Hyaluronan and synovial joint: function, distribution and healing

Abeydeera LR. (2002). In vitro production of embryos in swine. Theriogenology57: 257-273.Search in Google Scholar

Adams ME. (1993). Viseosupplementation: A treatment for osteoarthritis. JRheumatol 20: Suppl. 39: 1-24.Search in Google Scholar

Altman RD. (2000). Intra-articular sodium hyaluronate in osteoarthritis of the knee. Semin Arthritis Rheum 30: 11-18.Search in Google Scholar

Aruoma OI, Halliwell B, Hoey BM, Butler J. (1989). The antioxidant action of N-acetylcysteine: its reaction with hydrogen peroxide, hydroxyl radical, superoxide, and hypochlorous acid. Free Radic Biol Med 6: 593.Search in Google Scholar

Ashhurst DE, Bland YS, Levick JR. (1991). An immunohistochemical study of the collagens of rabbit synovial interstitium. J Rheumatol 18: 1669-1672.Search in Google Scholar

Athanasou NA, Quinn J. (1991). Immunocytochemical analysis of human synovial lining cells: phenotypic relation to other marrow derived cells. AnnRheum Dis 50: 311-315.Search in Google Scholar

Balazs EA, Denlinger JL. (1989). Clinical uses of hyaluronan. Ciba Found Symp143: 265-280.Search in Google Scholar

Balazs EA, Laurent TC, Jeanloz RW. (1986). Nomencla ture of hyaluronic acid. Biochemical Journal 235: 903.Search in Google Scholar

Balazs EA. (2003). Analgesic eff ect of elastoviscous hyaluronan solutions and the treatment of arthritic pain. Cells Tissues Organs 174: 49-62.Search in Google Scholar

Balazs EA, Denlinger JL. (1993). Viscosupplementation: a new concept in the treatment of osteoarthritis. J Rheumatol 20: 3-9.Search in Google Scholar

Banasova M, Valachova K, Juranek I, Soltes L. (2012). Eff ect of thiol compounds on oxidative degradation of high molar hyaluronan in vitro. InterdiscipToxicol 5(Suppl. 1): 25-26.Search in Google Scholar

Banasova M, Valachova K, Juranek I, Soltes L. (2013b). Aloevera and methylsulfonylmethane as dietary supplements: Their potential benefi ts for arthritic patients with diabetic complications. Journal of Information Intelligenceand Knowledge 5: 51-68.Search in Google Scholar

Banasova M, Valachova K, Rychly J, Priesolova E, Nagy M, Juranek I, Soltes L. (2011). Scavenging and chain breaking activity of bucillamine on free-radical mediated degradation of high molar mass hyaluronan. ChemZi 7: 205-206.Search in Google Scholar

Baňasova M, Valachova K, Hrabarova E, Priesolova E, Nagy M, Juranek I, Šoltes L. (2011). Early stage of the acute phase of joint infl ammation. In vitro testing of bucillamine and its oxidized metabolite SA981 in the function of antioxidants. 16th Interdisciplinary Czech-Slovak Toxicological Conference in Prague. Interdiscip Toxicol 4(2): 22.Search in Google Scholar

Barrett J P, Siviero P. (2002). Retrospective study of outcomes in Hyalgan(R)- treated patients with osteoarthritis of the knee. Clin Drug Invest 22: 87-97.Search in Google Scholar

Bergeret-Galley C, Latouche X, Illouz Y G.(2001). The value of a new fi ller material in corrective and cosmetic surgery: DermaLive and DermaDeep. AestheticPlast Surg 25: 249-255. 0 60 120 180 240 300 7 8 9 10 Dynamic viscosity [mPa·s] Time [min] 10050250 0 60 120 .Search in Google Scholar

Betts WH, Cleland LG. (1982): Eff ect of metal chelators and antiinfl ammatory drugs on the degradation of hyaluronic acid. Arthritis Rheum 25: 1469-1476.10.1002/art.1780251213Search in Google Scholar

Blake DR, Hall ND, Treby DA. (1981). Protection against superoxide and hydrogen peroxide in synovial fl uid from rheumatoid patients. Clin Sci 61: 483-486.Search in Google Scholar

Blewis ME, Nugent-Derfus GE, Schmidt TA, Schumacher BL, Sah RL. (2007). A model of synovial fl uid lubricant composition in normal and injured. Europeancells and materials 13: 26-39.Search in Google Scholar

Bothner H, Wik O. (1987). Rheology of hyaluronate. Acta Otolaryngol Suppl442: 25-30.Search in Google Scholar

Brandt K. (1970). Modifi cation of chemotaxis by synovial fl uid hyaluronate. Arthritis Rheum 13: 308-309.Search in Google Scholar

Brown MB, Jones SA. (2005). Hyaluronic acid: a unique topical vehicle for the localized delivery of drugs to the skin. J Eur Acad Dermatol Venereol 19: 308-318.Search in Google Scholar

Brown TJ, Laurent UBG, Fraser JRE. (1991). Turnover of hyaluronan in synovial joints: elimination of labelled hyaluronan from the knee joints of the rabbit. Exp Physiol 76: 125-34.Search in Google Scholar

Bucolo C, Mangiafi co P. (1999). Pharmacological profi le of a new topical pilocarpine formulation. J Ocul Pharmacol Ther 15: 567-573.Search in Google Scholar

Bucolo C, Spadaro A, Mangiafi co S. (1998). Pharmacological evaluation of a new timolol/pilocarpine formulation. Ophthalmic Res 30: 101-106.Search in Google Scholar

Camber O, Edman P, Gurny R. (1987). Infl uence of sodium hyaluronate on the meiotic eff ect of pilocarpine in rabbits. Curr Eye Res 6: 779-784.Search in Google Scholar

Camber O, Edman P. (1989). Sodium hyaluronate as an ophthalmic vehicle - some factors governing its eff ect on the ocular absorption of pilocarpine. Curr Eye Res 8: 563-567.Search in Google Scholar

Cantor JO, Cerreta JM, Armand G, Turino GM. (1998). Aerosolized hyaluronic acid decreases alveolar injury induced by human neutrophil elastase. ProcSoc Exp Biol Med 217: 471-475.Search in Google Scholar

Chabrecek P, Soltes L, Kallay Z, Fugedi A. (1990). Isolation and characterization of high molecular weight (3H) hyaluronic acid. J Label Compd Radiopharm28: 1121-1125.Search in Google Scholar

Chabrecek P, Soltes L, Kallay Z, Novak I. (1990). Gel permeation chromatographic characterization of sodium hyaluronate and its reactions prepared by ultrasonic degradation. Chromatographia 30: 201-204.Search in Google Scholar

