Hostname: page-component-7bb8b95d7b-wpx69 Total loading time: 0 Render date: 2024-09-27T04:20:13.243Z Has data issue: false hasContentIssue false
  • English
  • Français

Knowledge, Perceptions, and Utilization of Generics and Biosimilars in Latin America and the Caribbean: A Scoping Review

Published online by Cambridge University Press:  29 December 2023

Bernardo Aguilera Open the ORCID record for Bernardo Aguilera [Opens in a new window] ,
Sebastián Peña  and
Juan Pablo Morales Open the ORCID record for Juan Pablo Morales [Opens in a new window]
Bernardo Aguilera
Affiliation:
UNIVERSIDAD SAN SEBASTIÁN, SANTIAGO, CHILE
Sebastián Peña
Affiliation:
FINNISH INSTITUTE FOR HEALTH AND WELFARE, HELSINKI, FINLAND UNIVERSIDAD DIEGO PORTALES, SANTIAGO, CHILE
Juan Pablo Morales
Affiliation:
HOSPITAL CLÍNICO DE MAGALLANES DR. LAUTARO NAVARRO AVARIA, PUNTA ARENAS, CHILE
Rights & Permissions [Opens in a new window]

Abstract

We conducted a scoping review to map and critically examine the knowledge, perceptions and utilization of generics and biosimilars, among physicians, pharmacists, patients, the general population, and other stakeholders from LAC.

Keywords

DrugsBiosimilar PharmaceuticalsHealth ExpendituresLatin AmericaPolicy
Type
Symposium Articles
Information
Journal of Law, Medicine & Ethics , Volume 51 , Issue S1: Rethinking Pharmaceutical Policies in Latin America and the Caribbean , Fall 2023 , pp. 100 - 115
Copyright
© 2023 The Author(s)

1. Introduction

Health care and pharmaceutical expenditure has been rising in most countries due to many factors including aging populations, increasing patient expectations, and the introduction of new and more expensive drugs.Reference Godman, Bucsics and Bonanno 1 Pharmaceutical spending accounts for 16.4% of overall health care expenditures across OECD countries. 2 In Latin America and the Caribbean (LAC) the picture is varied, but on average 16% of health care spending goes to pharmaceuticals and in many countries, out-of-pocket payments on drugs account for a substantial portion of household expenditure.Reference Vargas, Rama and Singh 3 To deal with these challenges, LAC governments have implemented a number of initiatives to promote rational use of drugs and reduce their cost. In this context, generic drugs and biosimilars play an important role as an alternative to more costly branded innovator medicines in the treatment of diseases.

Generic drugs (hereafter, just ‘generics’) are drug products comparable with an innovator/reference drug product (hereafter, just ‘reference product’) and are usually manufactured without a license from the innovator company. They are marketed after the expiry of the patent or other exclusivity rights with a nonproprietary name (‘pure generic’) or under a brand (‘similar’). Their price is commonly cheaper than their reference products (up to 66% less) and in most cases continues to decline as time passes.Reference Vondeling, Cao, Postma and Rozenbaum 4 As for biosimilars, they are biological products that are highly similar in terms of quality, safety, and efficacy to an already licensed reference biotherapeutic product and have no clinically meaningful differences with them. In comparison with generics, biosimilars are expensive due to their higher investment costs, more complex production process, and greater marketing entry restrictions. However, they still constitute less costly alternatives with up to 50% price reduction.Reference Blackstone and Joseph 5

According to the literature, one barrier that may be preventing widespread usage of generics and biosimilars relates to a lack of knowledge and negative perceptions regarding these products among consumers, physicians, and other stakeholders.Reference Colgan, Faasse, Martin, Stephens, Grey and Petrie 6 A number of systematic reviews have examined perceptions of generics and biosimilars among these different actors.Reference Sarnola, Merikoski, Jyrkkä and Hämeen-Anttila 7 Noteworthy, these reviews have included only a handful of studies from LAC countries, either due to language restrictions or narrow timeframes for the search. To our knowledge, no review has focused on the LAC region nor included literature in Spanish and Portuguese.

In this scoping review, we aim to map and critically examine the existing empirical literature on the knowledge, perceptions, and utilization of generics and biosimilars in LAC. We include physicians, pharmacists, patients, the general population, and other stakeholders involved in the provision and purchasing of these products. We used a systematic review methodology to obtain a rigorous picture of the available literature on this topic.

2. Policies Concerning Generics and Biosimilars in LAC

Several LAC countries have introduced policies to regulate and encourage the utilization of generics and biosimilars. Part of this effort includes strengthening National Medicine Agencies (hereafter, ‘national agencies’), which are tasked with defining the pathway and regulations for the approval of generics and biosimilars—an essential step towards generating a favorable environment for drug interchangeability policies. Many countries have also implemented policies to develop health technology assessment, that is, the systematic evaluation of properties, effects, and/or impacts of health care technology. Health technology assessment policy reports or suggestions are important to increase the level of confidence in the quality, safety, and efficacy of generics and biosimilars, as well as for the successful implementation of access to medicines programmes (which often involve generics and biosimilars). Additional policies concerning generics and biosimilars include educational and promotional campaigns to improve utilization of these products among all healthcare stakeholders, and efforts for regulatory harmonization.

In this scoping review, we aim to map and critically examine the existing empirical literature on the knowledge, perceptions, and utilization of generics and biosimilars in LAC. We include physicians, pharmacists, patients, the general population, and other stakeholders involved in the provision and purchasing of these products. We used a systematic review methodology to obtain a rigorous picture of the available literature on this topic.

Despite policy improvements across the region, the regulatory landscape in LAC is varied. There are also important differences among LAC countries with respect to size of gross domestic product (GDP), public spending, health spending in relation to GDP, as well as the existence of high-level regulatory agencies, drug-producing capacities, and government norms/strategies related to drugs and procurement. However, the World Health Organization (WHO) has estimated that six countries in LAC have legal norms and adequate organizational frameworks for drug regulation: Argentina, Brazil, Chile, Colombia, Cuba, and Mexico. 8 Below, we present some notable efforts in policies concerning generics and biosimilars in the LAC region focusing on these six countries, but also considering progress made by additional countries such as Ecuador and Peru. We conclude by briefly discussing the stance of other countries in the region that are less developed in this respect.

