The global biomedical research enterprise is driving substantial advances in medicine and healthcare. Yet it appears that the enterprise is rather wasteful, falling short of its true innovative potential. Suggested reasons are manifold and involve various stakeholders, such that there is no single remedy. In the present paper, I will argue that laboratories are the basic working units of the biomedical research enterprise and an important site of action for corrective intervention. Keeping laboratories relatively small will (...) enable better training and mentoring of individual scientists, which in turn will yield better performance of the scientific workforce. The key premise of this argument is that people are at the heart of the successes and failures of biomedical research, yet the human dimension of science has been unduly neglected in practice. Renewed focus on the importance of laboratories and their constituent scientists is one promising approach to reducing waste and increasing efficiency within the biomedical research enterprise. (shrink)

From the 5th edition of Beauchamp and Childress' Principles of Biomedical Ethics, the problem of common morality has been given a more prominent role and emphasis. With the publication of the 6th and latest edition, the authors not only attempt to ground their theory in common morality, but there is also an increased tendency to identify the former with the latter. While this stratagem may give the impression of a more robust, and hence stable, foundation for their theoretical construct, (...) we fear that it comes with a cost, namely the need to keep any theory in medical ethics open to, and thereby aware of, the challenges arising from biomedical research and clinical practice, as well as healthcare systems. By too readily identifying the moral life of common morality with rule-following behaviour, Beauchamp and Childress may even be wrong about the nature of common morality as such, thereby founding their, by now, classic theory on quicksand instead of solid rock. (shrink)

This essay analyzesexploitation in biomedical research in terms ofthree basic elements: harm, disrespect, orinjustice. There are also degrees ofexploitation, ranging from highly exploitationto minimally exploitation. Althoughexploitation is prima facie wrongful,some exploitative research studies are morallyjustified, all things considered. The reasonan exploitative study can still be ethical isthat other moral considerations, such as theautonomy of the research subject or the socialbenefits of research, may sometimes justifystudies that are minimally exploitative. Calling a research project exploitative doesnot (...) end the debate about the merits of thestudy but invites one to ask additionalquestions about how the study is exploitative,and whether the study is justifiablenevertheless. (shrink)

Recent empirical evidence has demonstrated that research misconduct occurs to a substantial degree in biomedical research. It has been suggested that scientific integrity is also of concern in China, but this seems to be based largely on anecdotal evidence. We, therefore, sought to explore the Chinese situation, by making a systematic review of published empirical studies on biomedical research integrity in China. One of our purposes was also to summarize the existing body of research (...) published in Chinese. We searched the China National Knowledge Infrastructure, Wanfang Data, PubMed and Web of Science for potentially relevant studies, and included studies meeting our inclusion criteria, i.e. mainly those presenting empirically obtained data about the practice of research in China. All the data was extracted and synthesized using an inductive approach. Twenty-one studies were included for review. Two studies used qualitative methods and nineteen studies used quantitative methods. Studies involved mainly medical postgraduates and nurses and they investigated awareness, attitudes, perceptions and experiences of research integrity and misconduct. Most of the participants in these 21 studies reported that research integrity is of great importance and that they obey academic norms during their research. Nevertheless, the occurrence of research misbehaviors, such as fabrication, falsification, plagiarism, improper authorship and duplicate submission was also reported. Strengthening research integrity training, developing the governance system and improving the scientific evaluation system were areas of particular attention in several studies. Our review demonstrates that a substantial number of articles have been devoted to research integrity in China, but only a few studies provide empirical evidence. With more safeguard measures of research integrity being taken in China, it would be crucial to conduct more research to explore researchers’ in-depth perceptions and evaluate the changes. (shrink)

In his paper “Scientific research is a moral duty”, John Harris argues that individuals have a moral duty to participate in biomedical research by volunteering as research subjects. He supports his claim with reference to what he calls the principle of beneficence as embodied in the “rule of rescue” , and the principle of fairness embodied in the prohibition on “free riding” . His view that biomedical research is an important social good is agreed (...) upon, but it is argued that Harris succeeds only in showing that such participation and support is a moral good, among many other moral goods, while failing to show that there is a moral duty to participate in biomedical research in particular. The flaws in Harris’s arguments are detailed here, and it is shown that the principles of beneficence and fairness yield only a weaker discretionary or imperfect obligation to help others in need and to reciprocate for sacrifices that others have made for the public good. This obligation is discretionary in the sense that the individuals are free to choose when, where, and how to help others in need and reciprocate for earlier sacrifices. That Harris has not succeeded in claiming a special status for biomedical research among all other social goods is shown here. (shrink)