Chen FH, Rousche KT, Tuan RS. (2006). Technology Insight: adult stem cells in cartilage regeneration and tissue engineering. Nat Clin Pract Rheumatol2(7): 373-82.Search in Google Scholar

Coleman P, Kavanagh E, Mason RM, Levick JR, Ashhurst DE. (1998). The proteoglycans and glycosaminoglycan chains of rabbit synovium. HistochemJ 30: 519-524.Search in Google Scholar

Comper WD, Laurent TC. (1978). Physiological function of connective tissue polysaccharidcs. Physiol Rev 58: 255-315.Search in Google Scholar

Cowman MK, Matsuoka S. (2005). Experimental ap proaches to hyaluronan structure. Carbohydrate Re search 340: 791-809.Search in Google Scholar

Dahl LB, Dahl IM, Engstrom-Laurent A, Granath K. (1985). Concentration and molecular weight of sodium hyaluronate in synovial fl uid from patients with rheumatoid arthritis and other arthropathies. Ann Rheum Dis 44: 817-822.Search in Google Scholar

Dobbie JW, Hind C, Meijers P, Bodart C, Tasiaux N, Perret J, Anderson JD. (1995). Lamellar body secretion: ultrastructural analysis of an unexplored function of synoviocytes. Br J Rheumatol 34: 13-23.Search in Google Scholar

Dougados M. (2000). Sodium hyaluronate therapy in osteoarthritis: arguments for a potential benefi cial structural eff ect. Semin Arthritis Rheum 30: 19-25.Search in Google Scholar

Drafi F, Valachova K, Hrabarova E, Juranek I, Bauerova K, Šoltes L. (2010). Study of methotrexate and β-alanyl-L-histidine in comparison with L-glutathione on high-molar-mass hyaluronan degradation induced by ascorbate plus Cu (II) ions via rotational viscometry. 60th Pharmacological Days in Hradec Kralove. Acta Medica 53(3): 170.Search in Google Scholar

Drobnik J. (1991). Hyaluronan in drug delivery. Adv Drug Dev Rev 7: 295-308.Search in Google Scholar

Duranti F, Salti G, Bovani B, Calandra M, Rosati ML. (1998). Injectable hyaluronic acid gel for soft tissue augmentation - a clinical and histological study. Dermatol Surg 24: 1317-1325.Search in Google Scholar

Edwards JCW, Wilkinson LS, Jones HM. (1994). The formation of human synovial cavities: a possible role for hyaluronan and CD44 in altered interzone cohesion. J Anat 185: 355-67.Search in Google Scholar

Edwards JCW (1995). Consensus statement. Second international meeting on synovium. Cell biology, physiology and pathology. Ann Rheum Dis 54: 389-91.Search in Google Scholar

Eliaz RE, Szoka FC. (2001). Liposome-encapsulated doxorubicin targeted to CD44: a strategy to kill CD44-overexpressing tumor cells. Cancer Res 61: 2592-2601.Search in Google Scholar

Figueiredo F, Jones GM, Thouas GA, Trounson AO. (2002). The eff ect of extracellular matrix molecules on mouse preimplantation embryo development in vitro. Reprod Fertil Dev 14: 443-451.Search in Google Scholar

Fisher AE, Naughton ODP. (2005). Therapeutic chelators for the twenty fi rst century: new treatments for iron and copper mediated infl ammatory and neurological disorders. Curr Drug Delivery 2: 261-268.Search in Google Scholar

Fraser JRE, Foo WK, Maritz JS. (1972). Viscous interactions of hyaluronic acid with some proteins and neutral saccharides. Ann Rheum Dis 31: 513-20.Search in Google Scholar

Fraser JRE, Kimpton WG, Pierscionek BK, Cahill RNP. (1993). The kinetics of hyaluronan in normal and acutely infl amed synovial joints - observations with experimental arthritis in sheep. Semin Arthritis Rheum 22: 9-17.Search in Google Scholar

Furnus CC, de Matos DG, Martinez AG. (1998). Eff ect of hyaluronic acid on development of in vitro produced bovine embryos. Theriogenology 49: 1489-99.Search in Google Scholar

Gandolfi SA, Massari A, Orsoni JG. (1992). Low-molecular-weight sodium hyaluronate in the treatment of bacterial corneal ulcers. Graefes Arch Clin ExpOphthalmol 230: 20-23.Search in Google Scholar

Gardner DK, Lane M, Stevens J, Schoolcraft WB. (2003). Changing the start temperature and cooling rate in a slow-freezing protocol increases human blastocyst viability. Fertil Steril 79: 407-410.Search in Google Scholar

Gardner DK, Rodriegez-Martinez H, Lane M. (1999). Fetal development after transfer is increased by replacing protein with the glycosaminoglycan hyaluronan for mouse embryo culture and transfer. Hum Reprod 14: 2575-2580.Search in Google Scholar

Ghosh P, Guidolin D. (2002). Potential mechanism of action of intraarticular hyaluronan therapy in osteoarthritis: are the eff ects molecular weight dependent? Semin Arthritis Rheum 32: 10-37.10.1053/sarh.2002.33720Search in Google Scholar

Ghosh S, Jassal M. (2002). Use of polysaccharide fi bres for modem wound dressings. Indian J Fibre Textile Res 27: 434-450.Search in Google Scholar

Gibbs DA, Merrill EW, Smith KA, Balazs EA. (1968). Rheology of hyaluronic acid. Biopolymers 6: 777-91.Search in Google Scholar

Glogau RG. (2000). The risk of progression to invasive disease. J Am Acad Dermatol42: S23-S24.Search in Google Scholar

Grootveld M, Henderson EB, Farrell A, Blake DR, Parkes HG, Haycock P. (1991). Oxidative damage to hyaluronate and glucose in synovial fl uid during exercise of the infl amed rheumatoid joint. Detection of abnormal low-molecular- mass metabolites by proton-N.M.R. spectroscopy. Biochem J 273: 459-467.Search in Google Scholar

Guidolin DD, Ronchetti IP, Lini E. (2001). Morphological analysis of articular cartilage biopsies from a randomized. clinical study comparing the eff ects of 500-730 kDa sodium hyaluronate Hyalgan(R) and methylprednisolone acetate on primary osteoarthritis of the knee. Osteoarthritis Cartilage 9: 371-381.Search in Google Scholar

Gurny R, Ibrahim H, Aebi A. (1987). Design and evaluation of controlled release systems for the eye. J Control Release 6: 367-373.Search in Google Scholar

Haddad JJ, Harb HL. (2005). L-gamma-Glutamyl-L-cysteinyl-glycine (glutathione; GSH) and GSH-related enzymes in the regulation of pro- and anti-infl ammatory cytokines: a signaling transcriptional scenario for redox(y) immunologic sensor(s). Mol Immunol 42: 987-1014.Search in Google Scholar

