(i) IPRs and Access to Health: Tensions and Debates

IPRs, including patents, can act as a double-edged sword in the health innovation context: ²⁰ On the one hand, the exclusive rights offered by patents (and other IPRs) can incentivize the development of health technologies. ²¹ For example, a patent must be granted for a minimum of twenty years in World Trade Organization states. ²² Where granted, a patent enables the rightsholders to exclude others from various aspects of using the patented technology for commercial purposes (such as making, supplying, selling that technology, etc.) without the rightsholders’ permission. Accordingly, patents provide rightsholders the ability to derive an income stream from a technology. For instance, patents can be licensed for use by third parties for monetary or other return. Moreover, patents (and other IPRs) are increasingly discussed as assets or collateral in themselves,Reference Kang, Birch and Muniesa ²³ used to attract investment and loans.Reference Kang ²⁴ Furthermore, various types of IPRs — such as patents, copyrights, trade secrets, etc. — are often used over different elements of technologies, including health technologies, in an overlapping manner to maximize the IP protection rightsholders have.Reference Gurgula ²⁵

However, alongside this incentivization role of IPRs, the exclusive nature of IPRs enables rightsholders to hold a governance function over patented technologies.Reference McMahon ²⁶ Rightsholders can control key aspects of who has permission to use their patented technology, including to make the patented medicine, and who can use such patented technologies (for commercial purposes) in other products (including, where needed, for other health technologies). Accordingly, rightsholders can use patents (and other IPRs) in a way that enables them to dictate what actors (including states) can access a patented technology first, including in cases of limited supply, such as during health emergencies. ²⁷ Using a patented technology without the rightsholders’ permission, aside from some exceptions, ²⁸ could lead to patent infringement litigation, which can act as a deterrent for unauthorized production/replication of patented technologies. Patents (and IPRs) can enable rightsholders to hold a monopoly role over the technology. For example, by refusing licenses to other parties, rightsholders may become the sole provider of a technology, which can limit supplies and enable them to exert higher prices. This can impact access to health technologies, particularly in cases of global demand for health technologies such as during pandemics.Reference ‘t Hoen ²⁹ In such cases, in many instances under the current system, as will be discussed below, LMICs with limited economic powers/resources are likely to fall behind HICs in gaining access to such health technologies.

Such issues have been exacerbated in the thirty years since the commencement of the TRIPS Agreement in 1995 (adopted in 1994 and commenced on January 1, 1995).Reference Yu, Reynolds, Mogyoros and Dagne ³⁰ Amongst other provisions, article 27 of TRIPS provides that patents must be made available in all fields of technology, which includes the health field. Prior to the TRIPS Agreement, WTO states could tailor national systems including, for example, by abolishing patents over certain fields where needed for national economic or health needs. However, post-TRIPS this is not possible for TRIPS Contracting States — and as TRIPS is required for participation in the WTO system, all WTO states must abide by the TRIPS Agreement. The TRIPS Agreement contains several “flexibilities,” including provision for states to adopt compulsory licenses (CL) where needed in a range of contexts. States’ ability to use such “flexibilities,” including in public health contexts, was confirmed by the Doha Agreement (2001). ³¹ Nonetheless, significant limitations remain around the balance between IPRs and health in terms of such flexibilities and how they operate in practice in such contexts.Reference Matthews ³² A detailed examination of such limitations is beyond the scope of this article; however, reflecting further on the COVID-19 context illustrates some of the challenges relating to IPRs and public health, particularly in health emergency contexts.

