Introduction to Biomedical Technologies
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Biomedical Technologies sentence examples within New Biomedical Technologies
Their pioneering program trains students on how to bring new biomedical technologies to the market.
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Anticipated side effects constituted a primary concern; however, many expected barriers were not dosage form-specific, but addressed contextual factors instead, such as fears regarding use of new biomedical technologies, misunderstandings and stigma regarding use, and navigating partner disclosure and engagement.
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Biomedical Technologies sentence examples within Modern Biomedical Technologies
Automated annotation and classification of chest radiographs is the pressing need for modern biomedical technologies.
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The objective of the study was to provide a review of the recent data about anti-tumour preparations of marine origin currently being at various phases of clinical trials in order to present the biological value of marine organisms – producers of cytotoxic compounds, and the perspectives of their use in modern biomedical technologies.
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Biomedical Technologies sentence examples within Novel Biomedical Technologies
Emphasizing how scientists and health practitioners may feel conflicted about the biopolitics of novel biomedical technologies opens up opportunities to consider how a scientific field is or is not adequately advancing issues of equity.
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It is not only the developers or promoters of novel biomedical technologies that can employ language persuasively.
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Biomedical Technologies sentence examples within Emerging Biomedical Technologies
Like many other emerging biomedical technologies, precision cancer medicine (or precision oncology) poses a broad range of ethical, legal, and social implications (ELSI).
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Understanding the interactions between nanoparticles (NP) and lipid bilayers (LB), which constitute the foundations of cell membranes, is important for emerging biomedical technologies, as well as for assessing health threats related to nanoparticle commercialization.
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Biomedical Technologies sentence examples within Innovative Biomedical Technologies
Conclusions There is an urgent need to develop safe innovative biomedical technologies to mitigate the dire impact of COVID-19 on public health worldwide.
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Conclusions are drawn about the expediency of: - development of new medical and sanitary technologies aimed at ensuring radiation safety; - completion of a unified system of response and protection in the event of radiation accidents; - further search and development of methods and means of prevention and treatment of human radiation pathology, including innovative biomedical technologies; - improving the methodology for studying the consequences of radiation exposure of the personnel of radiation hazardous facilities and the population; - development of a new scientific field — medical nuclear forensics.
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Biomedical Technologies sentence examples within Art Biomedical Technologies
State-of-the-art biomedical technologies are enabling us to collect multi-view biomedical datasets for the study of complex diseases.
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The reconfigurable electronic platforms are attractive for state of the art biomedical technologies, where the reshaping feature increases the adaptability and compliance of the electronic platform to the human body.
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Biomedical Technologies sentence examples within Advanced Biomedical Technologies
To realize advanced biomedical technologies for the diagnosis and treatment of skin, our suction-mediated device is integrated with a machine learning framework for accurate and automated colorimetric analysis of pH levels.
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This is an emerging and widely growing field of advanced biomedical technologies that has opened up new horizons for extensive transfer of state-of-the-art technologies coming from the areas of quantum electronics, lasers, fiber optics and electro-optics to the life sciences and medicine.
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Biomedical Technologies sentence examples within biomedical technologies permit
Background: Advances in biomedical technologies permit transgender individuals not only to achieve gender transition but also to experience parenthood.
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Background Advances in biomedical technologies permit transgender individuals not only to achieve gender transition but also to experience parenthood.
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The coefficient of thermal expansion (CTE) in biological tissues is an integral parameter behind the application of electromagnetic energy to biomedical technologies; however, its behavior is far from being fully characterized.
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A variety of nanoparticles encompassing metals, intermetallics, rare-earth, and low-dimensional carbon-plasmonic hybrids were used to comprehend PF and cavity hot-spot contribution resulting in 900-fold fluorescence emission enhancements on a lossless substrate, thereby opening the door to unique light-matter interactions for next-gen plasmonic and biomedical technologies.
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A method for endotracheal administration was studied and optimized for the tasks of the Scientific Centre for Biomedical Technologies (SCBMT), Russia, on small and large laboratory animals.
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Biomedical technologies include the production of calcium lactate, calcium phosphate, and health-promoting products, while chemical technologies include plant growth promoters, food processing and production, and biodiesel oil catalysis along with active calcium, carbon, soluble proteins, organic calcium, and ultrafine calcium carbonate sources.
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Discourses of HIV status neutrality have emerged in the wake of advances in biomedical technologies for HIV prevention and treatment of HIV.
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Our results have direct relevance on fundamental soft condensed matter science and on applications where microgels are involved, ranging from materials to biomedical technologies.
