UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adhesions, which occur after 67% to 93% of abdominal operations, represent a major clinical problem, resulting in intestinal obstruction, infertility, and pain and incurring considerable economic costs. The magnitude and seriousness of the problem of adhesions have been underappreciated. Moreover, efforts to prevent or reduce adhesions largely have been unsuccessful, hindered by their empirical basis, the lack of good predictive animal models, and the biochemical complexities of adhesiogenesis. The two major strategies for adhesion prevention or reduction are adjusting surgical technique and applying adjuvants. Modifications in technique that all surgeons should implement include minimizing the invasiveness of surgery, minimizing surgical trauma, such as ischemia from peritoneal suturing, and avoiding the introduction of foreign material, e.g., starch glove powder, into the body. Given the adhesiogenic nature of peritoneal repair, however, improvements in surgical technique alone will help decrease but not prevent adhesion formation. Adjuvant therapy is necessary. Adjuvants fall into two main categories, drugs and barriers. Nonsteroidal anti-inflammatory drugs have shown questionable clinical efficacy, possibly because of difficulties in drug delivery. Corticosteroids, alone or with antihistamines, also have had equivocal clinical results and may be immunosuppressive and delay wound healing. Experimentally, fibrinolytics such as tissue plasminogen activator (tPA), administered systemically or intraperitoneally (i.p.), have demonstrated conflicting results and hemorrhagic complications. However, recently, tPA, administered topically in a carboxymethylcellulose (CMC) gel, has been effective in reducing and preventing adhesions in rabbits. Phosphatidylcholine, given i.p. or orally, also has shown promise in animal studies. Barriers, by separating traumatized surfaces for the critical first five to seven days of peritoneal re-epithelialization, are useful adjuvants, and include macromolecular solutions and mechanical devices. Dextran, a macromolecular solution, has been studied widely, but has not demonstrated consistent clinical efficacy and has been largely abandoned as an anti-adhesion barrier. A newly developed hyaluronic acid-phosphate-buffered saline solution applied intraoperatively to protect peritoneal surfaces from indirect surgical trauma effectively and safely reduced adhesions in a large multicenter study of women undergoing gynecological laparotomy. Three recently developed mechanical barriers also have demonstrated clinical progress in adhesion prevention. A bioresorbable membrane consisting of hyaluronic acid and CMC has gained regulatory approval for clinical use in both general and gynecological surgery following demonstration of efficacy and safety in reducing adhesions. A barrier made of expanded polytetrafluoroethylene and another developed from oxidized regenerated cellulose are currently available for gynecological surgery. With continued research, new and improved approaches hopefully will become available to prevent adhesion formation.
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PMID:Adhesions: preventive strategies. 907 50

Oxaceprol, an established drug for treatment of degenerative joint disease, has recently been shown in vitro to reduce leukocyte adhesion to cultured endothelial cells and leukocyte extravasation in vivo in an arthritis animal model. The aim of this study was to examine the effects of Oxaceprol on the microcirculation of striated skin muscle. In the dorsal skinfold chamber of the awake Syrian golden hamster I/R injury was induced by applying a 4-hour complete pressure ischemia. Prior to the ischemia, after 30 minutes, 2 hours and 24 hours of reperfusion the following parameters were assessed in a blinded study: macromolecular leakage, leukocyte rolling fraction, adherent leukocytes, and functional capillary density (FCD). Rhodamine 6G to stain leukocytes in-vivo and FITC Dextran (MW 150,000) was used as a plasma marker. 15 minutes prior to reperfusion the animals received either an i.v. bolus infusion of Oxaceprol (50mg/kg) or an equivalent volume of saline, which was followed by a 45-minute continuous infusion at the same dose. At the conclusion of the experiment samples were collected from the chamber tissue for histological quantification of leukocyte extravasation using an esterase stain. Oxaceprol treatment resulted in a significant decrease of postischemic leukocyte adherence after 0.5 h and 2h of reperfusion. The histological sections revealed a significant reduction in the number of extravasated leukocytes. There was a reduction of macromolecular leakage and treatment also resulted in a preservation of tissue perfusion, as was indicated by a significant increase in FCD in the treatment group compared to the ischemia group. In summary, Oxaceprol was able to protect the tissue from ischemia/reperfusion injury.
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PMID:Effects of oxaceprol on the microcirculation in ischemia/reperfusion injury. 953 26