Hamburger MI, Lakhanpal S, Mooar PA, Oster D. (2003). Intra-articular hyaluronans: a review of product-specifi c safety profi les. Semin Arthritis Rheum32: 296-309.Search in Google Scholar

Haubeck HD, Kock R, Fischer DC, van de Leur E, Hoff meister K, Greiling H. (1995). Transforming growth factor s1, a major stimulator of hyaluronan synthesis in human synovial lining cells. Arthritis Rheum 38: 669-677.Search in Google Scholar

Herrero-Vanrell R, Fernandez-Carballido A, Frutos G, Cadorniga R. (2000). Enhancement of the mydriatic response to tropicamide by bioadhesive polymers. J Ocul Pharmacol Ther 16: 419-428.Search in Google Scholar

Hills BA, Crawford RW. (2003) Normal and prosthetic synovial joints are lubricated by surface-active phospholipid: a hypothesis. J Arthroplasty 18: 499-505.10.1016/S0883-5403(03)00072-XSearch in Google Scholar

Hlavacek M. (1993). The role of synovial fl uid fi ltration by cartilage in lubrication of synovial joints. J Biomech 26(10): 1145-50.Search in Google Scholar

Hochberg MC. (2000). Role of intra-articular hyaluronic acid preparations in medical management of osteoarthritis of the knee. Semin Arthritis Rheum30: 2-10. Hrabarova E, Valachova K, Rapta P, Soltes L. (2010). An alternative standard for trolox-equivalent antioxidant-capacity estimation based on thiol antioxidants. Comparative 2,2’-azinobis[3-ethylbenzothiazoline-6-sulfonic acid] decolorization and rotational viscometry study regarding hyaluronan degradation. Chemistry & Biodiversity 7(9): 2191-2200.10.1002/cbdv.201000019Search in Google Scholar

Hrabarova E, Valachova K, Rychly J, Rapta P, Sasinkova V, Malikova M, Soltes L. (2009). High-molar-mass hyaluronan degradation by Weissberger’s system: Pro- and anti-oxidative eff ects of some thiol compounds. Polymer Degradationand Stability 94: 1867-1875.Search in Google Scholar

Hrabarova E, Valachova K, Juranek I, Soltes L. (2012). Free-radical degradation of high-molar-mass hyaluronan induced by ascorbate plus cupric ions: evaluation of antioxidative eff ect of cysteine-derived compounds. Chemistry& Biodiversity 9: 309-317.Search in Google Scholar

Hrabarova E, Gemeiner P, Soltes L. (2007). Peroxynitrite: In vivo and in vitro synthesis and oxidant degradative action on biological systems regarding biomolecular injury and infl ammatory processes. Chem Pap 61: 417-437.Search in Google Scholar

Hrabarova E, Valachova K, Juranek I, Šoltes L. (2011). Free-radical degradationof high-molar-mass hyaluronan induced by ascorbate plus cupric ions. Antioxidativeproperties of the Piešťany-spa curative waters from healing peloidand maturation pool. In: “Kinetics, Catalysis and Mechanism of Chemical Reactions” G. E. Zaikov (eds), Nova Science Publishers, New York, pp. 29-36.Search in Google Scholar

Hrabarova E, Valachova K, Rychly J, Rapta P, Sasinkova V, Gemeiner P, Šoltes L. (2009). High-molar-mass hyaluronan degradation by the Weissberger´s system: pro- and antioxidative eff ects of some thiol compounds. Polym DegradStab 94: 1867-1875.Search in Google Scholar

Hultberg M, Hultberg B. (2006). The eff ect of diff erent antioxidants on glutathione turnover in human cell lines and their interaction with hydrogen peroxide. Chem Biol Interact 163(3): 192-198.Search in Google Scholar

Hutadilok N. Ghosh P, Brooks PM. (1988). Binding of haptoglobin. inter-α- trypsin inhibitor, and l proteinase inhibitor to synovial fl uid hyaluronate and the infl uence of these proteins on its degradation byoxygen derived free radicals. Ann Rheum Dis 47: 377-85.Search in Google Scholar

Inoue M, Katakami C. (1993). The eff ect of hyaluronic-acid on corneal epithelial- cell proliferation. Invest Ophthalmol Vis Sci 34: 2313-2315.Search in Google Scholar

Itano N, Kimata K. (2002). Mammalian hyaluronan synthases. IUBMB Life 54: 195-199.Search in Google Scholar

Jaakma U, Zhang B R, Larsson B. (1997). Eff ects of sperm treatments on the invitro development of bovine oocytes in semidefi ned and defi ned media. Theriogenology 48: 711-720.Search in Google Scholar

Jang G, Lee BC, Kang SK, Hwang WS. (2003). Eff ect of glycosaminoglycans on the preimplantation development of embryos derived from in vitro fertilization and somatic cell nuclear transfer. Reprod Fertil Dev 15: 179-185.Search in Google Scholar

Jarvinen K, Jarvinen T, Urtti A. (1995). Ocular absorption following topical delivery.Adv Drug Dev Rev 16: 3-19.Search in Google Scholar

Jay GD, Britt DE, Cha DJ. (2000). Lubricin is a product of megakaryocyte stimulating factor gene expression by human synovial fi broblasts. J Rheumatol27: 594-600.Search in Google Scholar

Joly T, Nibart M, Thibier M. (1992). Hyaluronic-acid as a substitute for proteins in the deep-freezing of embryos from mice and sheep - an in vitro investigation. Theriogenology 37: 473-480.Search in Google Scholar

Juranek I, Soltes L. (2012). Reactive oxygen species in joint physiology: Possiblemechanism of maintaining hypoxia to protect chondrocytes from oxygen excessvia synovial fl uid hyaluronan peroxidation. In: “Kinetics, Catalysis and Mechanism of Chemical Reactions: From Pure to Applied Science. Volume 2 - Tomorrow and Perspectives” R.M. Islamova, S.V. Kolesov, G.E. Zaikov (eds), Nova Science Publishers, New York pp. 1-10Search in Google Scholar

Kano K, Miyano T, Kato S. (1998). Eff ects of glycosaminoglycans on the development of in vitro matured and fertilized porcine oocytes to the blastocyst stage in vitro. Biol Reprod 58: 1226-1232.Search in Google Scholar

Kelly MA, Goldberg VM, Healy WL. (2003). Osteoarthritis and beyond: a consensus on the past, present, and future of hyaluronans in orthopedics. Orthopedics26: 1064-1079.Search in Google Scholar

Kemmann E. (1998). Creutzfeldt-Jakob disease (CJD) and assisted reproductive technology (ART) - quantifi cation of risks as part of informed consent. Hum Reprod 13: 1777.Search in Google Scholar

