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)

In this review the chemistry and formation of oxygen radicals is surveyed. Various physiological protective mechanisms against oxygen radicals as well as the consequence of too much or too little oxygen radicals in diseases is discussed. In this respect attention is given to hypoxia/ischemia, bronchopulmonary dysplasia, retrolental fibroplasia, thalassaemia, Down's syndrome and chronic granulomatous disease. Finally some new developments in pharmacotherapeutic possibilities which might play a role in prevention or amelioration of free radical pathologies are mentioned.
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PMID:[Oxygen radicals: rescue or threat?]. 255 29

A critical review of the literature of retrolental fibroplasia indicates that the cause of this disease is not yet known. Oxygen is certainly a critical factor but it is still not possible to make precise recommendations as to the amount or the duration of therapy that is safe. We have overemphasized the role of oxygen in the past, and as a result of this the false impression has been created that RLF is a disease that can be prevented. This gross oversimplification of a complex disease with multiple causes has resulted in many unjustified malpractice claims. A study of the present epidemic indicates that excessive oxygen administration probably plays a minor role, in contrast to the first epidemic in which prolonged oxygen administration was clearly a major factor. A reasonable working hypothesis is that the developing retina is highly sensitive to any disturbance in its oxygen supply, either hyperoxemic or hypoxemic. The retinal circulation is subject to the same wide fluctuations as the cerebral circulation in newborn infants. The very low-birth-weight, sick premature infant suffers from a number of conditions, many of which can seriously disturb the retinal circulation, resulting in hypoperfusion and ischemia. These factors (immaturity, hyperoxia, hypoxia, blood transfusions, intraventricular hemorrhage, apnea, infection, hypercarbia, hypocarbia, patent ductus arteriosus, prostaglandin synthetase inhibitors, vitamin E deficiency, lactic acidosis, prenatal complications, genetic factors) may all be present in an infant. They may interact to produce various degrees of retinal damage. Nearly all of these factors cannot be prevented or controlled by our present methods of care. Unfortunately, this means that RLF is an extremely difficult disease to prevent, treat, or investigate. A disease of this complexity with multiple causes will require very large numbers of infants in any controlled study of a therapy. Retrolental fibroplasia should not be considered an avoidable iatrogenic disease in very low-birth-weight infants. Its cause in these infants is not known.
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PMID:A reexamination of the role of oxygen in retrolental fibroplasia. 641 99

The majority of severe visual loss in the United States results from complications associated with retinal neovascularization in patients with ischemic ocular diseases such as diabetic retinopathy, retinal vein occlusion, and retinopathy of prematurity. Intraocular expression of the angiogenic protein vascular endothelial growth factor (VEGF) is closely correlated with neovascularization in these human disorders and with ischemia-induced retinal neovascularization in mice. In this study, we evaluated whether in vivo inhibition of VEGF action could suppress retinal neovascularization in a murine model of ischemic retinopathy. VEGF-neutralizing chimeric proteins were constructed by joining the extracellular domain of either human (Flt) or mouse (Flk) high-affinity VEGF receptors with IgG. Control chimeric proteins that did not bind VEGF were also used. VEGF-receptor chimeric proteins eliminated in vitro retinal endothelial cell growth stimulation by either VEGF (P < 0.006) or hypoxic conditioned medium (P < 0.005) without affecting growth under nonstimulated conditions. Control proteins had no effect. To assess in vivo response, animals with bilateral retinal ischemia received intravitreal injections of VEGF antagonist in one eye and control protein in the contralateral eye. Retinal neovascularization was quantitated histologically by a masked protocol. Retinal neovascularization in the eye injected with human Flt or murine Flk chimeric protein was reduced in 100% (25/25; P < 0.0001) and 95% (21/22; P < 0.0001) 0.0001) of animals, respectively, compared to the control treated eye. This response was evident after only a single intravitreal injection and was dose dependent with suppression of neovascularization noted after total delivery of 200 ng of protein (P < 0.002). Reduction of histologically evident neovascular nuclei per 6-microns section averaged 47% +/- 4% (P < 0.001) and 37% +/- 2% (P < 0.001) for Flt and Flk chimeric proteins with maximal inhibitory effects of 77% and 66%, respectively. No retinal toxicity was observed by light microscopy. These data demonstrate VEGF's causal role in retinal angiogenesis and prove the potential of VEGF inhibition as a specific therapy for ischemic retinal disease.
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PMID:Suppression of retinal neovascularization in vivo by inhibition of vascular endothelial growth factor (VEGF) using soluble VEGF-receptor chimeric proteins. 747 19