It is correctly asserted that the intensity of the current debate over the use of animals in biomedical research is unprecedented. The extent of expressed animosity and distrust has stunned many researchers. In response, researchers have tended to take a strategic defensive posture, which involves the assertion of several abstract positions that serve to obstruct resolution of the debate. Those abstractions include the notions that the animal protection movement is trivial and purely anti-intellectual in scope, that all science (...) is good (and some especially so), and the belief that an ethical consensus can never really be reached between the parties. (shrink)

This book deals with the international assessment and regulation of biomedical research. In its chapters, some of the leading figures in today’s bioethics address questions centred on global development, scientific advances, and vulnerability. The series _Values In Bioethics_ makes available original philosophical books in all areas of bioethics, including medical and nursing ethics, health care ethics, research ethics, environmental ethics, and global bioethics.

Ethical oversight of clinical research is one of the primary means of ensuring that human subjects are protected from the natural bias of researchers and research institutions in favor of experimentation. At a minimum, effective oversight should ensure that risks are minimized and reasonable in relation to anticipated benefits, protect vulnerable subjects from potential coercion or undue influence, ensure full and informed consent, and promote the equitable distribution of the risks and benefits of research. Because these assessments (...) often involve value judgments for which there are no agreed-upon objective standards, we rely on deliberative procedures thought to have the greatest likelihood of producing the right or best outcomes. Concerns about the potential for improperly functioning IRBs to waste scarce human and institutional resources and impede biomedical progress have motivated a surge in empirical research assessing their procedures and outcomes. Yet within this literature, there has been minimal attention paid to the social scientific evidence regarding how individuals and deliberating groups make decisions, nor how those data might inform IRB practice. This essay seeks to fill that gap, locating recent empirical data on IRB composition and process within the context of data regarding what I call “deliberative pathologies,” or instances when deliberation fails to live up to one or more aspect of the deliberative ideal because of systematic biases in the ways participants interact. The paper goes on to make evidence-based recommendations to reduce the vulnerability of IRB deliberations to the kinds of pathologies discussed and indicate directions for future research. (shrink)

An overview of the key debates in biomedical researchethics, presented through a wide-ranging selection of casestudies.

The current prevailing view is that participation in biomedical research is above and beyond the call of duty. While some commentators have offered reasons against this, we propose a novel public goods argument for an obligation to participate in biomedical research. Biomedical knowledge is a public good, available to any individual even if that individual does not contribute to it. Participation in research is a critical way to support an important public good. Consequently, all (...) have a duty to participate. The current social norm is that individuals participate only if they have a good reason to do so. The public goods argument implies that individuals should participate unless they have a good reason not to. Such a shift would be of great aid to the progress of biomedical research, eventually making society significantly healthier and longer lived. (shrink)

Biomedical research on human subjects involves exposing individuals to risks and burdens for the benefit of others, and therefore raises concerns about exploitation. While the concept of exploitation has received significant attention in recent research ethical literature, its relevance and implications in this area remain unclear and contested. This chapter explains how this concept is nonetheless important for understanding the ethical complexities of human subject research and the proper design of subject protections. The chapter provides an (...) overview of research practices often thought to raise exploitation concerns and introduces philosophical exploitation theory, focusing on aspects relevant to research ethics. Against this background, the obligations of non-exploitation held by researchers, sponsors, and third parties such as ethics committees and regulators are outlined. The chapter ends by considering how exploitative research in the past can be retroactively remediated. (shrink)

This volume assesses the ethical, quantitative, and qualitative questions posed by the current financing of biomedical research.