Most national agencies in the region are inspired by the Food and Drug Administration of United States (FDA), the European Medicines Agency (EMA), and the World Health Organization (WHO) regulatory frameworks, and while it is possible to identify nuances in the adoption of these organizations’ guidelines, there are sustained efforts over time to converge. Brazil has also implemented measures to increase domestic production of medicines, with the aim of reducing reliance on imports and improving access to affordable treatments. This includes tax incentives and investment in research and development. Colombia is in the process of strengthening its National Institute for Food and Drug Surveillance (INVIMA) and the health technology evaluation agency to establish new roles for approval, value-based pricing and funding. Mexico is trying to centralize purchases under the United Nations Office for Project Services (UNOPS), update a National drug formulary, and optimize their Federal Commission for the Protection against Sanitary Risks (Cofrepris) and equivalence agreements with other national agencies. 9 Mexico has also implemented price control mechanisms for medicines in the private sector, including reference pricing and negotiation of prices with pharmaceutical companies. Ecuador is moving towards the consolidation of the National Public Procurement Service (SERCOP) process for purchases in the public sector and the actualization of its national formulary.

Some of the most notable progress in the region has been in the introduction of access to medicines programmes, which are often accompanied by health technology assessment systems. In Argentina, the Comprehensive Medical Care Program (PAMI) is a public agency that provides health and medical insurance services targeting elderly people. Its decisions are informed by health technology assessment and participation of the public.Reference Marin 10 Colombia has implemented several policies aimed at improving access to medicines, especially for vulnerable populations. One of the most significant policies is the Comprehensive National Health Plan, which includes strategies to increase access to medicines, improve the supply chain, and promote the use of generic drugs. Colombia has also established a High-Cost Drug Fund, which provides financial support for patients who require expensive medications for chronic and rare diseases.Reference Prada, Soto and Andia 11 In Mexico, one of the main initiatives is the Popular Insurance program, which provides health insurance coverage to individuals without social security and includes a basic package of health services.Reference Parker, Saenz and Wong 12 Peru has implemented an Essential Medicines Program which seeks to ensure the availability of essential medicines at all levels of the health system. The program includes a list of essential medicines that are procured and distributed by the government to public health facilities. Another key policy is the Unified Health System which provides a comprehensive package of health services, including access to medicines, through public health facilities.Reference Ñahui, Huillca and Lazo 13

Some countries have introduced coverage development policies for high-cost medicines. In Brazil, the National Commission for Incorporation of Technologies (CONITEC) evaluates the clinical effectiveness and cost-effectiveness of new health technologies, including drugs and medical devices. CONITEC’s evaluations are used to determine whether new technologies should be incorporated into the Brazilian public health system, and at what price. Another key policy is the creation of the Strategic Medicine Program (PME), which provides free access to high-cost medicines for certain chronic diseases, including cancer, multiple sclerosis, and rheumatoid arthritis. Chile has implemented several access-to-medicines programs, including Plan of Explicit Health Guarantees for health care, Ricarte Soto Plan for high-cost diseases, and High-Cost Drugs Committee for cancer medicines.

Brazil has emerged as a leader in promoting the use of generic drugs and biosimilars in Latin America. The country has implemented various policies to incentivize the use of these drugs, including price controls, tax exemptions, and educational campaigns. The Brazilian government has also established a robust regulatory framework for biosimilars, which has facilitated their entry into the market and ensured their safety and efficacy. As a result of these efforts, Brazil has seen a significant increase in the use of generics and biosimilars.Reference Vicente, Calnan, Rech and Leite 14 According to a report by the Brazilian Ministry of Health, generics accounted for over 35% of the total drug market in 2020, while biosimilars represented around 8%.Reference Luzes, Bittencourt, Mosegui, Viana, Villar and Catao 15 This trend has led to substantial cost savings for both patients and the public health system, while improving access to essential medicines.Reference Linderson, Rocha, Silva and Brito 16 Chile has implemented several policies to promote the use of generic medicines, such as allowing pharmacists to substitute branded medicines with generic equivalents, and promoting the use of international non-proprietary names (INN) for medicines. 17 In Peru, the Good Practices in Prescription and Dispensation of Medicines is another policy aimed at improving the quality of care and rational use of medicines. This policy includes guidelines for prescribing and dispensing medicines to ensure appropriate use and avoid overuse or misuse.Reference Ortiz-Prado, Ponce-Zea and Vasconez 18

Another sign of improvement in the LAC region is that many countries have adopted common definitions for generic and biosimilar medicines. Regarding generics, differences between countries are mainly based on the mechanisms to consider interchangeability, marketing authorizations, and the role of bioequivalence studies as a mandatory requirement for this purpose. With respect to biosimilar products, although the WHO provides a definition that has been widely adopted, countries differ in their regulatory pathways for approval, which is relevant with respect to the specific types of studies for preclinical/clinical data, the possible extrapolation of indications, pharmacovigilance, and risk management plans.Reference Lizarraga and Mysler 19

Besides the LAC countries already mentioned, there are a number of countries with smaller economies and different levels of development. They have less developed markets and their main health challenge is to achieve socially and financially sustainable health systems. In those countries, mostly in the Caribbean basin, their drug access policies mainly adhere to PAHO/WHO guidelines.

Overall, variations in the regulatory frameworks regarding generics and biosimilars in the LAC region can be understood as local adaptations of the WHO and EMA guidelines based on local realities and underlying pressures as a result of the configurations of their health sectors and the differences in the access to medicines.Reference Mysler, Pineda and Horiuchi20 These regulatory differences, can constitute potential elements that could influence or be used as drivers for policy developments that promote generic and biosimilar drugs in Latin America.

3. Methods

Study Design

The study is a scoping review. We report the study in accordance with the Preferred Reporting Items of Systematic Reviews and Meta-Analyses (PRISMA).Reference Moher, Liberati, Tetzlaff and Altman 21

Search Strategy and Selection Criteria

We searched the literature indexed in PubMed and Epistemonikos. All databases were searched from inception to October 14, 2022. We employed a search strategy based on medical subject headings and text words combined using Boolean operators. We used the terms ‘generic drug’ and ‘biosimilar’ and included the names of all countries in Latin America and the Caribbean plus the term ‘Latin America’. The full search strategy can be found in the Supplementary Appendix (Table S1). To obtain additional records, we hand-searched the reference lists of the included research studies. There were no language or other restrictions.

