Статті в журналах: "Bio medicine"

1

Chen, Luonan, and Jiarui Wu. "Bio-network medicine." Journal of Molecular Cell Biology 7, no. 3 (June 2015): 185–86. http://dx.doi.org/10.1093/jmcb/mjv038.

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2

Öberg, P. Åke. "Bio-optics in medicine." Medical & Biological Engineering & Computing 41, no. 3 (May 2003): 241. http://dx.doi.org/10.1007/bf02348426.

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3

Sun, Guan-Cheng. "Qigong: Bio-Energy Medicine." Journal of Alternative and Complementary Medicine 14, no. 8 (October 2008): 893. http://dx.doi.org/10.1089/acm.2008.0231.

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4

YAO, HUIYING, CHENGZHI JIN, JINGXIA ZHANG, and BENJIE WU. "BIO-PIXE AND BIO-SXRF." International Journal of PIXE 06, no. 01n02 (January 1996): 367–73. http://dx.doi.org/10.1142/s0129083596000399.

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Application of PiXE On biology, medicine and environment has been successful in the last twenty years. However, with the development of science and technique, lower detectable limit, sub-ppm sensitivity, more accurate quantitative analysis and the element chemical state information were presented which can not be achieved by PIXE. The synchrotron radiation as an excitation source to induce X-ray emission (SXRF) is a very powerful method with all the above requirements. In this paper the advantages of SXRF were discussed and compared with PIXE. The article shows our work on biological field by PIXE and SXRF also.

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5

Choi, Eugene J., John J. Lewin, and Geoffrey S. F. Ling. "Battlefield medicine: disrupting (bio)pharmaceutical production." Pharmaceutical Bioprocessing 3, no. 5 (September 2015): 361–69. http://dx.doi.org/10.4155/pbp.15.17.

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6

Kim, Ju Han. "Genomic Medicine and Bio-Medical Informatics." Journal of Korean Society of Medical Informatics 9, no. 2 (2003): 79. http://dx.doi.org/10.4258/jksmi.2003.9.2.79.

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7

Li, Cheng. "Potentiation of Bio Repositories In Personalized Medicine: Tumor Cells Establishment." Cancer Research and Cellular Therapeutics 1, no. 1 (December 8, 2017): 01–03. http://dx.doi.org/10.31579/2640-1053/003.

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The introduction of three-dimensional (3D) tumor cultures has revolutionized anticancer drug research as these cultures allow for the study of drug resistance mechanisms that cannot be explored in traditional two dimensional (2D) monolayer cultures. Discoveries in the 3D tumor culture field suggest that individualized drug sensitivity testing of solid tumor specimens through the establishment and use of 3D tumor cell cultures following tissue collection will become a routine service offered by modern tissue repositories as they expand from their traditional research role to active participation in personalized medicine. Unfortunately, most information related to 3D tumor cultures comes from studies using established tumor cell lines rather than primary tumor cultures. However, accumulation of genetic aberrations in cancer cell lines occurs with increasing number of passages severely limiting their usefulness for personalized medicine. There is only very limited information available concerning technologies and standard operating procedures for the efficient and routine isolation and processing of primary tumor cells for the establishment of 3D tumor cultures from solid tumor specimens. The purpose of this work was to review experimental data from the literature that may provide relevant information concerning the isolation and processing of primary tumor cells for the establishment of 3D tumor cultures. Information reviewed here may help bio repositories in the development and standardization of technologies and standard operating procedures related to the use of 3D tumor cultures.

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8

Kim, Jihyun, and Jungho Kim. "The vision of Korean Medicine industry with Bio-Information Technology." Korean Society of Human and Nature 3, no. 2 (December 30, 2022): 189–202. http://dx.doi.org/10.54913/hn.2022.3.2.189.

