that various treatments involving stem cells are generally considered a novel and rapidly advancing medical technology. However, in a small number of developed countries, such as the United States (US), a number medical procedures with stem cells are being practiced since around last three decades. Bone marrow transplant is the most widely used stem-cell therapy in this area, which was first performed in 1968.

According to California Institute for Regenerative Medicine (CIRM) and various other medical literature, SC treatment has the game changing potential for successful use to:

  • Replace neurons damaged by spinal cord injury, stroke, Alzheimer’s disease, Parkinson’s disease or other neurological problems
  • Produce insulin that could treat people with diabetes and heart muscle cells that could repair damage after a heart attack, or
  • Replace virtually any tissue or organ that is injured or diseased

Thus, stem cells offer limitless possibilities, such as tissue growth of vital organs like liver, pancreas. Today there are many diseases for which no effective treatment still exists, besides giving symptomatic relief, such as Multiple Sclerosis, Parkinson’s disease, Alzheimer’s, severe burn, spinal cord injury. There is a host of other diseases, including several chronic ailments, such as diabetes, heart ailments, rheumatoid arthritis, or some types of cancer, which can’t just be reversed, however, could be managed with a lifelong treatment. For most of these diseases, and several others involving tissue degeneration, SC therapy has the potential to be a huge life and a game changer. It may involve, besides patients, several industries, including pharmaceuticals and biotech sectors.

Major stem cell sources and some key milestones:

Medical scientists and researchers have conclusively established that stem cells are the master cells of any human body. These are undifferentiated cells of the same lineage, retaining the ability to divide throughout life and grow into any one of the body’s more than 200 cell types. Some of the major sources of stem cells in the human body are bone marrow, cord blood, embryonic cells, dental pulp and menstrual blood.

As captured by ‘ExploreStemCells’ of UK, some key events in stem cell research include:

  • 1978: Stem cells were discovered in human cord blood
  • 1981: First in vitro stem cell line developed from mice
  • 1988: Embryonic stem cell lines created from a hamster
  • 1995: First embryonic stem cell line derived from a primate
  • 1997: Cloned lamb from stem cells
  • 1997: Leukemia origin found as hematopoietic stem cell, indicating possible proof of cancer stem cells
  • 1998: University of Wisconsin isolated cells from the inner cell mass of early embryos and developed the first embryonic stem cell lines.
  • 1998: Johns Hopkins University derived germ cells from cells in foetal gonad tissue; pluripotent stem cell lines were developed from both sources.
  • 1999 and 2000: Scientists discovered that manipulating adult mouse tissues could produce different cell types. This meant that cells from bone marrow could produce nerve or liver cells and cells in the brain could also yield other cell types.

All these discoveries were exciting for rapid progress in the field of stem cell research, along with the promise of greater scientific control over stem cell differentiation and proliferation. Currently, many more research studies are underway in globally acclaimed institutions and other boutique laboratories exploring the possibility of wide scale use of SC therapy, even in the treatment of several chronic diseases, including diabetes and heart disorders.

A controversy:

The controversy related to SC research mainly involves Embryonic Stem Cells (ESC) and raises several difficult questions for a speedy resolution. As articulated by the ‘Genetic Science Learning Centre’ of the University of Utah, these are mainly:

  • Does life begin at fertilization, in the womb, or at birth?
  • Is a human embryo equivalent to a human child?
  • Does a human embryo have any rights?
  • Can destruction of a single embryo be justified to provide a cure for a countless number of patients?
  • Since ESC can grow indefinitely in a dish and can, in theory, still grow into a human being, is the embryo really destroyed?

However, in 2006 scientists learned how to stimulate a patient’s own cells to behave like embryonic stem cells. These cells are reducing the need for human embryos in research and revealing exciting new possibilities for stem cell therapies, according to this Centre.

Stem cell research in India:

India has pursued SC research since over a couple decades reasonably supported by the Government, especially the Department of Biotechnology (DBT), besides several remarkable initiatives from the private sector. Ethical guidelines in this regard are also in place, so also are the National Guidelines for Stem Cell Research in India. These guidelines are aimed at obtaining licenses from the Drug Controller General of India (DCGI).

Further, in a major move to regulate and oversee the activities by streamlining SC research in the country, the Government has also set up an Institutional Committee for Stem Cell Research and Therapy (IC-SCRT) and the National Apex Committee for Stem Cell Research and Therapy (NAC-SCRT). This necessitates the researchers on human stem cells, both institutions and the individuals, to be registered with NAC-SCRT through IC-SCRT. To ensure that the concerned companies and individuals follow the National Guidelines, these committees will review, approve and monitor each research project in this area. It now calls for even greater focus from all other stakeholders to help accelerate growth of this niche segment of medical science for patients’ benefits.

