Gene Therapy Price: Commercial Viability And Moral Dilemma

On May 24, 2019, Novartis announced the US-FDA approval of ‘the first and only gene therapy’ – Zolgensma, for a type of Spinal Muscular Atrophy (SMA), a lifesaving treatment for infants of less than 2 years of age. This unique drug halts disease progression with a single, one-time intravenous (IV) infusion.

On value offerings of Zolgensma,the Novartis CEO said: “The approval of Zolgensma is a testament to the transformational impact gene therapies can have in reimagining the treatment of life-threatening genetic diseases like spinal muscular atrophy. We believe Zolgensma could create a lifetime of possibilities for the children and families impacted by this devastating condition.”

Unquestionably, this development in medical science is indeed commendable. But, the jaw-dropping price tag – USD 2.125 millionattached to this product, has brought back gene therapy at the center stage of the incensed debate on access and affordability of such treatment for a vast majority of the population, across the world. Besides, two important issues related to gene therapy need to be effectively resolved – long-term commercial viability and the ‘moral dilemma’ that its market launch would prompt. And both are interconnected and also associated with the pricing rationale of such therapies.

I am terming  the second factor as a ‘moral dilemma’ rather than an ‘ethical dilemma’ because, “ethics is a more individual assessment of values as relatively good or bad, while morality is a more intersubjective community assessment of what is good, right or just for all.”In this article, I shall deliberate on these two interrelated issues. But, before delving into it, let me recapitulate in simple terms, what exactly is ‘Gene Therapy.’

What exactly is ‘Gene Therapy?’

According to US-FDA, human gene therapy seeks to modify or manipulate the expression of a gene or to alter the biological properties of living cells for therapeutic use.

Gene therapy is a technique that modifies a person’s genes to treat or cure disease. Gene therapies can work by several mechanisms:

  • Replacing a disease-causing gene with a healthy copy of the gene
  • Inactivating a disease-causing gene that is not functioning properly
  • Introducing a new or modified gene into the body to help treat a disease

Gene therapy products are now being studied to treat diseases including cancer, genetic diseases, and also infectious diseases.

Gene therapy price has been going higher than highest, thus far:

‘At USD 2.1 million, newly approved Novartis gene therapy will be world’s most expensive drug,’ says another report of May 24, 2019.It is noteworthy that Zolgensma price has been kept higher than the highest priced drug before this product came. If his trend continues, the future gene therapy cost is likely to exceed even Zolgensma price, the implication of which for patients who will need such treatment to save life or manage the disease, will be huge.

Intriguingly, the high treatment cost for a rare ailment like, SMA - a degenerative disorder that usually kills an infant within two years, is not limited to just gene therapy.  According to the April 04, 2019 article titled, ‘Biogen SMA drug price, Novartis estimates for its treatment far too high – U.S. group’ of Reuters, the price of another drug for SMA – Biogen’s Spinraza, which is not a gene therapy, is also very high. Its list price is USD 750,000 for the initial year and USD 375,000 annually. As reported, ‘Spinraza, an important growth driver for Biogen, took in USD 1.7 billion in 2018 sales.’

What should have been the actual prices of these drugs?

Interestingly, to determine the value of these drugs, the nonprofit Institute for Clinical and Economic Review (ICER) ‘used a measure known as “quality-adjusted life year” (QALY), in which each year of healthy or near-healthy life resulting from the treatment is worth USD 100,000 to USD 150,000.

Using the QALY benchmark, ICER, reportedly, said Spinraza should cost between USD 72,000 and USD 130,000 for the first year of treatment, and cost USD 36,000 to USD 65,000 per year after that, for infants not yet showing symptoms of the disease.

Further, with an alternative benchmark, known as life-year gained (LYG) based on the additional number of years a person lives due to a treatment, Spinraza is, reportedly, worth USD 83,000 to USD 145,000 in year one, and USD 41,000 to USD 72,000 annually thereafter, as ICER determined.

Zolgensma, on the other hand, would, reportedly, be worth USD 310,000 to USD 900,000 for Type 1 SMA patients based on the QALY assessment, and USD 710,000 to USD 1.5 million using the LYG calculation, ICER said.

Notwithstanding, whether one takes the QALY assessment or LYG based price of Zolgensma and Spinraza, the treatment cost of rare diseases, such as SMA for infants, is beyond the affordability of most people – whenever these drugs become the only choice to save lives. Thus, the question comes: Is gene therapy commercially viable or sustainable?

Is gene therapy commercially sustainable?

Undoubtedly, the development of gene therapy signifies yet another milestone in medical science to save lives, which is highly commendable. Nevertheless, the question arises, who will be able to afford this treatment? Thus, is development of gene therapy commercially viable and could be a money churner for a company on a long-term basis? There doesn’t appear to be a clear answer to these questions, just as yet. There are several reasons for this apprehension. But, I am citing below just two examples – related to their humongous treatment cost.

According to the article, published in the Scientific American, in the past five years, two gene therapy drugs have been approved in Europe and one in the United States. The name of this article is ‘Gene Therapy Is Now Available, but Who Will Pay for It?’ Interestingly, only three patients have so far been treated commercially with gene therapy, in Europe.

UniQure’s Glybera, used for a very rare blood disorder, costing around USD 1 million per patient, has been used just once since approval in 2012. However, in 2017, due to commercial reason UniQure decided to withdraw Glybera from the market. Similarly, Strimvelisof Orchard Therapeutics – used for severe Combined Immunodeficiency, costing USD 700,000, ‘has seen two sales since its approval in May 2016, with two more patients due to be treated later this year.’ Interestingly, these apprehensions have not deterred many companies. The ball keeps rolling.

But the ball keeps rolling:

That the ball keeps rolling, and at a faster pace, is evident from what US-FDA envisages in this field. According to US-FDA, by 2025, they are likely to approve 10 to 20 cell and gene therapy products a year. This is based on an assessment of the current pipeline and the clinical success rates of these products.

Importantly, despite apprehension of many, even some of the top pharma players, are fast moving into this space – based on their own assessment of the market. But, to move meaningfully in this direction, there are many several critical success factors, most of which are quite challenging and cost-intensive. A few of these, for example, are – a right collaborative model, ability to develop a scalable manufacturing process and overcoming various technical and regulatory challenges on the way. Interested pharma players, apparently, have realized these needs.

Big Pharma players joining ‘Gene Therapy’ bandwagon:

Big Pharma players, such as, Pfizer and Johnson & Johnson (J&J) have started moving into this space. Let me illustrate the point with just a couple of examples.

On March 20, 2019, Pfizer announced: ‘Pfizer has acquired a 15 percent equity interest in Vivet Therapeutics and secured an exclusive option to acquire all outstanding shares.’ Both the companies will collaborate on the development of Vivet’s proprietary treatment for Wilson disease – a rare and progressive genetic disorder, if remains untreated may cause liver (hepatic) disease, central nervous system dysfunction, and death.

Just before this, on January 31, 2019, Janssen Pharmaceutical of Johnson & Johnson (J&J) announced a worldwide collaboration and license agreement with MeiraGTx Holdings plc – a clinical-stage gene therapy company, to develop, manufacture and commercialize its clinical stage inherited retinal disease portfolio, including leading product candidates for achromatopsia. Even prior to this, on January 05, 2018, J&J had announced that the company has established an exclusive research collaboration with the University of Pennsylvania’s ‘Gene Therapy Program’ for fighting Alzheimer’s disease with gene therapy. There are several such instances of gene therapy collaboration for Big Pharma.