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With the development of bio-information technology, various bio-data are being produced, and research to analyze these data is being actively conducted. As it moves toward an aging society, the importance of prevention along with treatment is increasingly being emphasized. In this trend, the combined research of bio-information technology and Korean medicine can greatly contribute to improving the quality of people’s lives. This paper introduced changes in the paradigm of bio-information technology and the medical industry and examined the direction of convergence research according to future collaboration. Therefore, by examining the practical applicability of bio-information technology and Korean medicine, we discussed the necessity of constructing, refining, analyzing, and systemizing Korean medicine data to generalize theories that have not yet been clarified in Korean medicine based on experience. Finally, we looked at the present status, vision, and prospects of research currently underway in preparation for the spread of the Korean medical industry in the aging era.

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9

Shatokhina, S. N., V. N. Shabalin, M. E. Buzoverya, and V. T. Punin. "Bio-Liquid Morphological Analysis." Scientific World JOURNAL 4 (2004): 657–61. http://dx.doi.org/10.1100/tsw.2004.118.

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Information is presented on the new scientific line in medicine and biology: bio-liquid morphology. The interdisciplinary character of the given research area is emphasized. The problems and prospects of bio-liquid morphological analysis development both in applied and fundamental aspects are discussed.

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10

An, G., Dong Ying Ju, Pei Bian, T. Kumazawa, and M. Okasabe. "Bio-Medicine Coating on Surface of Magnetic Nanoparticles and its Safety Evaluation." Materials Science Forum 675-677 (February 2011): 303–6. http://dx.doi.org/10.4028/www.scientific.net/msf.675-677.303.

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The composite magnetic nanoparticles of coated SiO nano film with about 8 nm size can be dispersed in various liquid media, widely known as magnetic fluids or ferrofluids with both magnetic and liquid properties. In this paper, a bio-medicine coating technology on surface of magnetic nanoparticles and the optimum fabrication condition and the magnetism of composed bio-nanoparticles are investigated. Through observation of micro-structure of the bio-nanopaticles on coating surface, and evaluation of magnetic property and safety to apply to biomaterials, we know the bio-medicine coated on surface of magnetic nanoparticles is suitable of bio-solutions into surface of biomaterials.

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11

Guerin, Jan S., David W. Murray, Mary M. McGrath, Martin A. Yuille, Joseph M. McPartlin, and Peter P. Doran. "Molecular Medicine Ireland Guidelines for Standardized Biobanking." Biopreservation and Biobanking 8, no. 1 (March 2010): 3–63. http://dx.doi.org/10.1089/bio.2010.8101.

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12

Kopaczynski, Germain. "How Much “Bio” in “Bio”Ethics?" Ethics & Medics 26, no. 1 (2001): 1–2. http://dx.doi.org/10.5840/em20012611.

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13

Vandana, Rajesh Lather, Sridevi Tallapragada, and Gurnam Singh. "Medicinal and Aromatic plants: “Natural bio-chemicals and medicine factories”." INTERNATIONAL JOURNAL OF AGRICULTURAL SCIENCES 17, no. 2 (June 15, 2021): 691–98. http://dx.doi.org/10.15740/has/ijas/17.2/691-698.

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Since thousands years back approximately around 900 BC, medicinal plants are considered as a source of many biomolecules with therapeutic potential. Herbal medicines are considered as safer, better, physiologically compatible and costeffective. The oldest evidence of medicinal and aromatic plants depicts that with the emergence of human civilization, plants have been considered as the main source to heal and cure various serious ailments. It has been proven that the secondary metabolites e.g. alkaloid, glycosides, flavonoides, steroids etc present in the medicinal plants possesses ability to prevent occurrence of some of the diseases, means medicinal plants acts as a “preventive medicine”. Medicinal plants have a paramount importance and a great interest due to its pharmaceutical, cosmetic and nutritional values. Some plants are also considered as an important source of nutrition and are known to have a variety of compounds with potential therapeutic properties. India is the principal repository of large number of medicinal and aromatic plants or we can say India is one of the rich mega-biodiversity countries of the world. Medicinal plants are “backbone” of traditional medicinal system (TMS). Crude drugs are usually dried parts of medicinal and aromatic plants (MAPs) such as roots, stems, wood, bark, seeds, fruits, flowers, leaves, rhizomes, whole plant etc. that form the essential raw material for the production of medicines in various systems of Ayurveda, Siddha, Unani, Tibatian, Tribal and Homeopathy. According to the survey of the World Health Organization (WHO), about 80% of the world population are using herbs and other traditional medicines for their primary healthcare and have established three kinds of herbal medicines: raw plant material, processed plant material, and herbal products. Now days, variety of available herbs are used throughout the world and they continue to promote good health. As the benefits from medicinal and aromatic plants are recognized, these plants will have a special role for humans in the future. The present review on medicinal and aromatic plants revealed similar combination of studies.

