Topical Review Research Articles

Negative piezoelectricity in quasi-two/one-dimensional ferroelectrics

Abstract In recent years, the investigation of low-dimensional ferroelectrics has attracted great attention for their promising applications in nano devices. Piezoelectricity is one of the most core properties of ferroelectric materials, which plays the essential role in micro-electromechanical systems. Very recently, the anomalous negative piezoelectricity has been predicted/discovered in many quasi-two-dimensional layered ferroelectric materials. In this Topical Review, we will briefly introduce on the negative piezoelectricity in quasi-two/one-dimensional ferroelectrics, including its fundamental concept, typical materials, theoretical predictions, as well as experimental phenomena. The underlying physical mechanisms for negative piezoelectricity are divergent and varying from case by case, which can be categorized into four types. First, the soft van der Waals layer is responsible for the volume shrinking upon pressure while the electric dipoles is from non van der Waals layer. Second, the noncollinearity of local dipoles creates a ferrielectricity, which leads to orthogonal ferroelectric and antiferroelectric axes. Third, the electric dipoles come from interlayer/interchain couplings, which can be enhanced during the volume shrinking. Fourth, the special buckling structure contributes to local dipoles, which can be enhanced upon pressure. In real materials, more than one mechanism may work together. Finally, the future directions of negative piezoelectricity and their potential applications are outlooked.

A review of deep learning-based stereo vision techniques for phenotype feature and behavioral analysis of fish in aquaculture

The industrialization, high-density, and greener aquaculture requires a more precise and intelligent aquaculture management. Phenotypic and behavioral information of fish, which can reflect fish growth and welfare status, play a crucial role in aquaculture management. Stereo vision technology, which simulates parallax perception of the human eye, can obtain the three-dimensional phenotypic characteristics and movement trajectories of fish through different types of sensors. It can overcome the limitations in dealing with fish deformation, frequent occlusions and understanding three-dimension scenes compared to the traditional two-dimensional computer vision techniques. With the deep learning development and application in aquaculture, stereo vision has become a super computer vision technology that can provide more precise and interpretable information for intelligent aquaculture management, such as size estimation, counting and behavioral analysis of fish. Hence, it is very beneficial for researchers, managers, and entrepreneurs to possess a thorough comprehension about the fast-developing stereo vision technology for modern aquaculture. This study provides a critical review of relevant topics, including the four-layer application structure of stereo vision technology in aquaculture, various deep learning-based technologies used, and specific application scenarios. The review contributes to research development by identifying the current challenges and provide valuable suggestions for future research directions. This review can serve as a useful resource for developing future studies and applications of stereo vision technology in smart aquaculture, focusing on phenotype feature extraction and behavioral analysis of fish.

Quantum entanglement and non-Hermiticity in free-fermion systems

Abstract This topical review article reports rapid progress on the generalization and application of entanglement in non-Hermitian free-fermion quantum systems. We begin by examining the realization of non-Hermitian quantum systems through the Lindblad master equation, alongside a review of typical non-Hermitian free-fermion systems that exhibit unique features. A pedagogical discussion is provided on the relationship between entanglement quantities and the correlation matrix in Hermitian systems. Building on this foundation, we focus on how entanglement concepts are extended to non-Hermitian systems from their Hermitian free-fermion counterparts, with a review of the general properties that emerge. Finally, we highlight various concrete studies, demonstrating that entanglement entropy remains a powerful diagnostic tool for characterizing non-Hermitian physics. The entanglement spectrum also reflects the topological characteristics of non-Hermitian topological systems, while unique non-Hermitian entanglement behaviors are also discussed. The review is concluded with several future directions. Through this review, we hope to provide a useful guide for researchers who are interested in entanglement in non-Hermitian quantum systems.

Fermion and boson pairs in beamsplitters and MZIs

Abstract In this short Topical Review, we look at something typically considered trivial, but not given formally elsewhere---the behaviour of first multiple fermions, then multiple bosons, at a beamsplitter. Extending from this, {we then describe} the behaviour of multiple fermions and multiple bosons in Mach-Zehnder interferometers (MZIs). We hope that by showing how to go from mathematically-simple but unintuitive quantum field theory to a phenomenological description, this Review will help {both} researchers and students build a stronger intuition for the behaviour of quantum particles.