Kessler A, Biasibetti M, da Silva Melo DA, Wajner M, Dutra-Filho CS, de Souza Wyse AT, Wannmacher CMD. (2008). Antioxidant eff ect of cysteamine in brain cortex of young rats. Neurochem Res 33: 737-44.Search in Google Scholar

Kim A, Checkla DM, Dehazya P, Chen WL. (2003). Characterization of DNAhyaluronan matrix for sustained gene transfer. J Control Release 90: 81-95.Search in Google Scholar

Kirwan J. (2001). Is there a place for intra-articular hyaluronate in osteoarthritis of the knee? Knee 8: 93-101.10.1016/S0968-0160(01)00075-8Search in Google Scholar

Knight AD, Levick JR. (1984). Morphometry of the ultrastructure of the bloodjoint barrier in the rabbit knee. Q J Exp Physiol 69: 271-288.Search in Google Scholar

Kogan G. (2010). Hyaluronan - A High Molar mass messenger reporting on thestatus of synovial joints: part 1. Physiological status In: New Steps in Chemical and Biochemical Physics. ISBN: 97 8-1-61668-923 -0. pp. 121-133.Search in Google Scholar

Kogan G, Soltes L, Stern R, Mendichi R. (2007a). Hyaluronic acid: A biopolymerwith versatile physico-chemical and biological properties. Chapter 31 - in: Handbook of Polymer Research: Monomers, Oligomers, Polymers and Composites. Pethrick R. A, Ballada A, Zaikov G. E. (eds.), Nova Science Publishers, New York, pp. 393-439.Search in Google Scholar

Kogan G, Soltes L, Stern R, Gemeiner P. (2007). Hyaluronic acid: A natural biopolymer with a broad range of biomedical and industrial applications. BiotechnolLett 29: 17-25.Search in Google Scholar

Kreil G. (1995). Hyaluronidases-A group of neglected enzymes. Protein Sciences4: 1666-1669.Search in Google Scholar

Lane M, Maybach JM, Hooper K. (2003). Cryo-survival and development of bovine blastocysts are enhanced by culture with recombinant albumin and hyaluronan. Mol Reprod Dev 64: 70-78.Search in Google Scholar

Langer K, Mutschler E, Lambrecht G. (1997). Methylmethacrylate sulfopropylmethacrylate copolymer nanoparticles for drug delivery - Part III. Evaluation as drug delivery system for ophthalmic applications. Int J Pharm 158: 219-231.Search in Google Scholar

Lath D, Csomorova K, Kollarikova G, Stankovska M, Soltes L. (2005). Molar mass-intrinsic viscosity relationship of high-molar-mass yaluronans: Involvement of shear rate. Chem Pap 59: 291-293.Search in Google Scholar

Laurent TC, Laurent UBG, Fraser JRE. (1996). The structure and function of hyaluronan: An over view. Immunology and Cell Biology 74: A1-A7.Search in Google Scholar

Laurent TC. (1989). The biology of hyaluronan. In: Ciba Foundation Symposium.John Wiley and Sons, New York. 143: 1-298.Search in Google Scholar

Laurent TC, Fraser JRE. (1992). Hyaluronan. FASEB J 6: 2397-2404.Search in Google Scholar

Laurent TC. Laurent UBG, Fraser JRE. (1995). Functions of hyaluronan. AnnRheum Dis 54: 429-32.Search in Google Scholar

Laurent TC, Ryan M, Pictruszkiewicz A. (1960). Fractionation of hyaluronic acid. The polydispersity of hyaluronic acid from the vitreous body. BiochimBiophys Acta 42: 476-85.Search in Google Scholar

Levick JR. (1994). An analysis of the interaction between interstitial plasma protein, interstitial fl ow, and fenestral fi ltration and its application to synovium. Microvasc Res 47: 90-125.Search in Google Scholar

Leyden J, Narins RS, Brandt F. (2003). A randomized, double-blind, multicenter comparison of the effi cacy and tolerability of Restylane versus Zyplast for the correction of nasolabial folds. Dermatol Surg 29: 588-595.Search in Google Scholar

Lim ST, Forbes B, Berry DJ, Martin GP, Brown MB. (2002). In vivo evaluation of novel hyaluronan/chitosan microparticulate delivery systems for the nasal delivery of gentamicin in rabbits. Int J Pharm 231: 73-82.Search in Google Scholar

Luo Y, Prestwich GD. (1999). Synthesis and selective cytotoxicity of a hyaluronic acid-antitumor bioconjugate. Bioconjug Chem 10: 755-763.Search in Google Scholar

Luo Y, Ziebell MR, Prestwich GD. (2000). A hyaluronic acid-taxol antitumor bioconjugate targeted to cancer cells. Biomacromolecules 1: 208-218.Search in Google Scholar

Maheu E, Ayral X, Dougados M. (2002). A hyaluronan preparation (500-730 kDa) in the treatment of osteoarthritis: a review of clinical trials with Hyalgan(R). Int J Clin Pract 56: 804-813.Search in Google Scholar

Manuskiatti W, Maibach HI. (1996). Hyaluronic acid and skin: wound healing and aging. Int J Dermatol 35: 539-544.Search in Google Scholar

Mazzucco D, Scott R, Spector M. (2004). Composition of joint fl uid in patients undergoing total knee replacement and revision arthroplasty: correlation with fl ow properties. Biomaterials 25: 4433-4445.Search in Google Scholar

McCord JM. (1974). Free radicals and infl ammation: protection of synovial fl uid by superoxide dismutase. Science 185: 529-531.Search in Google Scholar

McDonald JN, Levick JR. (1988). Morphology of surface synoviocytes in situ at normal and raised joint pressure, studied by scanning electron microscopy. Ann Rheum Dis 47: 232-240.Search in Google Scholar

McDonald JN, Leviek JR. (1995). Eff ect of intra-articular hyaluronan on pressure- fl ow relation across synovium in anaesthetized rabbits. J Physiol485(Pt.1): 179-93.Search in Google Scholar

Mendichi R, Soltes L. (2002). Hyaluronan molecular weight and polydispersity in some commercial intra-articular injectable preparations and in synovial fl uid Infl amm Res 51: 115-116.10.1007/PL00012388Search in Google Scholar

Meyer K, Palmer JW. (1934). The polysaccharide of the vitreous humor. Journalof Biology and Chemistry 107: 629-634. Miltner O, Schneider U, Siebert CH. (2002). Effi cacy of intraarticular hyaluronic acid in patients with osteoarthritis-a prospective clinical trial. OsteoarthritisCartilage 10: 680-686.Search in Google Scholar

Miyano T, Hirooka RE, Kano K. (1994). Eff ects of hyaluronic-acid on the development of 1-cell and 2-cell porcine embryos to the blastocyst stage invitro. Theriogenology 41: 1299-1305.Search in Google Scholar