SC transplantations using umbilical cord blood and bone marrow for treating neurological, hematological, hepatic and cardiac disorders are being pursued by some well-known medical institutions, such as, AIIMS, PGI Chandigarh, CMC Vellore, AFMC Pune, Manipal Hospital Bangalore. For example, AIIMS, reportedly, undertook a major multi-center trial to look at the role of stem cells in repairing tissue damaged during acute heart attacks, where other treatment process, including a cardiac bypass surgery fails to adequately improve the heart function. Similarly, Shankar Netralaya in Chennai has successfully carried out limbal stem cell transplantations for restoring vision to several patients.

That said, this is a cost intensive area of research, which involves expensive equipment, reagents and other consumables. Moreover, ensuring continuous training for SC researchers and clinicians also poses a major problem. Greater international collaboration in this area, and increasing number of Public-Private-Partnership (PPP) could accelerate the progress of India in this hugely promising area of medical science, reaping a rich harvest for a large patient population of the country.

Stem cell banking:

SC banking is a fast-developing area in this field, especially designed for SC therapy. As not many patients are not currently as much aware or interested in SC therapy as they ought to, it may not appear as an immediate requirement for many. However, an encouraging trend is fast catching up, especially within some enlightened persons, to have in a bank a large reserve of their own or their baby’s stem cells that would be available for any medical emergencies or more effective treatment options, in the future.

It assumes increasing importance because, as we age, illness and the natural process of aging could reduce the number of stem cells available to regenerate organs, muscles and bone. At that time, while treating a serious illness or a grave injury, a person may have fewer adult stem cells that have the collective power to make an effective healing response to SC therapy.

In that context, SC banking provides a great opportunity to store, multiply and utilize a newborn’s or even an adult person’s younger and healthy stem cells for SC therapy during any medical emergency, such as a serious accident or a crippling illness, at a later stage in life.

There are broadly the following two types of SC banking facilities are now available in India:

A. Cord blood stem cell banking:

This is type of SC banking is the process of collecting, processing, cryogenically freezing and preserving the ‘Cord blood’ that remains in the vein of the umbilical cord and placenta at the time of birth, for potential future medical use during SC therapy. Stems cells extracted from the umbilical cord blood have been shown to be more advantageous than those extracted from other sources such as bone marrow. These banked stem cells are considered as a perfect match for the lifetime of the donor baby, and for other family members, as well. This is significant as there exists a greater chance for success in a stem cell transplant between siblings than with unrelated donors and recipients.

B. Adult stem cell banking:

Some state-of-the-art adult stem cell banking services are either already available or in the process of coming up in many places of the world, including India. As an individual’s fat (adipose tissue) is an important source of adult stem cells, with the application of a high precision medical technology of separating, multiplying, and storing adult adipose tissue-derived mesenchymal stem cells for autologous use by physicians, ‘Adult stem cells are stored in these banks.

The good news is, increasing awareness in this area has now started prompting many parents, and also some adults to bank or store their own SC and the baby’s cord blood rich with a specific types of stem cells, that can be utilized, at a later date, in a variety of SC therapy while treating many life-threatening and debilitating diseases, if required.

Types of stem cell therapy:

There are two major types of SC therapies, and both are available in India:

  • Autologous stem cell therapy: uses the adult patient’s own stem cells obtained from the blood, bone marrow.
  • Allogenic stem cell therapy: uses donated stem cells, but faces chances of donor stem cell rejection.

As articulated in the revised stem cell guidelines, stem cells can’t be offered to patients in India as ‘therapy’ unless these are proven effective and safe supported by unequivocal clinical trial data and approved by the DCGI. Otherwise, these can be used only in ‘clinical trials’ as will be approved by the DCGI. The only exception to this is the use of haematopoietic (blood forming) stem cells for treating blood disorders, which is considered as ‘a proven therapy,’ according to available reports.

The Market – Global and India:

September 14, 2015 issue of ‘The Pharma Letter’ stated based on a recent report that the global stem cells market was valued at US$ 26.23 billion in 2013, and is estimated to be worth US$ 119.52 by 2019, registering at a Compounded Annual Growth Rate (CAGR) of 24.2 percent. Whereas, in India, the stem cell market is expected to be around US$ 600 million by 2017. Another report, titled ‘India Stem Cells Market Forecast & Opportunities, 2020’ of ‘Pharmaion’, states that stem cells market in India is expected to grow at a CAGR of over 28 percent during 2015 – 2020.