Honors Track in Global and Occupational Health: a students’ perspective from Humanitas University

Abstract Background To meet an increasing interest in global health, more opportunities for medical students should be created. Humanitas University (Milan, Italy) has debuted a new extracurricular activity called “Honors Track in Global and Occupational Health” (HT-GOH), to allow students critical insights into the field at the beginning of their career. Objectives HT-GOH is a two-year programme, led by expert professors in the field. The main aim is to circumvent limitations of global health education at individual institutions, achieved through a combined presence and online approach that allows for international collaboration with experts and attendance of online lectures and travel abroad for practical experiences. Complemented by monthly meetings, participation to workshops, seminars, conferences, and the discussion and literature review of crucial global health topics. Results The six participating students are actively promoting discussions, exchange of ideas, and literature findings on many global health issues. They audited courses in other universities and are building connections within the field. The active involvement of the students and their increasing interest in the global health debate can be seen by their participation in this abstract and the conference. The effectiveness of the programme is being evaluated through monthly feedback by students. Conclusions The programme allows for an initiation to research work, promoting collaboration between students and exploration of a variety of topics under the guidance of experts. The nature of a specific programme allows for a more individualized approach and greater development of skills unique to each student. This HT represent a valid approach to global health education, especially in settings in which this field is only taught in the context of a public health course. Key messages • A new programme at Humanitas University offering an innovative approach to the field of global health to interested students. • The students’ perspective towards an integrated approach to global health in medical schools.

Novel Approaches in HIV-1 Cure: Genetic Editing and Gene Repression Techniques. Topic Review

Introduction: The worldwide challenge presented by human immunodeficiency virus type 1, affecting 39 million individuals, endures despite the highly active antiretroviral therapy. Limitations of it, including insufficiently addressing viral reservoirs leading to prolonged drug toxicity, resistance concerns, and economic burdens, have fueled exploration into alternative approaches. Gene editing and gene repression techniques have emerged as potential solutions. Objective: Conduct a comprehensive analysis of recent research following Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, focusing on genetic modification and gene repression in HIV-1-infected samples. Methods: A meticulous search identified 413 articles, of which 76 met strict criteria. Inclusion criteria involved studies on gene editing and HIV-1 expression (2019–2023), emphasizing CCR5 repression. Exclusions targeted weak evidence, lacking practical efficacy, and non-relevance to HIV-1 or genetic tools. Duplicates and non-open-access articles were also excluded. Results: The identified strategies show promise in their ability to mitigate the chronicity of the infection. However, challenges such as off-target effects, ethical considerations surrounding in vivo, ex vivo, and germline editing, and variable efficacy across studies are evident. The imperative for continued evaluation, refinement of techniques, and the development of effective administration methods is underscored. Conclusions: This topic review provides a nuanced exploration of recent advancements in gene editing and gene repression techniques for managing HIV-1. While the findings suggest promising avenues, the identified challenges necessitate ongoing research and innovation in order to harness the full potential of these strategies in the quest for an effective HIV-1 solution.

Advances in timing and control of ultrafast molecular dynamics: from XUV to infrared

Abstract With the availability of modern laser and detection technologies, the investigation of ultrafast molecular dynamics induced by intense laser pulses has become a routine practice. In this Topical Review, we present a survey of recent progress in the timing and control of ultrafast molecular dynamics, encompassing processes initiated by both extreme ultraviolet and near infrared pulses. Prospects and perspectives of this field are given. This Review underscores the remarkable potential for further advances in understanding and harnessing ultrafast molecular processes.

Embedding Authorship Identity into a Portal-Based Agenda Setting Intervention to Support Older Adults and Care Partners.