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14

Macaskie, Lynne E., Mark D. Redwood, Rafael Orozco, and Natasha Bridges. "‘Bio’-solutions to recover ‘bio’-energy from ‘bio’-waste." Journal of Biotechnology 136 (October 2008): S429. http://dx.doi.org/10.1016/j.jbiotec.2008.07.993.

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15

Dzaky, Raihan. "RUMAH BIO-HERBAL NUSANTARA." Jurnal Sains, Teknologi, Urban, Perancangan, Arsitektur (Stupa) 3, no. 1 (May 30, 2021): 1179. http://dx.doi.org/10.24912/stupa.v3i1.10814.

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The case of Covid-19 in Indonesia, which is increasingly increasing, has made all levels of society, from the government, ordinary citizens to street vendors, to busy promoting a healthy lifestyle, such as wearing masks, washing hands, eating 4 healthy 5 perfect foods, and drinking herbal medicine as an enhancer. Body stamina. By raising the issue of herbal medicine, a project called Rumah Bioherbal Nusantara was created which aims to attract public attention to the world of Indonesian banquets. In this project, it combines modern elements but also includes traditional elements in the building so that this project can ward off the public's perception of herbal medicine as a very traditional drink. The method used in this project is Biomorphic Architecture, this is due to the use of many herbal plant elements in the form of turmeric, ginger, cat whiskers and so on, both inside and outside the building. Kebon Jeruk was chosen as the location for the construction of the project, because this area is an area with a fairly rapid development and commercial level in the Jakarta area, especially West Jakarta, plus access to and to Kebon Jeruk is quite easy, both for public transportation and private transportation, because of its location. Which is located in the orange garden, has created a building program tailored to the characteristics of the site, including a Research Center, a Jamu Experience Café, a Herbal Medicine Workshop, a Multipurpose Room, a Jamu Market and Spa, a Library and a Museum. To support this project, the concept of educational and recreational tourism is applied where visitors are educated about herbal plants in Indonesia in a recreational way that attracts visitors and can further elevate the image of herbal medicine to the international world. Keywords: covid 19; educative; herbal medicine; recreational AbstrakKasus Covid 19 di Indonesia yang semakin lama semakin meningkat membuat semua lapisan masyarakat mulai dari pemerintah, warga biasa hingga pedagang kaki lima beramai ramai mempromosikan gaya hidup sehat, seperti memakai masker, mencuci tangan, mengonsumsi makanan 4 sehat 5 sempurna, serta meminum jamu sebagai penambah stamina tubuh. Dengan mengangkat isu jamu, memunculkan suatu proyek yang bernama Rumah Bio-herbal Nusantara yang bertujuan untuk menarik perhatian masyarakat mengenai dunia perjamuan Indonesia. Dalam proyek tersebut menggabungkan unsur modern namun juga tetap memasukkan unsur unsur tradisional didalam bangunannya sehingga dengan proyek ini dapat menepis anggapan masyarakat mengenai jamu sebagai minuman yang sangat tradisonal. Metode yang digunakan dalam proyek ini yaitu Arsitektur Biomorfik hal ini disebabkan banyak menggunakan unsur unsur tanaman herbal berupa tanaman kunyit, jahe, kumis kucing dan sebagainya baik didalam maupun diluar bangunan. Kebon Jeruk dipilih sebagai lokasi didirikannya proyek, karena kawasan ini merupakan kawasan dengan tingkat pembangunan dan komersil yang cukup pesat di daerah Jakarta khususnya Jakarta Barat, ditambah dengan akses menuju dan ke kebon jeruk cukup mudah, baik untuk transportasi umum maupun transportasi pribadi, oleh sebab tapak yang berada di kebon jeruk, memunculkan program bangunan yang disesuaikan dengan karakteristik tapak, yaitu diantaranya terdiri atas Pusat Penelitian, Café Jamu Experience, Workshop Jamu, Ruang Serbaguna, Jamu Market dan Spa, Perpustakaan dan Museum. Untuk menunjang proyek tersebut diterapkan konsep wisata edukatif dan rekreatif dimana pengunjung mendapat edukasi mengenai tanaman herbal yang ada di Indonesia dengan cara cara rekreatif membuat pengunjung tertarik dan dapat mengangkat citra jamu lebih jauh lagi ke dunia international.