Miyazaki M, Sato S, Yamaguchi T. (1983). Analgesic and antiinfl ammatory actionof hyaluronic sodium, Japan Pharmacological Conference. Tokyo, April 4, 1983.Search in Google Scholar

Miyazaki T, Miyauchi S, Nakamura T. (1996). The eff ect of sodium hyaluronate on the growth of rabbit cornea epithelial cells in vitro. J Ocul PharmacolTher 12: 409-415.Search in Google Scholar

Momberger TS, Levick JR, Mason RM. (2005). Hyaluronan secretion by synoviocytes is mechanosensitive. Matrix Biol 24: 510-519.Search in Google Scholar

Moreira CA, Armstrong DK, Jelliff e RW. (1991). Sodium hyaluronate as a carrier for intravitreal gentamicin - an experimental study. Acta Ophthalmol(Copenh) 69: 45-49.Search in Google Scholar

Moreira CA, Moreira AT, Armstrong DK. (1991). In vitro and in vivo studies with sodium hyaluronate as a carrier for intraocular gentamicin. Acta Ophthalmol(Copenh) 69: 50-56.Search in Google Scholar

Morimoto K, Metsugi K, Katsumata H. (2001). Eff ects of lowviscosity sodium hyaluronate preparation on the pulmonary absorption of rh-insulin in rats. Drug Dev Ind Pharm 27: 365-371.Search in Google Scholar

Morimoto K, Yamaguchi H, Iwakura Y. (1991). Eff ects of viscous hyaluronatesodium solutions on the nasal absorption of vasopressin and an analog. Pharmacol Res 8: 471-474.Search in Google Scholar

Morris ER, Rees DA, Welsh EJ. (1980). Conformation and dynamic interactions in hyaluronate solutions. J Mol Biol 138: 383-400.Search in Google Scholar

Myint P. (1987). The reactivity of various free radicals with hyaluronic acid steady-state and pulse radiolysis studies. Biochim Biophys-Aeta 925: 194-202.Search in Google Scholar

Necas J, Bartosikova L, Brauner P, Kolar J. (2008). Hyaluronic acid (hyaluronan): a review. Veterinarni Medicina 53(8): 397-411.Search in Google Scholar

Niwa Y, Sakane T, Shingu M, Yokoyama MM. (1983). Eff ect of stimulated neutrophils from the synovial fl uid of patients with rheumatoid arthritis on lymphocytes: a possible role of increased oxygen radicals generated by the neutrophils. J Clin Immunol 3: 228-240.Search in Google Scholar

Noble PW. (2002). Hyaluronan and its catabolic products in tissue injury and repair. Matrix Biol 21: 25-29.Search in Google Scholar

Oates KMN, Krause WE, Colby RH. (2002). Using rheology to probe the mechanism of joint lubrication: polyelectrolyte/protein interactions in synovial fl uid. Mat Res Soc Syrnp Proc 711: 53-58.Search in Google Scholar

Ogston AG, Stanier JE. (1953). The physiological function of hyaluronic acid in synovial fl uid viscous, elastic and lubricant properties. J Physiol 199: 244-52.Search in Google Scholar

Ortonne JP. (1996). A controlled study of the activity of hyaluronic acid in the treatment of venous leg ulcers. J Dermatol Treatment 7: 75-81.Search in Google Scholar

Orvisky E, Soltes L, Chabrecek P, Novak I, Kery V, Stancikova M, Vins I. (1992). The determination of hyaluronan molecular weight distribution by means of high perfeormance size exclusion chromatography. J Liq Chromatogr 15: 3203-3218.Search in Google Scholar

Parsons BJ, Al-Assaf S, Navaratnam S, Phillips GO. (2002). Comparison of thereactivity of diff erent oxidative species (ROS) towards hyaluronan, in: Kennedy JF, Phillips GO, Williams PA, Hascall VC (Eds.), Hyaluronan: Chemical, Biochemical and Biological Aspects, Woodhead, Publishing Ltd, Cambridge, MA, pp. 141-150.10.1533/9781845693121.151Search in Google Scholar

Peer D, Florentin A, Margalit R. (2003). Hyaluronan is a key component in cryoprotection and formulation of targeted unilamellar liposomes. BiochimBiophys Acta-Biomembranes 1612: 76-82.Search in Google Scholar

Peer D, Margalit R. (2000). Physicochemical evaluation of a stability-driven approach to drug entrapment in regular and in surface-modifi ed liposomes. Arch Biochem Biophys 383: 185-190.Search in Google Scholar

Poli A, Mason RM, Levick JR. (2004). Eff ects of Arg- Gly-Asp sequence peptide and hyperosmolarity on the permeability of interstitial matrix and fenestrated endothelium in joints. Microcirculation 11: 463-476.Search in Google Scholar

Praest BM, Greiling H, Kock R. (1997). Eff ects of oxygen-derived free radicals on the molecular weight and the polydispersity of hyaluronan solutions. Carbohydr Res 303 :153-157 .Search in Google Scholar

Price FM, Levick JR, Mason RM. (1996). Glycosaminoglycan concentration in synovium and other tissues of rabbit knee in relation to synovial hydraulic resistance. J Physiol (Lond) 495: 803-820.Search in Google Scholar

Prisell PT, Camber O, Hiselius J, Norstedt G. (1992). Evaluation of hyaluronan as a vehicle for peptide growth factors. Int J Pharm 85: 51-56.Search in Google Scholar

Radin EL, Swann DA, Weisser PA. (1970). Separation of a hyaluronate-frec lubricating fraction from synovial fl uid. Nature 228: 377-8.Search in Google Scholar

Rapta P, Valachova K, Gemeiner P, Soltes L. (2009). High-molar-mass hyaluronan behavior during testing its radical scavenging capacity in organic and aqueous media: Eff ects of the presence of Manganese (II) ions. Chem Biodivers6: 162-169.Search in Google Scholar

Rapta P, Valachova K, Gemeiner P, Šoltes L. (2009). High-molar-mass hyaluronan behavior during testing its antioxidant properties in organic and aqueous media: eff ects of the presence of Mn(II) ions. Chem Biodivers 6: 162-169.Search in Google Scholar

Rapta P, Valachova K, Zalibera M, Šnirc V, Šoltes L. (2010). Hyaluronan degradationby reactive oxygen species: scavenging eggect of the hexapyridoindole stobadineand two of its derivatives. In Monomers, Oligomers, Polymers, Composites, and Nanocomposites, Ed: R. A. Pethrick P. Petkov, A. Zlatarov G. E.Search in Google Scholar

Zaikov, S. K. Rakovsky, Nova Science Publishers, N.Y, Chapter 7, pp. 113-126.Search in Google Scholar