A female infant had erythematous vesicular skin lesions over the whole body and extremities in the early infancy. These skin lesions then changed to hyperpigmentation in whorls and splashes. Seizure attack was noted at one month old. Skin biopsy showed dyskeratosis, acanthosis, pigmenti incontinence, and massive infiltration of eosinophils. So Incontinentia pigmenti was confirmed. She also had hallmarks of retinal involvement, including peripheral retinal ischemia and neovascularization, which were similar to those seen in retinopathy of prematurity. Cryopexy was performed in her left eye and the lesions regressed.
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PMID:Retinopathy in incontinentia pigmenti: a neonatal case report. 761 73

1. SEOPF centers historically have shared kidneys at a higher rate than the rest of the United States. 2. SEOPF centers transplanted better-matched kidneys than the rest of the nation despite transplanting a significantly larger percentage of "hard-to-match" black recipients. 3. Within SEOPF centers, a shared kidney was almost twice as likely to be a good match (zero-3 HLA antigen mismatches) as was a local kidney. 4. Within SEOPF centers, well-matched kidneys (zero-3 HLA antigen mismatches) had significantly better graft survival than did poorly-matched (4-6 HLA antigen mismatches) kidneys. 5. SEOPF centers had one-, 2- and 3-year graft survival rates comparable to those of the rest of the nation. 6. SEOPF centers have proven the efficiency of ROP trays in predicting final crossmatch results for shared kidneys. 7. The SEOPF High Grade Match (HGM) algorithm has been successful in transplanting highly sensitized (current PRA > 40%) recipients. 8. The use of ROP trays in well-matched, highly sensitized recipients resulted in improved kidney availability. 9. Graft survival of HGM recipients was comparable to that of non-HGM recipients. 10. Despite longer cold ischemia times for HGM kidneys, there was no increased incidence of delayed graft function in these kidneys. 11. The HGM program accounted for 8.1% of the participating centers' activity and, thus, has not adversely impacted the majority of the centers' other patients. 12. The one- and 2-year graft survival data for HGM transplants were in accordance with the expected rates and were not statistically different from those of non-HGM transplants.
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PMID:Kidney sharing by centers of the South-Eastern Organ Procurement Foundation. 928 62

ROP trays containing patient serum samples and distributed by the South-Eastern Organ Procurement Foundation (SEOPF) were instituted to increase the likelihood of transplanting potential renal recipients who are highly sensitized to HLA antigens. This study examines kidney distribution and transplant outcome to assess equitable placement and clinical function post transplant with and without the use of ROP trays. Data were collected over a 26-month period on the distribution of kidneys from 328 consecutive SEOPF donors from whom at least 1 kidney was procured. Shared kidneys were placed via the UNOS and SEOPF-variance computer match programs. Of 656 kidneys, 596 were placed into 582 recipients; 60 were not used. ROP trays were used in placement of 492 kidneys and were not used for placement of 104 kidneys. Outcome was determined for 435 kidneys transplanted into SEOPF recipients. Only 33 (6.9%) recipients with ROP tray use and 10 (9.8%) without were sensitized to HLA. A 10% increase in placement to the originally intended recipient was seen with ROP tray usage over kidneys placed without ROP tray use (p < or = 0.025). Recipients matched using ROP tray data averaged 29 positions higher on the match printout. There was no difference in tray use regarding placement of kidneys within or outside the donor's local UNOS region, nor was there a difference in mean HLA match of transplant pairs with and without ROP tray use, 3.2 and 3.1 antigens, respectively. Cold ischemia time was similar, 22.9 and 23.6 h, respectively, for kidneys placed with and without ROP trays. At post-transplant discharge, there were no differences in patient status, graft failure, rejection treatment, dialysis need, or urine output whether or not ROP trays were used. Significantly, however, plasma creatinine at discharge and at 12 months was lower for those placed with ROP trays (2.5 mg/dl and 1.7 mg/dl) vs (3.1 mg/dl and 1.9 mg/dl), respectively. During this time period, all kidneys transplanted with use of ROP trays functioned as well or better than those transplanted without ROP tray placement. Thus, the use of ROP trays appeared to have a beneficial effect in getting more recipients of higher priority transplanted with equivalent, if not better, graft function.
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PMID:Regional organ procurement (ROP) trays in renal allograft distribution and outcome. 936 47