Hemoglobin-based oxygen carriers have been suggested to enhance the formation of oxygen free radicals, especially under conditions of ischemia-reperfusion (I/R), in which activation and adhesion of leukocytes play a pivotal role for propagation of reperfusion injury. This study investigates the effects of the hemoglobin-based oxygen carrier diaspirin-cross-linked hemoglobin (DCLHb) in an I/R model of hamster striated skin muscle. The dorsal skinfold chamber model in the awake Syrian golden hamster was used for analysis of the microcirculation and local tissue PO2 in striated skin muscle utilizing the technique of intravital fluorescence microscopy and a multiwire platinum surface (Clark type) electrode. Measurements were made before 4 h of pressure-induced ischemia and at 0.5, 2, and 24 h of reperfusion. Animals were treated with 5 ml/kg body wt of either 10% DCLHb (n = 8), 6% Dextran 60 (Dx-60; 60 kDa, n = 8), or 0.9% NaCl (n = 7), which was given intravenously 15 min before reperfusion. In animals treated with DCLHb or Dx-60, a significant decrease of leukocytes rolling along and sticking in postcapillary venules, associated with a recovery of functional capillary density and red blood cell velocity, was observed compared with saline-treated controls. In the early reperfusion period (0.5 h), DCLHb and Dx-60 efficiently restored local tissue PO2, whereas tissue PO2 decreased from 18.3 +/- 1.9 to 15.3 +/- 5.3 mmHg in 0.9% NaCl-treated animals. Electron microscopic analysis of the postischemic tissue at 24 h of reperfusion revealed markedly reduced tissue damage in animals treated with DCLHb compared with Dx-60 or isotonic saline. These results indicate that DCLHb attenuates postischemic reperfusion injury of striated skin muscle, presumably through alterations of leukocyte-endothelial cell interactions.
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PMID:Attenuation of postischemic reperfusion injury in striated skin muscle by diaspirin-cross-linked Hb. 968 21

To better understand the mechanisms of ischemia-reperfusion (I/R) injury, we tested the hypothesis that protein synthesis is involved in the production of tumor necrosis factor (TNF) and in the microvascular transport changes in I/R. To evaluate the hypothesis, we inhibited protein synthesis with topically applied actinomycin D (AMD), measured I/R-induced changes in microvascular transport, and bioassayed the venous plasma levels of TNF. The rat cremaster muscle I/R model consisted of 4 h of ischemia followed by 2 h of reperfusion. Changes in transport were determined by integrated optical intensity (IOI) using FITC-Dextran 150 as tracer. Animals were separated into four groups: 1) control (C), 2) control treated with AMD (C + AMD), 3) I/R, and 4) I/R treated with AMD (I/R + AMD). The mean (+/-SE) maximal IOI in C and C + AMD were 3.0 +/- 1.0 and 3. 7 +/- 0.7 units, respectively. I/R elevated mean maximal IOI to 21.8 +/- 1.9 units (P < 0.05 vs. C, C + AMD, I/R + AMD). Treatment with AMD reduced the I/R-induced mean maximal IOI to 9.7 +/- 2.0 units (P < 0.05 vs. I/R). In I/R group, plasma TNF levels increased (relative to preischemia baseline) immediately after the release of the vascular occlusion to 250 pg/ml and reached a peak value of 342 pg/ml at 60 min of reperfusion. In the I/R + AMD group, AMD reduced TNF increase to 44 pg/ml. The C and C + AMD groups showed no differences in TNF values during the 6 h of observation. We conclude that protein synthesis and TNF generation are at least partially involved in I/R-induced changes in microvascular transport.
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PMID:Microvascular transport is associated with TNF plasma levels and protein synthesis in postischemic muscle. 984 19

An in vivo model has been developed for chronic observation of the effects of ischemia on cortical bone remodeling and perfused vascularity. Diaphragm occluders were implanted around the right common iliac artery of four rabbits and inflated to produce 10 h of ischemia to the limb. Microcirculation was monitored with intravital microscopy of injected fluorescent microspheres and FITC-Dextran 70 through a bone window, the tibial bone chamber implant (BCI). Bone resorption and apposition in the BCI were indicated with mineralization dyes. Between 2 and 12 h following release of the occluder, secondary ischemia/no-reflow and other evidence of reperfusion injury were observed. Vessel damage was suggested by abnormally high leakage of FITC-D70 from the few vessels perfused during secondary ischemia. In the weeks following occluder release perfused vasculature increased beyond pre-occlusion levels. Net bone resorption reached a maximum when vascularity passed normal levels. In order to further validate the arterial occlusion model for osteonecrosis, techniques for (1) confirming bone death and (2) detecting increased leukocyte adherence to endothelial cells were added. The dead cell stain Ethidium homodimer-1 was used to tag dead osteocytes immediately after occlusion and produced a measure designated "osteonecrosis index." To detect leukocytes adhering to vessel walls, carboxyfluorescein diacetate, succinimidyl ester was injected at occluder release. An increase in the number of adherent leukocytes was detected.
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PMID:Model for intravital microscopic evaluation of the effects of arterial occlusion-caused ischemia in bone. 1046 35