Patients, families, and clinicians increasingly communicate through patient portals. Due to potential for multiple authors, clinicians need to know who is communicating with them. OurNotes is a portal-based pre-visit agenda setting questionnaire. This study adapted OurNotes to include a self-identification question to help clinicians interpret information authored by nonpatients. To describe adapted OurNotes use and clinician feedback to inform broader implementation. Evaluation of adapted OurNotes in a geriatric practice. Older adults with a portal account and a clinic visit; eight clinicians were interviewed. OurNotes adaptation to clarify whether the author is the patient, the patient with help, or a nonpatient. Cross-sectional chart review of OurNotes completion, patient characteristics, and visit topics by author type. Clinician interviews explored experiences with OurNotes. Out of 503 visits, 134 (26%) OurNotes questionnaires were completed. Most respondents (n = 92; 69%) identified as the patient, 18 (14%) identified as the patient with help, and 24 (17%) identified as someone other than the patient. On average, patients who authored their own OurNotes were younger (80.9years) compared to patients who received assistance (85.8years), or patients for whom someone else authored OurNotes (87.8years) (p < 0.001). A diagnosis of cognitive impairment was present among 20% of patients who self-authored OurNotes vs. 79% of patients where someone else authored OurNotes (p < 0.001). Topics differed when OurNotes was authored by patients vs. nonpatients. Symptoms (52% patient vs. 83% nonpatient, p = 0.004), community resources (6% vs. 42%, p < 0.001), dementia (5% vs. 21%, p = 0.009), and care partner concerns (1% vs. 12%, p = 0.002) were more often mentioned by nonpatients. Clinicians valued the self-identification question for increasing transparency about who provided information. A self-identification question can identify nonpatient authors of OurNotes. Future steps include evaluating whether transparency improves care quality, especially when care partners are involved.

Topical review: Lactation and use of DMTs in women with MS.

One in three females with multiple sclerosis (MS) becomes pregnant after diagnosis. In the postpartum period, there is a risk of rebound inflammatory activity. This risk can likely be reduced with breastfeeding, as well as with early initiation of effective therapies that have low therapeutic lag. To guide patients in their choices surrounding breastfeeding and MS therapies, clinicians must be familiar with how best to protect against relapses, to ensure infant safety, and to support breastfeeding choices. This topical review provides a broad framework on lactation in women with MS. It seeks to reframe guidelines around caring for the maternal-infant dyad, and for diverse populations living with MS. It also provides updated data on the effects of lactation in women with MS and the limited data on transfer of disease-modifying therapies (DMTs) into breastmilk. The ultimate goal is to support informed shared decision-making between clinicians and patients regarding breastfeeding during the high-risk postpartum period.

Applications of blockchain technology in peer-to-peer energy markets and green hydrogen supply chains: a topical review

Countries all over the world are shifting from conventional and fossil fuel-based energy systems to more sustainable energy systems (renewable energy-based systems). To effectively integrate renewable sources of energy, multi-directional power flow and control are required, and to facilitate this multi-directional power flow, peer-to-peer (P2P) trading is employed. For a safe, secure, and reliable P2P trading system, a secure communication gateway and a cryptographically secure data storage mechanism are required. This paper explores the uses of blockchain (BC) in renewable energy (RE) integration into the grid. We shed light on four primary areas: P2P energy trading, the green hydrogen supply chain, demand response (DR) programmes, and the tracking of RE certificates (RECs). In addition, we investigate how BC can address the existing challenges in these domains and overcome these hurdles to realise a decentralised energy ecosystem. The main purpose of this paper is to provide an understanding of how BC technology can act as a catalyst for a multi-directional energy flow, ultimately revolutionising the way energy is generated, managed, and consumed.

Glucose-6-phosphate dehydrogenase and its 3D structures from crystallography and electron cryo-microscopy.

Glucose-6-phosphate dehydrogenase (G6PD) is the first enzyme in the pentose phosphate pathway. It has been extensively studied by biochemical and structural techniques. 13 X-ray crystal structures and five electron cryo-microscopy structures in the PDB are focused on in this topical review. Two F420-dependent glucose-6-phosphate dehydrogenase (FGD) structures are also reported. The significant differences between human and parasite G6PDs can be exploited tofind selective drugs against infections such as malaria and leishmaniasis. Furthermore, G6PD is a prognostic marker in several cancer types and is also considered to be a tumour target. On the other hand, FGD is considered to be a target against Mycobacterium tuberculosis and possesses a high biotechnological potential in biocatalysis and bioremediation.

The Impact of Heat Exposure on the Health and Performance of Soccer Players: A Narrative Review and Bibliometric Analysis.

