UMLS:C0001511 - FACTA Search

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Query: UMLS:C0001511 (Adhesion)
5,955 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sodium hyaluronate reduces adhesions after tendon repair in rodents and dogs, and has been used in limited clinical trials in people. To evaluate its effect on tendon healing and adhesion formation in horses and to compare these effects with those of a compound of similar visco-elastic properties, a study was performed in horses, using a model of collagenase injection in the flexor tendons within the digital sheath. Eight clinically normal horses were randomly allotted to 2 groups. Adhesion formation between the deep digital flexor tendon and the tendon sheath at the pastern region was induced in the forelimbs of all horses. Using tenoscopic control, a 20-gauge needle was inserted into the deep digital flexor tendon of horses under general anesthesia and 0.2 ml of collagenase (2.5 mg/ml) was injected. The procedure was repeated proximally at 2 other sites, spaced 1.5 cm apart. A biopsy forceps was introduced, and a 5-mm tendon defect was created at each injection site. Group-A horses had 120 mg of sodium hyaluronate (NaHA) gel injected into the tendon sheath of one limb. Group-B horses had methylcellulose gel injected at the same sites. The contralateral limbs of horses in both groups served as surgical, but noninjected, controls. Horses were euthanatized after 8 weeks of stall rest. Ultrasonographic evaluation revealed improved tendon healing after NaHa injection, but no difference in peritendinous adhesion formation. Tendon sheath fluid volume and hyaluronic acid (HA) content were greater in NaHA-treated limbs. Gross pathologic examination revealed considerably fewer and smaller adhesions when limbs were treated with NaHA. However, significant difference in pull-out strengths was not evident between NaHA-treated and control limbs. Histologically, the deep digital flexor tendon from the NaHA-treated limbs had reduced inflammatory cell infiltration, improved tendon structure, and less intratendinous hemorrhage. Treatment with methylcullulose had no significant effect on tendon healing, adhesion size, quantity, or strength or on the volume and composition of the tendon sheath fluid. Sodium hyaluronate, administered intrathecally, appears to have a pharmaceutically beneficial action in this collagenase-induced tendinitis and adhesion model in horses.
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PMID:Effects of sodium hyaluronate on tendon healing and adhesion formation in horses. 185 4

Single cell suspensions of early postnatal mouse cerebellum adhere to substrate-bound culture supernatants of the teratocarcinoma cell line PF-HR9 and can be inhibited to adhere by antibodies to the neural cell adhesion molecules L1 and N-CAM. Adhesion can also be inhibited by the glycosaminoglycans heparin and heparan sulfate, and less by chondroitin sulfate or hyaluronic acid. Heparinase treatment of cells, but not of HR9 substrate, reduces adhesion. Adhesion does not appear to be mediated by laminin, a constituent of HR9 extracellular matrix, since L1 and N-CAM antibodies do not interfere with cell adhesion on EHS sarcoma laminin as substrate and since antibodies to EHS sarcoma laminin partially inhibit adhesion to HR9 extracellular matrix which contains laminin. Of the other extracellular matrix constituents analysed in HR9 culture supernatants (collagen type IV, a heparan sulfate proteoglycan and fibronectin) none could be shown to promote adhesion, when coated as substrate, suggesting that yet unidentified compounds are responsible for L1- or N-CAM-mediated cell adhesion. These experiments show for the first time that extracellular matrix constituents can act as binding partners for the neural cell adhesion molecules L1 and N-CAM.
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PMID:Adhesion of neural cells to extracellular matrix constituents. Involvement of glycosaminoglycans and cell adhesion molecules. 317 50

The effects of added soluble glycosaminoglycans (GAGs) on adhesion and neurite formation by cultured PC12 pheochromocytoma cells on several substrates were tested. PC12 cells adhere more rapidly to Petri plastic coated with fibronectin, laminin, poly-L-lysine, or conA, than to either uncoated Petri plastic or tissue culture plastic. Adhesion to poly-L-lysine, fibronectin- and laminin-coated dishes was significantly inhibited by added dextran sulfate and to a lesser extent heparin--but not by chondroitin sulfate. PC12 adhesion to fibronectin could also be totally inhibited by the putative fibronectin cell binding tetrapeptide L-arginyl-glycyl-L-aspartyl-L-serine (Pierschbacher, MD & Ruoslahti, E, Nature 309 (1984) 30). The inhibitory effects of combinations of this tetrapeptide and heparin or dextran sulfate (but not chondroitin sulfate or hyaluronic acid) were additive. Nerve growth factor (NGF) pretreatment increased the percentage of PC12 cells adherent to all substrates and reduced the GAG inhibition of adhesion. PC12 cells previously treated with NGF to induce morphologic differentiation will rapidly re-extend neurites when plated on all four substrates. On fibronectin and poly-L-lysine-coated dishes this neurite growth is inhibited by added heparin and dextran sulfate, while on laminin it is not. Neurite formation on fibronectin-coated dishes was also inhibited by low concentrations of fibronectin tetrapeptide. In summary, PC12 adhesion and neurite formation can be inhibited by sulfated GAGs on some substrates, including fibronectin, but not other substrates, suggesting that these cells have at least two independent molecular adhesion mechanisms.
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PMID:PC12 adhesion and neurite formation on selected substrates are inhibited by some glycosaminoglycans and a fibronectin-derived tetrapeptide. 394 48