In terms of services offered, stem cells market in India has been segmented into two main categories, namely SC banking, and SC research. The latter dominated the market in 2014, and is likely to continue its dominance through 2020. Adult stem cells accounted for the majority share in India’s SC market in 2014, as a lot of research being carried out using adult stem cells, besides growing adult stem cell banking and other associated applications in therapeutics.

The major growth drivers for SC market are: increasing patient awareness, an increase in the approval for clinical trials in stem cell research, growing demand for stem cell banking services,

Government support, rising investments in research, and ascending trend of development for regenerative treatment to meet unmet medical needs.

The first stem cell based product approval in India:

On May 30, 2016, a Press Release of ‘Stempeutics Research’ of Bengaluru announced that for the first time in India, DCGI has granted limited approval for manufacturing and marketing of its allogeneic cell therapy product named Stempeucel® for the treatment of Buerger’s Disease – a rare and severe disease condition affecting the blood vessels of the legs, which finally may require amputation. Stempeucel® treatment is designed to enhance the body’s limited capability to restore blood flow in ischemic tissue by reducing inflammation and improving neovascularization. The prevalence of Buerger’s Disease is estimated to be 1,000,000 in India and two per 10,000 persons in the EU and US, as the release stated. Stempeutics Research’ is a company of Manipal Education & Medical Group and a Joint Venture with Cipla Group.

Conclusion:

Research on stem cells, across the world, is taking rapid strides. It has already demonstrated its healing power in changing many human lives either by significantly stalling the progression of several serious ailments, such as Multiple Sclerosis (MS), or reversing the disease conditions, such as serious damage to the heart caused by massive myocardial infarction.

An increasing number of stem cell banks coupled with growing public and private investments in stem cell research, positive narratives are getting scripted for this space in India. With rapidly growing middle class population and comparatively less stringent rules and regulations, India is emerging as a perfect destination for many more global and local stem cell banking companies. Consequently, the stem cell market in the country is expected to witness robust growth in the coming years.

However, only future research on stem cells will be able to unravel whether an Alzheimer’s victim will get back the stolen memory; a cancer patient won’t have to mentally prepare to die of cancer anytime soon, besides spending a fortune towards cancer therapy; an insulin dependent diabetic will no longer require insulin; an individual with damaged heart won’t have to continue with lifelong medication, and it goes on and on.

Nevertheless, if it does… and God willing – it will, ‘Stem Cell Therapy’ would not just be a life changer for many patients, it will be a game changer too for several others, including the pharma, biotech companies and many more within the healthcare sector. If any skeptic still asks, will it really happen? My counter question, in response, will be: Why not?… Why the hell not?

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.

 

Counterfeit Drugs In India: A Malady Much Deeper

Many debates and discussions continue being lined up in India almost regularly, generally by the pharma trade associations, besides a few others, on the issue of counterfeit drugs. A good number of these events are sponsored by the global and local anti-counterfeit product manufacturers and the related service providers, presumably to get a captive pharma audience. By and large, these gatherings are well publicized, and very rightly so, to focus for a while on this growing menace in the country.

One of the key objectives of such proceedings, I reckon, besides recommending the immediate action steps for the government in saddle, is to encourage the manufacturers of high quality drugs to protect their brands from the onslaught of counterfeiters through anti-counterfeit measures. Several of these involve a state of the art non-cloning technology. The core message that gets filtered-through, in most of these occasions is, if the suggested steps are followed by the drug companies with the related products and services, these won’t just help protect the patients’ health interest, but also provide a boost to the top and bottom lines in the pharma business, significantly.

There are no qualms about this initiative, not at all. Nonetheless, can this be considered a holistic approach to tackle the menace of counterfeit drugs, especially by the pharma players in India, and considering various other different ways the menace keep striking the patients, so surreptitiously?

Thus, in this article, my point of focus will be on a critical question, which is not asked with the same vigor always in many of the above events: Hasn’t the malady of counterfeit drugs in India spread much wider, and taken its root considerably deeper?

Counterfeit drugs and what it includes?

