Development and Implementation of an Online Global Pharmacovigilance Certificate Program During the COVID-19 Pandemic

Introduction

Modern drug discovery and development are highly complex processes. For example, the progression of a potential drug candidate from discovery to being implemented as a medical treatment requires detailed, multidisciplinary investigations which are generally carried out as a joint effort between national or international public and private institutions and organizations. These processes often require immense resources and are time consuming. The development of any medicinal product usually spans decades from the initial design stages to the final clinical studies. Not only until the conclusion of the research phases are the results then reviewed for potential approval by overseeing governing bodies, such as The Food and Drug Administration (FDA) in the US and The European Medicine Agency (EMA) in Europe. Only if a medication, treatment, or intervention is approved is it allowed to then be marketed to the public. Subsequently, post-market safety surveillance continues to monitor each new medication after approval and more widespread use for further evaluation. Throughout the entirety of these complex processes, the most import consideration of all involved parties is the safety of the medication, treatment, or intervention.

Further complicating these processes are global health crises, such as the Coronavirus Disease 2019 (COVID-19) pandemic which has brought heavy burdens to worldwide health care systems, the global economy, and countless aspects of everyday life for the global population. In addition to the aforementioned devastating impacts the COVID-19 pandemic has inflicted upon society, it has also tested, and brought to light, the strengths and weaknesses of the drug discovery and development processes seeking therapies to find a cure for this public health emergency. For example, several COVID-19 vaccine candidates entered into clinical trials lasting less than 6 months and were subsequently approved for emergency use within 10 months of COVID-19 pandemic onset. As incredible of a feat the development of COVID-19 vaccines was in regard to ground-breaking speed in vaccine development history, it would not have been possible had it not been for the pharmacovigilance and long-term safety programs implemented for each of the currently used COVID-19 vaccines in ensuring the long-term safety of our communities.

Thus, pharmacovigilance ¹ plays a crucial role in the practice of modern medicine. In response to the COVID-19 pandemic, Loyola University Chicago launched a graduate-level Pharmacovigilance Certificate program (PV-CERT) and a pre-professional Pharmacovigilance Certificate Course (EPEC-PV) designed to provide students with a comprehensive and contemporary understanding of the principles and practices of pharmacovigilance. The Loyola Stritch School of Medicine and the Loyola Business School Executive and Professional Education Center (EPEC) collaboratively offered the EPEC-PV. The centerpiece of both programs was the PHAR 420 course, entitled Pharmacovigilance: A Practical Approach. This course focused on the evolving regulatory landscape, case studies, and current and future uses of digital technologies in the provision of pharmacovigilance. The topics within the course included the regulatory environment, safety data, real-world evidence, special populations, special topics, and the future of safety science.

Although medical staff (residents, interns, pharmacists, and nurses) and physicians often have introductory training in the processes of drug approval and post-market surveillance, the clinical pharmacology courses typically taught in medical school do not adequately address pharmacovigilance. Similarly, the range of pharmacology courses in the doctoral programs (PhD) only spans from a minimum of an outline lecture on Safety Pharmacology up to a maximum of 4 lectures on Safety and Pharmacovigilance. Although pharmacy school (PharmD) provides more thorough lessons on pharmacovigilance, the content typically covered falls short of providing a comprehensive education in pharmacovigilance sufficient enough to address modern issues. A generalized curriculum of selected professional terminal degrees is presented in Table 1.

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Table 1.

Generalized Curriculum of Selected Professional Terminal Degrees.

	Medical Degree (M.D.)	Doctor of Philosophy (PhD)	Doctor of Pharmacy (Pharm.D.)
Year 1	Molecular and Cellular Biology Human Anatomy & Physiology Patient-centered Medicine	Biochemistry Molecular & Cellular Biology Research Methods Biostatistics Presentation Skills	Pharmacy Practice Chemistry Biostatistics Clinical Research Design
Year 2	Mechanisms of Human Disease Clinical Pharmacology Patient-centered Medicine USMLE Step 1	Biostatistics Research Methods Advanced Pharmacology Physiology Microbiology Advanced Electives Qualifying Examination	Foundations of Medicine Physiology Microbiology Laboratory Medicine Pharmacology
Year 3	Clinical Clerkships (eg, Internal Medicine, General Surgery, Neurology, etc)	Dissertation Research	Therapeutics Human Disease Contemporary Topics Pharmacy Practice
Year 4	Emergency Medicine Sub-internship and Electives USMLE Step 2	Dissertation Research Dissertation Defense	Advanced Topics Pharmacy Practice

USMLE, United States Medical Licensing Examination. Pharmacology courses are bolded.