(ii) COVID-19: IPRs & Individualized Approaches to the Distribution of COVID-19 Health Technologies

During the COVID-19 pandemic, a significant gap emerged between HICs and LMICs around access to COVID-19 health technologies, including vaccines. A key factor contributing to this was how IPRs operated over elements of such technologies. If we consider, for example, COVID-19 vaccines, from the early stages of COVID-19 being declared a pandemic (March 2020) by the World Health Organization (WHO), there was a global race to develop vaccines that would be safe and effective against COVID-19.Reference Cross ³³ During that early phase of the pandemic, concerns grew around to what extent a vaccine — if developed — would be available in all countries globally, particularly for LMICs. In 2020, issues arose around access to diagnostics and therapeutics against COVID-19, with several instances whereby once a therapeutic was seen as having potential against COVID-19, the majority of supplies of that therapeutic were often purchased by a HIC(s), with limited supplies remaining for other countries. ³⁴

Against this backdrop, on October 2, 2020, with increasing concerns that LMICs would be left behind in terms of access to vaccines and other health technologies, a group of LMICs led by India and South Africa put forward a proposal to waive IPRs over COVID-19 health technologies. ³⁵ This proposal stated that:

This original waiver proposal was supported by a significant number of LMICs and other groups; however, ultimately, it met with limited success during the pandemic. ³⁶ It was met with significant opposition from HICs. Eventually a much-watered-down version of a waiver was agreed on June 2, 2022 (hereafter referred to as the QUAD outcome text). ³⁷ However, the adopted QUAD outcome text shows limited resemblance to the original waiver proposal. For instance, it did not apply to all IPRs. It only applied to patents, it also only applied to COVID-19 vaccines, and was only applicable in limited circumstances.Reference ‘t Hoen ³⁸ Moreover, the QUAD outcome text was adopted nearly two years after the original waiver proposal was published, despite the fact that this original proposal was put forward during a global pandemic. Other voluntary initiatives to encourage the sharing of IPRs and technology transfer over COVID-19 vaccines (and other health technologies) also met with limited, if any, success during the pandemic.Reference Contreras ³⁹ For example, the WHO COVID-19 Technology Access Pool (C-TAP), which was established in the spirit of solidarity, aimed to set up mechanisms for the voluntary sharing of IPRs and facilitation of technology transfer to enable a rapid scale-up of COVID-19 technologies given the health emergency. Yet C-TAP had limited success during the pandemic, and a key obstacle was limited interest/support from rightsholders in participating in C-TAP, including in the COVID-19 vaccine context, ⁴⁰ and lack of support from HICs. ⁴¹

Indeed, even prior to when the first COVID-19 vaccines were approved for use (the first vaccine was administered in January 2021 in the UK),Reference Cave and McMahon ⁴² HICs had already negotiated advance purchase agreements with the relevant rightsholders to obtain several doses of approved vaccine(s) for each member of their national population. ⁴³ As vaccines started to become available in HICs, many LMICs waited for supplies via the COVAX system, which experienced significant difficulties in obtaining vaccine supplies during the early stages of the pandemic.Reference Usher ⁴⁴ Effectively, commitments for multiple doses of vaccines per population were obtained by HICs in many cases, whilst LMICs had to wait for any supplies to provide first doses to their populations, including healthcare workers in LMICs.Reference Rutschman ⁴⁵ The resulting vaccine inequity between HICs and LMICs was criticized widely during the pandemic, including by the WHO.Reference Ghebreyesus ⁴⁶ In January 2021, Dr Tedros Ghebreyesus, WHO Director General, stated that the inequity emerging put the world on the brink of a “catastrophic moral failure.”Reference Farge ⁴⁷

IPRs were not the only factor that impacted the distribution and scaling up of COVID-19 vaccines during the pandemic. ⁴⁸ However, IPRs were a key element of this. Moreover, IPRs were a key factor that enabled HICs to secure greater doses than LMICs. Such IPRs enabled rightsholders to act as key private governance actors allowing them to control key elements of the distribution of patented technologies (or other IPRs), whilst contracts were then used by rightsholders to specify the terms of such distribution. ⁴⁹ Moreover, vaccines and other health technologies are typically protected by multiple patents and other IPRs.Reference Gaviria and Kilic ⁵⁰ Hence, permissions from multiple rightsholders, and relevant know-how, may be needed in such contexts to produce such vaccines.