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16

Yang, Shuang, Zeren Yang, and Perry G. Wang. "Bioanalysis for precision medicine." Bioanalysis 11, no. 11 (June 2019): 1039–43. http://dx.doi.org/10.4155/bio-2019-0106.

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17

Drewa, Tomasz. "Negative results in bio-medicine are urgently needed." Stem Cell Studies 1, no. 1 (October 3, 2011): 13. http://dx.doi.org/10.4081/scs.2011.e13.

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18

Torrisi, L., and A. Torrisi. "Gold nanoparticles for physics and bio-medicine applications." Radiation Effects and Defects in Solids 175, no. 1-2 (January 2, 2020): 68–83. http://dx.doi.org/10.1080/10420150.2020.1718132.

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19

Watanabe, M. "[Techno/Bio Politics: Contemporary Science, Medicine and Technology]." East Asian Science, Technology and Society 3, no. 2-3 (January 1, 2009): 385–88. http://dx.doi.org/10.1215/s12280-009-9093-6.

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20

Löwy, Ilana. "Historiography of Biomedicine: “Bio,” “Medicine,” and In Between." Isis 102, no. 1 (March 2011): 116–22. http://dx.doi.org/10.1086/658661.

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21

OZAKI, Hiroyuki. "Bio Venture Firms of Complementary and Alternative Medicine." Japanese Journal of Complementary and Alternative Medicine 1, no. 1 (2004): 103–11. http://dx.doi.org/10.1625/jcam.1.103.

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22

An, G., D. Y. Ju, T. Kumazawa, and M. Okasabe. "Coating of MgO and Bio-Medicine on Surface of Magnetic Nanoparticles." Advanced Materials Research 317-319 (August 2011): 460–63. http://dx.doi.org/10.4028/www.scientific.net/amr.317-319.460.

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This paper is mainly to describe coating method of MgO nano film with about 2nm and Bio-medicine materials on surface the magnetic nanoparticle. The coated composite magnetic nanoparticles of coated were dispersed into ion exchange water, widely known as magnetic fluids for applying to Drug Delivery System(DDS). Through observation of micro-structure of MgO film and the bio-nanopaticles on coating surface, and evaluation of magnetic property, we known that the effectiveness of this coating method of MgO and the bio-medicine coated on surface of magnetic nanoparticles was confirmed.

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23

Mazzei, Franco, Riccarda Antiochia, Francesco Botrè, Gabriele Favero, and Cristina Tortolini. "Affinity-based biosensors in sport medicine and doping control analysis." Bioanalysis 6, no. 2 (January 2014): 225–45. http://dx.doi.org/10.4155/bio.13.308.

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24

Hallworth, Mike. "Society Spotlight: The European Federation of Clinical Chemistry and Laboratory Medicine." Bioanalysis 2, no. 1 (January 2010): 47–50. http://dx.doi.org/10.4155/bio.09.149.