With a slightly different collaborative model for gene therapy, on April 12, 2018, GlaxoSmithKline (GSK) signed a strategic agreement to transfer rare disease gene therapy portfolio to Orchard Therapeutics, taking a 19.9 percent stake in the company and a seat on the board. Simultaneously, this agreement strengthens Orchard’s position as a global leader in gene therapy for rare diseases.

What could be the moral dilemma in gene therapy pricing?

The dilemma with gene therapy is that they are frightfully expensive, but at the same time is ‘life-transforming’ for many, across the socioeconomic spectrum. This could be another ‘moral dilemma,’ as such exorbitant, if not seemingly ‘vulgar pricing’, as it were, would raise many questions on the company’s own principles regarding right and wrongin saving lives of patients with its gene therapy.

The reason for this moral dilemma in, especially gene therapy pricing is aptly elucidated in an article titled, ‘How to pay for gene therapies in developing nations,’ published in  Evaluate Vantage on March 22, 2019. Admitting that discrepancies in healthcare between rich and poor nations are nothing new, the article also raises a flag, indicating: ‘The potentially curative nature of many gene therapies heightens the moral conundrum that companies will face if and when these projects get to market.

Acknowledging that gene therapies are hot right now, with their developers taking aim at everything from hemophilia to rare eye diseases prevalent in rich nations,the author raises a pertinent question: ‘With rich countries like the US finding it hard to fund gene therapies, it is worth asking whether these projects will ever reach patients in developing countries. And if they do how will companies cope?’

Intriguingly, to create a larger market some are also targeting disorders, largely seen in poorer areas, such as sickle cell disease that could prove valuable also in the developing world. Expectedly, the pressure will mount from many corners to provide gene therapy at an affordable price. Big pharma players are likely to face this strong head wind, adding further fuel to fire of the moral dilemma of gene therapy pricing, especially for the developing world. As on date, no one knows what percentage of people in the developing world will have access to gene therapy. Even Novartis, reportedly, does not seem to have any plan to make its product available in the developing nations.

Conclusion:

Despite what has happened so far, as described above, looking around, we find a steady flow of gene therapy, some even promise remedial treatment outcomes. Big pharma companies, as well, have commenced a long-haul journey in this direction, with big stake investments.

Regarding, not achieving a huge commercial success with gene therapy, so far, one point is common for all, these are for the treatment of very rare diseases. Probably, because of this reason, some companies, having taken a cue from it, are moving away from ultra-rare diseases. Illustratively, GSK is still looking to use gene therapy in a collaborative platform, to develop treatments for more common diseases, including cancer and beta-thalassemia – another inherited blood disorder – as the above Scientific American article reported.

That said, the point to ponder now, if the effort to come out with a remedial gene therapy for these indications fructifies, would it ensure a long-term commercial viability, alongside giving rise to a moral dilemma on the rationale for gene therapy pricing? This seems to be akin to a ‘chicken and egg’ situation. It will be interesting to witness how it pans out, as we move on.

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.

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.

Holistic Disease Treatment Solution: Critical For Pharma Success

The speculation over quite some time has ended now. The most important C-suite office of the world’s top pharma company will find a brand-new occupant at the dawn of a brand-new year, on January 01, 2019. Albert Bourla will now be on the saddle to lead Pfizer moving towards a new horizon of success, in place of Ian Read.

What makes this change interesting to me, is the new leader’s not just shaking up the top team at Pfizer, but his simultaneous announcement for another brand-new C-Suite role in the company – The Chief Digital Officer (CDO). She will ‘lead the company’s digital efforts across research, discovery and business processes.’

Merck & Co. also joined ‘the chief digital officer parade’ on October 17, 2018 when it announced the appointment of chief information and digital officer, also as a member of the company’s Executive Committee. Notwithstanding a few global pharma companies’ have already started creating this role, the timing of this initiative by the top global pharma player, sends an interesting signal to many. Undoubtedly, it is a strategic move, and is surely backed by a profound intent. In this article, while exploring this point I shall try to fathom whether or not any fundamental change is taking shape in the strategic space of pharma business.

A fundamental change is taking shape:

This fundamental change, I reckon, is driven by realization that just discovery of new medicines, high quality manufacturing and high voltage marketing can no longer be regarded as success potent in the industry. There emerges a palpable and growing demand for holistic solutions in the disease treatment process, for optimal clinical outcomes and reduction of the burden of disease.

That several top global pharma companies have recognized this fact, is vindicated by what the Sandoz Division of Novartis acknowledged on its website. It quoted Vas Narasimhan – CEO of Novartis saying: “We are on the verge of a digital revolution across every aspect of the healthcare sector, from the lab bench to the patient’s bedside.”

Interestingly, pharma stakeholders’ interests and expectations, including those of patients, are also progressing in the same direction. This, in turn, is changing the way of leading and managing a pharma business – requiring a kind leadership with specific expertise in several new areas. The new C-suite position for a CDO is a proof of this change gathering strong tailwind.

What prompts this change?

As I see it, besides scores of other associated factors that digital technology offers to all, a single characteristic that stands out is the changing patients’ expectations for optimal clinical outcomes out of an affordable and involved disease treatment process.

This has always been so, but is now changing from mere expectations or just a hope, to patients’ demand, from both physicians and the pharma companies. This is a clear writing on the wall in the days ahead, and all concerned should take note of it, seriously. Does it mean that the broad flowchart of the disease-treatment-process, as I call it, has changed? Before delving into that area, let me briefly explain what exactly I mean by saying so.

A flowchart of the disease-treatment-process:

The broad flowchart for most of the disease-treatment-process, have primarily 6 ‘touchpoints’ or points of references, as I see it, which may be summarized as follows:

Patients – Signs & Symptoms – Doctors – Diagnosis – Medicines – Clinical outcomes

This means, patients with signs and symptoms of a disease come to the doctors. With various diagnostic tests, the disease or a combination of diseases is diagnosed. Then, doctors prescribe medicines or any other required medical interventions for desired clinical outcomes.

Has it changed now?

There doesn’t seem to be any fundamental change in this flowchart even today. But, the way the pharma players cherry-pick their areas of focus from its various touch points, is undergoing a metamorphosis.

As it stands today, to sell medicines – innovative or even generic pharma companies primarily focus on the doctors and off-late on patients – but just a few of them, to offer clinical outcomes better or same as others. In the evolving new paradigm, a successful drug companies would need to focus on each of these six elements of the flowchart with great expertise and sensitivity, from the patients’ perspective.

The position of CDO is expected to be a great enabler to facilitate the process of integrating all the touchpoints in the disease-treatment-flow. This will, in turn, offer a holistic treatment solution for patients – selling more medicines being the endpoint of this objective. If it doesn’t happen, the touchpoints where pharma is not focusing today would be captured soon by the non-pharma tech players. This will make achieving the financial goals of the organization even more difficult.

Let me illustrate this point by adding just one important area from this flowchart to the traditional pharma focus areas. This touchpoint goes hand in hand with the prescription of medicines – medical diagnosis. Providing patient- friendly disease prevention and monitoring tools may be yet another such area.

Current accuracy of medical diagnosis – ‘only correct in 80 percent of cases’:

The above was quoted by Sandoz (a Division of Novartis) in its website. It highlighted that the researchers at John Radcliffe Hospital in Oxford, UK found that several medical diagnoses based on a limited range of factors are only correct in 80 percent of cases. It means ‘a diagnosis may miss imminent heart attacks, or it may lead to an unnecessary operation,’ it said.