We included research records if they met the following criteria: (1) the target population was from countries in the LAC region, including health professionals, pharmacists and other stakeholders, patients in all levels of care and the general population; (2) the outcomes of the study were knowledge, perceptions, and/or utilization of any generic drug or biosimilar. We included all types of observational or experimental studies, regardless of study design. We excluded research records that did not involve data collection, such as editorials or commentaries. We distinguished patients and the general population based on the study sampling strategy. Participants in studies conducted in health centers, hospitals, and pharmacies were considered patients, while participants from population-based sampling strategies were considered as the general population.

Data Screening and Extraction

We downloaded research records, eliminated duplicates and exported them to a spreadsheet. Each title and abstract was screened by one reviewer (divided between SP and BA). Whenever in doubt, we coded the record as ‘may be’ and moved it to full-text review. We used Google Translate to screen articles in Portuguese.

One reviewer (divided by SP and BA) extracted the data using a standardized extraction sheet. We extracted data on: year, country, setting, population, design, findings, and funder. We included the funder given the strong body of evidence showing that studies funded by interested parties could lead to biased results, which is also in accordance with current critical appraisal tools for systematic reviews.Reference Shea, Reeves and Wells 22

Data Synthesis

We developed a narrative synthesis along three domains: knowledge, perceptions, and utilization of generics and biosimilars. Meta-analysis was not possible due to the paucity of studies and heterogeneity of populations.

Results

We identified 680 research records. After removing duplicates, we screened 661 research records, resulting in the inclusion of 15 studies. Manual cross-reference search of the bibliographies of included papers then led to the inclusion of 7 further studies. Finally, a total of 22 studies met the inclusion criteria (Figure 1).

Figure 1 Flowchart of Study Selection and Data Extraction

Seventeen studies (77%) were related to generic drugs and five studies (33%) were related to biosimilars. Seventeen studies (77%) were conducted with populations in Brazil, followed by one in Argentina, Mexico, Colombia, and Brazil, one in Guatemala, one in Jamaica, one in Peru, one in Colombia, and one study with participants from 18 Latin American countries. The study populations were health professionals (i.e., medical doctors and pharmacists, 7 studies), patients (9 studies), the general population (7 studies), and stakeholders from regulatory agencies, policy experts, and industry (one study). Note that in two studies more than one population group was included (e.g., physicians and pharmacists), which is why a total of 24 populations were targeted in the 22 studies.

Regarding the sources of funding, ten studies did not report them; four studies reported none, however in one of them the authors had extensive conflicts of interest (it was a study on biosimilars). Two studies were funded by pharmaceutical companies and one by an organization that has pharmaceutical companies as member partners, all three on biosimilars. Six studies reported funding from a governmental institution, all of them from Brazil focusing on generics.

Knowledge, Perceptions, and Utilization of Generics

Physicians

Two studies examined physicians’ perceptions of generics (Table 1).Reference Gossell-Williams23 A Jamaican study with 60 physicians showed that 48% of participants agreed that there are no therapeutic differences between generics and their reference products and 60% agreed that “therapeutic failure” is a serious problem with some generics. Regarding perceptions about prescription of generics, 87% of physicians were supportive of generic substitution for reference products and 70% of responding physicians agreed that they must offer generics to their patients given the lower cost of these medications.24 In a mixed-methods study involving 12 physicians in Guatemala, 55% of respondents held that low-cost generics are less safe and effective than branded drugs, with some also believing that the low cost of generic drugs was itself indicative of inadequate quality.25

Table 1 Summary of Findings of Studies Assessing Knowledge, Perceptions, and/or Utilization of Generics To simplify the text, percentages were approximated to the nearest entire value.

The same two studies mentioned above asked about utilization of generics. In the Jamaican study 55% disagreed with the claim that they generally prescribe the reference products and leave it to the pharmacist to discuss generic alternatives. 26 Meanwhile, physicians in Guatemala expressed that concerns regarding the effectiveness and safety of generics influenced their prescribing practices. 27 No studies explicitly asked physicians about their knowledge of generics.

Pharmacists

In a Brazilian study with 72 pharmacists, 97.2% of them believed that generics are of good quality. Using qualitative methods, the same study showed that (lower) price, (warrantee of) quality, and credibility (of the product) were core concepts in the pharmacist’s perception of generics. Peripheral concepts were pharmaceutical assistance, social impact, novelty, accessibility, options and interchangeability.Reference Carvalho, Accioly, Raffin, Campos, Cruz and Alves 28

The study in Guatemala based on interviews with staff at community pharmacies found that 41% of the interviewees believed that generics were not as safe as drugs with commercial brand names, whereas 33% believed that they were not as effective. Additionally, a significant portion of this staff reported customer’s experiences of different therapeutic responses when switching between branded drugs and generics as evidence of generics’ inferiority. 29

Regarding utilization, the Guatemalan study many participants emphasized that the decision to use a generic was ultimately up to the patient, however their general view was that they were less likely to dispense generics to wealthier and sicker patients. 30 No studies explicitly asked pharmacists about their knowledge of generics.

Patients

Three studies in BrazilReference da Rocha, de Barros and Silva 31 examined knowledge of generic drugs among patients. Among patients at a general medicine clinic, 68.1% of respondents could identify and 65,3% managed to define a generic drug; 40% did so by appealing to its lower price and 72% pointed out the generic drug labeling required by Brazilian law (a “G” letter and a yellow stripe). 32 In another study, 92.7% of pharmacy customers had knowledge of generics. 33 The third study focused on regulatory knowledge and included patients from secondary care and customers surveyed at pharmacies. Among patients, 28% knew that generics have different regulatory requirements than reference drugs and 76% knew that by law they might be priced at least 35% cheaper than reference drugs. 34 Pharmacy customers had greater knowledge on the regulatory requirements but slightly lower knowledge on pricing requirements. 35

Five studies in Brazil and one in Peru examined perceptions of generics among patients. In Brazil, a qualitative study showed that price, quality and equivalence were the core concepts of perceptions of generics. 36 Overall, a clear majority of patients considered generics to have lower prices than reference drugs.Reference Vosgerau, de Souza and Soares 37 In one study, 65.9% of patients with hypertension and 59.4% of patients with diabetes considered generics not as good as the reference drugs. 38 In a Peruvian study, 46.7% of participants agreed with a statement that generic drugs have lower efficacy than reference drugs.Reference Mendoza-Chuctaya, Cubas-Llalle and Mejia 39 Similarly, 62% of patients and 64% of pharmacy customers considered generics as effective as reference drugs in a Brazilian study. 40 Regarding side effects, 38.8% of participants in the Peruvian study agreed with the statement that generic drugs have larger side effects, 41 while in a Brazilian study 46% of patients and 66% of pharmacy customers considered that generics have the same side effects as reference drugs. 42