According to the World Health Organization (W.H.O), there is currently no universally agreed definition among its member states in what is widely known as ‘Counterfeit medicines’. Nevertheless, W.H.O does indicate that the term ‘counterfeit’ is widely used to include falsified, unlicensed, falsely packaged, stolen and substandard medical products. Jurisdictions across the world define counterfeit medicines in many different ways.

It’s worth noting here, according to W.H.O, substandard medical products also belong to this category. In 2009, W.H.O defined ‘substandard’ drugs as “genuine medicines produced by the manufacturers authorized by the NMRA (national medicines regulatory authority) which do not meet quality specifications set for them by national standards”.

Hence, notwithstanding whatever will be accepted as the general consensus of the W.H.O members on the definition of counterfeit drugs, from the patients’ perspective, any drug failing to meet with the claimed efficacy, safety and quality standards, should come under the same ‘category definition’, including substandard drugs.

Controversy over the term ‘Counterfeit’:

Many W.H.O member countries believe that the term counterfeit is closely associated and legally defined within the Intellectual Property (IP) legislation, and concentrates on trademark protection. Consequently, usage of this terminology has been perceived to have reduced the focus from what is first and foremost a public health issue. Thus, it has become quite important for W.H.O to separate the different categories of what is widely used as ‘counterfeit drug’, for the purpose of analysis and identifying strategies, to effectively address the issue of the public health menace that such activities give rise to.

Types of counterfeit drugs:

A Review Article titled “Anti-counterfeit Packaging in Pharma Industry” dated February 17, 2011, published in the “International Journal of Pharmacy and Pharmaceutical Sciences”, divided the types of counterfeit mechanisms into five categories, in which drugs are manufactured or distributed without proper regulatory clearance, and do not meet the determined standards of safety, quality, and efficacy:

  • No active ingredient (43 percent)
  • Low levels of active ingredient (21 percent)
  • Poor quality drugs (24 percent)
  • Wrong ingredients (2 percent)
  • Wrong packaging or source (7 percent)

This particular article will dwell mainly on a very important segment in this category – the substandard or poor quality drugs.

The magnitude of the problem:

On May 17, 2016, a Research Article titled, “Public Awareness and Identification of Counterfeit Drugs in Tanzania: A View on Antimalarial Drugs”, published in ‘Advances in Public Health’ – a peer-reviewed, open access journal that publishes original research articles, highlighted something that should cause a great concern not just for the Indian drug regulators, but also the Indian pharma manufacturers, in general.

The research paper, besides other points, underscored the following:

“Currently, it is estimated that 10–15 percent of the global drugs supplied are counterfeit. The prevalence is higher in developing countries in Africa and in parts of Asia and Latin America where up to 30–60 percent of drugs on the market are counterfeit. India is a major supplier of poor quality drugs whereby 35–75 percent of fake/counterfeit drugs globally originate from India.”

Another report of ‘Pharmexcil’ dated October 04, 2010 also states: “According to the Organization for Economic Cooperation and Development (OECD), 75 percent of fake drugs supplied world over have origins in India, followed by 7 percent from Egypt and 6 percent from China. India is also a leading source of high quality generic and patent drugs in the legitimate commerce worldwide. Since drugs made in India are sold around the world, the country’s substandard drug trade represents a grave public health threat that extends far beyond the subcontinent.”

Substandard drugs: a potential crisis in public health:

An article with the above title, published in the British Journal of Clinical Pharmacology on November 29, 2013 cautioned on the potential crisis in public health with substandard drugs, as follows:

“Poor-quality medicines present a serious public health problem, particularly in emerging economies and developing countries, and may have a significant impact on the national clinical and economic burden. Attention has largely focused on the increasing availability of deliberately falsified drugs, but substandard medicines are also reaching patients because of poor manufacturing and quality-control practices in the production of genuine drugs (either branded or generic). Substandard medicines are widespread and represent a threat to health because they can inadvertently lead to health care failures, such as antibiotic resistance and the spread of disease within a community, as well as death or additional illness in individuals.”

Hence, the potential of health crisis with various substandard drugs is quite similar to other types of counterfeit drugs.

Substandard drugs and small pharma players:

As I said before, the malady of counterfeit, fake and substandard drugs are spreading much wider and deeper in India. What’s happening around today in this area prompts us to believe, it may no longer be proper to keep all the large pharma manufacturers away from the ambit of discussion on substandard or counterfeit drugs. This apprehension is raising its head, as it is generally believed that only small, unknown, or fly-by-night type of drug manufacturers, are responsible for substandard, fake or counterfeit drugs. Whereas, the reality seems to be different. There are now ample reasons to believe that even some large drug manufacturers, both local and global, who have been caught by the regulator for the same wrongdoing, are also equally responsible for causing similar adverse health impact on patients.

