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New insights into active versus passive nanoparticle tumour entry and exit mechanisms are enriching the understanding of tumour-targeted drug delivery. Here we align the principles of enhanced permeability and retention (EPR) and active transport and retention (ATR), and outline how their mechanistic features can be employed to improve the performance and clinical impact of cancer nanomedicines.
Postdoctoral researchers (postdocs), vital contributors to academia, often face vulnerability and uncertainty. Here is a wish list from a fellow postdoc, outlining key measures to improve postdoctoral life — from employment stability and fair compensation to better work-life balance and mentorship.
Stimulation therapy for neuropsychiatric disorders is hindered by the complexity and inter-individual and intra-individual variability in symptom manifestations, neural representations and response to therapy. Brain–computer interfaces could model the brain response to stimulation and decode the symptom state of a patient from brain activity as feedback to personalize the stimulation therapy in closed loop.
Despite inspiring proof-of-concepts that are often widely covered by the media, only a few neurotechnologies have firmly established themselves as clinical solutions. In this Review, we discuss opportunities and shortcomings of this technology, and provide a framework to facilitate clinical and commercial translation.
Organoid intelligence towards biocomputing may provide insights into the neuroscience of learning and memory, and offer a biohybrid form of information processing. Advances in brain region-specific organoid engineering, sensors and signal-processing tools, integration of artificial intelligence, and miniaturization will pave the way for organoid intelligence to make an impact in biomedicine and beyond.
Prosthetic embodiment, or the incorporation of a prosthesis into one’s sensory and functional body schema, may be achieved by engineering bionic limbs that leverage a closed-loop mechanoneural–machine interface. However, the subjective experience of embodiment remains difficult to define and assess.
University departments may benefit from guidelines not only to craft effective diversity, equity and inclusion plans, but also to measure progress towards achieving specific goals. This Perspective presents a framework for building, assessing and continuously improving strategic plans to improve recruitment and retention and make departments more inclusive.
Viruses can be engineered to deliver nucleic acids, peptides and proteins for plant trait reprogramming. Building on market approvals and sales of recombinant virus-based biopharmaceuticals for veterinary and human medicine, similar innovations may be applied to agriculture for transient or heritable biodesign of crops with improved performance and sustainable production.
Artificial intelligence (AI) is finding its way into healthcare. Therefore, medical students need to be trained to be ‘bilingual’ in both medical and computational terminology and concepts to allow them to understand, implement and evaluate AI-related research.
An article in Nature Communications reports the implications of anti-PEG immune reactions for PEG-based hydrogel implants and tissue engineering applications.
Smart food packaging technologies can actualize real-time, in situ food quality monitoring, increasing food safety and decreasing food waste. Here, we detail challenges that hinder the commercialization of such smart packaging systems and identify opportunities to facilitate their translation from prototype to product.
The organic electrochemical transistor stands out as a tool for constructing powerful biosensors owing to its high signal transduction ability and adaptability to various geometrical forms. However, the performance of organic electrochemical transistors relies on stable and seamless interfaces with biological systems. This Review examines strategies to improve and optimize interfaces between organic electrochemical transistors and various biological components.
Wound healing mechanisms differ depending on the sex, particularly in chronic wounds. Therefore, sex should be considered in the design of nanomedicine- and biomaterials-based wound healing therapies, both in preclinical and clinical testing.
Neuromodulation and brain–computer interfaces are rapidly evolving fields with distinct origins but with the shared goal of improving the lives of people with neurological and psychiatric disorders or injuries. Their increasing technological overlap provides new opportunities for collaborative work and rapid progress in neurotechnology.
Fats and oils are crucial dietary supplements for human health. However, animal fats and palm oil dominate the food industry, with concerns over health and the environment that call for the development of fat alternatives. The fat industry offers a vast market potential, with several startups pioneering new technical solutions and attracting venture capital interest.
Using nanoparticles featuring anisotropic characteristics is a promising approach to developing multifunctional platforms for drug delivery and theranostics. This Review discusses methods to generate anisotropy in nanosystems and strategies to control particle transport, targeting and interaction with cells to overcome biological barriers.
Bioplastics have yet to make an impact in addressing plastics pollution. Policy measures, innovation and public discourse are needed to address misconceptions, clarify labelling and ensure their effective end-of-life management.
An article in Communications Engineering reports a 3D real-time magnetic particle scanner suitable for brain imaging at the patient’s bedside in intensive care units.
Motion artefacts challenge the translational application of soft bioelectronics by distorting physiological monitoring. This Review introduces fundamental causes of motion artefacts and discusses various management strategies, including materials usage, bioelectronics design and algorithmic intervention.