As such, the PV-CERT and EPEC-PV programs were designed to fill this educational gap, specifically providing insights into the principles and practices of pharmacovigilance. The students included clinical researchers, healthcare students, and professionals including those holding BS, MS, PhD, MD, DO, NP, and PharmD degrees. Many of the students who were previously medical staff desired to upskill and transition into research positions in academia or the pharmaceutical/biotechnology industry.

Extensive discussion between Loyola faculty and scientific leaders within the pharmaceutical/biotechnological industry supports the notion that leading companies seek educational programs for training staff and new hires in pharmacovigilance. Market analyses performed by Loyola University Chicago found an urgent need of new programs in the field, suggested a paucity of adequate programs, and predicted a marked growth of the pharmacovigilance job market. As this sector grows, the industry will prioritize hiring those educated in pharmacovigilance.

In addition to its role in Industry, Pharmacovigilance is becoming increasingly important for medical education and clinical practice and is an important training requirement for future professionals in health sciences. The COVID-19 pandemic emphasized the growing need for pharmacovigilance in regulatory, research, and other health-related fields. This is particularly true for the long-term pharmacovigilance of currently developed vaccines, which have several rare complications related to the vascular system, and the use of other biotherapies including monoclonal antibodies and genetic manipulation. Interestingly, the anticoagulant drugs, such as heparin-related drugs and direct oral anticoagulants, have been the focus of optimizing the clinical management through various dosing regimens which, despite not currently being addressed, have a significant impact on adverse outcomes and, as a result, are the focus of Pharmacovigilance studies.

Academic Focus

The focus of the course is to train students to understand and develop basic competence in pharmacovigilance, which is defined as the science and activities related to the detection, assessment, understanding, and minimizing of adverse events or any other drug-related problems. ¹ The course is based upon the textbook Pharmacovigilance: A Practical Approach (Elsevier).

The course is designed for medical, clinical, and scientific professionals, including:

Professionals in industries connected to the development and marketing of pharmaceuticals and medical devices, especially those who wish to upskill to advance or switch careers.

Program Outcome and Impact

A total of 25 students enrolled and completed the Phar 420 course from January 2021 to May 2021 (8 in PV-CERT and 17 in EPEC-PV). By the Spring 2022 term, the PV-CERT program had grown to 23 students, and the EPEC program had accepted another 17 students. Three PV-CERT students completed the program in May, 2022 as did 17 EPEC-PV students. All students had bachelor's degrees, and many had additional degrees including PharmD, PhD, or M.D. Most (56/57) students had either clinical or scientific training. Several comments from a random variety of students who completed the course are summarized below:

“Before the class, I was a newcomer to pharmacovigilance. As a seasoned academic pediatric hematologist oncologist, I have treated many children with cancer, had experience in clinical research and had provided numerous contributions to the international efforts to cure cancer over the years. In fact, the most common question I was asked was, why did you go into safety? There are multiple answers. There are projects on my bucket list which I could not complete anywhere else. For example: with which mathematical framework might we predict the frequency of adverse events when drugs are combined? I am fascinated by the opportunity to quantify medical experience, aggregate data, and use artificial intelligence to improve patient care; and does not the word “vigilance” have an exciting ring to it? – What if you could combine all this from a highly impactful position, and make it count for cancer patient survival and quality of life!”

From the comments provided by several of the participants above, it is clear that a diverse group of professionals with responsible positions in the pharmaceutical industry and academia have provided their objective assessment of this course and the collective opinion underscores not only the importance of the course, but also the timely nature of this course and the extraordinary effort academia and industry have put forth to create this platform for education. Moreover, the need for pharmacovigilance and drug safety science-related subject matter for the inclusion in biomedical curricula at both pre- and post-graduate levels is identified. These comments are very encouraging and useful and reinforce the global impact of educational programs to address drug safety issues.