The choroid is the main source of oxygen to the retina. In contrast to the adult, the absence of autoregulation of choroidal blood flow in the newborn leads to hyperoxygenation of the retina. In the immature retina which contains relatively low levels of antioxidants this hyperoxygenation favors peroxidation including the generation of biologically active isoprostanes, and results in vasoconstriction and vascular cytotoxicity leading to ischemia, which predisposes to the development of a vasoproliferative retinopathy, commonly termed retinopathy of prematurity. During frequently encountered oxidative stress to the perinate, the combined absence of vascular autoregulation and excessive oxygen delivery to the eyes of the developing subject is largely the result of a complex epigenetic and genetic interplay between prostanoids and nitric oxide (NO) systems on vasomotor regulation. The effects of certain prostaglandins are NO-dependent; conversely, those of NO have also been found to be largely prostaglandin I(2)-mediated in the eye; and NO synthase expression seems to be significantly regulated by other prostaglandins apparently through activation of functional perinuclear prostanoid receptors which affect gene transcription. The increased production of both prostaglandins and NO in the perinate augment ocular blood flow and as a result oxygen delivery to an immature retina partly devoid of antioxidant defenses. The ensuing peroxidation results in impaired circulation (partly thromboxane A(2)-dependent) and vascular integrity, leading to ischemia which predisposes to abnormal preretinal neovascularization, a major feature of ischemic retinopathy. Because tissue oxygenation is largely dependent upon circulation and critical in the generation of reactive oxygen species, and since the latter exert a major contribution in the pathogenesis of retinopathy of prematurity, it is important to understand the mechanisms that govern ocular blood flow. In this review we focus on the important and complex interaction between prostanoid, NO and peroxidation products on circulatory control of the immature retina.
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PMID:Oxidants, nitric oxide and prostanoids in the developing ocular vasculature: a basis for ischemic retinopathy. 1096 22

Aberrant blood vessel growth in the retina that underlies the pathology of proliferative diabetic retinopathy and retinopathy of prematurity is the result of the ischemia-driven disruption of the normally antiangiogenic environment of the retina. In this study, we show that a potent inhibitor of angiogenesis found naturally in the normal eye, pigment epithelium-derived growth factor (PEDF), inhibits such aberrant blood vessel growth in a murine model of ischemia-induced retinopathy. Inhibition was proportional to dose and systemic delivery of recombinant protein at daily doses as low as 2.2 mg/kg could prevent aberrant endothelial cells from crossing the inner limiting membrane. PEDF appeared to inhibit angiogenesis by causing apoptosis of activated endothelial cells, because it induced apoptosis in cultured endothelial cells and an 8-fold increase in apoptotic endothelial cells could be detected in situ when the ischemic retinas of PEDF-treated animals were compared with vehicle-treated controls. The ability of low doses of PEDF to curtail aberrant growth of ocular endothelial cells without overt harm to retinal morphology suggests that this natural protein may be beneficial in the treatment of a variety of retinal vasculopathies.
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PMID:Prevention of ischemia-induced retinopathy by the natural ocular antiangiogenic agent pigment epithelium-derived factor. 1122 1

Neovascularization characterizes diabetic retinopathy and choroidal neovascularization associated with age-related macular degeneration, the most common causes of severe visual loss in the developed world. Gene transfer to the eye using adeno-associated viral (AAV) vectors is a promising new treatment for inherited and acquired ocular diseases. We used an AAV vector with rapid onset and high levels of gene expression in the retina to deliver three anti-angiogenic factors (pigment epithelium-derived factor, tissue inhibitor of metalloproteinase-3, and endostatin) to the eyes of mice in a mouse model of retinopathy of prematurity. All three vectors inhibited ischemia-induced neovascularization.
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PMID:Inhibition of retinal neovascularization by intraocular viral-mediated delivery of anti-angiogenic agents. 1237 90

Adenosine is a ubiquitous molecule that is produced predominantly by catabolism of adenosine triphosphate. Levels of this nucleoside increase dramatically with ischemia and elevated tissue activity. Adenosine levels are high in inner retina during retinal vascular development in postnatal dog. The source appears to be the ectoenzyme 5' nucleotidase, which is prominent at this time in the innermost process of Muller cells. One of the adenosine receptors, A(2A), is present on endothelial cell precursors, angioblasts, and endothelial cells in formed blood vessels in neonatal dog. These observations suggest that adenosine is important in retinal vascular development. Oxygen-induced retinopathy (OIR) is a model for human retinopathy of prematurity (ROP). The initial event in OIR is induced by exposure of the developing retina to high oxygen. Vascular development is halted and over 60% of the retinal vasculature is lost during this stage of the disease in dog, which is called vaso-obliteration. 5' nucleotidase is dramatically reduced during vaso-obliteration, resulting in a sharp decline in adenosine. When animals are returned to room air, the retina is hypoxic because of the lack of blood vessels, oxygen consumption is increased due to neuronal development, and systemic levels of oxygen have returned to normal. At this time, 5' nucleotidase activity and adenosine levels are elevated well beyond normal levels. This stage of OIR is the vasoproliferative stage and A(2A) expression and endothelial cell proliferation are very elevated compared to control animals. Florid preretinal neovascularization forms, which has high levels of adenosine and A(2A) receptors. Therefore, adenosine and its A(2A) receptor appear to be important in canine OIR. This work suggests that adenosine and its receptors may be a therapeutic target in OIR. This hypothesis is supported by recent studies in mouse (Mino et al., Invest. Ophthalmol. Vis. Sci. 42(13) (2001) 3320), which demonstrated that targeting one of the A(2) receptors can inhibit formation of neovascularization in OIR.
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PMID:Retinal vascular development and oxygen-induced retinopathy: a role for adenosine. 1259 25

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