Substandard drugs and large pharma players:

That the issue of substandard drugs is quite widespread in India, involving both global and local pharma players – small and large, is also quite evident from the following report, published in the May 14, 2016 edition of the well-reputed national daily – Hindustan Times:

“A day after French major Sanofi announced a recall of some batches of its popular painkiller Combiflam, India’s drug regulator said over 102 medicines have been highlighted for quality concerns and withdrawal in the last five months. The list includes several popular painkillers.”

The report also indicated that these are generic medicines, both with and without brand names, such as, CIP-ZOX of Cipla, Orcerin of MacLeod Pharma, Zerodol-SP of Ipca Laboratories, Pantoprazole of Indian Drugs and Pharmaceuticals Ltd and Norfloxacin of Karnataka Antibiotics & Pharmaceutical Ltd. According to the public notices of the Central Drugs Standard Control Organization (CDSCO), these batches were manufactured in June 2015 and July 2015, and carried expiry dates of May 2018 and June 2018.

The CDSCO also reportedly said that in notices posted on its website in February and April, 2015, it found some batches of Combiflam to be “not of standard quality” as they failed disintegration tests. The point to note is, according to the US-FDA, disintegration test is used to assess the time it takes for tablets and capsules to break down inside the body and are used as a quality-assurance measure.

“All drugs listed under the drug alert list should be recalled with immediate effect. We have found some serious problems with the making of the drug because of which we have highlighted quality concerns. Hence, recall is necessary for all companies,” GN Singh, the Drug Controller General of India (DCGI), reportedly told the above newspaper.

Should the ‘intent behind’ be considered as the key differentiating factor?

This takes me to another question: What’s the ‘intent behind’ manufacturing substandard drugs? It is not difficult to make out that the only ‘intent behind’ manufacturing substandard drugs by illegal, some small or fly-by-night type of drug operators would be to make quick money, by cutting corners, and criminally falsifying the entire process.

Until recently, I used to strongly believe that those large manufacturers who are getting caught for releasing substandard drugs to the market, have made sheer mistakes, and these are no more than minor aberrations. However, recent findings by the US-FDA, after rigorous manufacturing quality audit of several production facilities of large and small generic drug producers of India, make me wonder whether this thin differentiating line of ‘intent behind’ manufacturing substandard drugs, though still exists, has started getting blurred. The foreign regulators have imposed import ban on drugs produced in those facilities on the ground of willingly compromising drug quality, and grossly falsifying data.

I am not going into those much discussed details here, once again, as the drugs involved in the above cases are meant for exports and the import bans, by the foreign regulators were aimed at protecting the health and safety of citizens of those countries. In this article my focus is on India, and health interest of the local Indian population.

Thus fathoming a different ‘intent behind’ manufacturing substandard drugs, especially by the large and well-known manufacturers, is the real challenge. What sort of anti-counterfeit events will be able to possibly address this perturbing issue, that is now getting revealed much faster than even before?

Who in India ensures that all drugs are safe?

Possibly none, not even the drug regulators and the enforcers of the drug laws, as a number of national and international media reports reveal. General public doesn’t get any assurance from any authorities that the medicines sold by the drug retail outlets, pan India, are all standard quality and genuine.

At the same time, it is equally challenging for anyone to ascertain, with absolute certainty, that it’s a counterfeit, substandard or a fake drug, in whatever name we call it, is responsible for avoidable suffering or even death of an individual. In such a sad eventuality, one has no other choice but to accept that the causative factor was either a wrong diagnosis of the disease, or delayed onset of treatment.

Is CDSCO still in a denial mode?

It’s an irony that the government sources often highlight that the incidence of substandard, spurious or fake drugs in India has declined from around 9 percent in the 1990s, to around 5 percent in 2014-15, quoting the CDSCO sample survey findings.

