The role of pharmaceutical companies from emerging markets in global health governance

Before turning to the empirical analysis of the role that emerging market companies currently play in global health partnerships, I will briefly explain the data underlying the analysis. Global health partnerships take on a variety of functions, including financing, procurement, product development and capacity-building for companies in low- and middle-income countries. The article looks at the three largest partnerships focusing on the financing of medicines and vaccines, GFATM, Stop TB Partnership Global Drug Facility (GDF), and GAVI, and eight partnerships working on the development of new medicines and vaccines, so called Product Development Partnerships, including Aeras, DNDi, International AIDS Vaccine Initiative (IAVI), Infectious Disease Research Institute (IDRI), Medicines for Malaria Venture (MMV), Programme for Appropriate Technology in Health (PATH)/One World Health (OWH),Footnote ²⁰ Sabin Vaccine Institute (Sabin), and the Global Alliance for TB Drug Development (TB Alliance). In addition, the article looks at a global health partnership aimed at increasing the capacity of pharmaceutical companies from low- and middle-income countries to manufacture vaccines for pandemic influenza, the WHO Global Action Plan for Influenza Vaccines (GAP). The selection of global health partnerships is based on two considerations: (1) their size, which is considered an indicator of their impact on global health;Footnote ²¹ and (2) the availability of data about the corporate partners they work with.

Table 1. Global health partnerships included in this study

Data has been generated from a variety of sources, including annual reports and other publications made available by the global health partnerships and by individual companies; the Global Fund Price and Quality Reporting Tool,Footnote ²² which is a database recording all orders that GFATM has placed with pharmaceutical companies; reports about global health partnerships published by other organisations, such as Policy Cures, the PDP Funders Group, and BioVentures; websites of global health partnerships, partner companies, and international organisations; and articles from the mainstream press and pharmaceutical trade publications.

Data was collected about the number of companies from emerging markets that individual global health partnerships work with as suppliers, research and development (R&D) partners, board members, and funders. Subsidiaries of companies where the parent company is headquartered in a high-income country were not included. In addition, the proportion of companies from emerging markets in the total number of suppliers and R&D partners of global health partnerships was calculated. With regard to data on board membership, the proportion of companies from emerging markets in the total number of board members was calculated. Publicly available data on the funders of global health partnerships was insufficient to conduct the same calculation for the proportion of companies from emerging markets in the total number of funders.

There are some limitations to the data, which have implications for the conclusions that can be drawn from the analysis. Firstly, data on the volumes procured from individual companies has not been collected. This limits the conclusions that can be drawn about the relative importance of individual companies as suppliers of medicines and vaccines. Secondly, comprehensive data on the number of relationships that each global health partnership has with individual companies is not publicly available because of confidentiality clauses covering several agreements.Footnote ²³ This limits the conclusions that can be drawn about the relative importance of individual companies as R&D partners. Finally, data was collected for the time period of January 2010 to September 2013. Yet, data on suppliers, R&D partners, board members and funders had to be taken from different sources, such as websites and annual reports, for example, which cover different time periods. The information on individual global health partnerships published in this article therefore cover slightly different periods within the last three years.

Emerging market companies as partners for innovation

The proportion of emerging market companies among corporate R&D partners of global health partnerships is not as high as among their suppliers. In most global health partnerships studied here it varied between approximately 10–30 per cent. IAVI and the TB Alliance did not have R&D collaborations with emerging markets companies. A study by the PDP Funders Group suggests that the role of emerging markets companies as R&D partners has increased significantly since 2007.Footnote ²⁷

Table 2. Developing countries biopharmaceutical companies' involvement in global health partnerships

IDRI lists six companies from emerging markets as R&D partners out of 18 corporate collaborators (33 per cent) overall. Four of the six are from India.Footnote ²⁸ MMV works with 62 pharmaceutical companies on R&D, seven of which are from emerging markets (11 per cent), with three from China, three from India, and one from Russia.Footnote ²⁹ According to Aeras annual report 2010, three out of a total of 15 industry partners were from emerging markets (20 per cent), with one from China, one from India, and one from Korea.Footnote ³⁰ In 2012, Aeras announced it had started to work with another Chinese biotechnology company.Footnote ³¹ DNDi lists five companies from emerging markets as collaborators out of 24 corporate partners overall (21 per cent); two of them are from India and the others from Brazil, Colombia, and Tanzania.Footnote ³² The Sabin Institute lists five corporate R&D partners on their website, three of which are from emerging markets (60 per cent), with two from Brazil and one from Mexico.Footnote ³³ In addition, the PDP Funders Group reports collaboration between Sabin and the Chinese company Frontier Biosciences.Footnote ³⁴