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25

Simoni, Ruth E., Fernanda B. Scalco, Maria Lucia C. de Oliveira, and Francisco R. Aquino Neto. "Plasma volume expanders: use in medicine and detecting misuse in sports." Bioanalysis 3, no. 2 (January 2011): 215–26. http://dx.doi.org/10.4155/bio.10.181.

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26

Chen, Lei. "Editorial: The Novel Methods of Computational Proteomics and their Applications to Bio-medicine and Bio-pharmacy." Current Proteomics 15, no. 2 (March 14, 2018): 84. http://dx.doi.org/10.2174/157016461502180314104814.

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27

Bourbakis, N. G. "Bio-imaging and bio-informatics." IEEE Transactions on Systems, Man and Cybernetics, Part B (Cybernetics) 33, no. 5 (October 2003): 726–27. http://dx.doi.org/10.1109/tsmcb.2003.816908.

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28

Yaromina, A., and D. Zips. "Bio-IGRT." Nuklearmedizin 49, S 01 (2010): S50—S52. http://dx.doi.org/10.1055/s-0038-1626528.

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SummaryImage-guided radiotherapy (IGRT) represents a novel method to precisely deliver radiation to tumours while sparing surrounding normal tissues. Integration of biological imaging using PET or MRI appears to be a promising concept to improve radiotherapy (Bio-IGRT). For this it is essential that biological imaging provides radiobiologically relevant information. Preclinical and clinical investigations into validation of PET tracers and MR methods in the context of curative radiotherapy and of concepts for biology-based escalation of radiation dose as well as other therapeutic interventions are an important task for further cancer research.

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Shopova, Dobromira, Antoniya Yaneva, Desislava Bakova, Anna Mihaylova, Petya Kasnakova, Maria Hristozova, Yordan Sbirkov, Victoria Sarafian, and Mariya Semerdzhieva. "(Bio)printing in Personalized Medicine—Opportunities and Potential Benefits." Bioengineering 10, no. 3 (February 23, 2023): 287. http://dx.doi.org/10.3390/bioengineering10030287.

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The global development of technologies now enters areas related to human health, with a transition from conventional to personalized medicine that is based to a significant extent on (bio)printing. The goal of this article is to review some of the published scientific literature and to highlight the importance and potential benefits of using 3D (bio)printing techniques in contemporary personalized medicine and also to offer future perspectives in this research field. The article is prepared according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Web of Science, PubMed, Scopus, Google Scholar, and ScienceDirect databases were used in the literature search. Six authors independently performed the search, study selection, and data extraction. This review focuses on 3D bio(printing) in personalized medicine and provides a classification of 3D bio(printing) benefits in several categories: overcoming the shortage of organs for transplantation, elimination of problems due to the difference between sexes in organ transplantation, reducing the cases of rejection of transplanted organs, enhancing the survival of patients with transplantation, drug research and development, elimination of genetic/congenital defects in tissues and organs, and surgery planning and medical training for young doctors. In particular, we highlight the benefits of each 3D bio(printing) applications included along with the associated scientific reports from recent literature. In addition, we present an overview of some of the challenges that need to be overcome in the applications of 3D bioprinting in personalized medicine. The reviewed articles lead to the conclusion that bioprinting may be adopted as a revolution in the development of personalized, medicine and it has a huge potential in the near future to become a gold standard in future healthcare in the world.

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McKevith, Brigid. "The F2 diet – The big bio-breakthroughThe F2 diet – The big bio-breakthrough Eyton Audrey Bantam Press 224pp £12.99 0593055292 0593055292." Nursing Standard 20, no. 20 (January 25, 2006): 36. http://dx.doi.org/10.7748/ns.20.20.36.s43.

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31

Huang, Yao-Kuang, Min Yi Wong, Chi-Rung Wu, Yung-Ze Cheng, and Bor-Shyh Lin. "Free Myocutaneous Flap Assessment in a Rat Model: Verification of a Wireless Bioelectrical Impedance Assessment (BIA) System for Vascular Compromise Following Microsurgery." Journal of Personalized Medicine 11, no. 5 (May 4, 2021): 373. http://dx.doi.org/10.3390/jpm11050373.