The January 31, 2018 article published by Futurism.com - the publishing arm of Futurism, based in New York City, also underscores some interesting facts in this regard, including the above example. Some of these are fascinating, as I quote hereunder:

  • Researchers at the John Radcliffe Hospital in Oxford, England, developed an AI diagnostics system that’s more accurate than doctors at diagnosing heart disease, at least 80 percent of the time.
  • At Harvard University, researchers created a “smart” microscope that can detect potentially lethal blood infections with a 95 percent accuracy rate.
  • A study from Showa University in Yokohama, Japan revealed that a new computer-aided endoscopic system can reveal signs of potentially cancerous growths in the colon with 94 percent sensitivity, 79 percent specificity, and 86 percent accuracy.
  • In one study, published in December 2017 by JAMA, it was found that deep learning algorithms were able to better diagnose metastatic breast cancer than human radiologists when under a time crunch. While human radiologists may do well when they have unrestricted time to review cases, in the real world a rapid diagnosis could make the difference between life and death for patients.
  • When challenged to glean meaningful insights from the genetic data of tumor cells, human experts took about 160 hours to review and provide treatment recommendations based on their findings. IBM’s Watson took just ten minutes to deliver the same actionable advice.

Thus, the bottom-line is: Medical or clinical diagnosis is a crucial area where the tech savvy environment can add significant unmet needs to save lives of many. Consequently, this space is emerging as an Eldorado, as it were, for all those who are seriously interested in diving deep in search of a golden future in the related business.

Technological players are making forays:

Several tech companies have sensed the reward of a pot of gold in the above space, despite the journey being quite arduous. Consequently, many of them are coming up with user-friendly and disease-specific digital tools and health apps, compatible with smart phones or smart watches. These help patients monitoring their own health data, independently, and be aware of the disease progression, if any. Simultaneously, it also enables physicians not only to accurately diagnose a disease, but also to keep a careful vigil on the progress of the treatment.

To illustrate the point with an example – say about Apple. The company began making inroads into the healthcare space with health apps and fitness-tracking via iPhone and Apple Watch. Interestingly, riding on partnership and acquisition initiatives, it is now carving a niche for itself to provide complete health records of the users by capturing relevant disease-specific clinical data.

Apple Watch Series 4, for example, has ECG feature and the ability to detect irregular heart-rhythm, which is US-FDA approved. Reports indicate the company is also in the process of developing a non-invasive glucose monitoring tool, besides many others. Curiously, the company has already given a signal to extend the usage of iPhone to a reliable diagnostic tool for many disease conditions. Most important to note is, this concept is fast gaining popularity.

Calls for of a holistic approach in the disease-treatment process-flow: 

As this trend keeps going north, many pharma companies are realizing the underlying opportunity to adopt a holistic strategic business approach to move into the new frontier. This would encompass the entire disease-treatment-process-flow with digital technology, across the organization. Before other non-pharma companies firmly position themselves on the saddle while entering into this area, pharma needs to move fast. This calls for an urgent action to collaborate with tech companies in all the critical touchpoints of this flow, including diagnosis. That this realization gas dawned in pharma is evident from a number of related developments. Let me quote just a couple of examples, as follows:

  • Onduo, a US$500-million diabetes-focused joint venture between Sanofi and Verily Life Sciences, an Alphabet company was founded in September 2016. Onduo recently launched its first product – an app plus, a continuous glucose-monitoring device plus an insulin pump that are all linked together. The Onduo app has a built-in coach (i.e., an electronic assistant) to help patients better manage their diabetes and accomplish their health goals.
  • GlaxoSmithKline (GSK) and Verily (formerly Google Life Sciences) have formed a joint venture to develop and commercialize bioelectronic medicine – miniaturized nerve implants that modulate electrical impulses to treat certain diseases.

Lack of digital leadership talent within the pharma industry?

It is interesting to note that both the Pfizer and Merck CDOs were recruited from non-pharma companies – Pfizer’s from Quest Diagnostics and Merck’s from Nike.  Earlier, in mid 2017, former Walmart CIO was named the Chief Digital and Technology Officer of GlaxoSmithKline. This trend probably brings to the fore, the lack of top digital leadership talent within the pharma industry.

Conclusion:

Increasingly pharma companies are realizing that enormous efforts and money spent in just marketing a drug, is producing a lesser and lesser yield, as the new paradigm unfolds. As we move on, patients no longer will want to buy just a medicine from the pharma players. They will want an integrated solution for prevention, cure or management of a disease.

At the same time, strong technology players, such as Apple, Google, IBM’s Watson are on the verge of capturing a sizeable ground, offering a gamut of patient-friendly offerings in the healthcare space. This would eventually make prescription of digital therapy a new reality. These tech companies are now entering through several virtually open doors in the disease-treatment-flow process, as I call it, primarily covering – diagnosis, disease monitoring and preventive care.

To effectively compete and grow in this environment, drug companies have to cover all the touchpoints of this process, not just the selective ones as are generally happening even today.

Creation of a new C-suite position of Chief Digital Officer to address this issue in a holistic away, across the organization, gives a clear signal to this realization. Thus, I reckon, offering a holistic treatment solution, covering all the touchpoints in the disease-treatment-flow process will be a new normal for pharma, not just for excellence in business, but for a long-term survival too.

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.

Prescription Digital Therapy Now A Reality

The pursuit of offering ‘prescription digital therapeutics’ or ‘digiceuticals’ by Big Pharma, to ensure better clinical outcomes for patients, has apparently come to fruition now.

On April 18, 2018, by a media release, Novartis announced that the Sandoz Division of the Company has entered into collaboration with Pear Therapeutics to commercialize and continued development of digital therapeutics, designed to effectively treat disease and improve clinical outcomes for patients.

The collaboration brings on to the table, a synergy between Sandoz expertise in launching and commercializing various disease treatments, with Pear’s leading experience in digital therapeutics design and implementation. This deal has attracted attention of many. Mainly because, any pharma player will, for the first-time, detail a digital therapy treatment directly to the medical profession, and seek their prescription support.

It is worth noting that Pear’s flagship digital therapeutic – reSET is the first USFDA-cleared mobile medical application with both a safety and efficacy label to help treat patients with Substance Use Disorder, in September 2017. According to published reports, several studies have established that it is two-times more effective than conventional in person therapy sessions. Interestingly, the rate of treatment efficacy increases even up to tenfold, in refractory patients.

Just the beginning of a long run: 

The above market launch of a digital therapy by Novartis signals just the beginning of a long run in changing in the disease treatment archetype for better outcomes. Incidentally, prior to this announcement, on March 1, 2018, the same Company had announced, “Novartis and Pear Therapeutics to collaborate on prescription software applications aimed to treat patients with schizophrenia and multiple sclerosis.”

The media release underscored:“Psychiatric and neurodegenerative diseases place a heavy physical, mental and economic burden on patients and their families. With widespread adoption of digital devices, prescription digital therapeutics could potentially play an important role in future treatment models for a range of diseases with high unmet medical need”.

The scope and potential:

An article titled – ‘Digital therapeutics: Preparing for takeoff’,published by McKinsey & Company in February 2018, captures its scope succinctly. It says, “digital therapeutics tend to target conditions that are poorly addressed by the healthcare system today, such as chronic diseases or neurological disorders. In addition, they can often deliver treatment more cheaply than traditional therapy by reducing demands on clinicians’ time.”