Rees MD, Kennett EC, Whitelock JM, Davies MJ. (2008). Oxidative damage to extracellular matrix and its role in human pathologies. Free Radical Biol. Med 44: 1973-2001.Search in Google Scholar

Revell PA. (1989). Synovial lining cells. Rheumatol Int 9: 49-51.Search in Google Scholar

Risberg B. (1997). Adhesions: preventive strategies. Eur J Surg 163: 32-39.Search in Google Scholar

Rittig M, Tittor F, Lutjen-Drecoll E, Mollenhauer J, Rauterberg J. (1992). Immunohistochemical study of extracellular material in the aged human synovial membrane. Mech Ageing Dev 64: 219-234.Search in Google Scholar

Rychly J, Soltes L, Stankovska M, Janigova I, Csomorova K, Sasinkova V, Kogan G, Gemeiner P. (2006). Unexplored capabilities of chemiluminescence and thermoanalytical methods in characterization of intact and degraded hyaluronans. Polym Degrad Stab 91(12): 3174-3184.Search in Google Scholar

Saettone MF, Giannaccini B, Chetoni P, et al. (1991). Evaluation of highmolecular- weight and low-molecular-weight fractions of sodium hyaluronate and an ionic complex as adjuvants for topical ophthalmic vehicles containing pilocarpine. Int J Pharm 72: 131-139.Search in Google Scholar

Saettone MF, Monti D, Torracca MT, Chetoni P. (1994). Mucoadhesive ophthalmic vehicles - evaluation polymeric low-viscosity formulations. J OculPharmacol 10: 83-92.Search in Google Scholar

Sakurai K, Miyazaki K, Kodera Y. (1997). Anti-infl ammatory activity of superoxide dismutase conjugated with sodium hyaluronate. Glycoconj J 14: 723-728.Search in Google Scholar

Sasaki H, Yamamura K, Nishida K. (1996). Delivery of drugs to the eye by topical application. Prog Retinal Eye Res 15: 583-620.Search in Google Scholar

Sattar A, Kumar S, West DC. (1992). Does hyaluronan have a role in endothelial cell proliferation ofthe synovium. Semin. Arthritis Rheum 22: 37-43.Search in Google Scholar

Schartz RA. (1997). The actinic keratoses. A perspective and update. DermatolSurg 23: 1009-1019.Search in Google Scholar

Schiller J, Volpi N, Hrabarova E, Soltes L. (2011). Hyaluronic acid: a natural biopolymer In: “Handbook of Biopolymers and Their Applications” S. Kalia and L. Averous (eds), Wiley & Scrivener Publishing, USA pp. 3-34.Search in Google Scholar

Schmid T, Lindley K, Su J, Soloveychik V, Block J, Kuettner K, Schumacher B. (2001a). Superfi cial zone protein (SZP) is an abundant glycoprotein in human synovial fl uid and serum. Trans Orthop Res Soc 26: 82.10.1007/978-3-0348-8133-3_16Search in Google Scholar

Schmid T, Soloveychik V, Kuettner K, Schumacher B. (2001b). Superfi cial zone protein (SZP) from human cartilage has lubrication activity. Trans OrthopRes Soc 26: 178.Search in Google Scholar

Schumacher BL, Block JA, Schmid TM, Aydelotte MB, Kuettner KE. (1994). A novel proteoglycan synthesized and secreted by chondrocytes of the superfi cial zone of articular cartilage. Arch Biochem Biophys 311: 144-152.Search in Google Scholar

Schumacher BL, Hughes CE, Kuettner KE, Caterson B, Aydelotte MB. (1999). Immunodetection and partial c DNA sequence of the proteoglycan, superfi cial zone protein, synthesized by cells lining synovial joints. J Orthop Res17: 110-120.Search in Google Scholar

Schumacher BL, Schmidt TA, Voegtline MS, Chen AC, Sah RL. (2005). Proteoglycan 4 (PRG4) synthesis and immunolocalization in bovine meniscus. JOrthop Res 23: 562-568.Search in Google Scholar

Schwarz IM, Hills BA. (1996). Synovial surfactant: lamellar bodies in type B synoviocytes and proteolipid in synovial fl uid and the articular lining. Br JRheumatol 35: 821-827.Search in Google Scholar

Schwarz IM, Hills BA. (1998). Surface-active phospholipids as the lubricating component of lubricin. Br J Rheumatol 37: 21-26.Search in Google Scholar

Scott DL, Shipley M, Dawson A, Edwards S, Symmons DP, Woolf AD. (1998).Search in Google Scholar

The clinical management of rheumatoid arthritis and osteoarthritis: strategies for improving clinical eff ectiveness. Br J Rheumatol 37: 546-554. Scott JE, Cummings C, Brass A, Chen Y. (1991). Secondary and tertiary structures of hyaluronan in aqueous solution, investigated by rotary shadowingelectron microscopy and computer simulation. Biochem J 274: 600-705.10.1042/bj274069911499682012600Search in Google Scholar

Servaty R, Schiller J, Binder H, Arnold K. (2000). Hydration of polymeric components of the cartilage - An infrared spectroscopic study on hyaluronic acid and chondroitin sulfate. Int J Biol Macromol 28: 123-129.Search in Google Scholar

Simkovic I, Hricovini M, Soltes L, Mendichi R, Cosentino C. (2000). Preparation of water soluble/insoluble derivatives of Hyaluronic acid by cross linking with epichlorohydrin in aqueous NaOH/NH4OH solution. Carbohydr Polym41: 9-14.Search in Google Scholar

Simon A, Safran A, Revel A. (2003). Hyaluronic acid can successfully replace albumin as the sole macromolecule in a human embryo transfer medium. Fertil Steril 79: 1434-1438.Search in Google Scholar

Soldati D, Rahm F, Pasche P. (1999). Mucosal wound healing after nasal surgery. A controlled clinical trial on the effi cacy of hyaluronic acid containing cream. Drugs Exp Clin Res 25: 253-261.Search in Google Scholar

Soloveva ME, Solovev VV, Faskhutdinova AA, Kudryavtsev AA, Akatov VS. (2007). Prooxidant and cytotoxic action of N-acetylcysteine and glutathione in combinations with vitamin B12b. Cell Tissue Biol 1: 40-49.Search in Google Scholar

Soltes L, Kogan G. (2009). Impact of transition metals in the free-radical degradationof hyaluronan biopolymer In: “Kinetics & Thermodynamics for Chemistry & Biochemistry: Vol. 2” E. M. Pearce, G. E. Zaikov, G. Kirshenbaum (eds), Nova Science Publishers, New York (181-199).Search in Google Scholar

