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I-hyaluronic acid

Mayelana Wikipedia

I-Hyaluronic acid (/ˌhaɪ.əljʊəˈrɒnɪk/; i-HA efushanisiwe; i-conjugate base hyaluronate), ebizwa nangokuthi i-hyaluronan, iyi-anionic, i-non-sulfated glycosaminoglycan esakazeke kabanzi kuzo zonke izicubu zokuxhuma, i-epithelial, ne-neural. Iyingqayizivele phakathi kwama-glycosaminoglycans njengoba ingena-sulfated, ibunjwa emthonjeni we-plasma esikhundleni somshini we-Golgi, futhi ingaba nkulu kakhulu: i-HA yesintu ihlanganisa ama-Da ayizigidi ezingu-7 nge-molecule, noma ama-monomer e-disaccharide angaba ngu-20,000. Kuyilapho eminye imithombo ikhuluma ngama-Da ayi ayizigidi ezingu-3.4.[1][2]

Umuntu ovamile ongamakhilogremu angu-70 (150 lb) unamagremu angaba ngu-15 e-hyaluronan emzimbeni, ingxenye eyodwa kwezintathu yazo iphendulwa (okungukuthi, ihlakazekile futhi yenziwe) ngosuku.[3]

Njengenye yezingxenye eziyinhloko ze-extracellular matrix, i-Hyaluronic acid inikela kakhulu ekwandeni nasekuthutheni kwamangqamuzana. Ithuthukisa indlela yokunikeza amalutha, iqiniso nokuvumela ukubambisana kwamahlaya. Njengexenye yeqembu le-streptococcal extracellular capsule, i-Hyaluronic acid ihilelekile kakhulu futhi ikhuthaza indlela yokukhula kwezimila eziningi ezimbi. Kukholelwa ukuthi i-Hyaluronic acid idlala indima ebuthuthukiseni amalutha.[4][5][6][7]

Isithasiselo sokunisela amahlaya esisebenzisa i-hyaluronic acid
Umanduleli 1: Ukuhlanganiswa kwe-UDP-Glucuronic Acid
Umanduleli 2: Ukuhlanganiswa kwe-UDP-N-Acetylglucosamine

I-Hyaluronic acid yatholakala okokuqala nguKarl Meyer noJohn Palmer ngo-1934 emzimbeni we-vitreous emehlweni enkomo. Umkhiqizo wokuqala we-hyaluronan biomedical, i-Healon, wasungulwa ngawo-1970 nawo-1980 yi-Pharmacia, futhi wavunyelwa ukusetshenziswa ekuhlinzweni kwamehlo (okungukuthi, ukufakelwa kwe-cornea, ukuhlinzwa kwe-cataract, ukuhlinziwa kwe-glaucoma, kanye nokuhlinzwa kokulungisa ukuhlukaniswa kwe-retinal). Ezinye izinkampani ze-biomedical nazo zikhiqiza izinhlobo ze-hyaluronan zokuhlinzwa kwe-ophthalmic[8][9][10].

I-hyaluronic acid engokwemvelo inesikhathi esifushane sokuphila (okuboniswe konogwaja) ngakho-ke izindlela ezahlukahlukene zokukhiqiza ziye zasetshenziswa ukwelula ubude beketanga nokuqinisa i-molecule ukuze isetshenziswe kwezokwelapha. Ukungeniswa kwe-cross-links esekelwe kumaprotheni, ukungeniswa kwama-molecule ahlanzayo akhululekile njenge-sorbitol, kanye nokusimama okuncane kwamaketanga e-HA ngokusebenzisa amakhemikhali afana ne-NASHA (i-non-animal stabilized hyaluronic acid) zonke izindlela ezisetshenziselwe ukulondoloza ukuphila kwayo[11][12][13].

Ngasekupheleni kwawo-1970, ukufakelwa kwe-intraocular lens kwakuvame ukulandelwa yi-corneal edema embi, ngenxa yokulimala kwe-endothelial cell ngesikhathi sokuhlinzwa. Kwaba sobala ukuthi kwakudingeka i-lubricant enamathelayo, ecacile, ye-physiologic ukuze kuvinjelwe ukuhlakazeka okunjalo kwamangqamuzana e-endothelial[14][15].

Igama elithi "hyaluronan" liphinde lisetshenziselwe usawoti[16].

Izikhombo

[hlela | Hlela umthombo]
  1. Hyaluronan: its nature, distribution, functions and turnover. p. 27–33. 
  2. Differential effects of reactive oxygen species on native synovial fluid and purified human umbilical cord hyaluronate. p. 403–15. 
  3. Hyaluronan catabolism: a new metabolic pathway. p. 317–25. 
  4. Biosynthesis of hyaluronic acid by Streptococcus. p. 6252–6261. http://www.jbc.org/content/254/14/6252.full.pdf. 
  5. Rao, S, Pham, TH, Poudyal, S, et al. First report on genetic characterization, cell-surface properties and pathogenicity of Lactococcus garvieae, emerging pathogen isolated from cage-cultured cobia (Rachycentron canadum). Transbound Emerg Dis. 2022; 69: 1197– 1211. https://doi.org/10.1111/tbed.14083
  6. Hyaluronic acid capsule is a virulence factor for mucoid group A streptococci. p. 8317–8321. 
  7. Hyaluronic acid capsule and the role of streptococcal entry into keratinocytes in invasive skin infection. p. 1954–1958. 
  8. Necas, J.; Bartosikova, L.; Brauner, P.; Kolar, J. (5 September 2008). "Hyaluronic acid (hyaluronan): a review". Veterinární Medicína 53 (8): 397–411. doi:10.17221/1930-VETMED. 
  9. "Ophthalmic Viscosurgical Devices: History". Archived from the original on 2021-12-03. Kulandwe ngomhlaka 2023-05-23.
  10. Bettenhausen, Craig (2021-05-02). "Hyaluronic acid is just getting started". cen.acs.org. Kulandwe ngomhlaka 2022-05-04.
  11. "DUROLANE". Bioventus OA Knee Pain Relief.
  12. Avantaggiato, A; Girardi, A; Palmieri, A; Pascali, M; Carinci, F (August 2015). "Bio-Revitalization: Effects of NASHA on Genes Involving Tissue Remodeling.". Aesthetic Plastic Surgery 39 (4): 459–64. doi:10.1007/s00266-015-0514-8. PMID 26085225. 
  13. "Hylan G-F 20 single-injection formulation". Drugs Aging 27 (1): 77–85. 2010. doi:10.2165/11203900-000000000-00000. PMID 20030435. 
  14. Miller, D.; O'Connor, P.; William, J. (1977). "Use of Na-Hyaluronate during intraocular lens implantation in rabbits". Ophthal. Surg. 8: 58–61. 
  15. Miller, D.; Stegmann, R. (1983). Healon: A Comprehensive Guide to its Use in Ophthalmic Surgery. New York: J Wiley.
  16. John H. Brekke; Gregory E. Rutkowski; Kipling Thacker (2011). "Chapter 19 Hyaluronan". In Jeffrey O. Hollinger. An Introduction to Biomaterials (2nd ed.).

Izixhumanisi zangaphandle

[hlela | Hlela umthombo]
  • Amakhodi e-ATC: D03AX05 (WHO), M09AX01 (WHO), R01AX09 (WHO), S01KA01 (WHO)
  • Hyaluronan at the U.S. National Library of Medicine Medical Subject Headings (MeSH)