A separate McKinsey interview article, titled ‘Exploring the potential of digital therapeutics’, published in the same month, elucidated the potential of digital therapy equally well.  It highlighted:“A digital therapeutic is an intervention based on software as the key ingredient, which has a direct impact on a disease. This is what distinguishes this category from the broader term digital health. We will see digital therapeutics and digital diagnostics integrate into the health system…”

‘Prescription digital therapy’ are not just ‘Fitness and Well-being’ Apps:

Prescription digital therapy are not just to monitor a person’s general fitness level against pre-identified parameters, and overall well-being. Whereas, digital therapeutics help patients to regularly and consistently monitor relevant and tailor-made disease related data - in real-time to detect behavioral, lifestyle and requisite biological changes on a daily basis. However, this is not ‘a so well-realized necessity’ today, especially, in the treatment of certain serious disease conditions, to ensure significantly better clinical outcomes for patients.

Digital therapeutics can ensure making a favorable change in patient behavior, which is not merely as efficient as administering medicines, but could also ensure greater effectiveness than conventional medications. Further, it assists patients to better understand, manage and control several disease conditions, and more importantly, sans any untoward side-effects.

Besides, with digital therapy, the required treatment interventions will reach patients faster than traditional treatment processes. Both the patient request and the medical response for the same can be quickly exchanged, together with relevant data support, through smartphones or other wearable digital interfaces – either in the form of voice or text or both. I shall dwell on this later in the article. Thus, digital therapy may not require patients to meet the doctor every time a need arises.

Moreover, fitness and wellbeing Apps do not require marketing approval from a country’s drug regulator. Mostly because, they help monitoring general and generic fitness parameters, capturing some low-risk changes. Whereas, a custom-made prescription digital therapy would necessarily require such regulatory nod.

In tandem, various studies are also being conducted on wearables, such as an Apple Watch, as an interface. The following are examples of some of these studies:

Digital therapy study with Apple Watch as an interface:

In February 2017, Takeda Pharmaceuticals U.S.A. and Cognition Kit Limitedannounced a collaboration to pilot the use of a specially designed app on an Apple Watch wearable to monitor and assess cognitive function in patients with Major Depressive Disorder (MDD).

In November 2017, they presented results from ‘Digital Wearable Technology Study’ in patients with MDD. The observational study involved 30 participants, aged 18-65, with a clinical diagnosis of mild to moderate depression who have been prescribed antidepressant monotherapy for MDD.

The study also evaluated feasibility and participant compliance with measures of mood and cognition on wearable technology; and compared measures of mood and cognition on wearable technology using traditional neuropsychological testing and patient reported outcomes on depression symptoms at 6 weeks. Participants were provided with an Apple Watch on which brief cognitive and mood tests were administered daily.

The researchers observed that patients were compliant with the wearable Apple Watch device on a daily basis to evaluate mood (95 percent) and cognition (96 percent). The study also demonstrated that abbreviated daily assessments delivered through the wearable Apple Watch device corresponded with objective Cambridge Neuropsychological Test Automated Battery (CANTAB) cognitive tests and full-length patient reported outcomes, PHQ-9 and PDQ-D, assessed during weeks 1, 3 and 6. No adverse events were reported in the study.

According to another report, this user interface with Apple’s smart-watch versions 2 and 3 is now being used in a number of studies for chronic conditions, such as Parkinson’s disease – combining biometric data with user input. Again, in February 2017, Johns Hopkins University announced a project to use the smart-watch for research on possible triggers of epileptic seizures.

When used as an interface with prescription digital therapy, the provision of e-SIM and GPS in Apple Watch Series 3, I reckon, would also help patients to immediately communicate with the remote therapy centers using the same device, anytime – as and when the patients want.

Digital therapy initiatives in India:

Initiative on digital therapy has already started rolling in India, as well. Its pace is also quite encouraging. For example, Wellthy Therapeutics is building a patient centric solution for diabetes through digital intervention and management. On February 20, 2018, the Company, reportedly, shared the interim results of an ongoing real-world pilot to evaluate the effectiveness of the Wellthy Diabetes Smartphone App (WD). The results were shared at the 11th International Conference on Advanced Technologies and Treatments for Diabetes (ATTD 2018) in Vienna, Austria.

The data demonstrated how the use of WD improved glycemic control. On completion of 16 weeks, participants showed a reduction in their HbA1c by (-0.61%) on average, with 61.5% of participants having showed significant reduction in their HbA1c with an average of (-1.17%) reduction.

Conclusion:

As indicated in my article titled, ‘Digiceuticals: A Force Multiplier to Contain Chronic Diseases’, published in this blog on October 23, 2017,prescription digital therapies are primarily of two types – one for “medication augmentation” and the other for “medication replacement.”

Be that as it may, prescription digital therapyimproves clinical outcomes for patients by manifold. It also shows potential to take over from traditional treatment with medicines in several serious and virtually crippling ailments, mostly related to human behavior and lifestyle, such as a host of chronic diseases, and without causing any side-effects.

Thus, prescription digital therapy is now a reality. It has come to stay for long – can’t be wished away, any longer.

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 Disruptive Innovation to Fight and Cure Intractable Diseases

Several important facets of health care often arrest general attention. These are also widely discussed, analyzed and argued vehemently – with each person or group trying to justify one’s own point of view. Among these, following 6 critical areas, broadly dominate the deliberations:

  • Incredible advancement in the medical science driving health care,
  • Infrastructure, facilitators and providers of health care,
  • ‘Wolves of health care in sheep’s clothing’, as described by many
  • Large populations facing inadequate availability and access to health care,
  • The need for Universal Health Care (UHC)
  • Public investments, policies and regulations governing health care.

In this article, I shall focus only on the first area – incredible recent advancement in the medical science driving health care, especially the very recent developments on a disruptive innovation called ‘Gene Therapy’.

Gene Therapy:

As some would know, one of the latest developments in the pharma world, relates to marketing approval in the United States and Europe of ‘Gene Therapy’ – a disruptive innovation in the medical science.

This technique of treatment using genes to manage, cure or prevent many intractable diseases are fast gaining ground globally, including India – at a slower pace, though. As I said, in America, the first gene therapy has already obtained the approval of the US-FDA in August 2017, closely followed by the second in October 2017, with the third waiting in the wings. In the European Union (EU), the first gene therapy was approved in 2012, but faced some commercial issues that I shall discuss later in this article.

During approval of the first gene therapy in the United States (US), the FDA Commissioner Scott Gottlieb reportedly said, this new frontier in medical innovation has the ability to reprogram a patient’s own cells to attack a deadly disease, such as cancer, creating an inflection point to treat, and even cure many intractable illnesses.

According to an October 10, 2017 publication of the U.S. National Library of Medicine, gene therapy may allow doctors to treat a disorder by inserting a gene into a patient’s cells instead of using drugs or surgery. Extensive research is ongoing, adopting several approaches to this treatment, including:

  • Replacing a mutated gene that causes disease with a healthy copy of the gene.
  • Inactivating, or “knocking out,” a mutated gene that is functioning improperly.
  • Introducing a new gene into the body to help fight a disease.

Thus, gene therapy is fast emerging as a promising treatment for a number of life-threatening diseases, including inherited disorders, some types of cancer, and certain tough to treat viral infections. That said, the technique being risky, is still under study to make it safer the patients. Currently, it is being tested only for diseases that have no other cures.