Furthermore, the existence of TRIPS flexibilities, including compulsory licenses (CLs), had limited effects in alleviating such IPR issues during the pandemic.Reference Van Zimmeren and Van Overwalle ⁵¹ As discussed extensively elsewhere, whilst some states modified national laws to facilitate use of such flexibilities and other emergency powers,Reference Greene ⁵² in practice, CLs have significant limitations to address access to vaccines issues during pandemic contexts. ⁵³ These include the fact that many CLs operate in contexts where national requirements for the issuance of the CL may be bureaucratic and time-consuming, states may fear backlash or sanctions related to the use of CLs, and these must typically be applied for individually in each state. Relatedly, CLs only apply to patents and do not apply to other IPRs that will be applicable over emerging health technologies.Reference Gurgula and McDonagh ⁵⁴ Furthermore, although the Doha Declaration (2001) reiterated states’ ability to use CLs or other flexibilities in TRIPS to address health needs, including, but not limited to, health emergency contexts, ⁵⁵ difficulties remain in using such flexibilities.

The inequity which arose around lack of supplies of COVID-19 vaccines and other health technologies which LMICs could obtain during the pandemic had significant effects. For example, it is estimated that the vaccine inequity likely caused many excess deaths during COVID-19.Reference Moore ⁵⁶ Moore et al. (2022) used global modelling to examine the likely impact of the global inequity and attempts to address this during the pandemic, and they argued that: ⁵⁷

Indeed, evidence suggests that not only did global vaccine inequity likely lead to many excess deaths globally, the approach, which prioritized national vaccine allocation over global distribution, was also potentially contrary to ideal public health strategies around tackling the pandemic at a global level. This is because scientific evidence suggests that leaving areas without vaccine coverage — or with limited vaccine coverage, as happened in many LMICs during COVID-19 — has the potential to increase the risks of a new strain of COVID-19 emerging; such new strains could have been resistant to existing vaccines, and hence, this could have placed the global response to COVID-19 at risk.Reference Gupta ⁵⁹ In 2022, based on research using a multi-strain metapopulation model and COVID-19, Ye et al. argued that:

Similarly, Moore et al. stated in their 2022 article that:

Thus, our recent experiences from the COVID-19 pandemic illustrate the need for rapid global responses to the scaling up of vaccines (and other pandemic health technologies) and, critically, the need for such vaccines to be distributed based on global health needs. Looking to future pandemics, based on their findings, Moore et al. (2022) argued that: “The message for any emerging outbreak is clear: distributing vaccines across the globe proportional to need, rather than to wealth, will have beneficial effects for all.” ⁶²

At this juncture, it is important to turn to considering future pandemic preparedness measures and the extent to which such lessons have been embedded in these measures in the context of provisions relating to IPRs and access to pandemic technologies within the recently adopted WHO Pandemic Agreement.

(i) Preamble, Principles & Aims

First, it is useful to consider the spirit and aims of the agreements by comparing the preamble of the Zero Draft treaty text with the WHO Pandemic Agreement (May 2025) text. There were several references to the benefits and the potential impacts of IPRs on access to health technology within the first Zero Draft text, including under recitals 40-42, which recognized various elements, including the potential negative impacts of IPRs on the prices of health technologies, alongside recital 43, which stated that:

In contrast, the WHO Pandemic Agreement (May 2025) has limited references to the potential adverse implications of IPRs on access to health technologies, having removed the broader statements around this contained in the earlier drafts. Recital 16 states:

This contrast between the preamble texts of both versions could be seen as suggesting a change of focus and ambition around IPRs. Furthermore, whilst changes in international treaty language are to be expected between the first draft and adopted final text, given the context of COVID-19 and the need for collective action it highlighted, it raises uncertainty around how potential obstacles posed by IPRs and access to health technologies will be addressed in future pandemic preparedness initiatives.