PATH and OWH are affiliated institutions but they provide separate data on their corporate R&D partners. OWH lists ten collaborators from the biopharmaceutical industry on their website, two of which (20 per cent) are based in India.Footnote ³⁵ According to the PDP Funders Group, OWH had research and development agreements with three companies from China and India,Footnote ³⁶ two of which are not listed on the OWH website. PATH does not provide an overview of corporate R&D partners but a look at PATH's various product development programmes suggests that emerging markets companies play an important role. According to John Boslego, director of PATH's vaccine development program, the organisation has expanded collaboration with emerging market companies in recent years.Footnote ³⁷ In the Meningitis Vaccine Project, an Indian company was chosen as the manufacturer of the new vaccine.Footnote ³⁸ In the area of pneumococcal vaccine development, PATH mentions six collaborators from the biopharmaceutical industry, two of which are from emerging markets, China and India.Footnote ³⁹ For its work on a life rotavirus vaccine, PATH mentions collaboration with three biopharmaceutical companies, all of which are from China and India.Footnote ⁴⁰ PATH is also providing technical assistance to a Chinese biotechnology company for production of oral polio vaccine.Footnote ⁴¹ For its Malaria Vaccine Partnership, PATH lists six collaborators from the biopharmaceutical industry, two of which are based in India.Footnote ⁴²

As mentioned above, the TB Alliance did not collaborate with biopharmaceutical companies from emerging markets. In 2007, however, it worked with the Indian company Lupin on two drug candidates for tuberculosis.Footnote ⁴³ There also seems to be some interest in the growing R&D potential of China. In 2011, the TB Alliance signed a Memorandum of Understanding with the International Scientific Exchange Foundation of China to establish a Global Health R&D Center.Footnote ⁴⁴ Like the TB Alliance, IAVI did not have any R&D collaborations with pharmaceutical companies from emerging markets.Footnote ⁴⁵ Yet, IAVI's Innovation Fund has provided grants to two emerging markets companies out of a total of 15 grantees, one from India and one from South Africa.Footnote ⁴⁶ IAVI's Innovation Fund was established to harness early stage technology in AIDS vaccine development, and to support companies in proof of concept work, which is important to attract commercial investors.

Capacity-building is the focus of the WHO GAP, which WHO has been implementing in collaboration with governments and pharmaceutical companies since 2006. GAP supports vaccine companies in emerging markets in order to increase the global supply of influenza vaccines. Companies in 11 countries, notably Brazil, Egypt, India, Indonesia, Iran, Korea, Mexico, Romania, Serbia, Thailand, and Vietnam, have received grants so far. The grants are awarded under the condition that, in the case of a pandemic, the companies sell 10 per cent of their vaccine production to United Nations agencies for distribution in low- and middle-income countries.Footnote ⁴⁷ An important contributor to the GAP has been the US Biomedical Advanced Research and Development Authority (BARDA). BARDA manages the procurement and advanced development of medical countermeasures for chemical, biological, radiological, and nuclear agents, and for emerging infectious diseases on behalf of the US government. Since 2005, the US has provided more than US $50 million to advance influenza vaccine development in low- and middle-income countries.Footnote ⁴⁸ The funding has been channelled primarily through GAP. In 2009, BARDA established a US $7.9 million cooperative agreement with PATH to support the final developmental processes for an influenza vaccine at a Vietnamese manufacturer.Footnote ⁴⁹ The considerable engagement of the US in these global partnerships suggests that the government believes it can best protect its population from future influenza pandemics by intercepting them in the countries that they likely to spread in first, namely low- and middle-income countries.

Emerging market companies: Partners in policy implementation – but not policy design

Let us turn first to the rise of emerging market companies as partners in the implementation of access policies. In the last 15 years, the fight against specific diseases, notably HIV/AIDS, malaria, tuberculosis, neglected tropical diseases, and pandemic influenza, has emerged as a key feature of global health governance. With it has come a focus on access to medicines and vaccines as a key policy goal. This focus is manifest at both the discursive and the institutional levels of global health governance.