The first approval of gene therapy in the United States:

On August 30, 2017, US-FDA took a historic decision with its approval for the first ever gene therapy in America – meeting an unmet need in its true sense, and thus creating a major milestone in medical science. US-FDA approved this treatment for certain pediatric and young adult patients with a form of Acute Lymphoblastic Leukemia (ALL) – resistant to standard treatment, or which often relapses. The overall remission rate within three months of this treatment was found 83 percent in clinical trials.

This path-breaking therapy (tisagenlecleucel) is named Kymriah, and is made by Novartis. Nevertheless, it is worth noting that the treatment was developed by a group headed by Carl H. June  at the University of Pennsylvania and licensed to Novartis.

A customized treatment:

The US-FDA approval letter to Novartis says, “Kymriah is a genetically modified autologous T-cell immunotherapy. Each dose of Kymriah is a customized treatment created using an individual patient’s own T-cells, a type of white blood cell known as a lymphocyte. The patient’s T-cells are collected and sent to a manufacturing center where they are genetically modified to include a new gene that contains a specific protein (a chimeric antigen receptor or CAR) that directs the T-cells to target and kill leukemia cells that have a specific antigen (CD19) on the surface. Once the cells are modified, they are infused back into the patient to kill the cancer cells.”

Nevertheless, Kymriah can cause life-threatening side effects, such as dangerous drops in blood pressure. This has prompted US-FDA to caution that hospitals and doctors should be specially trained and certified to administer this therapy, and require stocking of drugs to control severe reactions, if and when required.

The price tag is jaw dropping:

As  reported by New York Times (NYT), Kymriah will be given to patients just once and must be made individually for each, costing US$ 475,000. Novartis reportedly has said, if a patient does not respond within the first month after treatment, there will be no charge. The company also said it would provide financial help to families who were uninsured or underinsured. This is indeed a commendable gesture.

The second USFDA approval for gene therapy:

Just about a week ago, on October 18, 2017, US-FDA approved Yescarta (axicabtagene ciloleucel) of Kite Pharma Inc. – a Gilead company. This is gene therapy is to treat adult patients with certain types of large B-cell lymphoma who have not responded to or who have relapsed after at least two other kinds of treatment.

Initially, 54 percent of patients on Yescarta reportedly had complete remissions with their tumors disappearing. Another 28 percent had partial remissions, where tumors shrank or appeared less active on scans. After six months, 80 percent of the 101 were still alive.

Just as Kymriah, Yescarta will also reportedly be introduced gradually, and be available only at centers where doctors and nurses have been trained in using it. This is, again, due to its serious side effects, which include high fevers, crashing blood pressure, lung congestion and neurological problems.

As reported, Kite Pharma hopes that Yescarta will eventually be approved for earlier stages of lymphoma, rather than being limited to patients with advanced disease who have been debilitated by multiple types of chemotherapy that did not work.

Yescarta will cost less than Kymriah at US$ 373,000 per patient. This is a single dose treatment to be infused into a vein, and must be manufactured individually for each patient. About 3,500 people a year only in the United States is estimated to be candidates for this therapy.

Yet another gene therapy is likely to get US-FDA approval soon:

Close on the heels of these two developments, yet another gene therapy is likely to get US-FDA approval in the coming months. On October 12, 2017, Spark Therapeutics – a gene therapy company in the United States, reportedly won unanimous support from a US-FDA advisory panel for its gene therapy – Luxturna (voretigene neparvovec), after the experts concluded that the benefits of this gene therapy outweighed its risks.

Luxturna – a one-shot treatment, has shown to reverse blindness by restoring vision in children with an inherited form of blindness, and shows potential to restore blood-clotting function to hemophiliacs, or even cure rare diseases outright. However, as the analysts estimate, the cost of Luxturna will be hefty, which could even be more than Kymriah of Novartis – at US$ 1 million per patient.

The first gene therapy in Europe was not commercially viable:

As stated above, in 2012, the first gene therapy – Amsterdam-based Uniqure’s Glybera (alipogene tiparvovec), was approved by the European Medicines Agency (EMA) for the EU market. The product was indicated for treatment of rare inherited disorder – lipoprotein lipase deficiency (LPLD).

However, with treatment cost of €1m+ per patient, Glybera was reportedly the most expensive therapy ever approved in Europe. Interestingly, in April 2017, Uniqure decided to terminate post-marketing studies required for prolongation of its existing EU conditional market approval, for its extremely limited usage, making the product commercially non-viable.

These four developments give me a sense of both – the fast pace of progress of gene therapy and also its possible commercial vulnerability, due to astronomically high prices coupled with a limited number of current usages linked to the specific disease types.

Gene therapy research in India:

According to the paper titled, “Gene therapy in India: a focus,” published by the Journal of Biosciences in June 2014 – ‘starting from 1998, the Indian government is playing a leading role in the advancement of gene therapy research in India by providing enormous financial support to scientists and clinicians through its various funding agencies like Department of Biotechnology (DBT), Department of Science and Technology (DST), Indian Council of Medical Research (ICMR), etc.’

India is not far behind other Asian countries in the field of gene therapy. In Asia, China is the leader with 16 research laboratories, followed by Japan (13), India (10), South Korea (4), Israel (3) and Taiwan (3), the paper says.

The laboratories established in India to conduct gene therapy research are: Advanced Centre for Treatment, Research and Education for Cancer, Mumbai (1998), University of Delhi (2002), Saha Institute of Nuclear Physics, Kolkata (2004), Indian Institute of Science, Bengaluru (2005), Actis Biologics Private Limited (2005), Mumbai, Center for Stem Cell Research, Vellore (2010), Vellore Institute of Technology, Vellore (2012), Institute of Life Sciences, Bhubaneswar (2012), Narayana Nethralaya, Bengaluru (2013).

Conclusion:

As deliberated above, gene therapy reflects an incredible advancement in the medical science driving health care. This is primarily because, the disruptive innovation is aimed at treating genetic diseases at the molecular level by correcting the defective genes.

The fact, as captured in the worldwide gene therapy data table, that between 1989 and February 2016, over 2,300 gene therapy clinical trials have been conducted – 93 of which being in phase III while 3 in phase IV, further vindicates the rapid pace of evolution of this science.

As stated before, the critical process of this treatment reportedly involves ‘introduction of new genes into cells, to restore or add gene expression, for the purpose of treating disease. Most commonly a mutated gene is replaced with DNA encoding a functional copy. Alternatively, DNA encoding a therapeutic protein drug may be introduced.’ However, the exorbitant current cost of this novel treatment, for various reasons, severely limits its access to a vast majority of the global population, at least for now.

Be that as it may, the disruptive medical innovation culminating into gene therapy of date, is expected to open new vistas of opportunity to fight and cure several life-threatening intractable diseases. This game changing advancement in the medical science, no doubt, would help provide a new lease of life only to some, mostly due to its price barrier. Nevertheless, for many, it does carry a new hope for access to this life changing therapy – probably at some point of time in future. God willing!

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.

 

An Evolving Paradigm of ‘Price-Value Model’ Of Pharma Value Delivery System

May 4, 2016 edition of the ‘MIT Technology Review’ published an interesting article carrying the headline, “The World’s Most Expensive Medicine Is a Bust”.

