Résumé
·AIM: To evaluate the effects of foldable capsular vitreous body (FCVB) implantation on the treatment of severe ocular trauma and late silicone oil-dependent eyes due to severe ocular trauma and recurrent retinal detachment. · METHODS: We retrospectively reviewed the four patients (four eyes) with FCVB implantation at our hospital since November 2017. Out of these 4 patients,2 were males and 2 were females, with an average age of 31.5 years and an average intraocular pressure (IOP) of 5.6mmHg pre-operatively. Among those 4 eyes,3 eyes underwent silicone oil tamponade due to severe ocular trauma and the other one was recurrent retinal detachment in silicone oil - filled eye. Standard pars plana vitrectomy (PPV) was performed, and the FCVB was triple folded and implanted in the vitreous cavity of four eyes. The retinal was assessed, as well as visual acuity,IOP, FCVB condition before and after treatment, and applied therapy. ·RESULTS: All of those 4 eyes underwent successfully implantation of FCVB, which remained its proper position. During 1-3mo follow-up, the mean visual acuity was no different compared with pre - operative values.
Résumé
BACKGROUND:Bioartificial liver could partial y replace the major liver functions, including detoxification, synthesis, secretion and biotransformation. OBJECTIVE:To use bibliometric indexes to track study focuses on bioartificial liver, and to investigate the relationships among geographic origin, impact factors, and highly cited articles indexed in Web of Science. METHODS:A list of citation classics for bioartificial liver was generated by searching the database of Web of Science-Expanded using the terms“artificial liver support system”or artificial liver or“bioartificial liver”. The top 33 cited research articles which were cited more than 100 times were retrieved. RESULTS AND CONCLUSIONS:Of 4 144 articles published, the 33 top-cited articles were published between 1992 and 2010. The highest citations paper was published in 2002, with a total of 668 citations, mean cited 55.67 per year. The total citations of 33 articles were 6 094 times, with a mean of 12.64 citations per article. These top-cited papers came from 11 countries, of which 12 articles came from the United States. University of Rostock led the list of classics with five papers. Harvard University and Massachusetts General Hospital ranked the second with four papers each. The 33 top-cited articles were published in 18 journals, predominantly Annals of Surgery and Hepatology, fol owed by Artificial Organs and Biotechnology and Bioengineering. Our bibliometric analysis provides a historical perspective on the progress of bioartificial liver research. Articles originating from outstanding institutions of the United States and published in high-impact journals are most likely to be cited.
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Artificial ureter has been studied for nearly 60 years, however it is still in experimental stage. So far there are no commercially available products for clinical use except autologous intestines loop even though many progresses have been made. Each approach for making artificial ureter has its own inherent advantages, disadvantages and limitations. But some approaches have shown great potential to be used as ureteral substitutes. Preventing the conduit from salt depositing and ensuring a watertight anastomoses with native tissues are the key factors in designing and manufacturing the prosthetic ureter. Along with scientific and technical improvement, artificial ureter will be successfully used in clinical therapeuticsin in the very near future.
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Fabricating human organs with tissue engineering and stem cells may be an alternative to current suboptimal therapies for treatment of malfunction or loss of human tissues or organs. From the tissue engineering's perspective, the patients are expected to be treated with new tissues or organs reconstructed with transplanted cells. The cells for tissue engineering could be somatic cells derived from the patients themselves, other individuals, or animals. Another valuable cell source would be stem cells. Embryonic stem cells retain the pluripotency to differentiate into every cell type of human organs, but ethical issues remain to be addressed. Adult stem cells may solve these ethical issues and immune rejection, but have limitation in differentiation into all ranges of tissue-specific cell types. Tissue engineering typically employs scaffolds fabricated from synthetic or natural biomaterials to engineer a new functional tissue from cells. The configuration of the biomaterials guides the structure of a regenerated tissue by defining a three-dimensional space. Appropriate combination of tissue engineering with stem cells shows a promise to fabricate human organs or tissues that can be utilized for patients in the near future.