A randomized controlled trial conducted in a Brazilian dental clinic assessed perceptions and utilization of generics. Before dental surgery, 93.1% of patients stated that generics were of equivalent quality to the reference drugs. After surgery, all patients received the same analgesic (a reference product) for 7 days, but either with a reference product label or a generic label. 54% of patients in the generic-label arm discontinued treatment versus 33% in the reference-product-label arm, and 26% of participants in the generic-label arm used non-prescribed analgesics, versus none in the reference-product-label arm. 43

Two further studies examined utilization. In a Brazilian study, only 33% of patients with hypertension and 26.3% of patients with diabetes used generic drugs. 44 Similarly, low utilization was reported in another study in Brazil: only 14.7% of patients who had used any medication over the past week had used generics. 45

General Population

We found six studies exploring knowledge of generics, all of them from Brazil. Two studies showed that more than three-quarters of participants were able to correctly identify a generic drug.Reference Faria and Tavares-Neto 46 This appears to have increased over time, as shown by two studies conducted in the same Brazilian city, using the same methodology and separated by 10 years, in which participants’ ability to identify some of the packaging characteristics of generics increased from 57% in 2002Reference Bertoldi, Barros and Hallal 47 to 76,6% in 2012.Reference Guttier, Silveira, Luiza and Bertoldi 48 Studies looking at more specific knowledge of generics yielded more modest results. In one study, 48.6% of participants could correctly defined themReference Lira, Oliveira, Mdos, Vancini-Campanharo and Vancini 49 and, in another, 11% had good knowledge of generics (were able to identify the substance, the therapeutic class and the use of all specialties presented), while 49% had some knowledge.Reference Tierling, Paulino, Fernandes, Schenkel and Mengue 50

Five studies in Brazil found that a clear majority of participants perceived generics as having lower costs than reference drugs. 51 Perceptions were also positive regarding the efficacy of generics. In two studies, around three-thirds of participants considered that generics had the same effect as reference drugs, 52 while in another study 58.8% of participants disagreed with the claim that generic drugs are less effective than brand name drugs.Reference Nardi, Ferraz, Pinheiro, Kowalski and Sato 53 Similarly, in one study 69.1% of participants considered that generics were of equivalent quality as reference drugs.Reference Guttier, Silveira, Luiza and Bertoldi 54

Some studies also examined perceptions related to the substitution of reference products with generics. In two studies, around three-thirds of participants were willing to accept generic substitution when purchasing drugs. 55 However, some studies suggest that this could depend on the price of generics. One study showed that even though 65.8% of respondents would accept substituting reference products with generics, only 26% would accept substitution if the drugs had the same price. 56 Similarly, in another study 59,2% of participants would always prefer taking the reference drug if there was no price difference with the generic alternatives. 57

Regarding utilization, the two aforementioned studies conducted in the same Brazilian city with a 10-year difference asked about the use of generics in the past 15 days; they showed that reports of generic use increased from 3.6% to 23,6% over the 2002-2012 period. 58 Another Brazilian study from 2015 showed that 45% of patients were taking or had taken generics in the past three months. 59

Other Stakeholders

We found no study explicitly asking other stakeholders about their utilization of generics.

One Brazilian study included “50 healthcare opinion-leaders from government, hospitals, health plans, academia, and pharmaceutical companies.” 60 Regarding their knowledge of generics, they were generally more informed of the regulatory requirements for marketing generics, but less informed about the price difference between generics and their reference drugs, than other populations also included in the study (customers visiting commercial pharmacies, patients and their companions).

The same study found that 73% of healthcare opinion-leaders believed generics are equally effective as their reference products and that 90% of them believed that generics cause as many side effects as the reference products.

Knowledge, Perceptions, and Utilization of Biosimilars

Physicians

Three studies surveyed physicians’ knowledge of biosimilars (Table 2). In a Brazilian study with rheumatologists attending a National Congress of Rheumatology, 67% of respondents asserted that they knew what biosimilars are, however, they had wrong beliefs regarding the regulation and availability of biosimilars in Brazil.Reference Azevedo, Felippe and Machado61 In another study with rheumatologists, this time from multiple (18 in total) LAC countries, 67% of respondents were aware of biosimilars being approved for use in their respective countries, however, many ignored or had mistaken beliefs regarding certain issues such as the availability and interchangeability of biosimilars.Reference Castañeda-Hernández, Sandoval, Coindreau, Rodriguez-Davison and Pineda62

Table 2 Summary of Findings of Studies Assessing Knowledge, Perceptions, and/or Utilization of Biosimilars To simplify the text, percentages were approximated to the nearest entire value.

A web questionnaire completed by 399 physicians from multiple specialities and from Argentina, Brazil, Colombia and Mexico, showed that 65% of respondents considered themselves familiar with biosimilars; this was higher in Brazilians and lower in Argentinians.Reference Reilly and Gewanter 63 Many physicians, however, had limited awareness of certain key issues; for example, 51% respondents were unaware of the difference between biologicals, biosimilars and non-comparable biologicals.

Two of the above-mentioned studies looked at perceptions of physicians regarding biosimilars. In the Brazilian study most rheumatologists identified safety and bioefficacy as major problems related to the approval of biosimilars in Brazil, while more than one-third pointed to efficacy and therapeutic failure as major problems after the commercialization of these products. 64 In the same study 67% of respondents claimed that an advantage of biosimilars was their lower price. The study with physicians from Argentina, Brazil, Colombia, and Mexico showed that 44% believed that patients could safely switch between biologicals sharing the same non-proprietary name during a course of treatment, with respondents from Colombia being comparatively less akin to switching between biologicals, than respondents from other countries. 65 The same study showed that 85% of respondents considered it either critical or very important that physicians have sole prescribing authority when selecting biological products.