The obvious question that floats at the top of mind: What is this most expensive drug in the pharma history, and why has it failed commercially, despite being a product of disruptive innovation and a marvel that stands out in the space of contemporary drug innovation? 

The product is called Glybera (alipogene tiparvovec). It heralded the dawn of the “first gene therapy” in the Western world, whose approval helped ignite an explosion of investment and excitement around treatments that correct DNA, as the MIT article said.  

Glybera promises to cure rare inherited diseases with one-time repairs to a person’s DNA. A single dose of gene therapy can change the genetic instructions inside a person’s cells in ways that last many years, or even a lifetime. 

Interestingly, even with this unprecedented product offering, the product has become a commercial flop, due to its staggering million-dollar price tag, which very few patients can afford.

Is this an extreme example of price-value relationship for a new breakthrough pharma product? Yes, of course!  Nevertheless, it makes us ponder on some key fundamentals, afresh, such as:

  • The core purpose of drug innovation
  • The price-value relationship of even breakthrough drugs

The proper understanding of these points comprehensively, especially the above two fundamentals, would enable the drug companies to achieve both, the core purpose of intricate drug innovation initiatives, and also making these medicines commercially successful with increased access to patients, through innovative ‘value delivery’ mechanisms.

I believe, the pharmaceutical industry is now at the threshold of a paradigm shift. The new paradigm would signal a metamorphosis in the price-value equations for all drugs, mostly due to changing socio-political environment, across the world, as we have started witnessing in the topmost free economy of the world – the United States.

Pharma business is a ‘value delivery system’: 

Way back in June 2000, an article published in ‘McKinsey Quarterly’ on delivering value to the customers, deliberated on a 1988 paper of Michael J. Lanning and Edward G. Michaels. The study combines the value-maps developed in the price-value models with the idea of the “business system,” which was introduced in 1980.

The paper titled, “A business is a value delivery system,” emphasizes the importance of a clear, well-articulated “value proposition” for each targeted market segment. This means a simple statement of the benefits that the company intends to provide to each segment, along with the approximate price the company will charge each segment for those benefits. 

Looking at this concept in pharma perspective:

Keeping the above paper in perspective, when we look at the pharma value delivery system, besides the key benefits that a drug offers, one of the most critical value parameter continues to be the financial value.

The healthcare value chain, across the world, has started sharpening its focus on the drug cost today, more than ever before. This is primarily based on the differential value that a drug offers as compared to its closest alternatives. We may like it or not, it is happening irrespective of, whether the drug in question is a breakthrough innovation, or an off-patent high-priced generic medicine.

As I said before, not just in India, the affordability of health care in general, and medicines in particular, is rapidly emerging as a key concern for all developed and the developing nations, including the United States.

Thus, even after careful consideration of all novel product’s benefits and the costs associated with these, the stakeholders’ focus is getting sharper on the overall financial value of the product offerings to the patients. This is reality, and can’t just be wished away by any measure of powerful and expensive advocacy campaigns, together with clever media management. 

The drug companies may continue to crib about it, but this will possibly lead them nowhere, in the long term. Instead, they would require to search for a workable win-win and level headed solution, for this most fundamental business issue.

Understanding the evolving paradigm:

We are fast arriving at this new paradigm. There, the financial value of a drug, in the ‘value delivery system’ of pharma marketing, would occupy the center stage. The drug companies would need to arrive at this financial value, not just by understanding the professional mindset of the doctors and taking them on board somehow, but by properly understanding what would the majority of stakeholders want to pay for a new drug, and then perhaps work backwards to translate that finding into reality. 

Its successful application would soon assume a pivotal role in the pharma value delivery system. A company may contemplate pricing a drug high, limiting its access to a few rich, and still succeed in making its cash register ringing, such as, some new hepatitis C or cancer drugs. Nonetheless, this could ultimately make their overall business socio-politically too vulnerable, and may not be sustainable either, in the long run. 

The same old and current approach does not create a wholesome value for a new drug to most of the customers, despite the company having a state of art ‘value delivery platform’, for unleashing a dazzling marketing blitzkrieg.                                 

The pharma marketing strategy remains unchanged and stale: 

At a time, when a paradigm shift is taking place, especially in the way the entire world views at the price-value equation of a new drug, the overall strategic approach of the pharma marketers, as I see it, still remains in the old paradigm, with its roots firmly entrenched there.

I think it so, because the traditional pharma marketing has always been a unilateral communication process, predominantly involving the doctors, and trying to fathom their needs, wants and professional mindset.

Accordingly, the product value delivery process for the doctors, with or without the medical representatives, is basically woven around those needs, wants and mindsets of the target doctors. It, by and large, continues even today, with some cosmetic changes in tools and formats here or there. 

Therefore, when the basic marketing and communication process aims at effectively delivering the value of drugs, let us discuss briefly what does the core value of a drug mean?

The value of a drug: 

For this purpose, I reckon, it would be prudent to avoid an ethereal approach to arrive at the financial value of a drug, such as, what is the cost of a life, as often raised by many pharma players. A practical approach to resolve this issue would benefit all, in every way.

Without going much into the core purpose of pharma innovation, usually the drug companies define the value of a medicine based on what they think about its attributes. Accordingly, respective players arrive at its financial value, that the patients or the payers must pay for, if they want to have an access to it. 

Usually not many independent studies are conducted by the drug companies to ascertain how much the majority of stakeholders, including the governments, payers and patients, would want to willingly pay for a new drug, after well considering its value offerings.

Competitive Scenario:

The ever increasing, and virtually obsessed focus on drug ‘innovation’, while justifying the high financial value of a medicine for the patients, also restricts competition, especially for newer ones. For most of the patients this situation is a double whammy.

Additionally, the consolidation process within the industry is also fuelling this situation further. The virtual monopoly of a few companies with some new drugs, in key therapy segments, such as, diabetes, cancer, vaccines and HIV, is restricting the overall competitive environment. This would continue.

A September 24, 2014 Article, published in the ‘Insight’ of Bain & Company on the throws some light on the subject. It says, “over the past 20 years, and especially since 2000, building leadership in a category has become a crucial route to success in pharma. Seven of our 10 leading value creators, including Roche in oncology and Novo Nordisk in diabetes care, generated at least 50 percent of their revenues from one therapeutic area or primary care. In two cases – Biogen Idec in neurology and Celgene in oncology – more than 90 percent of revenues came from a single therapeutic area.”

As I said, this process is expected to continue, it is necessary for the drug companies, governments, other payers and the patients understand the new paradigm, and act accordingly to address this issue to protect mutual benefit.

If it does not happen, the evolving socio-political environment, across the world, would occupy the driver’s seat to navigate through this complexity, in the healthcare space in general and pharma in particular, safeguarding the patients’ health interest. 

The core issue:

In the prevailing scenario, the core issue that gets reinforced, yet again, as raised by many, including the World Health Organization (WHO), is the growing inherent conflict between predominantly the profit driven business goals of the pharma players, and the public health interest of a nation.

Possibly for this reason, Dr. Margaret Chan, the Director General of the World Health Organization (WHO), at a briefing to discuss the Ebola outbreak in West Africa at the UN Foundation in Washington on September 3, 2014 said:

“Big Pharma’s greed for profits, not lack of funding, delaying Ebola treatment development.” 

Many countries are now seriously striving to arrive at a middle path to resolve this perennial conflict, India included. The drug companies may wish to take note of it.

I discussed this issue in an article published in this Website titled, “Is The Core Purpose of Pharma Business Beyond Profit Making?” on November 10, 2014.