Soltes L, Mendichi R, Kogan G, Mach M. (2004). Associating Hyaluronan Derivatives: A Novel Horizon in Viscosupplementation of Osteoarthritic Joints. Chem Biodivers 1: 468-472.Search in Google Scholar

Soltes L, Brezova V, Stankovska M, Kogan G, Gemeiner P. (2006a). Degradation of high-molecular-weight hyaluronan by hydrogen peroxide in the presence of cupric ions. Carbohydr Res 341: 639-644.10.1016/j.carres.2006.01.01416445893Search in Google Scholar

Soltes L, Mendichi R, Kogan G, Schiller J, Stankovska M, Arnhold J. (2006b) Degradative action of reactive oxygen species on hyaluronan. Biomacromolecules7: 659-668.10.1021/bm050867vSearch in Google Scholar

Soltes L, Stankovska M, Brezova V, Schiller J, Arnhold J, Kogan G, Gemeiner P. (2006c). Hyaluronan degradation by copper (II) chloride and ascorbate: rotational viscometric, EPR spin-trapping, and MALDI-TOF mass spectrometric investigations Carbohydr Res 341: 2826-2834.10.1016/j.carres.2006.09.019Search in Google Scholar

Soltes L, Stankovska M, Kogan G, Germeiner P, Stern R. (2005). Contribution of oxidative reductive reations to high molecular weight hyaluronan catabolism. Chem Biodivers 2: 1242-1245.Search in Google Scholar

Soltes L, Valachova K, Mendichi R, Kogan G, Arnhold J, Gemeiner P. (2007). Solution properties of high-molar-mass hyaluronans: the biopolymer degradation by ascorbate. Carbohydr Res 342: 1071-1077.Search in Google Scholar

Soltes L. (2010). Hyaluronan - A High-Molar-Mass Messenger Reporting on theStatus of Synovial Joints: Part II. Pathophysiological Status In: “New Steps in Chemical and Biochemical Physics. Pure and Applied Science” E. M. Pearce, G. Kirshenbaum, G. E. Zaikov (eds), Nova Science Publishers, New York pp. 137-152.Search in Google Scholar

Stankovska M, Arnhold J, Rychly J, Spalteholz H, Gemeiner P, Soltes L. (2007). In vitro screening of the action of non-steroidal anti-infl ammatory drugs on hypochlorous acid-induced hyaluronan degradation. Polym Degrad Stabil92: 644-652.Search in Google Scholar

Stankovska M, Soltes L, Vikartovska A, Mendichi r, Lath D, Molnarova M, Gemeiner P. (2004). Study of hyaluronan degradation by means of rotational Viscometry: Contribution of the material of viscometer. Chem Pap 58: 348-352.Search in Google Scholar

Stankovska M, Hrabarova E, Valachova K, Molnarova M, Gemeiner P, Soltes L. (2006). The degradative action of peroxynitrite on high-molecular-weight hyaluronan . Neuroendocrinol Lett 27(Suppl. 2): 31-34.Search in Google Scholar

Stankovska M, Soltes L, Vikartovska A, Gemeiner P, Kogan G, Bakos D. (2005). Degradation of high-molecular-weight hyaluronan: a rotational viscometry study. Biologia 60(Suppl. 17): 149-152.Search in Google Scholar

Stern R, Kogan G, Jedrzejas M. J, Soltes L. (2007). The many ways to cleave hyaluronan. Biotechnol Adv 25: 537-557.Search in Google Scholar

Stiebel-Kalish H, Gaton DD, Weinberger D. (1998). A comparison of the eff ect of hyaluronic acid versus gentamicin on corneal epithelial healing. Eye 12: 829-833.Search in Google Scholar

Suchanek E, Simunic V, Juretic D, Grizelj V. (1994). Follicular-fl uid contents of hyaluronic-acid, follicle-stimulating-hormone and steroids relative to the success of in-vitro fertilization of human oocytes. Fertil Steril 62: 347-352.Search in Google Scholar

Surendrakumar K, Martyn GP, Hodgers ECM. (2003). Sustained release of insulin from sodium hyaluronate based dry powder formulations after pulmonary delivery to beagle dogs. J Control Release 91: 385-394.Search in Google Scholar

Surini S, Akiyama H, Morishita M. (2003). Polyion complex of chitosan and sodium hyaluronate as an implant device for insulin delivery. STP Pharm Sci13: 265-268.Search in Google Scholar

Surovcikova L, Valachova K, Banasova M, Snirc V, Priesolova E, Nagy M, Juranek I, Soltes L. (2012). Free-radical degradation of high-molar-mass hyaluronan induced by ascorbate plus cupric ions: Testing of stobadine and its two derivatives in function as antioxidants. General Physiol Biophys 31: 57-64.Search in Google Scholar

Swann DA, Silver FH, Slayter HS, Staff ord W, Shore E. (1985). The molecular structure and lubricating activity of lubricin isolated from bovine and human synovial fl uids. Biochem J 225: 195-201.Search in Google Scholar

Takayama K, Hirata M, Machida Y. (1990). Eff ect of interpolymer complex-formation on bioadhesive property and drug release phenomenon of compressed tablet consisting of chitosan and sodium hyaluronate. Chem PharmaceutBull 38: 1993-1997.Search in Google Scholar

Tani E, Katakami C, Negi A (2002). Eff ects of various eye drops on corneal wound healing after superfi cial keratectomy in rabbits. Jpn J Ophthalmol46: 488-495.Search in Google Scholar

Tascioglu F, Oner C. (2003). Effi cacy of intra-articular sodium hyaluronate in the treatment of knee osteoarthritis. Clin Rheumatol 22: 112-117.Search in Google Scholar

Thibodeau PA, Kocsis-Bedard S, Courteau J, Niyonsenga T, Paquette B. (2001).Search in Google Scholar

Thiols can either enhance or suppress DNA damage induction by catecholestrogens. Free Radic Biol Med 30: 62-73.10.1016/S0891-5849(00)00446-9Search in Google Scholar

Turino GM, Cantor JO. (2003). Hyaluronan in respiratory injury and repair. AmJ Respir Crit Care Med 167: 1169-1175.Search in Google Scholar

Uthman I, Raynauld JP, Haraoui B. (2003). Intra-articular therapy in osteoarthritis. Postgrad Med J 79: 449-453.Search in Google Scholar

Valachova K, Vargova A, Rapta P, Hrabarova E, Drafi F, Bauerova K, Juranek I, Soltes L. (2011). Aurothiomalate as preventive and chain-breaking antioxidant in radical degradation of high-molar-mass hyaluronan. Chemistry& Biodiversity 8: 1274-1283.Search in Google Scholar

Valachova K, Banasova M, Machova L, Juranek I, Bezek S, Soltes L. (2013b). Antioxidant activity of various hexahydropyridoindoles. Journal of InformationIntelligence and Knowledge 5: 15-32.Search in Google Scholar