Nitric oxide-releasing drugs have been shown to reduce ischemia/reperfusion (I/R) injury by acting as radical scavengers. However, their therapeutic application is hampered by specific side effects and rapid bioreduction in vivo. The half-life and antioxidant activity of nitroxides may be enhanced by their covalent binding to human serum albumin, resulting in polynitroxyl albumin (PNA). Thus, PNA may represent a novel antioxidative drug. The objectives of this study were to elucidate 1) whether PNA is able to diminish I/R injury; 2) the most effective dose of PNA in vivo; and 3) whether the addition of the nitroxide tempol enhances and/or prolongs the effect of PNA. Experiments were performed using a 4-h tourniquet-induced ischemia model in the hamster dorsal skinfold chamber. In the first part, five groups (n = 6) of animals received an infusion of 1) 1% body weight (b.w.) saline (0.9%); 2) 0.5% b.w. albumin (20%); 3) 0.5% b.w. PNA (20%); 4) 1% b.w. albumin (20%); and 5) 1% b.w. PNA (20%) 15 min prior to reperfusion. In the second part of the study, tempol (17 mg/mL) was added either to albumin or PNA (1:9), and 0.5% b.w. of this solution was infused (Group 6: tempol + albumin 0.5% b.w.; Group 7: tempol + PNA 0.5% b.w.). Intravital fluorescence microscopy allowed for quantification of functional capillary density (FCD), leukocyte adherence, extravasation of fluorescein isothiocyanate-labeled Dextran and non-viable (Propidium-positive) cell count prior to ischemia and 0.5 h, 2 h, and 24 h after reperfusion. PNA and--to a lesser extent albumin--effectively reduced postischemic microvascular perfusion failure, leukocyte adhesion, and tissue injury. PNA was most effective in the dose 1% b.w. Although free oxygen radical scavenging seems to be an underlying mechanism leading to the beneficial effects of PNA on I/R injury, hemodilution and known radical scavenging properties of pure albumin contribute in part to the observed effects. Although the combination of tempol and PNA revealed further short-term effects on microvascular perfusion and leukocyte adhesion, it did not result in a long-term improvement of tissue injury.
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PMID:Impact of polynitroxylated albumin (PNA) and tempol on ischemia/reperfusion injury: intravital microscopic study in the dorsal skinfold chamber of the Syrian golden hamster. 1094 61

Local delivery of angiogenic growth factors for the treatment of myocardial ischemia has been well documented in various animal models, and clinical trials are now in progress. Our strategy was radically different, based on selective protection of some of the growth factors naturally present within the injured tissue. This protection was obtained by applying a chemically defined substitute for Dextran called RGTA11 (for ReGeneraTing Agent). RGTA is a family of agents, which has properties mimicking those of heparan sulfates toward heparin-binding growth factors (HBGF) and which stimulate tissue repair and protection. Indeed, we have previously shown that RGTA prevents most of the damage resulting from acute skeletal muscle ischemia [FASEB J. (1999) 13, 761-766]. We now show that the same agent can be used for the treatment of myocardial infarction. Acute myocardial infarction was induced in pigs by ligation of the left circumflex artery. One hour later, a single injection of 10 mg of RGTA11 was made in the center of the infarcted area. Three weeks later we observed 1) recovery of 84% of the initial left ventricular ejection fraction (only 55% in saline-treated controls), 2) an almost 50% reduction in the infarct size, 3) a reduction in fibrotic tissue formation, 4) significant preservation of myocytes, and 5) an increase in the number of blood vessels. The treatment of ischemic heart disease with RGTA would have clear advantages over other therapies such as growth factor, gene, or cell transplants, based on a stable, simple, and easy-to-develop chemical product.
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PMID:New agents for the treatment of infarcted myocardium. 1102 2