Conclusion:

As the above ‘McKinsey Quarterly’ paper articulated, the strength of the buying proposition for any customer is a function of the product value minus the price. In other words, the ‘surplus value’ that the customer will enjoy once that product is paid for. As the paper clarified, the “value” in a price-value map will necessarily be informed guesses, though after well-considering multiple variables.

Delivering more of this ‘surplus value’ to patients, willy-nilly, would soon be the name of the game, especially for the winners in both the global and local pharma industry. 

In the entire drug sector, including India, this ‘price-value model’ could help a pharma company ascertain the sustainability of its competitive position, well considering the stakeholders’ perspective, and accordingly take the right business decision.

Thus, proper understanding of the ‘surplus value model’ while pricing a drug, and its immaculate execution through state of the art marketing and communication strategies, will separate the men from the boys, for sustained excellence in the pharma business.

Sans understanding of this ‘price-value model’, which is so important in the evolving new paradigm of a pharma value delivery system, a pharma player would risk getting caught in a tough headwind, especially with new high-priced products. This situation could, in turn, jeopardize its long term success, and even erode the well-earned company reputation, in tandem, at times mercilessly.

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.

An El Dorado…But Not Without Responsible Pricing:The Cancer Segment in India

The affordability issue for cancer treatment has been the subject of a raging debate since quite some time, as the incidence of cancer is fast increasing across the world. Just for example a very recent report highlighted that cancer has now become the greatest health risk in the UK, with an average British boy born in 2010 running a 44 percent chance of being diagnosed with any form of cancer during his lifetime. The risk for a baby girl is slightly lower at 40 percent.

In India too, the problem of affordable cancer treatment has now become the center piece of a fiercer public opinion in the healthcare space, more than even HIV, prompting the Government to intervene in this dreadful disease area and address the problem in a holistic way both in the short and also on a longer term basis. This demand is supported by rapidly growing number of cancer patients in the country.

Out of the total number of new cancer patients globally, India now reportedly ranks third as follows:

Rank Country % Of total
1. China 22
2. USA 11
3. India 7.5

As a consequence, cancer now reportedly accounts for one of the main causes of deaths  in India, which is nearly 19 percent higher than deaths caused by heart diseases.

Number of new cancer patients staggering in India:

Over 60,000 new cases are reportedly diagnosed every year in India and 80 percent of them are at an advanced stage, which involve mostly the middle-aged and elderly population of the country, where affordability is even a greater issue.

Cervical and breast cancers are reportedly the most common, contributing over 26 per cent to the total cancer cases in India, followed by lung, mouth, pharynx, ovarian, pancreatic and esophagus cancers.

Whereas cervical cancer is reportedly most common in females with a mortality rate of nearly 15 per 10,000 females, lung cancer has the highest mortality rate of 28 per 10,000 males.

Incidentally, lung cancer is the most commonly diagnosed cancer even globally. Non-Small Cell Lung Cancer (NSCLC) accounts for approximately 90% of all lung cancers. The primary cause of lung cancer in up to 90% of patients is tobacco and represents one-fifth of all cancer-related deaths in India.

However, to address the havoc caused by this dreaded disease effectively, India will also need to bridge the huge gap of shortfall in disease diagnostic infrastructure in the country.

The humongous access gap for cancer patients needs to be effectively addressed by the Government sooner with Public-Private-Partnership (PPP) for diagnosis and treatment, in tandem with other proactive initiatives like, disease awareness campaigns targeted to ensure greater screening and disease prevention, wherever possible.

‘The Lancet’ finding:

Following are some of the important findings on cancer disease profile in India, as reported in May 12, 2012, edition of ‘The Lancet’:

-       6 percent of the study deaths were due to cancer

-       71 percent cancer deaths occurred in people aged 30—69 years

-       Age-standardized cancer mortality rates per 100,000 were similar in rural and urban     areas but varied greatly between the states, and were two times higher in the least educated than in the most educated adults.

This report further calls for immediate Government intervention in this area.

Growing patients number making ‘Oncology Market’ increasingly attractive:

As stated above, incidence of various types of cancer is rapidly increasing across the world, making oncology segment an ‘El Dorado’ for many pharmaceutical players prompting commensurate investments for product development in this area, be these are new molecules or biosimilars.

Thus, the global turnover of anti-cancer drugs, which was around US$ 50 billion in 2009, is expected to grow to US$ 75 billion in 2013 registering a jaw dropping growth rate in today’s turbulent global pharmaceutical market environment.

World Health Organization (WHO) has predicted over 20 million new cases of cancer in 2025 against 12 million in 2008.

Globally, the segment growth will mainly be driven by early detection, longer duration of treatment and the global ascending trend in the incidence and prevalence of cancer propelled by new treatments and improved access to cancer therapies in many countries.

Indian business landscape:

Oncology segment has now emerged as a leading therapeutic area in the Indian pharmaceuticals market too, being fourth largest in volume and tenth largest in value term, mainly driven by lower priced generic equivalents in volume term.

Despite only a smaller number of patients can afford any comprehensive cancer treatment protocol in India, the demand for cancer drugs in the country, where many drug companies follow various types of unconventional logistics systems to reach these drugs to patients, is increasing at a rapid pace.

Global players namely, Roche, BMS, Pfizer, Sanofi, GSK and Merck reportedly dominate the market with innovative drugs. Whereas, domestic companies like, Natco Pharma, Cipla, Sun Pharma, Dr. Reddy’s Lab (DRL), Biocon and others are now coming up with low price generic equivalents of many cancer drugs.

The fact that currently over 30 pharmaceutical companies market cancer drug in the country, demonstrates growing attractiveness of the Oncology segment in India.

Access to newer cancer drugs:

It has been widely reported that newer cancer therapies have significant advantages over available generic cancer drugs both in terms of survival rate and toxicity.

Unfortunately such types of drugs cost very high, severely limiting access to their therapeutic benefits for majority of patients. For a month’s treatment such drugs reportedly cost on an average US$ 3,000 – 4,500 or Rs 1.64 – 2.45 lakh to each patient in India.

More R&D investments in Oncology segment:

Another study recently published by ‘Citeline’ in its  ‘Pharma R&D Annual Review 2012’ points out, more than half of the top 25 disease areas targeted for R&D falls under cancer therapy. Breast cancer comes out as the single most targeted disease followed by Type 2 diabetes. 

This will ensure steady growth of the Oncology segment over a long period of time and simultaneously the issue of access to these medicines to a large number of patients, if the product pricing does not fall in line with socioeconomic considerations of India.

Cancer drug sales dominated in 2012: 

It is interesting to note that around one-third of the ‘Top 10 Brands in 2012′ were for the treatment of cancer as follows:

Top 10 global brands in 2012

Rank Brand Therapy Area Company Sales: (US$ bn)
1. Humira Rheumatoid Arthritis and others Abbott /Eisai (now AbbVie/Eisai) 9.48
2. Enbrel Anti-inflammatory Amgen/Pfizer/Takeda 8.37
3. Advair/Seretide Asthma, COPD GlaxoSmithKline 8.0
4. Remicade  Auto-immune Johnson & Johnson/Merck/ Mitsubishi Tanabe 7.67
5. Rituxan Anti-cancer Roche 6.94
6. Crestor Anti-lipid AstraZeneca/ Shionogi 6.65
7. Lantus Anti-diabetic Sanofi 6.12
8. Herceptin Anti-cancer Roche 6.08
9. Avastin Anti-cancer Roche 5.98
10. Lipitor Anti-lipid Pfizer/Astellas Pharma/Jeil Pharmaceutical 5.55

(Source: Fierce Pharma)

Responsible Pricing a key issue with cancer drugs:

In the battle against the much dreaded disease cancer, the newer innovative drugs being quite expensive, even in the developed markets the healthcare providers are feeling the heat of cost pressure of such medications, which in turn could adversely impact the treatment decisions for the patients.