Biomedical researchers claim there is significant biomedical information about humans which can be discovered only through experiments on intact animal systems (AMA p. 2). Although epidemiological studies, computer simulations, clinical investigation, and cell and tissue cultures have become important weapons in the biomedical scientists' arsenal, these are primarily "adjuncts to the use of animals in research" (Sigma Xi p. 76). Controlled laboratory experiments are the core of the scientific enterprise. Biomedical researchers claim these should be (...) conducted on intact biological systems, whole animals. By observing the effects of various stimuli in non-human animals, we can form legitimate expectations about the likely effects of these stimuli in humans. Perhaps more importantly, we can understand the biomedical condition's causal mechanisms. (shrink)

Although for the last 50 years, ethicists dealing with human experimentation have focused primarily on the need to protect individual research subjects and vulnerable groups, biomedical research, especially in genetics, now requires the establishment of standards for the protection of communities. We have developed such a strategy, based on five steps. (i) Identification of community characteristics relevant to the biomedical research setting, (ii) delineation of a typology of different types of communities using these characteristics, (iii) (...) determination of the range of possible community protections, (iv) creation of connections between particular protections and one or more community characteristics necessary for its implementation, and (v) synthesis of community characteristics and possible protections to define protections appropriate for each type of community. Depending on the particular community, consent and consultation, consultation alone, or no added protections may be required for research. (shrink)

The integrity of biomedical research depends heavily on the quality of research data collected. In turn, data quality depends on processes of data collection, a task undertaken by frontline research staff in many research programmes in Africa and elsewhere. These frontline research staff often have additional responsibilities including translating and communicating research in local languages, seeking informed consent for study participation and maintaining supportive relationships between research institutions and study participants and wider (...) communities. The level of skills that fieldworkers need to undertake these responsibilities clearly affects the quality of data collected, the ethics of research ‘on the ground’ and the short and long term acceptability of research.We organised an international workshop in Kenya in July 2014 to discuss the role of frontline staff in scientific research. A total of 25 field managers from 9 African countries and the UK met for 2.5 days to discuss the relationship between data quality and institutional performance management systems and how they affect career progression and supportive supervision policies of research frontline staff.From this workshop, and supporting an expanding literature on the role of fieldworkers in international health research, participants agreed that fieldworkers’ roles present them with practical and ethical challenges that their routine training does not adequately prepare them for. We argue that the common and complex challenges facing fieldworkers should in part be addressed through increased investment and collaborative agreements across types of research institutions in Africa. We call for standardization of core elements of training for this critically important cadre of research staff who perform similar roles and encounter similar challenges in many African settings. Although many valuable training elements are offered in institutions, there is a need to develop broader, more grounded and innovative strategies to address complex realities for fieldworkers, and support the integrity and ethics of health research in these settings. (shrink)

The use of racial categories in biomedicine has had a long history in the United States. However, social hierarchy and discrimination, justified by purported scientific differences, has also plagued the history of racial categories. Because “race” has some correlation with biological and genetic characteristics, there has been a call not to “throw the baby out with the bathwater” by eliminating race as a research or clinical category. I argue that race is too undefined and fluid to be useful as (...) a proxy for biology or genetics. (shrink)

We surveyed 1005 postdoctoral fellows by questionnaire about ethical matters related to biomedical research and publishing; 33% responded. About 18% of respondents said they had taken a course in research ethics, and about 31% said they had had a course that devoted some time to research ethics. A substantial majority stated willingness to grant other investigators, except competitors, access to their data before publication and to share research materials. Respondents’ opinions about contributions justifying authorship of (...) research papers were mainly consistent but at variance with those of many biomedical journal editors. More than half said they had observed what they considered unethical research practices. To increase the chances of getting a grant funded, 27% said they were willing to select or omit data to improve their results; to make publication of their work more likely or to benefit their career, 15% would select or omit data and 32% would list an undeserving author. Of respondents who thought they had been unfairly denied authorship on a paper, or been listed with or asked to list an undeserving author, 75% said they would be willing to list an undeserving author (P<0.001). Having taken a course dealing with research ethics had no effect on stated willingness to select or omit data or to fabricate data in the future, but was positively associated with willingness to grant undeserved authorship (P<0.04). Although these results do not controvert research demonstrating the effectiveness of ethics courses during professional education, they indicate that the research environment is a powerful component of a trainee’s experience and ethical development. (shrink)

Current debates surrounding the virtues and shortcomings of randomization are symptomatic of a lack of appreciation of the fact that causation can be inferred by two distinct inference methods, each requiring its own, specific experimental design. There is a non-statistical type of inference associated with controlled experiments in basic biomedical research; and a statistical variety associated with randomized controlled trials in clinical research. I argue that the main difference between the two hinges on the satisfaction of the (...) comparability requirement, which is in turn dictated by the nature of the objects of study, namely homogeneous or heterogeneous populations of biological systems. Among other things, this entails that the objection according to which randomized experiments fail to provide better evidence for causation because randomization cannot guarantee comparability is mistaken. (shrink)