Alongside the preamble to the text, in terms of key principles within the adopted WHO Pandemic Agreement (May 2025) text, there are several references to the importance of “equity” in pandemic preparedness. For example, article 3(4) states that:

This provision suggests a commitment to equity within the Agreement; however, it is not clear how “equity” will be defined or implemented in this context, and only time will tell how effective this provision will be. Moreover, whilst a full examination of the proposed Pathogen Access and Benefit Sharing System (PABS) set out in the Pandemic Agreement (May 2025) is beyond the scope of this article, in terms of global distribution under article 12, there is a requirement that participating manufacturers make available to the WHO 20% of their vaccines, therapeutics and diagnostics, with 10% needed to be made available to the WHO as a donation and the remainder reserved at affordable prices to the WHO. Including a required minimum amount for donation is welcome; however, 20% is a relatively limited amount, with only 10% offered as a donation in such contexts.

(ii) Provisions on Access to Technology: IPRs and Technology Transfer

Turning then to specific provisions related to IPRs and technology transfer, article 7 of the Zero Draft text was entitled “Access to technology: promoting sustainable and equitably distributed production and transfer of technology and know-how.” Article 7(4)(a) stated that:

There is no reference to a waiver of IPRs in the adopted WHO Pandemic Agreement (May 2025) text. Having said this, article 11(3) of the adopted text states that:

The reference to time-bound measures under article 11(3) provides an explicit acknowledgment that states can decide on temporary measures, which could potentially include waivers of IPRs if “necessary” to increase access, etc., to health technologies. However, the lack of reference to waivers or to IPRs in this context means states would have to exercise their discretion to adopt these. Moreover, the reference to waiver of IPRs under article 7(4) of the Zero Draft, although not without limitations, ⁷⁶ was framed more akin to an obligation on states, who in the event of a pandemic “will take appropriate measures to support time-bound waivers of intellectual property rights…” [Emphasis added]. In contrast, article 11(3) of the adopted WHO Pandemic Agreement (May 2025) text states “The Parties shall cooperate, as appropriate, with regard to time-bound measures…” [Emphasis added]. The use of the term “shall cooperate” together with the term “as appropriate” suggests considerable leeway for states in this context. Much may depend on whether and to what extent such actions are seen as “appropriate” and in what contexts, and what is considered “cooperation” in this context.

Article 7(4)(c) of the Zero Draft text stated that:

There is no explicit reference to a waiver of royalties in the WHO Pandemic Agreement (May 2025 text). Article 11(1)(d), however, provides that states should encourage rightsholders (of relevant patents or licenses for pandemic-related health products) to “forgo or otherwise charge reasonable royalties in particular to developing country manufacturers during a pandemic emergency,…” Nonetheless, this wording limits the effect of this provision, as it presents an option to either forgo or charge reasonable royalties. It is not clear how “reasonable” royalties would be determined in such contexts, and even if a royalty appears reasonable for a HIC this may be more than what could be afforded by LMICs. If the current IPR model applies, there is also likely to be limited incentives for rightsholders to offer such technologies to LMICs at lower prices than they may be able to obtain from HICs in cases of global shortages.

In this context, the general text of article 11(1) of the WHO Pandemic Agreement (May 2025) on technology transfer and “cooperation on related know-how for the production of pandemic-related health products” is useful to consider in full. It states that:

The obligations under article 11(1)(a), (d), and (e) are framed as obligations on states to “promote” and “encourage,” which may have limited teeth in practice. Moreover, the language used in article 11(1)(b) is more onerous as it provides that states would “take measures to enhance the availability of licenses for pandemic related health technologies to which it owns the rights.” However, it is not clear what is meant by “measures” in this context, and this provision appears to refer only to IPRs over technologies which states hold relevant rights, not to other rightsholders, although it does suggest that states also encourage private rightsholders to do the same. It also leaves states with considerable discretion as it is not clear what “enhancing” availability would entail. Furthermore, article 11(1)(c) is welcome as a measure to encourage transparency around licensing agreements and the terms within these, as is the reference to “encouraging” private rightsholders to do the same. However, states may have limited powers to enforce such mechanisms against such rightsholders. More generally on this point, it is not clear how, if at all, these provisions would be monitored, and whether there are any consequences for failure to abide by such measures. ⁷⁷

Reflecting on the IP/technology transfer provisions within the Pandemic Agreement (May 2025), it is important to bear in mind that there was significant debate over these provisions, and at times the opposition to the original provisions around technology transfer, particularly from HICs and regions, looked like this could lead to the collapse of the negotiations. ⁷⁸ Arguably, the issues related to IPRs/technology transfer, and the fact that the final text is more limited than earlier versions, is another example of prioritization of national interests and priorities by states, despite the implications of this that was seen during the COVID-19 context.

