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Impact Factor Physics In Medicine And Biology
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By Shiza MalikShiza Malik SciProfiles Scilit Preprints.org Google Scholar 1, Khalid MuhammadKhalid Muhammad SciProfiles Scilit Preprints.org Google Scholar 2, * and Yasir WaheedYasir Waheed SciProfiles Scilit Preprints.org Google Scholar 3,
A Complex Systems Approach To Aging Biology
Submission received: August 15, 2023 / Revised: September 5, 2023 / Approved: September 12, 2023 / Published: September 14, 2023
Knowing the practical aspects of nanomedicine, scientists are trying to use nanotechnology to diagnose, treat and prevent diseases. There are also applications that can be used to develop medical tools and techniques for a new generation of medical researchers. The main aim of this research is to gather the main aspects of nanomedicine under one heading and to highlight the research methods that are focused on medicine. Sufficient research has been carried out to bring out the latest information related to nanotechnology in medicine and medicine, obtained from recognized scientific platforms. Nanotechnology is used in the development of medical procedures. Nanotechnology shows successful and useful applications in information, disease treatment, regenerative medicine, gene therapy, dentistry, oncology, cosmetic industries, drug delivery and treatment. Full communication and collaboration between physicians, clinicians, scientists and technologists will lead to a future that has a more predictable, organized and technological field than nanomedicine. Progress is being made to overcome the problems associated with the use of nanotechnology in medicine due to pathophysiological diseases. This review highlights the many aspects of nanomedicine and how nanotechnology can benefit the healthcare industry. There is a need to reduce health, environmental and ethical concerns related to nanotechnology.
According to theories, the universe was created by chance through the Big Bang, which happened from small particles (atoms). A particle created the universe, and now scientists are working on these tiny particles to create the wonders of science. This is where the world of nanoscience has come in and taken a firm place in all areas of science and technology [1]. The vision of nanotechnology was given by the Nobel physicist Richard P. Feynman, who decided to use large objects and mechanical devices on small parts of tools and particles, because he believed that “there is more space on the floor”. [1, 2]. Today, in addition to physicists, scientists from many groups believe that nanoscale manufacturing technology and precision tools such as nanomachines, robotics, nanomedicine, and diagnostic devices, among many others, will bring great life miracles to the world of medicine industries. will give [3, 4, 5, 6, 7].
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Meters of material A new field of science was created in the form of nanotechnology as it was observed that tools, products and materials made of small particles almost always exhibit different properties than larger ones. This follows the main principles of physics and chemistry that since the nature of matter consists of atoms, any change in atomic size, shape and arrangement directly affects the properties of matter [7, 8]. Scientists believe that nanotechnology is the future of science and therefore expect to benefit from the use of nanotechnology in some way. The unique properties and behavior of nanoscale materials have also attracted the attention of physicians, clinicians, and environmental scientists [9, 10]. Efforts are underway to utilize special nanoscale phenomena in medicine, biological sciences, biotechnology, food technology, biochemistry, biophysics, and other fields of biology and medicine [10, 11, 12, 13].
40 years of evolutionary interactions between biology, medicine and nanotechnology have resulted in today’s nanobiotechnology, which now shows successful applications in various fields of medicine [14]. From diagnosis to treatment, many medical issues such as disease, drug discovery, predictive medicine, cancer treatment, drug discovery, and the latest medical products and methods are now being improved using nanobiotechnology [15]. . Similar to the approval of conventional vaccines, nanoengineered drugs and nanovaccines will always receive clinical approval. Nanotechnology-based diagnostic kits such as nanosensors, nanoparticle-based imaging agents, nanoparticle-based PCR assays, laboratory-on-a-chip devices, along with modern medicines and drugs such as nanoparticle-based drug delivery, nanoparticle-based liposomal and polymer formulations, nanomedicines (such as Abraxan (nanoparticle albumin-bound paclitaxel) and Doxil ( pegylated liposomal doxorubicin)), nanotechnology in gene therapy, nanoparticle vaccines and antimicrobial agents, etc., have been marketed for clinical research [1, 6] .
Nanomedicine is a large field of science and technology that integrates several medical methods such as treatment and disease, disease prevention, pain relief technologies, medicine to improve human health, nanoscale technology against serious injuries and treatment methods for diseases. , 15]. Therefore, an interdisciplinary approach is used to apply the results of biotechnology, nanomaterials, biomedical robotics and genetic engineering in the broad field of nanomedicine [17]. On a larger scale, nanoscale medical technology provides power, rapid response and performance in many biological and chemical processes used in the development of medical devices. Therefore, the research provides solid hope for the future use of nanomedicine [12, 18].
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In this review article, a detailed analysis has been done to investigate the application of nanotechnology especially in medicine. The most advanced methods of nanotechnology were presented with little emphasis on the previous use of nanotechnology in the last years of the 21st century. Other modern medical applications, such as diagnostics, nanomedicine, regenerative medicine and related settings are also included to consider the latest developments in nanomedicine.
Currently, diagnostic researchers are using nanodevices to detect diseases faster and faster to improve treatment methods. It also uses nanotechnology to capture diseases at the cellular and molecular level to reveal therapeutic strategies [16]. Nanotechnology has the potential to revolutionize the clinical assessment process by improving the accuracy, sensitivity and speed of clinical tests. An advanced application involves nanoparticle-based diagnostic imaging, where nanoparticles can be attached to specific materials to enhance imaging techniques such as magnetic resonance imaging (MRI), computed tomography (CT), and positron emission tomography (PET) scans and specific [19]. Similarly, nanotechnology point-of-care diagnostics can quickly and accurately detect infectious diseases, cancer, and other diseases, enabling rapid treatment and prevention [ 9 , 19 ].
Biosensors is another area of work where nanotechnology has helped create biosensors that can detect even low-level biomolecules in body fluids such as blood and urine, helping in the early detection and management of diseases [20, 21]. Similar applications are in the form of microfluidic devices containing nanomaterials that can be used to isolate and analyze cells, proteins and genetics, providing rapid and accurate diagnosis [ 19 , 22 ]. Another application may include nanocavity sequencing, which is a new technology that uses nanocavities to detect the sequence of DNA or RNA molecules, enabling rapid and accurate diagnosis of genetic diseases such as cancer and genetic diseases [23].
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Recent advances show that nanomedicine can be used in the science of laboratory analysis to increase the efficiency and reliability of disease diagnosis [24]. This is achieved by nanodevices at the subcellular level, with samples prepared from human tissue, cell culture, body fluids, etc. [19, 25, 26]. In vivo diagnostics uses the nanomedicine method to create devices that can function, respond and change in the human body, with the sole purpose of identifying any abnormalities in the human body that could lead to toxicity or tumor development. . [Image on page 22, 27]. Other types of nanoparticles used for diagnostic purposes are: paramagnetic nanoparticles, nanocrystals, quantum dots, nanoshells and nanosomes [28, 29]. In general, nanotechnology has great potential
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