With regard to HIV/AIDS, the Declaration of Commitment on HIV/AIDS passed by United Nations General Assembly in 2001Footnote ⁵⁴ made access to medication for HIV/AIDS and the development of a HIV vaccine a key goal of global health governance. The Declaration recognises ‘that access to medication in the context of pandemics such as HIV/AIDS is one of the fundamental elements to achieve progressively the full realization of the right of everyone to the enjoyment of the highest attainable standard of physical and mental health’.Footnote ⁵⁵ In addition, the Declaration commits to ‘increase investment in and accelerate research on the development of HIV vaccines’.Footnote ⁵⁶ In the following years, a consensus emerged that global access to ARV treatment was possible.Footnote ⁵⁷

In the area of neglected tropical diseases, a roadmap by WHO in 2012 identifies preventative chemotherapy, that is, the delivery of medicines, as the key global governance strategy to tackle these diseases.Footnote ⁵⁸ The roadmap was endorsed by a stakeholder group comprising representatives of governments, the pharmaceutical industry and global health partnerships in the London Declaration on Neglected Tropical Diseases. The first three of the Declaration's seven commitments are about access to medicines. The Declaration's ‘endorsers’ commit to contribute to: (1) ‘Sustain, expand and extend programmes that ensure the necessary supply of drugs and other interventions to help eradicate Guinea worm disease, and help eliminate by 2020 lymphatic filariasis, leprosy, sleeping sickness … and blinding trachoma’; (2) ‘Sustain, expand and extend drug access programmes to ensure the necessary supply of drugs and other interventions to help control by 2020 schistosomiasis, soil-transmitted helminthes, Chagas disease, visceral leishmaniasis and river blindness (onchocerciasis)’; and (3) ‘Advance R&D through partnerships and provision of funding to find next generation treatments and interventions for neglected diseases’.Footnote ⁵⁹

In the area of pandemic preparedness, the EU adopted a Decision on Serious Cross-border Threats to Health in 2013, and the EU Health Commissioner highlighted, ‘[t]he next milestone for health security under this legislation is the Joint Procurement Framework Agreement … Under this agreement, Member States can … purchase, together, vaccines and other medical countermeasures needed to fight a cross border health threat. This is to ensure that all Member States, big and small, are able to secure vaccines and other medicines for their people and under better conditions than in the past.’Footnote ⁶⁰ Similarly, the Global Action Plan for Influenza Vaccines of the World Health Organization (WHO) emphasises that ‘[i]nfluenza vaccine development and deployment are critical elements of pandemic influenza preparedness.’Footnote ⁶¹

The focus on widening access to pharmaceuticals as a key policy goal in global health governance has become manifest also at the institutional level. Many organisations that make up the organisational landscape of global health governance today are mandated with the financing, procurement and development of pharmaceuticals, and most of them have been created in the period since the late 1990s.

Concerted global efforts to make pharmaceuticals more widely available, especially in low- and middle-income countries, are a relatively new phenomenon. Prior to the late 1990s, international health policies focused largely on coordinating national activities for the events of infectious disease outbreaks and technical guidance through WHO.Footnote ⁶² Perhaps the most important precedent for a global mobilisation of resources to make pharmaceuticals widely available in low- and middle-income countries is the smallpox eradication programme. Between 1967 and 1979, vaccines were procured and supplied to endemic countries with the help of funding from WHO and especially its largest donor the US.

In order to conceptually grasp the recent focus on widening access to pharmaceuticals in the field of health security policy, Elbe, Roemer-Mahler, and LongFootnote ⁶³ draw on the concept of ‘pharmaceuticalisation’. This concept had originally been developed by sociologists and anthropologists to highlight the proliferation of pharmaceuticals in various areas of social life.Footnote ⁶⁴ While much of this literature focuses on how the pharmaceutical industry drives pharmaceuticalisation, Elbe et al. apply this concept to investigate government responses to the emergence of bioterrorism and pandemic preparedness as security issues. The authors find that a key element of governments' responses to these new security threats has been the development of medicines and vaccines as ‘medical countermeasures’ and the stockpiling of existing pharmaceuticals. Governments, they argue, are important drivers of pharmaceuticalisation in the field of security because they incentivise the commercial development of medicines and vaccines by providing funds, granting legal protections for pharmaceutical companies, introducing emergency use procedures, and developing systems for mass drug administration. Such incentives are necessary because profit-oriented companies are reluctant to invest in products that may never be needed and for which the number of potential buyers are limited to a few governments.