Nonetheless, there are positives, which should be acknowledged in relation to provisions related to IPRs in the Agreement. For example, ‘t Hoen, previously commenting on the final April text of the Agreement (which is identical to the adopted May text), highlighted the definition of “as mutually agreed” under the Agreement, which is applicable for article 11 and is particularly important. The April text and the adopted WHO Pandemic Agreement (May 2025) define this as follows: “‘as mutually agreed’ means willingly undertaken and on mutually agreed terms, without prejudice to the rights and obligations of the Parties under other international agreements.” t’ Hoen has argued that this definition recognizes “that if the willingness to ‘mutually agree’ is not there, governments can take other measures to make technology transfer happen.”Reference Gurgula and McDonagh ⁷⁹ This definition is welcome, as it leaves the door open to states to adopt mandatory measures if needed. Nonetheless, much will depend on how this provision is interpreted in practice. Critically, in the event of a future pandemic, much will also depend on how willing states are to use alternative mechanisms if voluntary agreements cannot be reached. Based on past practices, it is likely that states that lack access to technologies will be LMICs, and there are a range of obstacles that such LMICs have faced in taking alternative action in the past, especially where international action is sought and needs support of other WHO states including HICs. Moreover, whilst the WHO Pandemic Agreement (May 2025) text does not stop states/the international community adopting other mechanisms, on a more pessimistic view, arguably it could be seen as adding little in terms of mandating states to adopt clear steps to tackle IPR issues, which can arise in relation to health technologies in pandemic contexts.

(iii) Reflecting on the WHO Pandemic Agreement (May 2025): The Importance of Implementation

Reflecting on the final WHO Pandemic Agreement (April 2025) text (which was the version ultimately agreed by WHO Members and became the adopted WHO Pandemic Agreement (May 2025)), ‘t Hoen has argued that:

In short, many of the provisions within the agreed WHO Pandemic Agreement text related to IPRs focus on voluntary non-binding requirements on states, with considerable discretion left to states in relation to equitable access to pandemic health technologies. Whilst we can hope that systems for delivering access to pandemic health technologies would develop more effectively if we face a future pandemic than happened in COVID-19, nonetheless, our recent experience of COVID-19 raises considerable uncertainties. Indeed, the May 2025 Lancet editorial discussing the agreed WHO Pandemic Agreement text argued that:

Reflecting on the WHO Pandemic Agreement and COVID-19 more generally, three broader questions arise: (1) What were the key legal drivers contributing towards nationalistic approaches to vaccine allocation during the COVID-19 pandemic?; (2) Relatedly, why, given the recent experiences in the COVID-19 context including the inequities that arose around IPRs and pandemic health technologies, and the risks this poses for the pandemic response more generally due to this, have we seen such nationally divided responses to the IP/technology transfer provisions in this WHO Pandemic Agreement process?; (3) And, looking to the future, building upon this recently adopted WHO Pandemic Agreement, what types of strategies can be used to seek to encourage an institutional change that would strengthen the likelihood of this Agreement being implemented in a way that recognizes global health needs in pandemic contexts, and which ideally offers additional pathways to support global equitable access to vaccines (and other health technologies). The article will now turn to consider such issues.