The impact of heat exposure on the health and performance of soccer players is a widely discussed topic. The purpose of this study is to provide a comprehensive overview of the international literature that has addressed this issue. To achieve this objective, we initially conducted a bibliometric analysis and a literature review of the main topics that emerged through bibliometric techniques. For the bibliometric analysis, we employed VOSviewer software (version 1.6.20.0) and used documents found in the Scopus database. The analysis ultimately included 133 documents published in 66 sources. Key journals and authors were identified, highlighting significant contributions to the field. Science mapping revealed collaboration networks and research focus areas such as physical health, safety, soccer performance, dehydration and hydration, physiological mechanisms and monitoring, nutrition, fluid intake, and cooling techniques. Based on the key areas highlighted in the identified clusters, which emerged from the co-occurrence analysis of the author keywords, the following three topics were developed in the literature review: (a) the physiology and health of football players; (b) performance impacts; and (c) strategies to prevent negative consequences. The review showed that high heat exposure can reduce the physical and cognitive performance of athletes and prove detrimental to their health. To mitigate the negative consequences, appropriate hydration strategies, heat acclimatization, and cooling techniques have been proposed. Our findings provide the international scientific community with comprehensive knowledge of the existing literature, laying the foundation for future research while simultaneously offering coaches and athletes the necessary theoretical knowledge to help improve safety and performance.

Selecting informative patients for phase 2 progressive trials in MS: Design considerations for phase 2 clinical trials in progressive MS.

While relapsing-remitting multiple sclerosis (MS) has many therapeutic options, progressive forms of MS remain largely untreatable. Phase 2 clinical trials are our main tool to advance new treatments for progressive MS. Given the complexities of progressive MS, it will likely require many phase 2 trials to improve its treatment. To conduct informative and efficient phase 2 trials, it is important that such trials are designed in a way that they can identify a successful treatment as quickly and with as few participants as possible. In this topical review, we discuss cohort selection, outcome selection, cohort enrichment, and dosing selection as strategies to optimize the efficiency of phase 2 clinical trials in progressive MS.

Inflammaging, Epigenetic Damage, Mitochondrial Dysfunctions, and Macrophage Alterations are the Main Missing Pieces in the Complex Mosaic of Stem Cell Physiology.

Aging is frequently associated with a progressive increase in chronic low-grade inflammation, known as "inflammaging". Numerous studies have shown that inflammaging is closely linked to the development of several age-related diseases. However, the underlying mechanism and its causal role are still not fully understood despite this association. In the complex context of aging, mesenchymal stem cells (MSCs) undergo changes in behavior and functionality. This narrative topical review examines the recent advances in aging research, specifically focusing on the role of inflammaging and related mechanisms that contribute to age-related chronic diseases. The authors critically investigated whether and how inflammaging, epigenetic damage, mitochondrial changes, and macrophage alterations may influence stem cell behavior, highlighting the interplay between these factors and their potential therapeutic implications. By elucidating the mechanisms underlying these processes, we can gain valuable insights into the maintenance and regeneration of stem cell populations, providing the basis for novel therapeutic strategies targeting age-related decline and disease progression.

Advancements in TGF-β Targeting Therapies for Head and Neck Squamous Cell Carcinoma.

Head and neck squamous cell carcinoma (HNSCC) is the sixth leading cause of cancer worldwide according to GLOBOCAN estimates from 2022. Current therapy options for recurrent or metastatic disease are limited to conventional cytotoxic chemotherapy and immunotherapy, with few targeted therapy options readily available. Recent single-cell transcriptomic analyses identified TGF-β signaling as an important mediator of functional interplays between cancer-associated fibroblasts and a subset of mesenchymal cancer cells. This signaling was shown to drive invasiveness, treatment resistance, and immune evasion. These data provide renewed interest in the TGF-β pathway as an alternative therapeutic target, prompting a critical review of previous clinical data which suggest a lack of benefit from TGF-β inhibitors. While preclinical data have demonstrated the great anti-tumorigenic potential of TGF-β inhibitors, the underwhelming results of ongoing and completed clinical trials highlight the difficulty actualizing these benefits into clinical practice. This topical review will discuss the relevant preclinical and clinical findings for TGF-β inhibitors in HNSCC and will explore the potential role of patient stratification in the development of this therapeutic strategy.

