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生物医学システムおよび新興技術ジャーナル

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音量 9, 問題 4 (2022)

ミニレビュー

Which Lives Matter in Regenerative Biomedicine

Rustom M. Mamlook

Regenerative biomedicine, as other logical and mechanical advancements, mirrors the upsides of the sociohistorical setting in which it has created. The course of human proliferation itself has never been and never will be completely different from social impacts, including the worth frameworks through which multiplication is both seen and made due. Besides, the ideas of race and propagation are inseparably bound together throughout the entire existence of western idea (Weinbaum, 2004). Race has been viewed as something one acquires from one's organic guardians and something that can't be changed (regardless of whether stowed away insights around one's racial genealogy can be uncovered). Nonetheless, race - whether it be darkness, whiteness or 'in the middle between' - ought not be figured out in that frame of mind as a biogenetic property (whether a logically significant property or a disparaged one). Rather, it ought to be perceived as a socially made classification that presents or keeps social worth and, thusly, becomes subject to political contestation. In this way, when we look to analyze the part that conceptive biomedicine plays in the esteeming or downgrading of lives in view of race or prejudice, we should move our moral focal point away from individual freedoms, independence and navigation (albeit those stay significant), and go to social and political designs and imbalances, power relations, and the job that ideas of race has played in making and keeping up with these. We should attempt to consider how conceptive biomedical practices advance from, partake in, support and even shift these designs and relations. At the end of the day, we should move from regenerative privileges to conceptive equity.

ミニレビュー

Revolution in Biomedicine: A Leap Forward on the Eventual Fate of Clinical Diagnosis and Treatment

Chen Zi

Biomedicine is indistinguishable piece of medication that assume essential part in current clinical advancement. Bioimaging, savvy drug conveyance, safe malignant growth treatment and customized medication are a few significant properties of this science. Pico innovation as a next wilderness in a logical recorded will reformed the researcher world universally. Exceptional capacities of pico-particles will conquer show snags and uncover stupendous effect on different logical fields as well as biomedicine. Creation of pico-scale particles and creating pico-innovation will be a leap forward in biomedicine. Graphene Quantum Dots (GQDs) with the molecule size of 1-5 nm are profoundly possible particles with a capacity of changing over completely to little atoms. In this manner, we speculation arising of pico-innovation in light of graphene quantum specks on the future innovative work. In this manner, GQDs will be applied as cutting edge Pico-materials rather than nanomaterials later on biomedicine and medical care studies.

研究論文

Process and Development of Nano-Bio Composite Materials for the Bone Research

Dapeng Duan, Baofeng Li, Sunil Kumar Pradhan* and Genbing Lv

In this research work, a novel approach has been applied with respect to powder metallurgy route for the development of aluminium–graphene nano–bio composite materials for the application in bone research. The applied technology has been executed to synthesize Aluminium- Graphene composite materials with the help of high energy ball milling process followed by vacuum sintering to get the required devices. The fabricated devices and synthesize composite materials at later stage have been evaluated in terms of different micro-structural characterization tools like FE-SEM (Field Emission Scanning Electron Microscope), EDAX (Energy dispersive X-ray analysis) etc. for qualitative and quantitative analysis, which shows well distribution of the constituents of Al-Grapheme composite materials over the scan areas. The physical property of the sintered samples has also been evaluated through density measurement and it is found to be ≈ 97.5% density after sintering. The thermal fusing of Al based materials at the optimum temperature of sintering is found to be satisfactory with required strength. These nanobio- congruent composite materials, which is carbon based can instigate and assist stem cell improvement and differentiation into diverse lineages. Moreover, the 2-dimensional material, graphene has the potential propensity to stimulate and escalate osteogenic differentiation, which makes it an exciting material for the bone regeneration research.

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