Nevertheless, while looking at the same CDSCO survey results of the last four years – from 2011-12 to 2014-15, the incidence of spurious and substandard drugs in India appears to be static, if not marginally increased, as follows:

Year Tested Samples Substandard Samples Spurious or Adulterated samples % Failed
2011-12 48,082,00 2,186.00 133.00 4.82
2012-13 58,537.00 2,362.00 70.00 4.15
2013-14 72,712.00 3,028.00 118.00 4.32
2014-15 74,199.00 3,702.00 83.00 5.10

Source: Central Drugs Control Organization (CDSCO)

In my view, these CDSCO results should be taken perhaps with dollops of salt, not merely the sample size for these surveys is too small, but also the complexity involved in the collection of the right kind of samples that will always pass the acid test of independent experts’ scrutiny.  Right representational sample size – state-wise, is so important, primarily considering that India is the world’s third-largest pharmaceutical market by volume, consumes 383 billion medicines per annum, according to a 2015 Government report, and is quite a heterogeneous pharma market.

A September 06, 2016 media report well captured the palpable hubris of the Government on this worrying subject. It quoted the Drug Controller General of India (DCGI) – Dr. G N Singh as saying: “This is an encouraging trend when it comes to comparing Indian made generics with that produced in regulated markets. This will help us dispel the myth that India is a source of substandard drugs as compared to any other regulated market.”

Interestingly, other studies and reports do indicate that this menace could well be, at least, thrice as large.

Be that as it may, according to an October 22, 2016 media report, CDSCO is expected to release the findings of the latest survey on ‘spurious drugs’ in India by end October 2016.

Two recent good intents of CDSCO:

Apparently, as a response to the widespread public criticism on this issue, despite being in a denial mode earlier, CDSCO has recently expressed two good intents to address this issue, as follows:

  • As reported on October 18, 2016, it has sent a recommendation to the Union Ministry of Health to amend the Drugs & Cosmetics Act to facilitate implementation of bar coding and Unique Identification Number (UIN) on every pack of domestic pharma products.
  • To ensure consistency and uniformity in the inspection process, on May 26, 2016, by a Public Notice, it issued a new draft checklist of ‘Risk Based Inspection of the Pharma Manufacturing Facilities’ for verification of GMP compliance as per the provisions stated under Schedule M of Drugs and Cosmetics Rules, 1945, and sought suggestions from the stakeholders. This checklist would be used by drug regulatory enforcement agencies as a science based tool. It also envisaged that the pharma industry would find this checklist useful for self-assessment.

Let’s now wait and watch, to get to know the timeline of translating these good intents into reality on the ground, and the impact that these decisions will make to reverse the current worrying trend of counterfeit and substandard drugs in India.

Conclusion:

The malady of counterfeit or substandard drugs is not just India centric. Various credible sources have estimated that around a million people fall victim to such so called ‘medicines’, each year. However, unlike many other countries, India still doesn’t have any structured and effective regulatory or other mechanisms, not even any spine-chilling deterrent, in place to address this public health menace of humongous implications.

That said, besides serious health hazards, the adverse financial impact of substandard drugs on patients is also significant. Such drugs, even when non-fatal, are much less effective, if not ineffective or trigger other adverse reactions. Thus, a longer course of treatment, or switching over to a different medication altogether, may often be necessary, multiplying the cost of treatment.

In that sense, substandard, spurious, fake or counterfeit drugs, in whatever name one describes these, increase the disease burden manifold, besides being life-threatening. This issue assumes greater significance in India, where 58.2 percent of the total health expenditure is incurred out-of-pocket by a vast majority of the population. Medicines alone, which are mostly purchased from private retail outlets, across India, account for between 70 and 77 per cent of the individual out of pocket health spending, according to a W.H.O report.

High decibel campaigns on various anti-counterfeit technology solutions for fast selling, or expensive brands of large pharma companies, whether sponsored by placing the commercial interest at the top of mind, or even otherwise, are welcome, so are the two recent good intents of the Union Government, in this area.

However, the desirable proactive focus on curbing the menace of substandard medicines in India, which cause similar health risks as any other type of counterfeit drugs, does not seem to be as sharp, not just yet, barring the pharma export sector. Nor does this issue attract similar zest for a meaningful discourse related to patients’ health and safety within the country, as associated with various other anti-counterfeiting technology solution oriented events. The anomaly remains intriguing, especially when the malady spreads, with its root reaching deeper.

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. 

Should India follow the US way to regulate all types of lobbying in the country?

Currently, India is one of the fastest-growing economies of the world along with China. Even during the recent global financial meltdown process both India and China could register a very impressive average GDP growth of around 7% consistently during the last so many years. This growth is over three times more than that of the developed countries like the US, which has been growing just around 2% in the recent years.

India growth story, I reckon, is now attracting a large number of companies across the industries from all over the world including India to lobby hard and participate in the process of spectacular growth across many industry sectors. Such lobbying activities in India are expected to increase by manifold in the years ahead.

