Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

In the first stage of labor, pain is caused by distension of the cervix and low uterine segments in combination with isometric contraction of the uterus. Pain in the second stage of labor is dominated by tissue damage in the pelvis and perineum. Labor pain is due to an activation of nociceptors partly resulting from ischemia. The impulses thus generated are conducted into the spinal cord by afferent C fibers from the cervix and lower uterine segments, and by afferent Adelta and C fibers from the pelvis, pelvic organs and perineum. Labor pain is referred to the dermatomes T(11) and T(12) in the early stage of labor. It spreads to the neighboring dermatomes T(10) and L(1) and eventually involves the dermatomes S(2-4) during the second stage of labor and delivery. As in any other type of pain, labor pain stimulates respiration. This reduces the CO(2) concentration in the blood so that, in pain-free periods, respiratory stimulation is lacking and, in consequence, oxygen concentration in maternal and fetal blood is lowered. Pain-induced sympathetic activation will increase cardiac output in a way that may be deleterious in parturients with heart disease, eclampsia and anemia. Moreover, slowing of gastric emptying may cause nausea and vomiting, and slowing of intestinal propulsive movements may result in ileus and oliguria. An increase in plasma catecholamines and glucocorticoids influences uterine contractions. The amount of beta-endorphin released from the pituitary and placenta into the blood is relatively high but obviously not sufficient to depress pain effectively. Adequate nerve block and epidural anesthesia, as well as measures to relieve anxiety, will help markedly to reduce the risks associated with labor pain.
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PMID:[Labor pain-causes, pathways and issues.]. 1841 27

Preeclampsia occurs in 3-14% of pregnancies and is defined by maternal hypertension with proteinurea, generally associated with edema, coagulation abnormalities, and disseminated intravascular coagulation. The conditions can lead to eclampsia, characterized by hyperreflexia and convulsions. Several organs are afflicted by the condition, most importantly the liver and kidneys. The direct cause of preeclampsia is unknown, but the initial events are linked to abnormalities of placentation. This implies abnormalities in trophoblast invasion and in physiological alterations of placental vessels required for adequate perfusion of the placenta, which leads to ischemia. The mechanisms that link the ischemic placenta to endothelial lesions and to stimulation of vasoconstrictors and inhibition of vasodilators are still subject of speculation. The only treatment of preeclampsia is delivery. Lowering of blood pressure and prevention of eclampsia with magnesium sulfate is indicated in severe preeclampsia. Despite numerous studies attempting to elucidate the exact etiopathogenesis of this complex multifactorial disease, prediction or prevention methods of preeclampsia are not available.
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PMID:Preeclampsia: a danger growing in disguise. 1849 5

Eclampsia is characterized by generalized convulsions in pregnant women with hypertension and proteinuria. Little is known about what triggers the convulsions in this syndrome. The prevailing view is that convulsions are caused by cerebral vasospasm and cerebral edema. However, many important clinical findings argue against cerebral edema or hypertensive encephalopathy as the sole causes of convulsions in eclampsia. The utero-placental ischemia causes the release of certain molecules such as neurokinin B, inflammatory cytokines, endothelins, and tissue plasminogen activator. These molecules stimulate excitatory neuronal receptors and alter neuronal excitability, synaptic transmission, and neuronal survival independent of any vascular effects. Highlighting the neuromodulatory and the convulsive effects of each of these molecules which are elevated in pre-eclampsia, offers a new perspective on the mechanisms of convulsions in eclampsia.
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PMID:Mechanisms of convulsions in eclampsia. 1884 Mar 93

We report the clinical-radiological case of a 25 year-old female patient who developed reversible posterior leukoencephalopathy syndrome (RPLS) in the postpartum period, without evidence of preeclampsia-eclampsia or chronic arterial hypertension. RPLS is associated with diverse clinical entities including eclampsia. Ten days after giving birth, the patient presented with clinical symptoms of headache, elevated blood pressure and seizures. Reversible vasogenic oedema affecting the white matter in the posterior regions was the characteristic finding in magnetic resonance imaging (MRI) of the brain. Although the prognosis is favourable, treatment needs to be early and aggressive, with rapid control of the convulsions and arterial hypertension, with the aim of preventing ischemia and cerebral infarct from developing. There is a need to be highly alert and to consider the diagnosis of RPLS in women presenting with convulsions and other neurological symptoms in postpartum.
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PMID:[Posterior reversible leukoencephalopathy in a patient with postpartum eclampsia]. 1884 28