There are deep divides over the use of racial and ethnic categories in biomedical research and its application in both medical and non-medical contexts. On one side of a roughly described dividing line are practitioners who need to use every piece of information at their disposal to solve pressing, realworld problems in real time, such as making clinical diagnoses or identifying perpetrators of crime. On the other side are scientists and policy makers committed to meeting a scientific and (...) social need for accuracy and thus trying to avoid miscategorization.As Jay Cohn describes in this issue, medical practitioners in particular have used racial and ethnic categories to “enhance diagnostic and therapeutic precision.” He argues for retaining this practice. The plea, motivated by genuine concern for patients, is to avoid “throwing the baby out with the bathwater.” However, Cohn and others mischaracterize the nature of the debate. The argument is not about whether differences among populations exist, or even whether differences among “races” exist. (shrink)

One of the fundamental ethical concerns about biomedical research is that it frequently exposes participants to risks for the benefit of others. To protect participants’ rights and interests in this context, research regulations and guidelines set out a mix of substantive and procedural requirements for research involving humans. Risk thresholds play an important role in formulating both types of requirements. First, risk thresholds serve to set upper risk limits in certain types of research. Second, risk (...) thresholds serve to demarcate risk categories that streamline risk-adapted systems of ethical oversight. But although risk thresholds play such an important role in research governance, there is a need both to better define the existing risk thresholds and to delineate new thresholds in order to develop more risk-adapted systems of research oversight. The present paper examines the existing minimal risk threshold and the surrounding debates with the goal of deriving a systematic approach to setting thresholds of research risk. (shrink)

Background Community involvement in research has been advocated by researchers, communities, regulatory agencies, and funders with the aim of reinforcing subjects’ protection and improving research efficiency. Community involvement also has the potential to improve dissemination, uptake, and implementation of research findings. The fields of community based participatory research conducted with indigenous populations and of participatory action research offer a large base of experience in community involvement in research. Rules on involving the population affected when (...) conducting research have been established in these fields. But what is the role of community engagement in clinical research and observational studies conducted in biomedical research outside of these specific areas? Main body of the abstract More than 20 years ago, in the field of HIV medicine, regulatory bodies and funding agencies recommended the constitution of a formal organism, the Community Advisory Board, as part of the study requirements for HIV trials. More recently, CABs have been adopted and used in other fields of medical research, such as malaria. CABs are not without limitations, however, and there is little research on the effectiveness of their use in achieving community protection and participation. Nevertheless, CABs could be a model to import into clinical trials and observational research where no alternative model of community representation is currently being used. Conclusions Allocating more resources to training and shifting more power to community representatives could be part of the solution to current CAB limitations. However, for researchers to be able to apply these recommendations on community involvement, certain conditions need to be met. In particular, funding agencies need to recognize the human and financial resources required for serious community involvement, and the academic environment needs to take community involvement into account when appraising, mentoring, and training researchers. (shrink)

An informed consent and voluntary assent in biomedical research with adolescents is contingent on a variety of factors, including adolescent and parent perceptions of research risk, benefit, and decision-making autonomy. Thirty-seven adolescents with asthma and their parents evaluated a high or low aversion form of a pediatric asthma research vignette and provided an enrollment decision; their perceptions of family influence over the participation decision; and evaluations of risk, aversion, benefit, and burden of study procedures. Adolescents and (...) their parents agreed on research participation decisions 74% of the time, yet both claimed ultimate responsibility for the participation decision. Both rated most study procedures as significantly more aversive than risky. Parents were more likely to rate aspects of the hypothetical study as beneficial and to provide higher risk ratings for procedures. Disagreements concerning research participation decisions and decision-making autonomy have implications for the exercise of voluntary assent in biomedical research. (shrink)

The use of human subjects in research comes with lots of ethical challenges. The purpose of this review is to assess the various ethical issues that have been associated with biomedical research in Nigeria. This article also finds out the possible ways of improvement of this scenario. Pubmed/Medline, Google Scholar, JSTOR, and AJOL search were the possible search engine for literature from 2000 to 2020. Key words were used including, ethical issues, biomedical research and Nigeria. (...) Of the 113 publications were found., A total of 18(15.9%) articles fulfilled the study inclusion criteria and were included in this review. Twelve ethical issues were highlighted including Informed consent (12 studies), autonomy and voluntariness (8 studies), beneficence (8 studies), counseling (5 studies), compensation (4 studies), professional behavior and attitudes (2 studies), confidentiality (2 studies), social, cultural and religious practices (2 studies), scientific integrity (1 study), communitarianism (1 study), equity (1 study), and trust (1 study). We found that there are ethical issues in biomedical research in Nigeria of which informed consent is most widely studied. Also, participants had varying degree of understanding of their rights as research subjects. As a result, there is need to enhance the capacity of investigators to better understand these issues and also increase their explanatory skill to help participants achieve complete understanding of their various rights and process. (shrink)