Valachova K, Hrabarova E, Priesolova E, Nagy M, Banasova M, Juranek I, Soltes L. (2011). Free-radical degradation of high-molecular-weight hyaluronan induced by ascorbate plus cupric ions. Testing of bucillamine and its SA981- metabolite as antioxidants. J Pharma & Biomedical Analysis 56: 664-670.Search in Google Scholar

Valachova K, Hrabarova E, Drafi F, Juranek I, Bauerova K, Priesolova E, Nagy M, Šoltes L. (2010a). Ascorbate and Cu(II) induced oxidative degradation of high-molar-mass hyaluronan. Pro- and antioxidative eff ects of some thiols. Neuroendocrinol Lett 31(2): 101-104.Search in Google Scholar

Valachova K, Hrabarova E, Gemeiner P, Šoltes L. (2008). Study of pro- and anti-oxidative properties of d-penicillamine in a system comprising highmolar- mass hyaluronan, ascorbate, and cupric ions. Neuroendocrinol Lett29: 697-701.Search in Google Scholar

Valachova K, Hrabarova E, Juranek I, Šoltes L. (2011b). Radical degradation of high-molar-mass hyaluronan induced by Weissberger oxidative system.Search in Google Scholar

Testing of thiol compounds in the function of antioxidants. 16th Interdisciplinary Slovak-Czech Toxicological Conference in Prague. Interdiscip Toxicol4(2): 65.Search in Google Scholar

Valachova K, Kogan G, Gemeiner P, Šoltes L. (2008b). Hyaluronan degradation by ascorbate: Protective eff ects of manganese (II). Cellulose Chem. Technol 42(9-10): 473−483.Search in Google Scholar

Valachova K, Kogan G, Gemeiner P, Šoltes L. (2009b). Hyaluronan degradationby ascorbate: protective eff ects of manganese (II) chloride. In: Progress in Chemistry and Biochemistry. Kinetics, Thermodynamics, Synthesis, Properties and Application, Nova Science Publishers, N.Y, Chapter 20, pp. 201-215.Search in Google Scholar

Valachova K, Mendichi R, Šoltes L. (2010c). Eff ect of L-glutathione on high-molar-mass hyaluronan degradation by oxidative system Cu(II) plus ascorbate. In: Monomers, Oligomers, Polymers, Composites, and Nanocomposites, Ed: R. A. Pethrick P. Petkov, A. Zlatarov G. E. Zaikov, S. K. Rakovsky, Nova Science Publishers, N.Y, Chapter 6, pp. 101-111.Search in Google Scholar

Valachova K, Rapta P, Kogan G, Hrabarova E, Gemeiner P, Šoltes L. (2009a). Degradation of high-molar-mass hyaluronan by ascorbate plus cupric ions: eff ects of D-penicillamine addition. Chem Biodivers 6: 389-395.10.1002/cbdv.20080026119319875Search in Google Scholar

Valachova K, Rapta P, Slovakova M, Priesolova E, Nagy M, Mislovičova D, Drafi F, Bauerova K, Šoltes L. (2013a). Radical degradation of high-molar-mass hyaluronaninduced by ascorbate plus cupric ions. Testing of arbutin in the functionof antioxidant. In: Advances in Kinetics and Mechanism of Chemical Reactions, G. E. Zaikov, A. J. M. Valente, A. L. Iordanskii (eds), Apple Academic Press, Waretown, NJ, USA, pp. 1-19. Valachova K, Šoltes L. (2010b). Eff ects of biogenic transition metal ions Zn(II)and Mn(II) on hyaluronan degradation by action of ascorbate plus Cu(II) ions. In: New Steps in Chemical and Biochemical Physics. Pure and Applied Science, Nova Science Publishers, Ed: E. M. Pearce, G. Kirshenbaum, G.E. Zaikov, Nova Science Publishers, N.Y, Chapter 10, pp. 153-160.Search in Google Scholar

Valachova K, Vargova A, Rapta P, Hrabarova E, Drafi F, Bauerova K, Juranek I, Šoltes L. (2011a). Aurothiomalate in function of preventive and chainbreaking antioxidant at radical degradation of high-molar-mass hyaluronan. Chem Biodivers 8: 1274-1283.Search in Google Scholar

Vanos HC, Drogendijk AC, Fetter WPF. (1991). The infl uence of contamination of culture-medium with hepatitis-B virus on the outcome of in vitro fertilization pregnancies. Am J Obstet Gynecol 165: 152-159.Search in Google Scholar

Vazquez JR, Short B, Findlow AH. (2003). Outcomes of hyaluronan therapy in diabetic foot wounds. Diabetes Res Clin Pract 59: 123-127.Search in Google Scholar

Weigel PH, Hascall VC, Tammi M. (1997). Hyaluronan synthases. J Biol Chem272: 13997-14000.Search in Google Scholar

West DC, Hampson IN, Arnold F, Kumar S. (1985). Angiogenesis induced by degradation products of hyaluronic acid. Science 228: 1324-1326.Search in Google Scholar

Wilkinson LS, Pitsillides AA, Worrall JG, Edwards JC. (1992). Light microscopic characterization of the fi broblastlike synovial intimal cell (synoviocyte). ArthritisRheum 35: 1179-1184.Search in Google Scholar

Worrall JG, Bayliss MT, Edwards JC. (1991). Morphological localization of hyaluronan in normal and diseased synovium. J Rheumatol 18: 1466-1472.Search in Google Scholar

Worrall JG, Wilkinson LS, Bayliss MT, Edwards JC. (1994). Zonal distribution of chondroitin-4-sulphate/ dermatan sulphate and chondroitin-6-sulphate in normal and diseased human synovium. Ann Rheum Dis 53: 35-38.Search in Google Scholar

Yerushalmi N, Arad A, Margalit R. (1994). Molecular and cellular studies of hyaluronic acid-modifi ed liposomes as bioadhesive carriers for topical drugdelivery in wound-healing. Arch Biochem Biophys 313: 267-273.Search in Google Scholar

Yerushalmi N, Margalit R. (1998). Hyaluronic acid-modifi ed bioadhesive liposomes as local drug depots: eff ects of cellular and fl uid dynamics on liposome retention at target sites. Arch Biochem Biophys 349: 21-26.Search in Google Scholar

Yun YH, Goetz DJ, Yellen P, Chen W. (2004). Hyaluronan microspheres for sustained gene delivery and site-specifi c targetting. Biomaterials 25: 147-157.Search in Google Scholar

Zhu YX, Granick S. (2003). Biolubrication: hyaluronic acid and the infl uence on its interfacial viscosity of an antiinfl ammatory drug. Macromolecules 36: 973-976. Search in Google Scholar