Crucial roles of the placenta are disrupted in early and mid-trimester pregnancy loss, preeclampsia, eclampsia and intrauterine growth restriction. The pathophysiology of these disorders includes a relative hypoxia of the placenta, ischemia/reperfusion injury, an inflammatory response and oxidative stress. Reactive oxygen species including nitric oxide (NO), carbon monoxide and superoxide have been shown to participate in trophoblast invasion, regulation of placental vascular reactivity and other events. Superoxide, which regulates expression of redox sensitive genes, has been implicated in up-regulation of transcription factors, antioxidant production, angiogenesis, proliferation and matrix remodeling. When superoxide and nitric oxide are present in abundance, their interaction yields peroxynitrite a potent pro-oxidant, but also alters levels of nitric oxide, which in turn affect physiological functions. The peroxynitrite anion is extremely unstable thus evidence of its formation in vivo has been indirect via the occurrence of nitrated moieties including nitrated lipids and nitrotyrosine residues in proteins. Formation of 3-nitrotyrosine (protein nitration) is a "molecular fingerprint" of peroxynitrite formation. Protein nitration has been widely reported in a number of pathological states associated with inflammation but is reported to occur in normal physiology and is thought of as a prevalent, functionally relevant post-translational modification of proteins. Nitration of proteins can give either no effect, a gain or a loss of function. Nitration of a range of placental proteins is found in normal pregnancy but increased in pathologic pregnancies. Evidence is presented for nitration of placental signal transduction enzymes and transporters. The targets and extent of nitration of enzymes, receptors, transporters and structural proteins may markedly influence placental cellular function in both physiologic and pathologic settings.
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PMID:Protein nitration in placenta - functional significance. 1885 82

Pre-eclampsia is a pregnancy-associated disease of the second part of the pregnancy, occurring mainly after 20th weeks gestation. The prevalence of hypertension in pregnancy is between 5 to 11% and affects mainly women under 20 years of age. An inadequate invasion of trophoblasts with consequential placental ischemia as a result of insufficiently dilated uterine spiral arteries is thought to be an initial cause in the pathogenesis of pre-eclampsia. The clinical symptoms of pre-eclampsia, such as loss of intravascular volume and edema, are caused by generalized endothelial dysfunction. These symptoms are potentiated by hypertension and reduced colloid osmotic pressure in the plama. The organs being affected by pre-eclampsia are those of the vascular-, hepatic-, renal-, cerebral- and coagulatory systems. The prognosis is much more severe when pre-eclampsia develops very early in the pregnancy. The symptoms include elevated blood pressure (over 140 mmHg systolic, 90 mmHg diastolic) combined with proteinuria. Frequent symptoms are hyperreflexia and edema. The etiology of pre-eclampsia has not been clearly defined. Risk factors/triggers for the development of pre-eclampsia can include chronic hypertension, advanced maternal age at first pregnancy (over 35 y), nephropathy, thrombophilia (heterozygous factor V Leiden mutation, antiphospholipid syndrome, heterozygous prothrombin mutation and homozygous MTHFR), multiple gestation and prior pregnancy with preeclampsia. The incidence of preeclampsia is higher in nulliparous than multiparous women. In many countries pre-eclampsia is still most frequent cause of maternal perinatal mortality. HELLP-Syndrome (haemolysis-elevated liver enzyme- low platelets) is a severe progressive course of this disease. Eclampsia, characterized by generalized tonic-clonic convulsion, is the most dangerous complication of pre-eclampsia, and may develop before or after delivery. This form of pre-eclampsia is associated with higher maternal and fetal mortality. Constant maternal hypertension potentially alter vascular integrity of the placenta with further consequences in fetal blood supply leading to growth restriction or zero growth and subsequently resulting in low birth weight or fetal death. The sooner the disease is detected and confirmed, the better the maternal and fetal prognoses are. This is the reason why it is major importance, together with the employment of preventive measures, to identify patients with risk factors with pre-eclampsia though an adequate screening method, thereby detecting the disease earlier and ensuring better pregnancy outcomes for both mother and child.
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PMID:[Pre-eclampsia screening in first and second trimester]. 1897 29