Focus Group Results

In addition to the comments from several students, a focus group of seven students shared personal perspectives of the course's value from the standpoint of both the academic content and access to a network of pharmacovigilance leaders. These students had either clinical or scientific training, and up to 30 years of experience in the life sciences industry. Their rationale for taking the course included:

The desire to work in the pharmacovigilance field without prior formal training or experience.

Discussion on Career Opportunities in Pharmaceutical Industry

The pharmaceutical industry attracts diverse science, technology, engineering, and mathematics professionals due to the complexity of drug development, the myriad opportunities available, and their potential to positively impact patients’ lives. Research scientists, physicians, pharmacists, nurses, epidemiologists, and statisticians, among other professionals, can find rewarding roles in research & development or commercial domains where they can apply both their academic training and real-world experience to solve complex scientific and business problems, all while working for the benefit of patients.

The COVID-19 pandemic has driven demand for products and services across the healthcare system, particularly in the pharmaceutical industry. Thus, despite the popularity of the pharmaceutical industry as a desired career path, talent has become scarce since 2021. In fact, research conducted by an executive talent firm revealed that 68% of global pharmaceutical and biotechnology leaders report finding and attracting quality hires as their top challenge. ³ Pandemic-related demand for workers, coupled with the need for specialized scientific and health care capabilities and knowledge, have created a gap in our industry.

The pharmacovigilance field is experiencing the effect of this gap as companies, hospitals, and governments continue to invest in patient safety. Pharmacovigilance requires a unique combination of knowledge, skills, and experience because it bridges public health with research and development. Professionals with scientific or clinical experience who are willing to upskill in the pharmacovigilance discipline will be able to find many satisfying career opportunities. Kugener et al noted that traditional medical, public health, and pharmacy schools do not include drug safety and pharmacovigilance courses. ⁴ This gap impacts the understanding of regulatory reporting responsibilities and restricts the potential talent pipeline. As discussed by Kugener et al, fixing the talent shortage will rely on programs’ abilities and participation in training new students in all the cutting-edge scientific technologies and methods, such as pharmacovigilance. ⁴ As a flexible, adaptable, and diverse educational resource, the Phar 420 course can also be utilized as a foundational guide for the development and broadening of medical education by implementing it in medical curricula in order to not only deepen students’ understanding and appreciation of pharmacovigilance, but also to establish a groundwork early on that will only be further solidified as students progress throughout their professional careers. Indeed, while the diminishing talent pipeline continues to dwindle, it is more crucial now than ever to implement educational policies and changes that will not only allow us to respond to inevitable future pandemics, but also to prepare for them so that we may reduce their burden to society on a global scale.

While this course is currently focused on drug safety sciences and their potential application to the COVID-19 pandemic locally, it has already included participants on a national scale with global implementation planned. Indeed, through collaboration with other international academic institutions, this course will have a profound impact on global pharmacovigilance and pave the way for future courses to be developed, implemented, and advanced. Additionally, there have been discussions to collaborate with international academic institutions, peer organizations, regulatory parties, and professional associations to enhance the impact of this course. Furthermore, machine-learning, artificial intelligence, and other advanced media approaches will be considered to continue the improvement and delivery of, not only this course, but also other educational modalities aimed at progressing other areas of drug safety sciences.

The pharmaceutical industry is highly regulated to protect both patients taking medicines and the industries making them. All live in a fast-moving world of technology and innovative science where agility is key to developing groundbreaking new medicines for patients. Medicinal products are developed to provide therapeutic benefits for patients while limiting adverse events. The key to detecting, assessing, and addressing adverse events is the core of Pharmacovigilance. This field needs to be agile and evolve with modern medicine. The academic/industry collaborative effort was the perfect modality for achieving this. The regulators and pharmaceutical industry are responsible for ensuring that the benefit-risk balance of a product is positive for the intended population. The ongoing educational efforts are key to fulfilling this responsibility. Assessing evidence that impacts the benefit-risk profile of a product as it is developed and delivered into the population ultimately improves patient outcomes.