Conflicts of interest held by researchers remain a focus of attention in clinical research. Biases related to these relationships have the potential to directly impact the quality of healthcare by influencing decision-making, yet conflicts of interest remain underreported, inconsistently described, and difficult to access. Initiatives aimed at improving the disclosure of researcher conflicts of interest are still in their infancy but represent a vital reform that must be addressed before potential biases associated with conflicts of interest can be mitigated (...) and trust in the impartiality of clinical evidence restored. In this review, we examine the prevalence of conflicts of interest, evidence of the effects that disclosed and undisclosed conflicts of interest have had on the reporting of clinical evidence, and the emerging approaches for improving the completeness and consistency of disclosures. Through this review of emerging technologies, we recognize a growing interest in publicly accessible registries for researcher conflicts of interest and propose five desiderata aimed at maximizing the value of such registries: mandates for ensuring that researchers keep their records up to date; transparent records that are made available to the public; interoperability to allow researchers, bibliographic databases, and institutions to interact with the registry; a consistent taxonomy for describing different classes of conflicts of interest; and the ability to automatically generate conflicts of interest statements for use in published articles. (shrink)

An established ethical principle of biomedical research involving human subjects stipulates that risk to subjects should be proportionate to an experiment’s potential benefits. Sometimes this principle is imprecisely stated as a requirement that ‘risks and benefits’ be balanced. First, it is noted why this language is imprecise. Second, the persistence of such language is attributed to how it functions as a rhetorical trope. Finally, an argument is made that such a trope is infelicitous because it may not achieve (...) its intended persuasive purposes. More importantly, it should be avoided because it masks the important role that chance plays in clinical research. Risk is the possibility of harm. As a precondition of harm it is unintended and undesirable in projects of biomedical research. It requires ethical vigilance. As a vehicle of chance, however, it is both intended and desirable. It requires methodological appreciation. (shrink)

Digitization of a health record changes its accessibility. An electronic health record (EHR) can be accessed by multiple authorized users. Health information from EHRs contributes to learning healthcare systems’ development. The objective of this systematic review is to answer a question: What are ethical issues concerning research using EHRs in the literature? We searched Medline Ovid, Embase and Scopus for publications concerning ethical issues of research use of EHRs. We employed the constant comparative method to retrieve common ethical (...) themes. We descriptively summarized empirical studies. The study reveals the breadth, depth, and complexity of ethical problems associated with research use of EHRs. The central ethical question that emerges from the review is how to manage access to EHRs. Managing accessibility consists of interconnected and overlapping issues: streamlining research access to EHRs, minimizing risk, engaging and educating patients, as well as ensuring trustworthy governance of EHR data. Most of the ethical problems concerning EHR-based research arise from rapid cultural change. The framing of concepts of privacy, as well as individual and public dimensions of beneficence, are changing. We are currently living in the middle of this transition period. Human emotions and mental habits, as well as laws, are lagging behind technological developments. In the medical tradition, individual patient’s health has always been in the center. Transformation of healthcare care, its digitalization, seems to have some impacts on our perspective of health care ethics, research ethics and public health ethics. (shrink)

In this paper I address the conflict of interest (CoI) issue from a legal point of view at a European level. We will see that the regulatory framework that exists in Europe does state the need for the independence of ethics committee involved in authorisation of research and clinical trials. We will see that CoI is an element that has to be closely monitored at National and International level. Therefore, Member States and Newly Associated States do have to address (...) CoI in the authorisation process of research and clinical protocols of biomedicine. (shrink)

