What's in a word? The person of personalized (nano)medicine

The ethical aspects of exposome research: a systematic review

In recent years, exposome research has been put forward as the next frontier for the study of human health and disease. Exposome research entails the analysis of the totality of environmental exposures and their corresponding biological responses within the human body. Increasingly, this is operationalized by big-data approaches to map the effects of internal as well as external exposures using smart sensors and multiomics technologies. However, the ethical implications of exposome research are still only rarely discussed in the literature. Therefore, we conducted a systematic review of the academic literature regarding both the exposome and underlying research fields and approaches, to map the ethical aspects that are relevant to exposome research. We identify five ethical themes that are prominent in ethics discussions: the goals of exposome research, its standards, its tools, how it relates to study participants, and the consequences of its products. Furthermore, we provide a number of general principles for how future ethics research can best make use of our comprehensive overview of the ethical aspects of exposome research. Lastly, we highlight three aspects of exposome research that are most in need of ethical reflection: the actionability of its findings, the epidemiological or clinical norms applicable to exposome research, and the meaning and action-implications of bias.

Magnetic Nanoparticles in Medicine: Progress, Problems, and Advances

The review presents an analysis of the current state of research related to the design, development, and practical application of methods for biomedical radioelectronics and nanomedicine, including the use of magnetic nanoparticles. The important role of rational scientific physical approaches and experimental methods in the design of efficient and safe magnetic nanoparticle-based agents for therapy, controlled targeted drug delivery, and diagnostics, including spatial imaging, is emphasized. Examples of successful practical application of magnetic nanoparticles in medicine based on these methods are given, and an analysis of the main problems and prospects of this area of science is conducted.

Tracking Osteoarthritis Progress through Cationic Nanoprobe-Enhanced Photoacoustic Imaging of Cartilage

A major obstacle in osteoarthritis (OA) theranostics is the lack of a timely and accurate monitoring method. It is hypothesized that the loss of anionic glycosaminoglycans (GAGs) in articular cartilage reflects the progression of OA. Thus, this study investigated the feasibility of photoacoustic imaging (PAI) applied for monitoring the in vivo course of OA progression via GAG-targeted cationic nanoprobes. The nanoprobes were synthesized through electrostatic attraction between poly-l-Lysine and melanin (PLL-MNPs). Cartilage explants with different concentrations of GAGs incubated with PLL-MNPs to test the relationship between GAGs content and PA signal intensity. GAG activity was then evaluated in vivo in destabilization of the medial meniscus (DMM) surgically-induced mouse model. To track OA progression over time, mice were imaged consistently for 10 weeks after OA-inducing surgery. X-ray was used to verify the superiority of PAI in detecting OA. The correlation between PAI data and histologic results was also analyzed. In vitro study demonstrated the ability of PLL-MNPs in sensitively detecting different GAGs concentrations. In vivo PAI exhibited significantly lower signal intensity from OA knees compared to normal knees. More importantly, PA signal intensity showed serial reduction over the course of OA, while X-ray showed visible joint destruction until 6 weeks. A decrease in GAGs content was confirmed by histologic examinations; moreover, histologic findings were well correlated with PAI results. Therefore, using cationic nanoprobe-enhanced PAI to detect the changes in GAG contents provides sensitive and consistent visualization of OA development. This approach will further facilitate OA theranostics and clinical translation. STATEMENT OF SIGNIFICANCE: The study of in vivo monitoring osteoarthritis (OA) is of high significance to tracking the trajectory of OA development and therapeutic monitoring. Here, we developed a cartilage-targeted cationic nanoprobe, poly-l-Lysine-melanin nanoparticles (PLL-MNPs), enhancing photoacoustic imaging (PAI) to monitor the progression of OA. The in vitro study demonstrated the ability of PLL-MNPs to detect different concentrations of GAGs with high sensitivity. We found that the contents of GAGs in vivo steadily decreased from the development of OA initial-stage to the end-point of our investigation via PAI; it reflected the course of OA in living subjects with high sensitivity. These results allow for further development in various aspects of OA research. It has potential for clinical translation and has a great impact on personalized medicine.

Nanomedicine and personalised medicine: understanding the personalisation of health care in the molecular era

Globally supported by public policy and investment, nanomedicine is presented as an ongoing medical revolution that will radically change the practice of health care from diagnostic to therapeutic, and everything in between. One of nanomedicine's major promises is that of personalised medicine, enabling diagnostics and therapeutics tailored to individual needs and developing a truly 'patient-friendly' medical approach. Based on qualitative interviews with nanomedicine researchers in Canada, this article explores the emerging concept of personalised medicine as it becomes entangled with nanomedical research. More precisely, drawing on insights from science studies and the sociology of expectations, it analyses researchers' perceptions of personalised medicine in the cutting edge of current nanomedicine research. Two perceptions of personalisation are identified; a molecular conception of individuality and a technical conception of personalisation. The article concludes by examining the relationship between the two conceptions and contrasts them with the normative reflex of a more expansive conception of personalised medicine.

Of drug administration, war and oïkos: mediating cancer with nanomedicines

This paper focuses on nano-enabled drug delivery systems (NDDS) in the context of cancer medicine. It regards NDDS as relational objects whose modes of existence are defined by their relationships with a complex biocultural environment that includes both the biological processes of our bodies and the values representations and metaphors our societies associate with cancer and cancer therapy. Within this framework the abundant use of war metaphors in NDDS --from 'smart bombs' to 'magic nano-bullets'--is discussed from various angles: in terms of therapeutic efficacy, it limits the potential of the technique by preventing the inclusion of the (patho)biological environment in the nanomedicine's mode of action. In terms of development opportunities, the military strategy of active specific targeting faces cost and complexity bottlenecks. In terms of ethical values, it favors the questionable image of cancer patients as 'fighters'. On the basis of these criticisms different metaphorical frameworks are suggested, in particular that of oïkos, whereby nanomedicine is reframed as a kind of domestic economy addressing the system-environment relationships of embodied processes with further imagination and care.

Caring for social complexity in nanomedicine

In this paper, I will discuss from a ‘Science and Technology Studies’ perspective three different modes of caring about the social complexity in biomedical and nanomedical research. Nanomedical research unfolds a variety of issues that generate different concerns, questions, problems, requirements and interests that connect with different systems of action (in vitro, in vivo), different kinds (human, nonhuman) and different scales of action (nano, micro, macro). To adequately address the social complexity, I will discuss three possible modes of caring about social complexity: laboratory experiment and scientific analysis, public expert controversies, and publics. These different modes of caring share an experimental ethos that engages nanomedical issues for which no common solutions are available.