Pharmaceuticalisation is a useful concept for the present study because it helps understand the role that pharmaceutical companies, in general, and emerging market firms, in particular, have obtained in global health governance in the last 15 years. The concept highlights that during this period global health has become strongly associated with the pharmaceutical treatment and prevention of specific diseases. It points out that, like in the field of security policy, the recent policy shift has been accompanied by efforts to widen access to pharmaceuticals and led to a set of institutional and policy responses aimed at incentivising their development and production, such as grants, technology transfer, advance market commitments, and pooled procurement, for example. Such incentives are required for similar reasons as in the field of security and medical countermeasures: commercial market demand and, hence, profit margins are low.

The concept of pharmaceuticalisation highlights a set of social and policy dynamics that promote a dependency of societies and governments on pharmaceutical products and, hence, companies. Pharmaceuticals are developed and produced largely in the private, for-profit sector. Hence, by making access to drugs and vaccines a key focus of policy, governments and global health partnerships have made themselves dependent on commercially operating pharmaceutical companies to enable the implementation of this policy. Moreover, in order to be able to provide ‘universal’ access, they depend on commercially operating companies to supply drugs and vaccines at extremely low prices.

Initially, governments, global health partnerships and advocacy groups had approached the world's ‘big pharma’ companies – large European and US companies – as potential suppliers and development partners.Footnote ⁶⁵ These companies were already producing many of the required medicines and vaccines and had the financial and technological capabilities to develop new products. Yet, big pharma companies have shown limited interest in engaging in global health partnerships and supplying medicines and vaccines at such low price levels.Footnote ⁶⁶ Opportunity costs are high, profit margins comparatively low, and demand is often difficult to forecast.Footnote ⁶⁷ There is some evidence to suggest that big pharma companies have substantially invested in partnerships for pharmaceutical development particularly when these investments could be linked to the repurposing of existing products and/or the opening of markets of commercial interest to these companies.Footnote ⁶⁸

As a result, governments and global health partnerships have increasingly turned to pharmaceutical companies from emerging markets, particularly from India. The Indian pharmaceutical industry has long been the fastest growing pharmaceutical industry in emerging markets, and Indian companies had early on developed the technological capabilities to produce many of the medicines and vaccines required by global health partnerships. Furthermore, until 2005, Indian companies operated under a national intellectual property regime that prevented the patenting of pharmaceutical products.Footnote ⁶⁹ Finally, Indian manufacturers were able to supply at prices far below those of big pharma companies.Footnote ⁷⁰

Until recently, however, they did not have the technological and financial capabilities to develop new products. This, however, is changing. In the past decade, the innovative capabilities of companies from emerging markets, particularly Brazil, China and India, has increased substantially.Footnote ⁷¹ While innovation currently tends to be incremental rather than for entirely new molecules,Footnote ⁷² a study on the health biotechnology sectors in Brazil, China, and India identified 165 innovative products within 41 domestic firms in these countries.Footnote ⁷³ Indian companies had the largest share of innovative products with 55 per cent, followed by Chinese firms with 29 per cent, and Brazilian firms with 16 per cent of the total number of products identified.Footnote ⁷⁴ As a result, governments and global health partnerships have recently intensified collaboration for pharmaceutical development with emerging market producers.

The pharmaceuticalisation of global health governance and the price pressure resulting from the goal to achieve ‘universal’ access has been a key driving force for governments and global health partnerships to turn to pharmaceutical companies from emerging markets as partners for the supply of existing and the development of new medicines and vaccines. Yet, why have these companies invested in these products given extremely low prices and profit margins? While companies from emerging markets are as heterogeneous as companies from high-income countries, and generalisations are therefore difficult, research in International Business has found that companies from emerging markets tend to differ from companies from high-income countries in a variety of ways that may be relevant for this question. Scholars researching the internationalisation strategies of emerging markets companies have argued that their investment decisions can often be explained better by how investments contribute to the capability-building process of the firm than by calculations of short-term returns.Footnote ⁷⁵ For pharmaceutical companies from emerging markets, access to technology and expertise appears to be of particular importance to build capabilities in areas such as manufacture, scale-up, regulation, and international market penetration.