(i) Rightsholders – Legal Drivers Towards Profit Maximization

First, as discussed elsewhere, rightsholders of IPRs, including in the health technology context, in many cases are private companies that typically operate towards goals of profit maximization.Reference Heled ⁸² For instance, in common law countries, companies operate based on the shareholder primacy model, typically understood as requiring them to maximize shareholder “value,” often interpreted as profits for shareholders. ⁸³ Moreover, even where IPRs are held by publicly funded universities, increasingly, universities use IPRs to generate revenue and income. In some countries there has been a trend towards the use of surrogate licensing companies, which license university IPRs on a profit basis, or in some cases the practice is to commercialize university IPRs through spin-out companies created for such purposes.Reference Contreras and Sherkow ⁸⁴ Furthermore, under many employment contracts, including contracts for university employees, where scientific research may be developed, IPRs generated in the course of the employment are often assigned to the employer, such as the university or company. In such cases, it is the employer that will decide on how to use such IPRs. Accordingly, in many instances it is companies that will hold or license IPRs for health innovations, including for pandemic health technologies.

Where companies are driven to use company assets, which includes IPRs, in ways that maximize profits, it is unsurprising that during the COVID-19 pandemic entities with greater resources were able to obtain access to pandemic health technologies first. A limited number of rightsholder companies agreed to share IPRs within the C-TAP to facilitate the rollout of vaccines during the pandemic. Indeed, without an external driver such as a law mandating the sharing of IPRs in such context, to offer to voluntarily share IPRs could be contrary to companies’ aims around profit maximization. Moreover, whilst companies have social responsibility obligations, in many cases these are non-binding, and uncertainty can arise around what such obligations entail, including the extent to which these impact IPRs usage by companies, particularly given the complexity of issues at stake in such contexts. ⁸⁵

(ii) National States and Regions: Drivers Towards Maintaining the Status Quo of Prioritizing National Short-Term Interests

Second, national/regional responses to securing access to pandemic health technologies have also demonstrated an (understandable) focus on prioritizing their populations’ needs in pandemic or other health-related emergency contexts. Where there is a shortage of vaccines available to administer globally against a pandemic, the general populations within states would likely expect their government to seek rapid access to and provision of vaccines and other treatments for their populations. Citizens may support the provision of vaccines and other pandemic technologies to other states.Reference Clarke ⁸⁶ Nonetheless, without external drivers to encourage or mandate vaccine rollout that includes a prioritization of global health needs, governments may be reluctant to take actions that could be seen as prioritizing collective global needs over national needs in obtaining vaccines (and other health technologies), especially in early stages of a pandemic where considerable uncertainties remain about a disease. Furthermore, states have relevant human rights obligations to their own populations including obligations under the right to health, and part of this obligation is around delivering accessible health technologies, including vaccines. ⁸⁷

In pandemic times, a strong case can be made that prioritizing the global distribution of vaccines (as opposed to a vaccine rollout prioritizing national interests based on those with the highest purchasing powers) aligns with both national and global interests. As discussed above, prioritizing global vaccine allocation during pandemic context could reduce risks of spread of the pandemic and reduce the risks of new variants. However, such responses driven by prioritizing global needs may result in fewer vaccines going to the national states in some HICs in the short term (as vaccines supplies are allocated across more states) and, as discussed above, depending on the context, it may potentially give rise in the short term to an increase of infections/deaths at the national level. Furthermore, such situations could lead to uncertainty for states around what prioritizing vaccines for global health needs or towards a more globally distributed roll-out (instead of national needs first) may mean in the short term for their national populations. Concerns may include uncertainties around the mortality rate of any new pandemic, and whether potential delays in obtaining vaccines for national states entailed by prioritizing global pathways could lead to higher risks for national populations. States may also be concerned about whether other states will cooperate — a concern may arise around whether, even if they adopt such strategies, other states will also fully commit to such strategies or some states will seek alternative additional pathways to gain priority access.Reference Kavanagh, Singh, Sun and Sundar ⁸⁸

In such contexts, institutional theories suggest that where institutions (which can be broadly defined, and could include, for example, government or departments of that government responsible for certain aspects) have discretion on how to operate,Reference MacCormick ⁸⁹ and particularly in times of uncertainty,Reference McMahon ⁹⁰ then they are typically institutionally driven to act in ways which prioritize their core aims. For example, MacCormick has argued that institutions typically function in line with the core aim/end of that institution. ⁹¹ He noted that “an explanation of any institution requires an account of the relevant rules set out in light of its point.”Reference MacCormick ⁹² Pandemics and questions around allocation of vaccines within emergency contexts or for pandemic preparedness instruments gives rise to considerable discretion for states (under the current model) in how to act to address these, and pandemics also by their nature give rise to considerable uncertainty, risks, and fear of populations within states. Thus, institutional theories might suggest states in such contexts will focus on prioritizing their core aims, which are around protecting national interests, including in access to vaccines.