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In this regard, the processes of development and application of biomedical technologies need timely and adequate legal regulation that defines the boundaries of biotechnological intervention in human life.
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Is stiripentol truly effective for treating primary hyperoxaluria? Cristina Martin-Higueras , Markus Feldkötter 3 and Bernd Hoppe 2,5 Institute of Experimental Immunology, University Hospital of the Rheinische Friedrich-Wilhelms-University, Bonn, Germany, Department of Pediatrics, Division of Pediatric Nephrology, University Children’s Hospital of the Rheinische Friedrich-Wilhelms-University, Bonn, Germany, Department of Pediatrics, Division of Pediatric Nephrology, University Children’s Hospital Zurich, Zurich, Switzerland, Present address: Department of Basic Medical Sciences, University of La Laguna, Institute of Biomedical Technologies, Centre for Biomedical Research in Rare Diseases (CIBERER), Tenerife, Spain and Present address: Dicerna Pharmaceuticals, Inc.
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To realize advanced biomedical technologies for the diagnosis and treatment of skin, our suction-mediated device is integrated with a machine learning framework for accurate and automated colorimetric analysis of pH levels.
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Progress in the field of biomedical technologies, neuroimaging, neurophysiology, and neurogenetics has not only increased knowledge about the biological mechanisms underlying many neurological diseases that generate different functioning levels but has also enabled patient characterization in an increasingly precise way, making prognosis more accurate and—perhaps most importantly—favoring the possibility of define careful neurorehabilitative goals to integrate traditional neurological rehabilitation treatments with innovative neurological rehabilitation procedures based on intelligent technologies.
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Automated annotation and classification of chest radiographs is the pressing need for modern biomedical technologies.
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This study can be useful for the development of biomedical technologies, especially for the tasks of synthesizing cellular scaffolds.
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The containment of lethal acute lung injuries, acute respiratory distress syndrome (ARDS) and cytokine storm arising from severe interstitial pathology, including COVID-19, requires an efficient design and therapeutic implementation of new drugs and biomedical technologies.
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The evolution in biomedical technologies brought to a shift from the surface of the body to the inner organs, and then to cellular, subcellular, and molecular levels [4, 5]; technological breakthroughs allowed for more precise and sophisticated characterizations of diseases, encompassing immunological, genetic, and molecular features; changing the definition of illnesses; and overcoming the anatomicclinical correlation.
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The capsules are demonstrated a noticeable photochromic reaction, which could find a broad application in various fields including information and biomedical technologies.
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The import of this letter is understood best as seen through three prisms: (1) Fratelli tutti, the encyclical of Pope Francis signed at Assisi on October 3, 2020; (2) the Declaration on Euthanasia issued by the CDF in 1980; and (3) “the remarkable progressive development of biomedical technologies [which] has exponentially enlarged the clinical proficiency of diagnostic medicine in patient care and treatment [which] call for growth in moral discernment to avoid an unbalanced and dehumanizing use of the technologies especially in the critical or terminal stages of human life” (CDF, Declaration on Euthanasia, intro).
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The article is devoted to the emerging threats to human rights in the context of the development of biomedical technologies, as well as to the identification of social risks requiring legal resolution in this area.
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Conclusions There is an urgent need to develop safe innovative biomedical technologies to mitigate the dire impact of COVID-19 on public health worldwide.
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Emphasizing how scientists and health practitioners may feel conflicted about the biopolitics of novel biomedical technologies opens up opportunities to consider how a scientific field is or is not adequately advancing issues of equity.
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Their pioneering program trains students on how to bring new biomedical technologies to the market.
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Recent advances in developmental, molecular and cellular biology as well as biomedical technologies show a promising future for crossing the gap between biomedical basic sciences and clinical orthodontics.
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Conclusions are drawn about the expediency of: - development of new medical and sanitary technologies aimed at ensuring radiation safety; - completion of a unified system of response and protection in the event of radiation accidents; - further search and development of methods and means of prevention and treatment of human radiation pathology, including innovative biomedical technologies; - improving the methodology for studying the consequences of radiation exposure of the personnel of radiation hazardous facilities and the population; - development of a new scientific field — medical nuclear forensics.
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Conclusions: RTFM improves coordination and continuity of care by making FPs more competent to retain those health conditions that can be properly managed in primary care and making FPs more competent to detect health conditions that require specific biomedical technologies and skills, increasing the demand for those services.
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Biohybrid POx hydrogels can therefore enable biomedical technologies requiring GAG-based materials with customized and switchable physicochemical characteristics.
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In this article, I explore the contradictory effects of (non-)reproductive biomedical technologies by showing how they contribute to the non-reproduction of certain categories of citizens and force others to reproduce.