As per newspaper reports the large corporations involved with these activities, besides pharmaceuticals, include the world’s largest retailers, the coffee shop giants, financial services, insurance companies and technology majors in addition to chemicals, telecom, defense and aerospace giants.

Currently, many US-based companies, as reported in the lobbying disclosure reports filed by them with the US Senate, are lobbying for various issues ranging from facilitating the market access to easing of foreign direct investment caps in retail, insurance and other financial services sectors in India to facilitate their business expansion in the country.

Indian Pharmaceutical sector is becoming more and more attractive to many:

Keeping pace with other high growth industries of the country, Indian Pharmaceutical Market (IPM) with the current domestic turnover of around US$ 12.1 Billion has been registering a scorching pace of CAGR growth of around 15%, since over a decade. The domestic pharmaceutical industry now caters to about 20% of global requirements of high quality and affordable generic medicines of all types.

IPM is, therefore, a global success story and India has already established itself as a major force to reckon with, especially in the development and manufacturing of high quality generic pharmaceuticals, as well as in Contract Research and Manufacturing Services (CRAMS), in the pharmaceutical industry of the world.

IPM is creating newer jobs:

As per reports, in roughly around 20,000 pharmaceutical organizations and its ancillary units over one million people are currently employed by the Industry. As mentioned above, though India has globally established itself as a producer of high-quality medicines available at reasonable prices, predominantly due to a very high of around 80% ‘Out of Pocket’ expenses towards healthcare in India, ‘common man’ still finds it extremely difficult to bear the cost of illness. Such critical public health interests India can ill afford to ignore.

Spectacular progress of the Indian Pharmaceutical Industry:

India, during its independence on August 15, 1947 inherited the patent system of its British colonial masters. Drugs and Pharmaceuticals used to be largely imported from the developed world in that period with local production being absolute minimal.

This abysmal trend and pattern of the IPM of pre-independent India took another 20 years to make any significant change worth mentioning. It will be quite difficult even for the staunchest skeptics to brush aside the fact that the Indian pharmaceutical industry started blossoming since 1970, mainly due to abolition of product patent act and government encouragement with various fiscal and tax incentives paving the way for the emergence of a vibrant high quality drug manufacturing sector in the country. However, that was the need of the 70’s and certainly not for now.

It is good to know that so far as national self-sufficiency in pharmaceuticals is concerned, as per Indian Drug Manufacturers Association (IDMA), it is far above 70% despite many tough challenges.

Patent regime of many ‘developed economies’ had a stormy beginning:

While deliberating on product patents, it should be noted that in many industrial nations of the world, the protection of inventions through patents started taking place in around the last 40 years.

For example, pharmaceuticals product patents in Switzerland came into effect only since 1978. History tells us that at the fag end of the 19th century the pharmaceutical industry in Switzerland fought vehemently against the enactment of a patent law to be able to imitate foreign drugs, such as Aspirin of Bayer. Mainly because of this reason, at that time, Germany used to consider Switzerland a ‘state of robber barons’. Similarly, France used to be known as a ‘country of counterfeiters’.

Some historians have written that exactly in the same way like India, as mentioned above, the economies of Korea, Taiwan and the ‘land of the rising sun’ – Japan were able to thrive in their formative years due to absence of patent protection in those countries.

Young India is possibly crossing, if not has already crossed that stage much sooner than many others.

Innovation is the ‘Wheel of Progress’ of any nation:

However, it is an undeniable fact that ‘innovation’ is the wheel of progress of any nation. Without innovation, it is virtually impossible for any country to make significant economic progress. The Prime Minister of India has thus termed the current decade of 2010 as the ‘decade of innovation’ for India.

It has been well established by now that ‘Technology Transfer’ from the developed nations not only brings profit to those countries from patent protection and shields them from low-cost competition, but also helps the developing nations to add requisite speed to their growing economy.

However, most developing nations want access to such technological innovations at an affordable and lesser cost without any possible future risk of oligopoly and ‘technological recolonisation’.

New Product Patent regime in India came much after China and Brazil:

India signed the WTO agreement to become its member in January 1, 1995 and following a 10-year transition period, on January 1, 2005 the country amended its national patent legislation to usher in the product patent regime. The lose knots, if any, in the amended Patents Act of India are widely expected to get strengthened as the domestic innovators will feel the need for the same and possibly not due to any extraneous pressure.