Changes in glycoconjugate production have been reported for tumor cells. In this study, we investigated the glycoconjugate expression pattern in normal human melanocytes and in a panel of 6 human melanoma cell lines with different metastatic capacity after s.c. inoculation into nude mice. Glycoconjugates were labeled in vitro with [35S] sulphate and [3H] glucosamine, purified from cells and culture medium by column chromatography and identified by treatment with specific glycosidases. Characterization of the purified glycoconjugate fractions as well as alcian-blue staining of xenograft lesions revealed that hyaluronic acid (HA) is the main glycoconjugate produced by all cell lines. Highly metastatic cell lines expressed higher levels of HA than melanocytes and than weakly metastatic or non-metastatic cell lines. In addition, a shift in dominance from chondroitin-sulphate proteoglycan to heparan-sulphate proteoglycan was observed with increasing metastatic capacity. We also studied the expression and binding activity of the HA receptor CD44. Immunoprecipitation experiments indicated high CD44 synthesis only in highly metastatic cell lines, but FACS analysis demonstrated approximately the same surface expression in melanocytes as in all cell lines. Adhesion assays to immobilized HA showed that CD44 can be present in an inactive or an active conformation. Our data suggest that a combination of increased HA production and the expression of CD44 on the cell surface may be associated with high metastatic potential of human melanoma cell lines in nude mice.
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PMID:Glycoconjugate profile and CD44 expression in human melanoma cell lines with different metastatic capacity. 753 56

Intraperitoneal adhesions following surgical procedures cause considerable morbidity. Hyaluronic acid/carboxymethylcellulose (HA/CMC) films have been shown to be effective agents in decreasing adhesion formation. However, when there is an inadvertent leak of bowel contents into the peritoneum due to incomplete anastomosis, adhesion formation about a defect in order to prevent further leakage and to promote healing of the wound is important for the prevention of morbidity and mortality. The purpose of this study was to determine if an antiadhesion film (HA/CMC) impairs these potentially beneficial adhesions to bowel anastomoses, thus predisposing them to enteric leaks with subsequent peritonitis. Sixty-four rabbits were divided in two groups, each undergoing a complete or partial (90% anastomosis to simulate anastomotic leak) large bowel anastomosis. Half of each of the above groups were treated by wrapping a HA/CMC film over the anastomosis and the other half were untreated controls. These two subgroups were then further divided equally and sacrificed at either 7 or 14 days for evaluation of anastomosis integrity and strength. The average anastomotic bursting pressures did not change significantly between those groups treated with HA/CMC when compared to untreated controls at 7 or 14 days or in the complete or partial anastomosis group (Student's t test). Adhesion formation to the anastomosis was not impaired in either group independent of HA/CMC film application. This study suggests that while HA/CMC film has been shown to decrease adhesions in other models, healing of a rabbit colonic anastomosis even in the presence of an anastomotic defect takes place, further suggesting that the stimulus for adhesion formation can overcome the antiadhesion properties of HA/CMC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Novel antiadhesion barrier does not prevent anastomotic healing in a rabbit model. 754 25

Adhesion of urinary crystals to the apical surface of renal tubular cells could be a critical step in the formation of kidney stones. The interaction between renal epithelial cells (BSC-1 line) and the most common crystal in kidney stones, calcium oxalate monohydrate (COM), was studied in a tissue culture model system. COM crystals bound to the cell surface within seconds in a concentration-dependent manner to a far greater extent than did brushite, another calcium-containing crystal found in urine. Adhesion of COM crystals to cells was blocked by the polyanion, heparin. Other glycosaminoglycans including chondroitin sulfate A or B, heparan sulfate, and hyaluronic acid, but not chondroitin sulfate C, prevented binding of COM crystals. Two nonsulfated polyanions, polyglutamic acid and polyaspartic acid, also blocked adherence of COM crystals. Three molecules found in urine, nephrocalcin, uropontin, and citrate, each inhibited binding of COM crystals, whereas Tamm-Horsfall glycoprotein (THP) did not. Prior exposure of crystals but not cells to inhibitory molecules blocked adhesion, suggesting that these agents exert their effect at the crystal surface. Inhibition of crystal binding followed a linear Langmuir adsorption isotherm for each inhibitor identified, suggesting that these molecules bind to a single class of sites on the crystal that are important for adhesion to the cell surface. Inhibition of crystal adhesion by heparin was rapidly overcome by the polycation protamine, suggesting that the glycosaminoglycan regulates cell-crystal interactions in a potentially reversible manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adhesion of calcium oxalate monohydrate crystals to renal epithelial cells is inhibited by specific anions. 773 17