Autism Spectrum Disorder (ASD) is a neurodevelopmental condition characterized by social/communicative difficulties and perseverative behaviours. While research on autism has flourished recently, few studies have been conducted on the disorder in non‐Western contexts. In low‐ and middle‐income countries (LMICs), biomedical research on autism is required to better understand the needs of the population and to develop contextually appropriate interventions. However, autistic individuals are a vulnerable study population and LMICs present with various considerations. While the presentation of autism (...) is heterogeneous, stigma is a common social consequence affecting research. Drawing specifically on the South African context, the ethical intersections of these issues are discussed, along with the limitations of the current informed consent process. Community engagement is recommended as an adjunct to informed consent to ensure that biomedical research is conducted in a more inclusive way. Practical pointers are provided for implementing systematic support for conducting community engagement alongside biomedical research. (shrink)

Contemporary genetic and biomedical research on race and ethnicity has reignited the debate over the biological significance of these categories. This article provides an overview of the critical literature concerning the categorization of Hispanic and Hispanic populations within these research programs. More specifically, this article focuses on issues regarding: The conceptualization of Hispanic identity, issues of data collection and generalization (e.g., the use of a specific Hispanic nationality as a stand‐in for all Hispanics), the tension between social (...) and biological classifications of ethnic populations, and the social, political, and scientific implications of genetic research for Latin America. (shrink)

In the late 1970s, while working in my laboratory at the American Health Foundation, I received a phone call from Henry Spira. Not one for small talk, he did not even bother introducing himself beyond his name. He immediately began questioning me about my studies using the protozoan Tetrahymenathermophila, which I hoped would serve as an alternative to the Draize ocular irritation test. While flattered that someone cared about my work, I was soon lost in confusion and skepticism about the (...) true purpose of his call. Who was Henry Spira? Why did he want to visit my animal facility and why did he want to bring a physician colleague with him? Not only was I naive about the budding opposition to the Draize test, I was equally naive that it was Spira, an ardent animal protectionist, who was leading the fight. This seminal interaction began a friendship that spanned nearly twenty years; a friendship that indelibly changed my perception of nonhuman animals and how I relate to them. (shrink)

The ways in which other animal species can be informative about human biology are not exhausted by the traditional picture of the animal model. In this paper, I propose to distinguish two roles which laboratory organisms can have in biomedical research. In the more traditional case, organisms act as surrogates for human beings, and as such are expected to be more manageable replicas of humans. However, animal models can inform us about human biology in a much less straightforward (...) way, by being used as measuring devices—what I call their instrumental role. I first characterize this role and provide criteria for it, before illustrating it with some examples from biomedical research, especially cancer research. In such an instrumental role, phenotypes are not expected to phenocopy human phenomena, but instead have the purely instrumental value of detecting or measuring differences. I argue that the instrumental role is more prevalent than might first be suspected, and that some characteristics of contemporary biomedical research are increasingly shifting the use of laboratory organisms to the instrumental role. Finally, in light of the distinction proposed, I discuss the meaning of the expression “animal model”. (shrink)

In biomedical research lack of trust is seen as a great threat that can severely jeopardise the whole biomedical research enterprise. Practices, such as informed consent, and also the administrative and regulatory oversight of research in the form of research ethics committees and Institutional Review Boards, are established to ensure the protection of future research subjects and, at the same time, restore public trust in biomedical research. Empirical research also testifies (...) to the role of trust as one of the decisive factors in research participation and lack of trust as a barrier for consenting to research. However, what is often missing is a clear definition of trust. This paper seeks to address this gap. It starts with a conceptual analysis of the term trust. It compares trust with two other related terms, those of reliance and trustworthiness, and offers a defence of Baier’s attribute of ‘good will’ a basic characteristic of trust. It, then, proceeds to consider trust in the context of biomedical research by examining two questions: First, is trust necessary in biomedical research?; and second, do increases in regulatory oversight of biomedical research also increase trust in the field? This paper argues that regulatory oversight is important for increasing reliance in biomedical research, but it does not improve trust, which remains important for biomedical research. It finishes by pointing at professional integrity as a way of promoting trust and trustworthiness in this field. (shrink)

In this paper we examine the use of companion animals (pets) in studies of drugs and devices aimed at human and animal health and situate it within the context of philosophy of technology. We argue that companion animals serve a unique role in illuminating just what it means to use biological technologies and examine the implications for human-animal relationships. Though philosophers have often treated animals as technologies, we argue that the biomedical use of companion animals presents a new configuration (...) of ethical and technological concerns that deserves more attention. Though it seems that companion animals solve many of the ethical dilemmas caused by the use of laboratory animals, the use of companion animals presents its own set of ethical concerns. This paper contextualizes the use of companion animals in research. (shrink)