In tropical countries, malaria and hypertension are common diseases of pregnancy. They have physiopathologic similarities such as placental ischemia, endothelial dysfunction, and production of proinflammatory cytokines. Recent findings suggested their possible link. The authors conducted a case-control study to explore the relation between malaria and hypertension at Guediawaye, a hypoendemic malarial setting in Senegal. Cases were pregnant women admitted to the delivery unit for hypertension. Controls were pregnant women admitted for normal delivery, without any history of hypertension or proteinuria during the present pregnancy. Malarial infection was determined by placental tissue examination. From January to December 2002, 77 cases of gestational hypertension, 113 cases of preeclampsia, 59 cases of eclampsia, and 241 controls were enrolled. Placental malarial infection (PMI) was present in 14 cases (6.3%) and in 15 controls (6.2%). The prevalence of PMI was 4.6% for eclampsia, 4.0% for preeclampsia, and 11.6% for gestational hypertension. In multivariate analysis, PMI appeared to be an independent risk factor for gestational hypertension (adjusted odds ratio = 2.7, 95% confidence interval: 1.0, 7.6). The authors found an association between PMI and nonproteinuric hypertension in women living in a malaria-hypoendemic area. The exact significance of such relation should be clarified in further studies in different settings of malarial endemicity.
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PMID:Placental malarial infection as a risk factor for hypertensive disorders during pregnancy in Africa: a case-control study in an urban area of Senegal, West Africa. 1967 49

Constriction of the aorta just above the origin of both main renal arteries invariably resulted in elevation of the carotid systolic and carotid mean pressure. The hypertension was not immediate, but developed in about the same time as after constriction of the main renal arteries (3). Constriction of the aorta just below the origin of both main renal arteries had no significant effect on the carotid systolic or carotid mean pressure. Since these results were first reported (1), Rytand (88, 89) has shown by an indirect method, namely, the demonstration of the development of cardiac hypertrophy, that hypertension in the upper part of the body can be produced in the rat by constriction of the aorta just above the origin of both main renal arteries. The immediate effect of constriction of the aorta either below or above the main renal arteries is a fall of blood pressure (femoral mean pressure) below the site of the clamp, the extent of the fall being directly dependent upon the degree of constriction of the aorta. Of particular interest is the eventual elevation of the femoral mean pressure above the normal in some animals with the aorta constricted or even occluded above the origin of the main renal arteries. This was most pronounced and persistent in those animals in which, in addition, the aorta below the origin of the renal arteries, and, in some animals, the main renal arteries, also were constricted. The most important factors which determined this elevation of blood pressure in the lower part of the body were probably increased flow of blood into the vascular bed below the clamp and peripheral vasoconstriction of renal and humoral origin, as in the case of the hypertension produced by constriction of the main renal arteries alone (2-86). Although elevation of the carotid systolic or carotid mean pressure occurred invariably within 24 to 48 hours after the constriction of the aorta above the site of origin of both main renal arteries, yet there was a tendency, after a variable period, for the elevated blood pressure to become lower or even to drop to the original level. Increased constriction, and finally occlusion of the aorta, above the origin of the main renal arteries, and even constriction or occlusion of the aorta below the renal arteries, in addition, failed to induce hypertension that persisted for a long time at a high level. In order to produce this effect, it was necessary to constrict the main renal arteries as well. The possible explanation of the failure of the hypertension to persist for a long time after constriction of the aorta alone, is that the initial ischemia of the kidneys disappeared due to the improvement of the blood flow through the kidneys as a result of (a) the increase of the natural accessory circulation to the kidneys; (b) the increased blood pressure above the site of the clamp and consequent increased flow of blood into the part of the aorta below the clamp; (c) increased pressure below the site of the clamp due, in great part, to peripheral vasoconstriction, and in part to the increased inflow of blood into the lower part of the body through the aorta and collateral channels. For the dog, this method is not necessary for the production of persistent hypertension. Constriction of the main renal arteries is easily performed and is effective for the production of generalized hypertension (2-11). However, constriction of the aorta in addition to constriction of the renal arteries results in greatly elevated persistent hypertension. Constriction of the aorta alone above the origin of the main renal arteries would be useful in the dog only for the production of relatively short periods of hypertension in the upper part of the body. For small animals it may be a more effective and useful method. In the dog, the only technical difficulty encountered was the erosion of the wall of the aorta by the clamp. This may not occur in small animals. In previous studies (2-11) that have dealt with the constriction of the main renal arteries, this accident rarely occurred. When the constriction of the aorta above the origin of the main renal arteries was of moderate degree, or was gradually made very great, the resultant hypertension was not accompanied by impairment of renal excretory function, as determined by urea clearance or by the quantity of urea, creatinine or non-protein nitrogen in the blood, the benign phase of hypertension (3). When the constriction of the aorta was suddenly made very great, impairment of the renal excretory function usually followed, and the animal developed fatal convulsive uremia and characteristic vascular lesions, the malignant phase of hypertension (9). These facts, are all indicative of the renal origin of the hypertension which results from the constriction of the aorta just above the origin of both main renal arteries. Hypertension did not persist for a sufficiently long time to permit any conclusive comparison between the effect of the high and low pressures on the structure of the vascular system, above and below the site of the clamp, respectively. During the period of survival of these animals, no significant differences were observed between the appearance of the vascular system of the upper part of the body and that of the lower part of the body, and significant cardiac hypertrophy did not develop. In the aorta and large arteries, intimal arteriosclerosis was not observed. In the aorta of one old animal several small plaques of calcification were found in the media, but these were present in the portion of the aorta below, as well as above the clamp, and they were no larger or more abundant than were observed in some old dogs with normal blood pressure. Dogs 3-50 and 3-83, that are still alive, with very high blood pressure above the site of the aortic clamps, and relatively low pressure (though greater than normal) below the site of the aortic clamps, will be valuable for the determination of possible differences between the effects of the two levels of blood pressure in the large and small blood vessels. In these dogs also, it will be possible to determine the effect of the persistently high blood pressure on the myocardium. The possible application of the results of this study to the problem of the pathogenesis of human eclampsia is mentioned here for consideration. Since this condition occurs in pregnancy only at a time when the uterus is greatly enlarged, it is at least possible that the mass may press on the aorta or both main renal arteries sufficiently to produce renal ischemia. The suddenness with which the uremic convulsive phase of eclampsia develops is in keeping with this idea. In the dog, an aggravating effect of pregnancy on an already established hypertension has not been noted. As a matter of fact, most of the hypertensive dogs that have become pregnant, have shown a slight or moderate fall, rather than an increased rise of pressure. Since the dog stands with the body in a horizontal position, and does not lie on its back, pressure of the pregnant uterus on the aorta and blood vessels is less than in human beings who stand erect and frequently lie on their backs. The soundness of this suggestion could be tested by placing pregnant women, in the early stage of eclampsia, in a position which could relieve possible pressure on the aorta and main renal arteries. A possible explanation of the fall of pressure in the pregnant hypertensive dogs is the compensatory effect of the normal kidneys of the pups, as in the case of an animal with one main renal artery constricted and the other kidney normal. As has been shown (3, 31, 72), the presence of one normal kidney in an animal hypertensive due to constriction of the other main renal artery, results, after a variable period, in a return of the blood pressure to normal. How the normal kidney acts to produce this effect is not known.
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PMID:STUDIES ON EXPERIMENTAL HYPERTENSION : IX. THE EFFECT ON BLOOD PRESSURE OF CONSTRICTION OF THE ABDOMINAL AORTA ABOVE AND BELOW THE SITE OF ORIGIN OF BOTH MAIN RENAL ARTERIES. 1987 Aug 69