Adhesive interactions between lymphocytes and components of the extracellular matrix (ECM) within a wound environment play a crucial role in determining the inflammatory response following tissue injury. In fetal wounds the extracellular matrix is composed predominantly of hyaluronic acid. Within this environment the inflammatory reaction as a result of injury is minimal. We propose that this lack of an inflammatory cell response in the fetal wound is due to the high levels of hyaluronic acid within the ECM and the inability of lymphocytes to adhere to this matrix component. Therefore, we examined the adhesive properties of fetal lymphocytes to fibronectin, vitronectin, collagen types I, III, IV, V, and hyaluronic acid--ECM components involved in fetal and adult wound environments. Fetal lymphocytes from both spleen and thymus demonstrated significant binding capabilities to fibronectin, vitronectin, and collagen types I and III. No intrinsic binding capabilities were detected to hyaluronic acid. Adhesion was not affected by the addition of IL-1, IFN-gamma, or phorbol dibutyrate. The inability of lymphocytes to adhere to hyaluronic acid helps to explain the lack of inflammation found in fetal wounds and serves to demonstrate the importance of ECM-lymphocyte interactions in determining the inflammatory response during fetal wound healing.
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PMID:The extracellular matrix of the fetal wound: hyaluronic acid controls lymphocyte adhesion. 804 Nov 33

Adhesions, which form in > 60% of patients following major abdominopelvic surgery, are a common cause of morbidity and infertility in women. Hyaluronic acid is a naturally occurring polysaccharide that has been shown to be beneficial in ophthalmic surgery and as intraarticular injections. This study was designed to examine the use of hyaluronic acid as an agent for adhesion prevention after experimental abrasion of rat uterine horns and to explore its possible mechanism of action. Twenty-nine female Sabra rats were randomly assigned to either a saline (n = 13) or hyaluronic acid (n = 16) group. Adhesions were created by local abrasion of the uterine surfaces. Five milliliters of 1% hyaluronic acid or saline was instilled intraperitoneally. Three weeks later the animals were killed and subjected to a second laparotomy. Intraabdominal adhesions were graded on the basis of gross appearance using a scoring system from 0 to 5. The adhesion score in the animals treated with hyaluronic acid was significantly (P < .001) lower than that in the control animals. Hyaluronic acid did not affect the attachment or proliferation of fibroblasts but had an inhibitory effect on platelet aggregation in a dose-dependent manner. Intraperitoneal instillation of 1% hyaluronic acid significantly minimized adhesions formed experimentally. The mechanism of action may involve inhibition of platelet aggregation.
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PMID:Hyaluronic acid for preventing experimental postoperative intraperitoneal adhesions. 806 8

Interactions of cells with their extracellular matrix (ECM) are central to tissue-specific migration, localization, and function of migratory cells. Since mast cells circulate as immature precursor cells and home to tissues in a characteristic distribution, with increases in various disease states, we used the immature human mast cell line HMC-1 as a model to investigate the poorly understood mast cell-ECM interactions in humans. Functional adhesion studies showed that HMC-1 cells spontaneously adhere to fibronectin and laminin (80% at 6 and 12 microgram/ml, respectively) and to collagen type I and III (50% at 20 microgram/ml), whereas binding to vitronectin and collagen type IV required cell activation by phorbol myristate acetate. HMC-1 cells did not adhere to hyaluronic acid. Moreover, both fibronectin and laminin supported pronounced cytoplasmatic spreading with formation of isolated lamellipodia, whereas these cells exhibited a round cell shape on collagen and vitronectin, as shown by scanning electron microscopy. On flow cytometric analysis, HMC-1 cells expressed several adhesion molecules including the integrins beta 1, alpha 2 through alpha 6, alpha v, and alpha v beta 5, as well as CD44. Adhesion to fibronectin and vitronectin was found to be divalent cation- and arginine-glycine-aspartic acid-dependent, and could be blocked by antibodies to beta 1 or alpha 5, and alpha v or alpha v beta 5, respectively. In contrast, binding to laminin and collagen could not be blocked by monoclonal antibodies to any of the cell surface adhesion receptors expressed. Our results show that immature mast cells are able to modify their adhesive behavior in response to various ECM proteins and activating stimuli, and that this phenomenon is partly integrin mediated. These findings may be important for our understanding of the mechanisms leading to tissue-specific localization of mast cells.
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PMID:Interactions of immature human mast cells with extracellular matrix: expression of specific adhesion receptors and their role in cell binding to matrix proteins. 864 90

Adhesion to hyaluronate by tumor cells has been shown to correlate with disease progression in various types of neoplasms. In order to study cell binding to hyaluronate, a novel assay was developed with hyaluronate covalently tethered to polystyrene plates in 96-well format. Hyaluronic acid is covalently linked to amine groups on the surface of these plates by 1-ethyl-3(3-dimethylaminopropyl) carbodiimide. The amide linkage is stable to repeated washings, and cell binding to this derivatized surface is highly reproducible. Use of plates coated with hyaluronate by this new method provides an ideal in vitro model system for assaying cell binding.
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PMID:Assessment of cell binding to hyaluronic acid in a solid-phase assay. 878 21

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