Thus, to help the oncologists to appropriately discuss the treatment cost of anti-cancer drugs with the patients, the ‘American Society of Clinical Oncology’ recently has formed a task force who will also try to resolve this critical issue.

In many other developed markets of the world, for expensive cancer medications, the patients are required to bear the high cost of co-payment. This may run equivalent to thousands of U.S dollars, which many patients reportedly find difficult to arrange.

It has been reported that even the ‘National Institute of Health and Clinical Excellence (NICE), UK’ considers some anti-cancer drugs not cost-effective enough for inclusion in the NHS formulary, sparking another set of raging debate.

‘The New England Journal of Medicine’ in one of its recent articles with detail analysis, also expressed its concern over sharp increase in the price of anti-cancer medications, specifically. 

An interesting approach:

Experts are now deliberating upon the possibility of creating a ‘comparative effectiveness center’ for anti-cancer drugs. This center will be entrusted with the responsibility to find out the most cost effective and best suited anti-cancer drugs that will be suitable for a particular patient, eliminating possibility of any wasteful expenses with the new drugs just for newness and some additional features. If several drugs are found to be working equally well on the same patient, most cost effective medication will be recommended to the particular individual.

India should also explore this possibility without further delay.

Indian Government trying to find an answer in CL/NLEM/NPPP 2012:

Going by the recent developments in Compulsory License (CL) area for high priced new and innovative cancer drugs, it appears that in the times to come exorbitant prices for cancer drugs may prove to be loaded with risks of grant of CL in India due to immense public pressure.

It appears from the grapevine that Government may also explore the possibility to include some of the newer cancer drugs under National List of Essential Medicines (NLEM) bringing them under price control in conformance with the National Pharmaceutical Pricing Policy 2012 (NPPP 2012), if not through the provision of pricing of patented drugs.

Thus responsible pricing of cancer drugs assumes huge importance for avoidance of the above unpleasant situation in India.

Cancer drug pricing related developments in India:

As stated above, cancer being the second largest killer in India and the patented cancer drugs being generally expensive, a large Indian pharmaceutical player has been reportedly insisting on the government to allow widespread use of “compulsory licenses” for cancer drugs. About 11 years ago various news reports highlighted that this company broke ‘monopoly ‘ of the multinationals by offering to supply life-saving triple therapy AIDS drug cocktails for under US$1 a day, which is about one-thirtieth the price of the global companies.

In May 2012, this same Indian company named Cipla, significantly reduced the cost of three medicines to fight brain, kidney and lung cancers in India, making these drugs around four times cheaper than the originators, as per the above news report. The company reportedly wants to reduce the prices of more cancer drugs in future.

Prompted by the above steps taken by Dr. Yusuf Hamied, the Chairman of Cipla, many global players have reportedly branded him as an Intellectual Property (IP) thief, while Dr. Hamied reportedly accused them of being “Global Serial Killers” whose high prices are costing many precious lives across the globe.

In the same interview Dr. Hamied said poverty-racked India “can’t afford to divide people into those who can afford life-saving drugs and those who can’t”.

Promising future potential for low cost newer generic cancer drugs: 
 

While R&D initiatives are going on full throttle for newer and innovative drugs for cancer, interestingly over a quarter of the following 15 brands, which will go off-patent in 2013 are for cancer, throwing open the door for cheaper newer generics entry and increasing access to these medicine for a larger population of cancer patients.

Patent expiry in 2013 

Rank Brand Generic name Therapy Area Company Patent Expiry Sales US$ billion (2012)
1. Cymbalta Duloxetine Antidepressant, musculoskeletal pain Eli Lilly/Shionogi Dec 11 4.9
2. Avonex Interferon beta1a Multiple Sclerosis (MS) Biogen Idec Dec 31 2.9
3. Humalog Insulin lispro Anti-diabetic Eli Lilly May 7 2,52
4. OxyContin Oxycodone Pain Perdue August 31, 2.35
5. Rebif Interferon beta-1a Multiple Sclerosis (MS) Merck KgaA Dec 31 2.3
6. Aciphex Rabeprazole Acid-peptic disorder J&J, Eisai May 8 1.93
7. Xeloda Capecitabin
 Cancer Roche Dec 14 1.63
8. Procrit Epoetin Alfa Anemia J&J Aug 29 1.41
9. Neupogen Filgrastim Cancer Amgen, Kirin, Roche, Royalty Pharma Dec 12 1.29
10. Zometa Zoledronic Acid Cancer Novartis March 2 1.26
11. Lidoderm Lidocaine patch 5% Pain-relieving patch Endo Health Solutions/ EpiCept Sep 15 0.918
12. Temodar Temozolomide Cancer Merck, Bayer Aug 31 0.882
13. Asacol Mesalamine Ulcerative Colitis Warner Chilcott, UCB, Zeria Pharma Jul 30 0.891
14. Niaspan Niacin Anti-lipid Abbott, Teva Sep 20 0.835
15 Reclast Zoledronic acid injection Osteoporosis Novartis March 02 0.612

(Source: Fierce Pharma)

A thought:

Initiatives for faster resolution of a pressing issue like providing affordable treatment for cancer should not be put in the back burner of a longer term planning process. The issue is very real, humanitarian, here and now, for all of us. The Government is expected to display some sense of urgency through its expeditious intervention in all the four of the following treatment processes for cancer to make them affordable, if not free for the general population:

  1. Medical intervention and consultation
  2. Diagnostic tests and detection
  3. Surgical procedure and hospitalization
  4. Medicines and chemotherapy

As ‘The Lancet” study mentions, cancer in India is all-pervasive. It has no rich or poor, urban or rural or even any gender bias. It needs to be addressed in a holistic way for the benefit of all.

Conclusion: 

High incidence of cancer in India with even higher mortality rate, coupled with very high treatment cost has positioned this disease area in the eye of a stormy debate for quite some time. The naked fact that a large number of Indian population cannot afford the high treatment cost for cancer as ‘Out of Pocket’ expenditure, has made the issue even more sensitive and socially relevant in India.

Pricing issue for cancer drugs is not just India centric. Even in the developed countries, heated debate on expensive new drugs, especially, in the oncology segment is brewing up for a while. This could possibly assume a much larger proportion in not too distant future.

It is about time for also the private players to come forward and extend support to the Government in a joint endeavor to tame the destructibility and catastrophic effect of this dreaded disease on human lives, families and the society in general. Setting access improving tangible examples through Public Private Partnership (PPP) initiatives, rather than mere pontification of any kind, is the need of the hour.

If it does not happen, soon enough, willy-nilly the concerned players in this area may get caught in a much fiercer debate, possibly with a force multiplier effect, inviting more desperate measures by the Government.

Responsible pricing, for the patients’ sake, of each element of the cancer treatment process will ultimately assume a critical importance, not just for survival and progress of any business, but also to fetch pots of gold, as business return, from the ‘El Dorado’ of ‘Oncology Segment’ of India.

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.