Whilst this explanation of institutions — and hence institutional decision-making patterns — does not mean that such institutions cannot adapt to operate under different contexts or purposes to the stated core aim, nonetheless, in such cases, change may be difficult to achieve, as “it is the institution that normally functions towards a given broadly-stated end — its ‘final cause’ — that is so adapted.”Reference MacCormick ⁹³ One might argue that if the certainty increases around the need to ensure global roll-out to address the pandemic, this could lead to change; however, it is questionable how much evidence states would need of this, or in what circumstances, to adopt such longer-term views.

Reflecting on such drivers and aims of national governments at least in part explains moves towards vaccine nationalism during COVID-19, even in cases where collective global strategies based on health needs were suggested by scientific evidence. Moreover, such institutional factors may explain at least in part why HICs that may be able to access pandemic technologies under the current health innovation model may oppose provisions around IPRs that mandate IP sharing/waiving etc. where needed during pandemics. It also may explain why such provisions are often supported by some LMICs, which in many cases are unable to obtain access to such technologies until much later than HICs under the current system. Arguably, these issues are reflective of a much deeper fundamental tension between the needs and interests of HICs and LMICs that has been embedded within the current TRIPS system, and within the broader health innovation landscape more generally. Such issues and tensions arguably also played out in the discussions on the WHO Pandemic Agreement. Thus, it is perhaps unsurprising that HICs may support the status quo, in many cases opposing provisions mandating technology transfer and sharing of IPRs during pandemics, and part of this may be around concerns that an alternative approach may pose uncertainties for such HICs. In contrast, LMICs that fell significantly behind HICs in the COVID-19 vaccine pandemic are arguably much more likely to be acutely aware this is legally possible and sadly, quite likely to happen again in future pandemics unless alternative approaches are developed.

Notably, in such discussions on national versus global needs in vaccine allocation including around the role of IPRs, a false dichotomy is arguably being created in certain contexts. This is because if states and rightsholders showed greater willingness to work collectively towards rapidly upscaling vaccine production, it is conceivable that a faster roll-out of vaccines is possible for all states, particularly when one considers what was achieved in terms of creating the vaccine for COVID-19. Yet strong political will, multilateral action and global solidarity across a range of public and private actors would be critical to the success of such an approach. All of these are difficult to achieve, particularly in the face of health emergencies when states face significant uncertainty and may revert to existing institutional modes of thinking, and this may lead towards a pattern of maintaining the status quo for states that can obtain access for their national population needs in such contexts.

Moreover, aside from questions around the likely impact of IPR sharing provisions or models on access to health technologies, under the current health innovation system, rightsholders are also likely to be opposed to such models, as these may impact the profits such rightsholders can obtain. Furthermore, such rightsholders are often large companies that in many cases are headquartered in HICs and are key economic entities that bring important financial and employment contributions to such HICs. This may be an additional factor, which could increase the likelihood of opposition of some HICs to provisions related to IP sharing or around the negative impacts of IPRs on pandemic health technologies.