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Compared to other biomedical technologies, xenotransplantation stands out in terms of its involvement of animals as graft sources, as well as the possible transmission of infectious diseases.
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Graphene‐related materials (GRMs) are now produced in large scale and have found niche applications also in the biomedical technologies, defining new standards for drug delivery and biosensing.
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Background: Advances in biomedical technologies permit transgender individuals not only to achieve gender transition but also to experience parenthood.
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Speed is particularly important for biomedical technologies given their historically long developmental timelines; until now, there has been no systematic analysis of factors influencing innovation-focused partnership transaction timelines.
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Anticipated side effects constituted a primary concern; however, many expected barriers were not dosage form-specific, but addressed contextual factors instead, such as fears regarding use of new biomedical technologies, misunderstandings and stigma regarding use, and navigating partner disclosure and engagement.
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Owing to their low cost, high catalytic efficiency and biocompatibility, carbon-based metal-free catalysts (C-MFCs) have attracted intense interest for various applications, ranging from energy through environmental to biomedical technologies.
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In the 1990s, interest in biomedical technologies blossomed among students across disciplines.
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As such, these nanocomposites possess great promise for next-generation displays, lighting, sensing, biomedical technologies, and energy conversion.
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Ionic liquids are employed in energy storage/harvesting devices, in catalysis and biomedical technologies, due to their tunable bulk and interfacial properties.
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The paper is devoted to the study of influence of chitin nanofibrils on the structure, surface morphology, mechanical properties, and electrical conductivity of chitosan-based composite films intended for use in biomedical technologies.
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This multidisciplinary field has also made an impact on industry, allowing researchers to explore new horizons in design, applied science, physical science, chemistry, materials science, and biomedical technologies.
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Confucian discussions on human dignity provide not only a way to justify the equality of human moral status, but also a way to justify the moral obligation of protecting and developing human nature, thereby constituting a reliable theoretical basis for coping with ethical issues caused by biomedical technologies today.
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s Preparation of resin spheres with high monodispersity and controllable size is of significant value for the research and development of functional composite particles applicable to energy exploitations, biomedical technologies and micro−/nanofluidic devices.
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Studies have yet to explain how science-based innovation is first reduced to practice in development of new biomedical technologies.
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However, developments in biomedical technologies may help to fill this knowledge gap.
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This paper explores how criticism surrounding the ethics and safety of biomedical technologies circulates and ‘converts’ through global–local religious encounters, producing new claims of moral opposition and rights to religious freedom.
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The role of bioethics as a forum for discussing the interdisciplinary anthropological and ethical problems generated by the progress of biomedical technologies is noted.
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Experiences on the field of Fondazione Policlinico Gemelli in Rome (a research hospital recognized by the Italian Ministry of Health as national leader in “Personalized Medicine” and “Innovative Biomedical Technologies”) could help understanding which techniques and tools are the most performing to develop potential clinical phenotypes personalization.
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State-of-the-art biomedical technologies are enabling us to collect multi-view biomedical datasets for the study of complex diseases.
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Background Advances in biomedical technologies permit transgender individuals not only to achieve gender transition but also to experience parenthood.
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Application of terahertz (THz) radiation in novel non-invasive biomedical technologies has recently received considerable attention.
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Mice for the experiment were obtained from Stolbovaya nursery, Federal State Budgetory Scientific Institution Scientific Center of Biomedical Technologies of the Federal Medical-Biological Agency (Moscow region, Russia).
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Oxford Biomedical Technologies, Inc.
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Biomedical technologies (BMT) is a complex process aimed at developing new biological objects and products from them that can have a preventive, diagnostic, or therapeutic effect when used in medical practice.
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With the advances in biomedical technologies, natural products have attracted substantial public attention in the area of drug discovery.
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Additive manufacturing commonly known as 3D printing has numerous applications in several domains including material and biomedical technologies and has emerged as a tool of capabilities by providing fast, highly customized, and cost-effective solutions.
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202100049 devices, where engineering, biochemistry, molecular biology, and biomedical technologies are integrated seamlessly with each other.
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Our results can guide further computational and experimental studies to develop biomedical technologies and animal husbandry practices that help protect both humans and livestock from existing and future SARS-CoV-2 variants.
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It is not only the developers or promoters of novel biomedical technologies that can employ language persuasively.
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Substantially, in order to underscore that equitable access to health products, including vaccines, health and biomedical technologies, medical services, medical devises, whose availability, accessibility, acceptability, affordability to the world is fundamental to tackling the pandemic.