As of June 2022, over 1,000,000 Americans have died from COVID-19 since the beginning of the pandemic. Furthermore, despite the availability of vaccines since December 2020, only 64.5% of adults in the U.S. are fully vaccinated. ⁵ The pharmaceutical industries, CDC, and FDA continuously assess the risks and benefits of COVID-19 treatments and vaccinations. Pharmacovigilance training is of critical importance in assessing the benefit to risk profile of new treatments and vaccines during rapidly evolving pandemics, such as the COVID-19 pandemic. As a result of its mutational abilities which have rendered the virus resistant to certain medications and current vaccines, COVID-19 has posed challenges today that did not exist just one year ago. For example, long-COVID syndrome, which requires long-term management with currently available vaccines and therapeutics, not only poses significant, additional pharmacovigilance challenges, but also brings to question the potential for future, more devastating sequelae of COVID-19 infection. COVID-19 has evolved at an extraordinary pace and, in order to combat it, we need to do the same through therapeutic development and pharmacovigilance. Thus, despite the efficacy of currently defined curricular objectives, advancing this course through the inclusion of translational topics, renewed guidelines, and refined information will be absolutely crucial in dealing with future global pandemics, both those posed by COVID-19 and those that will come after it.

The COVID-19 pandemic has posed certain challenges for the pharmaceutical industry necessitating the rapid development of safer vaccines, anti-viral drugs, and other therapies. The FDA has fast tracked the approval of these vaccines and medications. Therefore, the safety profile of these agents is not fully explored, necessitating additional pharmacovigilance study to demonstrate their safety in valid trials. This course has offered a timely platform to focus pharmacovigilance approaches in dealing with complex issues related to COVID-19 patient management which include optimal use of anticoagulants such as heparin, anticoagulant management of long COVID syndrome, understanding of the thrombotic complications related to vaccines and more importantly drug interactions and their impact on outcome. Thrombotic and vascular complications are hallmarks of COVID-19 pathogenesis requiring different targets to develop optimized drugs and vaccines. The information provided in this course will help in training individuals to develop programs for the safer approaches and improved vaccine and other medication for COVID-19. Attendees of this course will continue to be able to teach other groups and further disseminate the important information related to pharmacovigilance and its impact on drug development.

Conclusion

Pharmacovigilance plays a crucial role in the practice of medicine. In 2021, during the COVID-19 pandemic, Loyola University Chicago initiated the certificate Pharmacovigilance professional programs, providing comprehensive and up-to-date information on the principles and practice of pharmacovigilance based on a published print and digital textbook, Pharmacovigilance: A Practical Approach (Elsevier). Formal training in pharmacovigilance through the Loyola courses provided a structured understanding of how safety data are generated through clinical trials and from real-world evidence as well as the regulatory environment in which data are monitored and interpreted. Pharmacovigilance training is of critical importance, especially during the COVID-19 pandemic. The COVID-19 Pandemic represents a multi-factorial and complex syndrome resulting in vascular and thrombotic complications. The vaccines, repurposed drugs, and new anti-viral agents, along with biomarker profiling, are a focus of pharmacovigilance investigations for their optimized implementation in this syndrome. As the century progresses, new diseases and infectious agents will require novel therapies for which the evaluation of benefits versus risks is essential. The Loyola course and programs on Pharmacovigilance play a key role in educating the next generation of professionals in pursuing careers in the development of therapies that ultimately improve patient outcomes. Although, we now have better options to fight against COVID-19, we still need new drug discovery and development programs in many disease states such as cancer, neurodegenerative diseases, and infectious diseases without established safe and effective treatment options.

Programs

The Loyola Pharmacovigilance-Certificate (PV-CERT-graduate level multi-course certificate) https://ssom.luc.edu/pharmacology/programs/pharmacovigilancecertificate/

The Loyola Executive and Professional Education Center - Pharmacovigilance (EPEC-PV-professional single course on pharmacovigilance) https://www.luc.edu/executiveeducation/takeacourse/pharmacovigilanceapracticalapproach/