(iii) Mechanisms for Intervention at the International Law: Silos and Interpretative Gaps

Finally, such issues are likely compounded by the siloed nature of the international legal systems wherein the IPR system tends to operate within the trade context in a manner that is separate to other areas of law such as human rights.Reference Helfer ⁹⁴ Furthermore, although debates over patents and access to health continue to give rise to questions around the relationship between IPRs and human rights,Reference Helfer ⁹⁵ there are still considerable practical and institutional limitations in successfully using human rights at an international level to challenge approaches of states and rightsholders over access to IP-protected technologies during pandemic contexts.Reference Thambisetty ⁹⁶ Indeed, Gostin et al. stated that:Reference Gostin ⁹⁷

A comprehensive examination of human rights issues and how these were addressed within the COVID-19 context is beyond the scope of this article. Instead, this section offers a brief reflection on some of the key challenges in using human rights to challenge vaccine nationalism and facilitate pathways towards global access during pandemic contexts. Four key (non-exhaustive) issues are highlighted here as factors under the current system which can limit the role of human rights at an international level to address vaccine nationalism during pandemic contexts.

First, TRIPS placed IPRs within the trade paradigm. ⁹⁸ In doing so, IPRs, including patents, are viewed under a trade lens, which tends to focus on the economic or trade-related elements of IPRs. Patents must be made available for all fields of technology, including health technologies. Yet, once granted, a patent on a health technology is viewed as fungible or interchangeable with patents over other technologies.Reference Arvind, McMahon, Bertrand, Catto and Mornington ⁹⁹ This fungibility exists despite the impact that patents over health technologies can have given the nature of a health technology and that lack of access to such technologies can impact human health, and in some cases human life. The patent system under TRIPS arguably can become blinkered to the broader non-economic impacts of how patents can be used, and over time an institutional system has evolved in an insular nature which prioritizes the economic aspects of such rights.

Second, tensions existing between patents and access to health can give rise to potential questions around conflicts between rights, as patents (and other IPRs) are sometimes themselves viewed as part of a rights-based framework — for example, as part of a property right of the rightsholders — whilst access to health issues implicate the right to health and/or the right to life, etc. Yet it can be difficult to challenge uses of IPRs based on the potential impacts the use of such rights may have on third parties such as patients.

Relatedly, third, it can be difficult to prove that use of IPRs is contrary to the human right to health or life in practice, in certain contexts. Where raised, rightsholders may argue that patents (and other IPRs) are temporary in nature, that such IPRs provide incentives for the development of such technologies to recoup development costs and without which new technologies may not be available. There are also significant practical issues in pandemic contexts, including temporal issues with taking such challenges — human rights litigation can take time to develop, which is not conducive to the need for fast access to vaccines and other health technologies in pandemic contexts. Even where challenges are successful, the remedies that can be granted may be limited and may not necessarily address the access to health issues in the way applicants seek. Furthermore, litigation can be lengthy and costly.

Fourth, the human rights framework typically imposes binding obligations on national states, not on companies (who are the relevant rightsholders in many cases and whose actions may impact access to patented technologies). For example, under the right to health (which is protected under a range of international instruments, including article 12 of the International Covenant on Economic, Social and Cultural Rights (IESCR) which is the focus here) the obligation is on states to ensure obligations under the right to health are delivered. Moreover, states typically must abide by such obligations at a national level, and hence to people within that state rather than to those outside the state.

Other human rights obligations such as those relating to “nondiscrimination” and equality are relevant to global equitable access to health technologies. ¹⁰⁰ However, during the COVID-19 context, despite such rights having been acknowledged by various UN bodies and international groups as implicated in the vaccine inequity that arose, ¹⁰¹ there were limited practical mechanisms achieved on foot of this that mandated obligations on states/international community to address such rights and deliver global access to vaccines and other health technologies. Moreover, states have obligations under international treaties, such as under the IESCR to take steps through “international assistance and cooperation” (IESCR article 2(1)) towards achieving economic, social and political rights, yet the lack of precision on what this entails for state obligations is problematic. ¹⁰²

These arguments are not intended to suggest human rights avenues or litigation can never be successful in pandemic or other access to health contexts,Reference McMahon, Kane and Torremans ¹⁰³ nor do they seek to discourage the role of human rights here. Rather, this section argues that challenging the (often) individualistic approaches to uses of IPRs over health technologies by states or rightsholders during pandemics via human rights law at the international level has limitations when done in the confines of the current institutional context. ¹⁰⁴