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Background: Microvascular tissue transfer is a common reconstructive procedure. We designed a bioelectrical impedance assessment (BIA) system for quantitative analysis of tissue status. This study attempts to verify it through the animal model. Methods: The flaps of the rat model were monitored by the BIA system. Results: The BIA variation of the free flap in the rat after the vascular compromise was recorded. The non-vascular ligation limbs of the same rat served as a control group. The bio-impedance in the experimental group was larger than the control group. The bio-impedances of both the thigh/feet flaps in the experimental group were increased over time. In the thigh, the difference in bio-impedance from the control group was first detected at 10 kHz at the 3rd and last at 1 kHz at the 6th h, after vascular compromise. The same finding was observed in the feet. Compared with the control group, the bio-impedance ratio (1 kHz/20 kHz) of the experimental group decreased with time, while their variation tendencies in the thigh and feet were similar. Conclusions: The flap may be monitored by the BIA for vascular status.

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Ghosh S. "Multi-functional therapeutic effect of Boerhaavia diffusa: A contemporary review." GSC Biological and Pharmaceutical Sciences 20, no. 3 (September 30, 2022): 299–306. http://dx.doi.org/10.30574/gscbps.2022.20.3.0299.

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Today’s world is full of different diseases due to our hasty schedule and to cure diseases huge numbers of medicines are consumed every day to control/cure those diseases. Thus, willingly or unwillingly we are forced to store great amount of chemicals which are toxic/harmful in our body. Thus, these stored chemicals create another disease in our body and to cure it another medicine is needed which adds up more toxic chemicals which were already stored. Hence, the uses of natural /herbal medicines are increasing day by day due to their bio-degradable nature. In this context a number of bio-products are in use in India, but the use of Boerhaavia diffusa was not so common in previous decades. Later on numbers of researches had been conducted to examine its therapeutic efficacy as a natural medicine. The chemical present in the plant which makes it as exceptionally useful plant is now been traced out. Now it is regarded as anti-inflammatory, anti-oxidant, anti-aging, anti-cancerous, anti-apoptotic, anti diabetic compound. In this review, we will try to discuss the multi-functional application of the plant and also we will try to summarize the futuristic research on this plant

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33

Walker, Megan. "Discursive Intersexions: Daring Bodies between Myth, Medicine, and Memoir by Michaela Koch." Biography 42, no. 4 (2019): 900–903. http://dx.doi.org/10.1353/bio.2019.0091.

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34

Wei, Gaili, Gaochao Dang, and Hua Li. "Ultrasensitive assay of clindamycin in medicine and bio-fluids with chemiluminescence detection." Luminescence 22, no. 6 (2007): 534–39. http://dx.doi.org/10.1002/bio.996.

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35

Watanabe, Setsuo. "The roles of the Bio-Processor in regenerative medicine." Inflammation and Regeneration 29, no. 4 (2009): 270–73. http://dx.doi.org/10.2492/inflammregen.29.270.

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36

Kotera, Hidetoshi. "F4-4 Development of Bio-MEMs for Nano-Medicine." Proceedings of The Computational Mechanics Conference 2007.20 (2007): 46–47. http://dx.doi.org/10.1299/jsmecmd.2007.20.46.

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37

Tarczy-Hornoch, Peter, Mia K. Markey, John A. Smith, and Tadaaki Hiruki. "Bio*Medical informatics and genomic medicine: Research and training." Journal of Biomedical Informatics 40, no. 1 (February 2007): 1–4. http://dx.doi.org/10.1016/j.jbi.2006.10.002.

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38

Rao, Venkat Narayana. "Nanorobots in Medicine-A New Dimension in Bio Nanotechnology." Transactions on Networks and Communications 2, no. 2 (April 3, 2014): 46–57. http://dx.doi.org/10.14738/tnc.22.131.

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39

Úbeda, Juan F., María Maldonado, Ana I. Briones, and Francisco J. González. "Bio-prospecting of Distillery Yeasts as Bio-control and Bio-remediation Agents." Current Microbiology 68, no. 5 (December 27, 2013): 594–602. http://dx.doi.org/10.1007/s00284-013-0514-3.