Regarding utilization, the study with rheumatologists from multiple LAC countries showed that less than 30% of respondents indicated that they had prescribed a biosimilar from a list provided. 66

Patients

None of the studies found in this review examined knowledge or utilization of biosimilars by patients, but two studies explored perceptions of biosimilars. One study in patients with inflammatory bowel disease compared Brazilian and non-Brazilian patients. Brazilian patients expressed concerns about the efficacy of biosimilars (65%) and the molecular differences with the reference biological medication (53.1%). These proportions were higher than non-Brazilian patients.Reference Garcia, Facas and Machado 67 In an discrete choice experiment in patients with osteoporosis, patients showed a preference for reference biological medications over biosimilars as well as specific administration characteristics (shorter needle, needle angle from 45 to 90 degrees and automatic dosing).Reference Graham-Clarke, Hauber and Boeri 68

Other Stakeholders

We found no studies addressing knowledge, perceptions, or utilization of biosimilars in this population group.

Discussion

We conducted a scoping review to map and critically examine the existing empirical literature on the knowledge, perceptions and utilization of generics and biosimilars in LAC. To our knowledge, this is the first review of this kind focusing on studies conducted in LAC. Surprisingly, a vast majority of the studies identified were conducted in Brazil. This could be explained, as discussed above, by Brazil being a leader in generics policy in the 1990s and early 2000s, sparking interest in both the scientific community and funding agencies to carry out research on these policies. Another explanation, however, could relate to selection bias as many Brazilian journals are indexed in PubMed and might be more interested in national studies.

We found that physicians, patients, and the general population generally hold negative perceptions regarding the efficacy, quality, and safety of generics, which were likely to influence their prescribing or purchasing behavior. Perceptions were relatively more positive in pharmacists and other stakeholders. Patients and the general population (all from Brazil in this case) expressed relatively good knowledge of generics. Regarding biosimilars, we identified relatively low knowledge, negative perceptions, and low utilization of biosimilars among physicians. Patients also had strong concerns about their efficacy and molecular differences with biologicals. Overall, our findings are relatively consistent across generics and biosimilars, despite there being important differences among these drug categories.

Our study found that physicians tended to have negative perceptions regarding the efficacy, quality and safety of generics. This is consistent with earlier results from a systematic review showing that close to one-third of physicians considered generics to be less safe, effective and of lower quality. 69 Toverud et al. argue that physicians from less developed countries were highly concerned about manufacturing sources and trustworthiness of generic producers, which could explain why in Jamaica and Guatemala these negative perceptions appear to be close to 50%. 70 Another reason could be higher exposure to marketing from pharmaceutical companies, in settings where physician-industry interactions are less regulated. 71

In our study, pharmacists from Brazil and Guatemala had contrasting views. In Brazil, pharmacists reported a highly positive perception of generics’ efficacy, safety, and quality, while pharmacists in Guatemala had a less positive perception of generics. One interpretation of these findings could be that Brazil’s longstanding developments in generics policies have greatly improved perceptions of generics among pharmacists. This is in line with a systematic review reporting a higher level of confidence in generics’ efficacy and safety among pharmacists in Northern Europe than in other countries, another region with sustained efforts in generics’ policies. 72

Our findings in patients and the general population suggest good levels of knowledge of generics combined with lower perceptions of their efficacy, quality, safety, and low utilization. These findings are generally consistent with previous systematic reviews 73 and, overall, suggest that increasing knowledge might not readily translate into improved perceptions and utilization. Noteworthy, we were able to distinguish between patients and the general population, and our findings suggest that results in the general population were somewhat more positive than those in patient samples. While this might be a reflection of selection bias, i.e., patients with negative perceptions might be more likely to participate in the study, it could also be explained by the transmission of negative perceptions from physicians and health care professionals, as well as personal experiences in the use of generics.

Our findings regarding biosimilars suggest low knowledge and a negative perception and utilization among physicians. This is in line with two recent systematic reviews showing overall negative perceptions and utilization of biosimilars by physicians. 74 We found that patients expressed concerns about the efficacy of biosimilars and showed a preference for reference biological products over biosimilars. These results are generally consistent with studies with patients from the U.S. and the European Union who expressed concerns (though less pronounced) about the safety and efficacy of biosimilars.Reference Jacobs, Singh, Sewell, Al-Sabbagh and Shane 75

An important difference between studies on generics and biosimilars lies in the funding source. All studies on generics were either self-funded or publicly funded, while studies on biosimilars were mostly industry-funded. This likely reflects the interest of transnational pharmaceuticals in the biologics market, given that they require advanced production mechanisms that are potentially beyond the capabilities of generics producers in low and middle-income countries. This should also raise awareness of the potential influence of commercial interests in the use of biosimilars. It has been reported that among the barriers preventing more widespread use of these products are tactics by the manufacturers of reference biologicals to delay market entry of approved biosimilars and impede patients’ access to them.Reference Sheperd 76

Public health implications of our study are twofold. First, our study clearly demonstrates that there is room for improvement in the knowledge, perception, and utilization of generics and biosimilars in LAC, via national policies and recommendations. Education directed at health care providers and the general population will likely help to alleviate existing misunderstandings and close the knowledge gaps, especially with respect to biosimilars. Second, the observed secular changes in Brazil shed light on the potential substantial improvements derived from sustained and comprehensive policies regarding generics and biosimilars.

Major strengths in our study include the use of a scoping review methodology with a structured search of the literature and data screening, extraction and synthesis protocols. This allowed us to identify a large number of studies in the region and synthesize the evidence comprehensively. However, some limitations are noted. First, the study was not pre-registered. Second, we only included two databases (PubMed and Epistemonikos), which means we might have missed studies indexed in different databases or published as gray literature, potentially resulting in selection bias of research studies. Third, record screening was not conducted in duplicate, and as a result, we might have excluded relevant studies from full-text review. For transparency, we report a list of excluded studies, allowing researchers to identify which studies were excluded during screening and data extraction. (See Supplementary Appendix online, Table S2.)

Our study reveals important gaps in the literature regarding the knowledge, perceptions, and utilization of generics and biosimilars in LAC. More research is needed to better inform and evaluate policies aiming to promote the use of these products in the region — especially beyond Brazil — and particularly in the emerging field of biosimilars. Public health implications of our study are twofold. First, our study clearly demonstrates that there is room for improvement in the knowledge, perception, and utilization of generics and biosimilars in LAC, via national policies and recommendations. Education directed at health care providers and the general population will likely help to alleviate existing misunderstandings and close the knowledge gaps, especially with respect to biosimilars. Second, the observed secular changes in Brazil shed light on the potential substantial improvements derived from sustained and comprehensive policies regarding generics and biosimilars.