Compared to India, product patent came much earlier in China and Brazil. China enacted its first patent law on March 12, 1984. However, it provided little protection to pharmaceutical and chemical inventions.  In 1992, China amended the 1984 patent law in compliance with an agreement between China and the United States, as well as to join the WTO. Similarly, the new patent law came into force in Brazil way back on October 6,1999, which also has the provision of issuing Compulsory Licenses (CL).

International independent domain experts feel that it will take some more time for India to gauge the real benefits of product patents for the country.

Public interest for ‘Health and Nutrition’:

The philosophy of India since decades has been to ‘promote the principle of relying on one’s own strength’, especially in the critical and a very sensitive areas of public interest for ‘Health and Nutrition’. Many independent experts in this field both from India and abroad have opined that India seems to be following this path without compromising on its TRIPS compliance status. However, there are some dissenting voices in this area, who feel that a more rigorous and robust patent regime in India is in the best interest of the country.

Should the government regulate lobbying activities?

Considering the fast emerging environment, as mentioned above and arising out of some recent very sensational lobbying related financial/policy scams in India, the moot question, as is being raised by many across the country is: “Should the government regulate the lobbying activities in India?”.

Even in the Pharmaceutical Industry, some instances of lobbying activities carried out both within and outside India, had led to raging debates and controversies.

To cite an example, not so very long ago, some consumer activists from the civil society vehemently protested against the ‘Intellectual Property Conferences’ held in India, which were allegedly sponsored by some interested groups in a guise to influence the policy makers and the judiciary of India.

It was widely reported that the consumer activists viewed these IP summits, organized by the George Washington University Law School of USA as ‘attempts to influence sitting judges on patent law enforcement issues that are pending in Indian courts.’

In a letter dated February 26, 2010 addressed to Shri Anand Sharma, Minister of Commerce and Industry of India, over 20 NGOs demanded transparency and more information on such meetings and wanted the government of India ‘to put a stop to such industry sponsored lobbying with Indian judges and policymakers to promote their own requirements for intellectual property and to lobby for either law amendments or even to plead their cases currently pending before, various courts and the Indian Patent Office,”

In raising their concerns, the civil society groups argued that the posture adopted by the lobbyists and their supporters is to “force India to adopt greater standards” of IP protection “beyond the mandatory levels” required by the WTO, which may go against public health interest in India.

Lobbying activities are expected to gain further momentum:

It is quite logical to expect that lobbying activities in such and many other areas both ‘for’ and ‘against’ are expected to gain momentum in the times to come. However, it is widely believed that long-term interest of India is expected to ultimately prevail in this closely watched ball game.

Lobbying is legal in many countries like the US with the government ground rules firmly in place:

We all know that in many countries like the US, lobbying is a legal activity. Many Indian companies, including the government of India have been lobbying in the US since so many years to present their cases and argument with the American law and policy makers.

When President Obama came to power in the US, it was reported: ‘one of the first acts of the Obama administration in office was to have an executive order which prohibited the Obama Administration either from hiring lobbyists – those who had lobbied within two years of joining the administration or allowing people who had left the Obama administration to service lobbyists for two years. The idea is that you want to break the chains where there is undue influence of special interest groups upon the government’.

However, there are no government ground rules still in place for lobbying in India either for the local or the global companies and their lobbyists, across the industry sectors.

Surrogate lobbying:

It was discussed somewhere about ‘surrogate lobbying’ in many industries from various parts of the world. I have really no idea about what these are and the legality of such activities without appropriate well-drafted government specified disclosures in place, for public interest.

Conclusion:

Be that as it may, in the US such activities are required to be intimated to the US senate by the companies concerned and their lobbyists highlighting their activities in form of a quarterly disclosure reports detailing not only the issues, but also the concerned government departments and institutions and the related expenses.

Let me hasten to add that despite a long history with regulated and legalized lobbying in the US, still there has been severe criticism in that country of the way lobbying has worked there in the past so many years. India has plenty to learn from such experiences.

Thus, as a part of following the global ‘public interest best practices’, a large section of the civil society in India has been voicing in so many ways, mainly after the recent financial and policy related mega scams, that it may be a good idea, if the government also puts system driven adequate checks and balances in place for lobbying activities in India, sooner.

It is believed by many that such regulations will ensure perfectly legal lobbying initiatives in India always maintain complete transparency and follow appropriate processes/procedures of disclosures to maintain a right balance between long-term public interest and the growing requirements of a healthy business ecosystem to accelerate the inclusive economic growth of the nation.

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.