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40

Schjelderup, Vilhelm. "Eciwo Biology and Bio-Holographic Acupuncture." Acupuncture in Medicine 10, no. 1 (May 1992): 29–31. http://dx.doi.org/10.1136/aim.10.1.29.

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ECIWO stands for “Embryo Containing information of the Whole Organism”. ECIWO biology is a new biological discipline that has been developed in China. It is based on the hypothesis that living organisms have a mosaic structure, being composed of parts that have embryonic properties and contain information relating to the whole organism. ECIWO biology is being applied to different fields of the life sciences, including medicine. It explains the acupuncture microsystems and gives a new scientific basis for the study of acupuncture. A new micro-system of acupuncture based on the second metacarpal is described.

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Jin, Fan, Daniel Tang, Kelly Dong, and Dafang Zhong. "New development and update on China Bioanalysis Forum." Bioanalysis 13, no. 4 (February 2021): 199–201. http://dx.doi.org/10.4155/bio-2020-0312.

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This article provides an update on new development of China Bioanalysis Forum (CBF). CBF became a member association of Chinese Pharmaceutical Association (CPA) at the end of 2019. The official ceremony and first scientific symposium were held in Shanghai on 18 September 2020. The president of Chinese Pharmaceutical Association and representatives from industry, Contract Research Organization (CRO), hospitals and academic institutes attended the ceremony. Seven experts in the field gave presentations on various topics including Drug Metabolism and Pharmacokinetics (DMPK) and bioanalytical support in drug discovery and development as well as experience in Traditional Chinese Medicine research. With the continuous growth of research and development in China, it is well acknowledged that bioanalysis provides critical support for new innovative medicines and generic drug development in the region.

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Narumon, Saardchom. "Bioeconomy as a new S-curve for Thai economy." Agricultural Economics (Zemědělská ekonomika) 63, No. 9 (September 11, 2017): 430–39. http://dx.doi.org/10.17221/78/2016-agricecon.

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Thai economic growth lags behind all other ASEAN countries because its export dependence along with the political and economic vulnerabilities. With the growing bioeconomy worldwide, Thailand needs a clear bioeconomy roadmap as a new growth engine for its economy. Four potential clusters to build bioeconomy in Thailand include the bioenergy, bio-based industry, bio-food and bio-agriculture, and bio-medicine and health. There are roadmaps for only the first two clusters. The paper discusses the potential bio-based products for the bio-food and bio-agriculture as well as bio-medicine and health and proposes the use of the Pracharath strategy to build bioeconomy in Thailand with the main objective of creating the sustainable economy. Since a smart community is a key driver for the sustainable economy, five steps to smart community proposed in the paper will immune communities in the rural area of Thailand, make them self-reliant, and remove the dependency culture.

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Cimino, George D., Chong-xian Pan, and Paul T. Henderson. "Personalized medicine for targeted and platinum-based chemotherapy of lung and bladder cancer." Bioanalysis 5, no. 3 (February 2013): 369–91. http://dx.doi.org/10.4155/bio.12.325.

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Arrell Morgan Gibson. "Paper Medicine Man: John Gregory Bourke and His American West (review)." Biography 11, no. 2 (1988): 184–86. http://dx.doi.org/10.1353/bio.2010.0557.

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Paulauskis, Joseph D., Victoria M. Blanc, Thomas Carey, David W. Chesla, Renée C. Frey, Timothy Geddes, Jonathan Keats, et al. "Great Lakes Biorepository Research Network's Annual Biobanking Symposium: A Focus on Precision Medicine." Biopreservation and Biobanking 17, no. 6 (December 1, 2019): 598–602. http://dx.doi.org/10.1089/bio.2019.0022.