A Brazilian biotech entrepreneur, who is cited by Rezaie and colleaguesFootnote ⁷⁶ argued that ‘the increasing attention to neglected diseases by prominent nonprofits … presents Brazilian SMEs [small and medium-sized companies] with an ideal opportunity to build up their international linkages’. A study on Indian biotech companies found that ‘firms are interested in working with [global health partnerships] for access to their expertise and resources in tackling global health issues’.Footnote ⁷⁷ The Developing Countries Vaccines Manufacturers Network (DCVMN), an alliance of 27 vaccine producers from 14 low- and middle-income countries, names ‘strengthening and enhancement of technology … encourage[ing] continuation of research and development efforts … and facilitate[ing] innovative models of ownership of health related intellectual property’Footnote ⁷⁸ as key aims of the Network. Indeed, when DCVMN was founded in 2001, ‘[i]t was hoped … that GAVI would support the Network by “push” mechanisms such as facilitating access to technology’.Footnote ⁷⁹ With regard to the involvement of the Indian vaccine company Serum Institute of India (SII) in a public-private partnership for the development of a new meningitis vaccine, scholars have found that access to a new technology for vaccine manufacture, namely conjugation technology, was was an important consideration for SII's decision to manufacture the vaccine at the low price of US $0.5 per dose.Footnote ⁸⁰

Collaboration with global health partnerships as a means to access new technologies is a strategy that has been observed also in a study on Chengdu Biological Products, a large public-sector vaccine manufacturer in China. The authors find that collaboration with PATH ‘provided Chengdu with much vaccine production hardware and software that they would not ordinarily have, and thus gives them an advantage on the international market, even if they cannot control the sales price’.Footnote ⁸¹ Scholars researching the growing market for generic ARVs for HIV/AIDS in the early 2000s found that the creation of new markets by humanitarian groups, such as Médecins Sans Frontières, and international financing organisations, such as GFATM, was an important factor in the decisions of Indian companies to supply the drugs at low prices because it increased volumes and improved the predictability of the market.Footnote ⁸²

Finally, research suggests that differences in ownership structure between companies from high-income countries and companies from emerging markets may influence investment decisions. It has been argued that the prevalence of state- and family-ownership among emerging markets companies may make decisions in favour of long-term and less secure investments more likely than the shareholder model of corporate governance and financing that is prevalent among most big pharmaceutical companies from high-income countries. In their study of the Indian biopharmaceutical sector, Wilson and Rao report that ‘[s]everal firms told us that they could consider products that had only modest markets as long as they thought they would be able to at least cover costs; this attitude may reflect the freedom conferred by being privately held (as opposed to publically traded) or … state-owned [companies]’.Footnote ⁸³

The increasing involvement of emerging market companies as suppliers and R&D partners of global health partnerships may therefore be explained by a combination of a policy shift in global health governance towards greater pharmaceuticalisation and a set of internal and external factors that can create a more compelling business case for emerging market companies to produce at low-profit margins than for big pharma firms from Western Europe and the US. In light of the significant role that pharmaceutical companies from emerging markets play as suppliers and R&D partners, their weak representation on the governing boards and among the funders of global health partnerships is puzzling, however.

An explanation may be found in the history of global health partnerships. The ideas and values underlying the rise of public-private partnerships as instruments of governance are based on neoliberalist notions of the role of the state as facilitator, rather than provider, of social policies,Footnote ⁸⁴ and changing conceptions of the relations between public and private,Footnote ⁸⁵ both of which have their roots in Anglo-Saxon schools of thought.Footnote ⁸⁶ Representatives of high-income countries tend to be significantly more numerous on the governing boards and among the funders of global health partnerships than representatives from low- and middle-income countries, not only with regard to representatives from the business sector. Among the global health partnerships analysed here, only the governing board of GAVI shows an equal balance of representatives from high-income countries and low- and middle-income countries. At GFATM and DNDi, approximately one third of board members are from low- and middle-income countries. On the governing boards of the remaining global health partnerships, representatives from low- and middle-income countries make up between 0 per cent and 18 per cent.

Kent Buse and Andrew Harmer trace the under-representation of low- and middle-income countries in global health partnerships back to the early days of their creation. They find that the partnership model was promoted by a small group of individuals and organisations ‘from wealthy, middle-class socio-economic groupings; none were African, indeed all but one were “white”, and only four were female’.Footnote ⁸⁷ The politics and power dynamics inherent in global health partnerships are evident also in the tension between the terminology of ‘global’ health partnerships and the actual direction of most of their efforts towards low- and middle-income countries. Similarly, there is a mismatch between the absence of emerging market companies on the governing boards of global health partnerships and the language used by many of these organisations, which describes these companies as ‘partners’.

Despite the emergence of pharmaceutical companies from low- and middle-income countries as key suppliers and R&D partners, global health partnerships seem to still be embedded in the power relations of an aid-based model of global health governance.Footnote ⁸⁸ The question why these dynamics persist goes beyond the scope of this article, but it is an important one. While board representation and provision of financial resources do not automatically guarantee influence,Footnote ⁸⁹ they certainly can open doors and generate access to information that is important to influence policy.