Conclusions

Generics and biosimilar products can provide cost-effective alternatives to their reference products and contribute to reducing pharmaceutical expenditure in LAC. A significant portion of physicians, patients, and the general population hold negative perceptions and have concerns regarding the use of generics and biosimilars. Governments and regulatory authorities in LAC countries should strengthen their policies to improve information, availability, and affordability of generics and biosimilars. They should also implement initiatives to improve confidence in generics and biosimilars and increase prescribing of these products. Future studies should assess the knowledge, perceptions, and utilizations of generics and biosimilars in LAC and examine the impact of policy interventions on these domains.

Note

The authors do not have any financial conflicts of interest to disclose. They are members of the Chilean non-profit organization Medicos Sin Marca (Doctors Without Brands).

Table S1 Search Strategy in PubMed and Epistemonikos

Appendix Table S2 can be found online.

References

Godman, B., Bucsics, A., Bonanno, P. Vella, et al., “Barriers for Access to New Medicines: Searching for the Balance between Rising Costs and Limited Budgets,” Front Public Health 6 (2018): 328; M.A. Mousnad, A.A. Shafie, and M.I. Ibrahim, “Systematic Review of Factors Affecting Pharmaceutical Expenditures,” Health Policy 116, nos. 2-3 (2014): 137-146; M. García-Goñi, “Rationalizing Pharmaceutical Spending,” IMF Working Papers 190 (2022): A001.CrossRefGoogle Scholar
Id. (García-Goñi).Google Scholar
Vargas, V., Rama, M., and Singh, R., “Pharmaceuticals in Latin America and the Caribbean: Players, Access, and Innovation Across Diverse Models,” World Bank, 2022.CrossRefGoogle Scholar
Vondeling, G.T., Cao, Q., Postma, M.J., and Rozenbaum, M.H., “The Impact of Patent Expiry on Drug Prices: A Systematic Literature Review,” Applied Health Economics and Health Policy 16, no. 5 (2018): 653660; A.J. Trujillo, J.C. Gutierrez, E.E. Garcia Morales, M. Socal, J. Ballreich, and G. Anderson, “Trajectories of Prices in Generic Drug Markets: What Can We Infer from Looking at Trajectories Rather Than Average Prices?” Health Economics Review 12, no. 1 (2022): 37.CrossRefGoogle ScholarPubMed
Blackstone, E.A. and Joseph, P.F., “The Economics of bBiosimilars,” American Health Drug Benefits 6, no. 8 (2013): 469478.Google Scholar
Colgan, S., Faasse, K., Martin, L.R., Stephens, M.H., Grey, A., and Petrie, K.J., “Perceptions of Generic Medication in the General Population, Doctors and Pharmacists: A Systematic Review,” BMJ Open 5, no. 12 (2015): e008915; E. Leonard, M. Wascovich, S. Oskouei, P. Gurz, and D. Carpenter, “Factors Affecting Health Care Provider Knowledge and Acceptance of Biosimilar Medicines: A Systematic Review,” Journal of Managed Care and Specialty Pharmacy 25, no. 1 (2019): 102-112; S.S. Dunne and C.P. Dunne, “What Do People Really Think of Generic Medicines? A Systematic Review and Critical Appraisal of Literature on Stakeholder Perceptions of Generic Drugs,” BMC Medicine 13 (2015): 173.Google ScholarPubMed
Id.; Sarnola, K., Merikoski, M., Jyrkkä, J., and Hämeen-Anttila, K., “Physicians’ Perceptions of the Uptake of Biosimilars: A Systematic Review,” BMJ Open 10, no. 5 (2020): e034183; M.A. Hassali, A.A. Shafie, S. Jamshed, M.I. Ibrahim, and A. Awaisu, “Consumers’ Views on Generic Medicines: A Review of the Literature,” International Journal of Pharmacy Practice 17, no. 2 (2009): 79-88; A. Alrasheedy, M.A. Hassali, and K. Stewart, et al., “Patient Knowledge, Perceptions, and Acceptance of Generic Medicines: A Comprehensive Review of the Current Literature,” Patient Intelligence 6 (2014): 1-29; E.-L. Toverud, K. Hartmann, and H. Håkonsen, “A Systematic Review of Physicians’ and Pharmacists’ Perspectives on Generic Drug Use: What Are the Global Challenges?” Applied Health Economics and Health Policy 13, no. 1 (2015): 35-45.CrossRefGoogle ScholarPubMed
Pan American Health Organization, Regulatory Systems Strengthening in the Americas: Lessons learned from the National Regulatory Authorities of Regional Reference, Pan American Health Organization, 2022.Google Scholar
IQVIA Institute, “The Global Use of Medicines 2022,” available at <https://www.iqvia.com/-/media/iqvia/pdfs/library/publications/the-global-use-of-medicines-2022.pdf> (last visited July 18, 2023).+(last+visited+July+18,+2023).>Google Scholar
Marin, G.H., “The Argentine Health System: An Analysis Based on Access to Medicines,” Cien Saude Colet 26, no. 11 (2021): 54535462.CrossRefGoogle ScholarPubMed
Prada, S.I., Soto, V.E., and Andia, T.S., et al., “Higher Pharmaceutical Public Expenditure After Direct Price Control: Improved Access or Induced Demand? The Colombian Case,” Cost Effectiveness and Resource Allocation 16, no. 1 (2018): 8.CrossRefGoogle ScholarPubMed
Parker, S.W., Saenz, J., and Wong, R., “Health Insurance and the Aging: Evidence from the Seguro Popular Program in Mexico,” Demography 55, no. 1 (2018): 361386.CrossRefGoogle ScholarPubMed
Ñahui, L., Huillca, M., and Lazo, R., et al., “Peruvian Healthcare System: A Scoping Review,” in OSF2021.Google Scholar