We report the case of a young patient with 36 weeks pregnancy, and an acute respiratory infection with severe bronchospasm, who developed an occipital headache and neck pain on the third day of inadvertent dural puncture during placement of combined epidural spinal anaesthesia for caesarian section. It was diagnosed as post-dural puncture headache until generalised tonic clonic seizures occurred the next day raising the suspicion of postpartum eclampsia or meningitis. Posterior reversible encephalopathy syndrome was diagnosed on MRI of the brain which showed features of reversible ischemia in the posterior region of the brain. With anticonvulsant therapy and antibiotics there was complete resolution of neurological symptoms. We highlight the importance of high index of suspicion of this reversible encephalopathy in obstetric cases with intentional or inadvertent dural puncture, with headache similar to post-dural punctural headache, and the essential role of neuroradiology in confirmation of the diagnosis, as placement of an epidural blood patch would be highly detrimental in these cases.
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PMID:Post-dural puncture posterior reversible encephalopathy syndrome. 2127 84

Posterior reversible encephalopathy syndrome (PRES) is a clinical syndrome of encephalopathy, headache, visual disturbance, and seizures. In most cases, symptoms present acutely or subacutely in the setting of accelerated hypertension, eclampsia, autoimmune disease, immunosuppressive treatment, or cancer chemotherapy. One essential feature of PRES is the presence of reversible cerebral vasogenic edema that has a predominantly posterior distribution on brain imaging. Atypical imaging features are commonly described, including involvement of the anterior brain or brainstem and the coexistence of ischemia or hemorrhage. In most cases, both clinical and radiological findings are reversible, although permanent imaging abnormalities and residual neurological sequelae can be seen in a minority of patients. The syndrome is thought to be caused by a breakdown of the blood-brain barrier and an extravasation of the intravascular fluid. Treatment of hypertension and seizures, and withdrawal of causative agents are the mainstays of therapy in PRES.
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PMID:Posterior reversible encephalopathy syndrome: clinicoradiological spectrum and therapeutic strategies. 2240 96


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