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Yamamura, Osamu, Utako Hata, Yoshihito Marui, and Teruhisa Fujii. "Reproduction Accuracy in Bio PAK's Pattern Production. Bio EGN." Nihon Hotetsu Shika Gakkai Zasshi 37, no. 3 (1993): 627–34. http://dx.doi.org/10.2186/jjps.37.627.

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Zakablukovskiy, E. "Reductionism and holism in the philosophy of medicine." Glavvrač (Chief Medical Officer), no. 9 (September 1, 2020): 66–74. http://dx.doi.org/10.33920/med-03-2009-06.

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The article highlights certain aspects of the discussion on the topic of reductionism vs. holism in the philosophy of medicine. Classic radical reductionism is defeated by the concept of emergence. The s.c. bio-medical point of view on a malady, despite its relevance and clear benefit, is not recognized as universal as its adherents may claim, and it yields to an integral psycho-bio-social model. The author introduces a new classification of holism (vitalistic, social and individualistic) and makes appropriate recommendations to clinicians. It is social holism at the macro level that has proven effective in combating the spread of COVID-19.

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Baltas, Christos S., and Graeme Hesketh. "John C. Carapanayiotis (1909–1999)." Acta medico-historica Adriatica 15, no. 2 (2017): 323–28. http://dx.doi.org/10.31952/amha.15.2.9.

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Анотація:

John C. Carapanayiotis specijalizirao je fizikalnu medicine i rehabilitaciju 1948. u SAD-u, u vrijeme kada medicinski svijet u poslijeratnoj Grčkoj još nije bio upoznat s ovom specifičnom medicinskom specijalizacijom, a politička, ekonomska i društvena pozadina nije bila spremna prihvatiti bogatstvo znanstvenih spoznaja koje je pokušavao uvesti. Specijalizacija fizikalne medicine i rehabilitacije u Grčkoj je osnovana 1973. godine. John C. Carapanayiotis bio je član Američkog kongresa fizikalne medicine tijekom 1950-ih.U istom je razdoblju izrazio zainteresiranost, u ime Sveučilišta u New Yorku, za osnivanje Klinike za fizikalnu terapiju u Grčkoj, kojoj bi Marshallovim planom bilo odobreno neograničeno financiranje. Njegovi su se napori stalno sukobljavali s nazadnim mentalitetom njegova vremena, s ukorijenjenim konzervativizmom i birokracijom. Bio je daleko ispred svoga vremena, osuđen na sudbinu svih ostalih vizionara i pionira kojima se znanje i znanstvena pozadina nisu primjenjivali još desetljećima.

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Chimisso, Vittoria, Miguel Angel Aleman Garcia, Saziye Yorulmaz Avsar, Ionel Adrian Dinu, and Cornelia G. Palivan. "Design of Bio-Conjugated Hydrogels for Regenerative Medicine Applications: From Polymer Scaffold to Biomolecule Choice." Molecules 25, no. 18 (September 7, 2020): 4090. http://dx.doi.org/10.3390/molecules25184090.

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Bio-conjugated hydrogels merge the functionality of a synthetic network with the activity of a biomolecule, becoming thus an interesting class of materials for a variety of biomedical applications. This combination allows the fine tuning of their functionality and activity, whilst retaining biocompatibility, responsivity and displaying tunable chemical and mechanical properties. A complex scenario of molecular factors and conditions have to be taken into account to ensure the correct functionality of the bio-hydrogel as a scaffold or a delivery system, including the polymer backbone and biomolecule choice, polymerization conditions, architecture and biocompatibility. In this review, we present these key factors and conditions that have to match together to ensure the correct functionality of the bio-conjugated hydrogel. We then present recent examples of bio-conjugated hydrogel systems paving the way for regenerative medicine applications.

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Rasooly, Rebekah S., Daniel R. Gossett, Marianne K. Henderson, Allison Hubel, and Stephen N. Thibodeau. "High-Throughput Processing to Preserve Viable Cells: A Precision Medicine Initiative Cohort Program Workshop." Biopreservation and Biobanking 15, no. 4 (August 2017): 341–43. http://dx.doi.org/10.1089/bio.2017.0016.

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