Leveraging LLMs for Efficient Topic Reviews

Leveraging LLMs for Efficient Topic Reviews

Topical bromfenac in VEGF-driven maculopathies: topical review and meta-analysis

BackgroundTopical non-steroidal anti-inflammatory drugs have the potential to reduce treatment burden and improve outcomes of anti-VEGF therapy for a number of retinal disorders, including neovascular age-related macular degeneration, diabetic macular edema, and retinal vein occlusions. In this review, we focused on the advantages of topical bromfenac as an adjunct to intravitreal anti-VEGF therapy in VEGF-driven maculopathies.MethodsCochrane Library, PubMed, and EMBASE were systematically reviewed to identify the relevant studies of neovascular age-related macular degeneration, diabetic macular edema, macular edema associated with retinal vein occlusion, myopic choroidal neovascularization, and radiation maculopathy which reported changes in central retinal thickness, visual acuity, and the number of anti-VEGF injections needed when anti-VEGF therapy was combined with topical bromfenac.ResultsIn total, ten studies evaluating bromfenac as an adjunct to anti-VEGF therapy were identified. Five studies were included in meta-analysis of the number of injections and five studies were included in the analysis of changes in central retinal thickness. A statistically significantly lower number of intravitreal injections (p = 0.005) was required when bromfenac was used as an adjunct to anti-VEGF therapy compared to anti-VEGF monotherapy with pro re nata regimen. At the same time, eyes receiving bromfenac as an adjunct to anti-VEGF therapy demonstrated non-inferior outcomes in central retinal thickness (p = 0.07). Except for one study which reported better visual outcomes with combined treatment, no difference in visual acuity or clinically significant adverse effects were reported.ConclusionsThis literature review and meta-analysis showed that topical bromfenac can be considered as a safe adjunct to anti-VEGF therapy with a potential to reduce the treatment burden with anti-VEGF drugs requiring frequent injections without compromising improvement of central retinal thickness or visual acuity.

Improving undergraduate education in immunology through assessment of interdisciplinary scientific knowledge.

The interdisciplinary nature of immunology can make studying not only engaging but also challenging, as understanding immunologic processes and immune system components requires foundational knowledge from severalscience disciplines. The University of Alabama at Birmingham has aunique, 4-year, Undergraduate Immunology Program (UIP) that provides a comprehensive curriculum in immunology that includes five core courses starting in the second year, at which point, students are in the process of completing basic science sequences. For this study, students in courses across the UIP curriculum were asked to identify basic science topics that relate to four immunology concepts. In addition, students were surveyed on their confidence in understanding each of the basic science topics and were asked to identify the course in which they felt that they had fully learned the topic. Data from this study did not demonstrate a change in students' interdisciplinary science competency from the second to fourth year. Importantly, students reported that they fully understood 11 out of 12 basic science concepts in courses offered in their first and second years, with confidence in basic science topics significantly improving from the second to third year. The lack of demonstrated improvement in interdisciplinary understanding across the curriculum may be attributed to the fact that students are able to integrate basic science topics with foundational immunologic concepts as early as their second year. Importantly, these findings suggest that the integration or review of basic science topics in an immunology course may improve students' comprehension of foundational immunology concepts and interdisciplinary science competency.

Chemistry and Physics of Triple Perovskite Oxides: A Topical Review

Chemistry and Physics of Triple Perovskite Oxides: A Topical Review

Characteristics and Models of Moisture Uptake in Fiber-Reinforced Composites: A Topical Review.

Fiber-reinforced composites are commonly exposed to environments associated with moisture and solution, resulting in uptake, which causes changes in the bulk resin, the fiber-matrix interface, and even the fiber itself. Knowledge about uptake behavior and diffusion mechanisms and characteristics are critical to better understanding the response of these materials to environmental exposure faced through service to developing better materials through selection of constituents and to the prediction of long-term durability. This paper reviews aspects of uptake mechanisms and subsequent response, as well as models that describe the sorption process, with the aim of providing a comprehensive understanding of moisture-uptake-related phenomena and characteristics such as uptake rate, diffusion and relaxation/deterioration constants, transitions in regimes, and overall response.