Vicente, G., Calnan, M., Rech, N., and Leite, S., “Pharmaceutical Policies for Gaining Access to High-Priced Medicines: A Comparative Analysis between England and Brazil,” Saúde em Debate 46 (2022).CrossRefGoogle Scholar
Luzes, A.R., Bittencourt, G., Mosegui, G., Viana, C.Md.M., Villar, F.A., and Catao, T.P., “Reflections and Perspectives on Biosimilars in Brazil,” International Journal of Pharmacy and Pharmaceutical Sciences 12, no. 7 (2020): 2631.Google Scholar
Linderson, M., Rocha, M.S., Silva, Q.Ed.Nd., and Brito, M.A.M., “Panorama Atual Das políticas De Medicamentos genéricos No Brasil: Revisão bibliográfica/Current Overview of Generic Drug Policies in Brazil: Literature Review,” Brazilian Applied Science Review 5, no. 3 (2021): 13421354; J.A.Z. Bermudez, J.C.Sd. Costa, J.Cd. Noronha, “Desafíos do Acesso a Medicamentos no Brasil,” FIOCRUZ, 2020.Google Scholar
Ministerio de Salud, Modifica el Código Sanitario en materia de regulación de farmacias y medicamentos, 2014.Google Scholar
Ortiz-Prado, E., Ponce-Zea, J., Vasconez, J.E., et al., “Current Trends for Biosimilars in the Latin American Market,” Generics and Biosimilars Initiative Journal (GaBI Journal) 9, no. 2 (2020): 6474.Google Scholar
Lizarraga, A. and Mysler, E., “Similar and Mimics: Latin America Biosimilar Regulations,” International Journal of Rheumatic Diseases 22, no. 1 (2019): 68; E. Mysler and M. Scheinberg, “Biosimilars in Rheumatology: A View from Latin America,” Clinical Rheumatology 31, no. 9 (2012): 1279-1280.CrossRefGoogle ScholarPubMed
Mysler, E., Pineda, C., Horiuchi, T., et al., “Clinical and Regulatory Perspectives on Biosimilar Therapies and Intended Copies of Biologics in Rheumatology,” Rheumatology International 36, no. 5 (2016): 613625.CrossRefGoogle ScholarPubMed
Moher, D., Liberati, A., Tetzlaff, J., Altman, D.G., “Preferred Reporting Items for Systematic Reviews and Meta-Analyses: The PRISMA Statement,” PLoS Medicine 6, no. 7 (2009): e1000097.CrossRefGoogle ScholarPubMed
Shea, B.J., Reeves, B.C., Wells, G., et al., “AMSTAR 2: A Critical Appraisal Tool for Systematic Reviews That Include Randomised or Non-randomised Studies of Healthcare Interventions, or Both,” BMJ 358 (2017): j4008.CrossRefGoogle ScholarPubMed
Gossell-Williams, M., “Generic Substitutions: A 2005 Survey of the Acceptance and Perceptions of Physicians in Jamaica,” West Indian Medicine Journal 56, no. 5 (2007): 458463; D. Flood, I. Mathieu, A Chary, P. García, and P. Rohloff, “Perceptions and Utilization of Generic Medicines in Guatemala: A Mixed-Methods Study with Physicians and Pharmacy Staff,” BMC Health Services Research 17, no. 1 (2017): 27.Google ScholarPubMed
Id. (Gossell-Williams).Google Scholar
Flood, et al., supra note 23.Google Scholar
Gossell-Williams, supra note 23.Google Scholar
Flood, et al., supra note 23.Google Scholar
Carvalho, M.C., Accioly, H. Jr., Raffin, F.N., Campos, M.N., Cruz, M.M., Alves, M.K., “[Social Representations of Generic Drugs by Pharmacists: Determination of the Central and Peripheral Representational Systems],” Cadernos de Saude Publica. 21, no. 1 (2005): 226234.Google ScholarPubMed
Flood, et al., supra note 23.Google Scholar
Id. Google Scholar
da Rocha, C.E., de Barros, J.A., Silva, M.D., “[Knowledge and Information Concerning Generic Drugs in a Public Outpatient Population in Recife, Pernambuco, Brazil],” Cadernos de Saude Publica 23, no. 5 (2007): 11411150; E.P. Nardi and M.B. Ferraz, “Perception of the Value of Generic Drugs in São Paulo, Brazil,” Cadernos de Saude Publica 32, no. 2 (2016): e00038715; M.C. Carvalho, H. Accioly Júnior, F.N. Raffin, “Social Representations of Generic Drugs by Consumers from Natal, Rio Grande do Norte, Brazil],” Cadernos de Saude Publica 22, no. 3 (2006): 653-661.Google Scholar
Id. (da Rocha, et al.).Google Scholar
Carvalho, et al., supra note 31.Google Scholar
Nardi and Ferraz, supra note 31.Google Scholar
Id. Google Scholar
Carvalho, et al., supra note 31.Google Scholar
Vosgerau, M.Z., de Souza, R.K., and Soares, D.A., “[Utilization of Generics in an Area Covered by a Family Health Unit in a Southern Brazilian City],” Revista Brasileira de Epidemiologia 14, no. 2 (2011): 253263; R.B. Goldszmidt, A.R. Buttendorf, G. Schuldt Filho, J.M. Souza, Jr., and M.A. Bianchini, “The Impact of Generic Labels on the Consumption of and Adherence to Medication: A Randomized Controlled Trial,” European Journal of Public Health 29, no. 1 (2019): 12-17; C.N. Monteiro, R.J. Gianini, N.J. Segri, M. Goldbaum, M.B. Barros, and C.L. Cesar, “Use of Generic Drugs in São Paulo City, Brazil, in 2003: A Population-Based Study,” Epidemiology and Health Services 25, no. 2 (2016): 251-258.CrossRefGoogle Scholar
Id. (Monteiro, et al.).Google Scholar
Mendoza-Chuctaya, G., Cubas-Llalle, W.S., Mejia, C.R., et al., “[The Population’s Perceptions of Generic Drugs Compared to Original Brand-Name Drugs in Peruvian Hospitals],” Cadernos de Saude Publica 35, no. 10 (2019): e00065118.CrossRefGoogle ScholarPubMed
Nardi and Ferraz, supra note 31.Google Scholar
Mendoza-Chuctaya, et al., supra note 39.Google Scholar
Nardi and Ferraz, supra note 31.Google Scholar
Goldszmidt, et al., supra note 37.Google Scholar
Monteiro, et al., supra note 37.Google Scholar
Vosgerau, et al., supra note 37.Google Scholar