The diameter of surface microvessels and the erythrocyte velocity and flux through intraparenchymal capillaries in the parietal cortex were measured during transient global cerebral ischemia and reperfusion using laser-scanning confocal fluorescence microscopy in anesthetized rats. The role of nitric oxide (NO) from neurons in the microcirculatory changes was also investigated using 7-nitro-indazole (7-NI, 25 mg/kg, i.p.). Wistar rats (4 per group) equipped with a closed cranial window were given fluorescein isothiocyanate (FITC)-Dextran and FITC-labeled erythrocytes intravenously to respectively visualize the microvessels and the erythrocytes in the capillaries. Experiments were videorecorded on-line. Forebrains were made ischemic for 15 minutes and then reperfused for 120 minutes under the microscope. Ischemia was associated with a flattened EEG, a low persistent blood flow, and a transient leakage of fluorescein across the arteriole wall. Unclamping the carotid arteries led to immediate high blood flow in the arterioles, but it was not until 5 minutes later that the arterioles dilated significantly (181% +/- 27%) and erythrocyte velocity in the capillaries increased significantly (460% +/- 263%). Neither nonperfused capillaries nor erythrocyte capillary recruitment occurred. 7-Nitro-indazole significantly reduced the arteriole dilatation and prevented the increase in erythrocyte velocity and flux through capillaries in early reperfusion. 7-Nitroindazole had no influence on the fluorescein leakage. The current study suggests a partial role for NO released from neurons in the postischemic microcirculatory changes and provides new findings on the timing of arteriole dilatation and blood-brain barrier opening, and on erythrocyte capillary circulation in global ischemia.
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PMID:Dynamic cerebral microcirculatory changes in transient forebrain ischemia in rats: involvement of type I nitric oxide synthase. 1112 81

We previously showed that pretreatment with a solution of ethyl pyruvate in a calcium-containing balanced salt solution, Ringer's ethyl pyruvate solution (REPS), ameliorates gut mucosal damage in rats subjected to mesenteric ischemia/reperfusion. Herein, we sought to test the hypothesis that REPS would be beneficial as a post-treatment (i.e., resuscitation fluid) for hemorrhagic shock. Anesthetized Sprague-Dawley rats were bled to a mean arterial pressure (MAP) of 40 mmHg until 40% of shed blood was returned. The animals then were resuscitated over 60 min with the remaining shed blood plus twice the shed blood volume as either Ringer's lactate solution (RLS) or REPS. In Experiment 1, RLS or REPS was then infused for 3 h more (or until death) at 3 mL/kg/h. Read-outs were post-resuscitation ileal mucosal permeability to fluorescein-labeled Dextran with an average molecular mass of 4000 Da (FD4) and survival. Permeability, determined just before death (MAP < 40 mmHg) or after 4 h of resuscitation, was assessed using an ex vivo everted gut sac technique and is expressed as a clearance (nL/cm/min). In Experiment 2, the read-outs were ileal FD4 permeability measured at 60 min after starting resuscitation and gut and liver malondialdehyde (MDA) formation. FD4 clearance data were logarithmically transformed prior to performing statistical analyses. In Experiment 1, 4/8 (50%) of RLS-treated rats survived 4 h after resuscitation whereas 7/7 (100%) of REPS-treated rats survived (P< 0.05). Ileal FD4 clearances were 105 +/- 30*, 85 +/- 34*, and 38 +/- 7 for all rats treated with RLS, surviving rats treated with RLS, and rats treated with REPS, respectively (the asterisk indicates P < 0.05 vs. REPS). In Experiment 2, ileal FD4 clearances were 71 +/- 13* and 34 +/- 8 for rats treated with RLS and REPS (n = 5 each), respectively. Post-resuscitation levels of MDA in the ileum and liver were significantly lower in rats treated with REPS as compared with RLS. Resuscitation with REPS, a stable and nontoxic antioxidant solution, improves survival and ameliorates ileal mucosal permeability in a rat model of severe hemorrhagic shock.
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PMID:Resuscitation from hemorrhagic shock with Ringer's ethyl pyruvate solution improves survival and ameliorates intestinal mucosal hyperpermeability in rats. 1206 83

Ischemia-reperfusion (I/R) has been shown to cause microvascular dysfunction and to alter the appearance of the glycocalyx in electron micrographs. We hypothesized that I/R injury might alter the structure and/or permeability of the glycocalyx. Prior work had shown a role for adenosine in protection from I/R injury, and, therefore, we also explored the idea that activation of the adenosine A(2A) receptor would attenuate I/R glycocalyx injury. Here, we report that I/R causes a rapid and dramatic decrease in the ability of the glycocalyx to exclude FITC-Dextran 70 (Dex70). Over a reperfusion period of 45 min, the glycocalyx dye exclusion zone for Dex70 decreased by one-half in capillaries and postcapillary venules, whereas the red blood cell exclusion zone was very slightly reduced in capillaries only. Pretreatment with the A(2A) agonist ATL-146e significantly inhibited the changes in both vessel types. The modifications of the glycocalyx appear to be an early step in the inflammatory cascade typically associated with reperfusion injury, and adenosine A(2A) receptor activation may play a role in protection from this injury.
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PMID:Rapid modification of the glycocalyx caused by ischemia-reperfusion is inhibited by adenosine A2A receptor activation. 1256 Feb 10

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