Faria, M.Ad.S. and Tavares-Neto, J., “Conhecimento popular sobre medicamento genérico em um Distrito Docente-Assistencial do Município de Rio Branco, Estado do Acre, Brasil,” Epidemiologia e Serviços de Saúde 15 (2006): 3745; C.R. Blatt, S.C. Trauthman, E.H. Schmidt, S. Marchesan, L.M. da Silva, and J.L. Martins, “[General Awareness and Use of Generic Medication among Citizens of Tubarão, State of Santa Catarina, Brazil],” Ciencia & Saude Coletiva 17, no. 1 (2012): 79-87.Google Scholar
Bertoldi, A.D., Barros, A.J., and Hallal, P.C., “Generic Drugs in Brazil: Known by Many, Used by Few,” Cadernos de Saude Publica 21, no. 6 (2005): 18081815.CrossRefGoogle ScholarPubMed
Guttier, M.C., Silveira, M.P.T., Luiza, V.L., and Bertoldi, A.D., “Factors Influencing the Preference for Purchasing Generic Drugs in a Southern Brazilian City,” Revista de Saude Publica 51 (2017): 59.CrossRefGoogle Scholar
Lira, C.A., Oliveira, J.N., Mdos, S. Andrade, Vancini-Campanharo, C.R., and Vancini, R.L., “Knowledge, Perceptions and Use of Generic Drugs: A Cross Sectional Study,” Einstein (Sao Paulo) 12, no. 3 (2014): 267273.CrossRefGoogle ScholarPubMed
Tierling, V.L., Paulino, M.A., Fernandes, L.C., Schenkel, E.P., Mengue, S.S., “Nível de conhecimento sobre a composição de analgésicos com ácido acetilsalicílico,” Revista de Saúde Pública 38, no. 2 (2004).CrossRefGoogle Scholar
See supra note 48-51.Google Scholar
Blatt, et al., supra note 48; Lira, et al., supra note 51.Google Scholar
Nardi, E.P., Ferraz, M.B., Pinheiro, G.R., Kowalski, S.C., Sato, E.I., “Perceptions of the Population Regarding Generic Drugs in Brazil: A Nationwide Survey,” BMC Public Health 15 (2015): 117.CrossRefGoogle ScholarPubMed
Guttier, M.C., Silveira, M.P., Luiza, V.L., and Bertoldi, A.D., “[Perception, Knowledge, and Use of Generic Drugs in Southern Brazil: What Changed from 2002 to 2012?]” Cadernos de Saude Publica 32, no. 7 (2016).Google ScholarPubMed
See supra note 48.Google Scholar
Lira, et al., supra note 51.Google Scholar
Nardi, et al., supra note 55.Google Scholar
See supra note 49 and 50.Google Scholar
Nardi, et al., supra note 55.Google Scholar
Nardi and Ferraz, supra note 33.Google Scholar
Azevedo, V.F., Felippe, L.R., and Machado, D.M., “Opinion of Some Brazilian Rheumatologists about Biosimilars,” Revista Brasileira de Reumatologia 51, no. 6 (2011): 667671.Google ScholarPubMed
Castañeda-Hernández, G., Sandoval, H., Coindreau, J., Rodriguez-Davison, L.F., and Pineda, C., “Barriers Towards Effective Pharmacovigilance Systems of Biosimilars in Rheumatology: A Latin American Survey,” Pharmacoepidemiology and Drug Safety 28, no. 8 (2019): 10351044.CrossRefGoogle Scholar
Reilly, M.S. and Gewanter, H.L., “Prescribing Practices for Biosimilars: Questionnaire Survey Findings from Physicians in Argentina, Brazil, Colombia and Mexico,” Generics and Biosimilars Initiative Journal 4 (2015): 161+.Google Scholar
Azevedo, et al., supra note 61.Google Scholar
Reilly and Gewanter, et al., supra note 63.Google Scholar
Castañeda-Hernández, et al., supra note 62.Google Scholar
Garcia, K.S., Facas, B.P., Machado, M.B., et al., “Biosimilar Knowledge and Viewpoints among Brazilian Inflammatory Bowel Disease Patients,” Therapeutic Advances in Gastroenterology 14 (2021): 17562848211013249.CrossRefGoogle ScholarPubMed
Graham-Clarke, P.L., Hauber, B., Boeri, M., et al., “Patient Preferences for Biologic and Biosimilar Osteoporosis Treatments in Colombia,” Patient Prefer Adherence 14 (2020): 10491064.CrossRefGoogle ScholarPubMed
Colgan, et al., supra note 6.Google Scholar
Toverud, et al., supra note 7.Google Scholar
Dunne and Dunne, supra note 6; id. (Toverud).Google Scholar
Toverud, et al., supra note 7.Google Scholar
Colgan, et al., supra note 6; Dunne and Dunne, supra note 6; Toverud, supra note 7.Google Scholar
Leonard, et al., and Sarnola, et al., both supra note 6.Google Scholar
Jacobs, I., Singh, E., Sewell, K.L., Al-Sabbagh, A., and Shane, L.G., “Patient Attitudes and Understanding about Biosimilars: An International Cross-Sectional Survey,” Patient Preference and Adherence 10 (2016): 937948; E. van Overbeeke, B. De Beleyr, J. de Hoon, R. Westhovens, and I. Huys, “Perception of Originator Biologics and Biosimilars: A Survey among Belgian Rheumatoid Arthritis Patients and Rheumatologists,” BioDrugs 31, no. 5 (2017): 447-459.CrossRefGoogle ScholarPubMed
Sheperd, J., “Biologic Drugs, Biosimilars, and Barriers to Entry,” Health Matrix Cleveland 25 (2015): 139611; M.Z. Zhai, A. Sarpatwari, and A.S. Kesselheim, “Why Are Biosimilars Not Living Up to Their Promise in the US?” AMA Journal of Ethics 21, no. 8 (2019): E668-678.Google Scholar
Figure 0

Figure 1 Flowchart of Study Selection and Data Extraction

Figure 1

Table 1 Summary of Findings of Studies Assessing Knowledge, Perceptions, and/or Utilization of Generics To simplify the text, percentages were approximated to the nearest entire value.

Figure 2

Table 2 Summary of Findings of Studies Assessing Knowledge, Perceptions, and/or Utilization of Biosimilars To simplify the text, percentages were approximated to the nearest entire value.

Figure 3

Table S1 Search Strategy in PubMed and Epistemonikos

Supplementary material: PDF

Aguilera et al. supplementary material

Aguilera et al. supplementary material

Download Aguilera et al. supplementary material(PDF)
PDF 853 KB