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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic headaches in a shunt-dependent patient with small ventricles has long been treated with little or no regard to intracranial pressure. In this study, pressure monitoring on 12 such patients demonstrated that they fell into three distinct categories: 3 had headaches caused by intracranial hypertension, 2 had headaches from hypotension, and 7 showed no relation of symptoms to pressure. As therapeutic procedures for treating these three categories are entirely different and sometimes opposing, it is clear that intracranial pressure monitoring is essential to successful management of this complaint.
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PMID:Chronic headache associated with a functioning shunt: usefulness of pressure monitoring. 199 84

Chronic headaches due to intracranial hypo- or hypertension (IHS codes 7.2 and 7.1) may be difficult to diagnose. In this article, we review their principal clinical characteristics, etiologies and therapies. Intracranial hypotension may be caused by CSF linkage, e.g. after lumbar puncture. It may also be "idiopathic" in which case a CSF leak, usually at the spinal level, may be difficult to demonstrate. Postural headache is the clinical hallmark of intracranial hypotension. The diagnosis is confirmed by leptomeningeal enhancement on MRI scans. The headache of benign intracranial hypertension may be aggravated by the supine position and accompanied by transient visual obscurations and tinnitus. Papillary edema supports the diagnosis but may be absent in some cases. Increased opening pressure of the CSF will confirm the diagnosis. Etiologies such as cerebral venous thrombosis, have to be excluded by adequate imaging methods. In both hypo- and hypertension syndromes, various therapeutic strategies have been proposed.
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PMID:[Benign intracranial hypo- and hypertension]. 1054 94

Chronic headaches, associated with papilledema and pulsatile tinnitus without any neuroradiologic, cytobiochemical or cerebrospinal fluid abnormalities are suggestive of idiopathic intracranial hypertension (IIH). However the absence of the papilledema does not rule out this diagnosis. The reason why some patients do not develop papilledema in IIH is ignored, however there are some hypotheses concerning the structure of the optical nerve. In this study we described two female patients that presented diagnosis of IIH with papilledema, with subsequent resolution of papilledema without the due resolution of intracranial hypertension. The long-term behavior of the optic nerve (ON) facing an increased intracranial pressure was evaluated through repeated measurements of the intracranial pressure. We concluded that the ON submitted to high intracranial pressure for a certain length of time can adapt itself with subsequent disappearance of the papilledema. The presence or not of papilledema in IIH can be related to the period in which the diagnosis is accomplished.
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PMID:Long-term evolution of papilledema in idiopathic intracranial hypertension: observations concerning two cases. 1213 49

A retrospective study was done in 66 children (0.21% of all admitted children) below the age of 18 years with persistent hypertension diagnosed at the Department of Pediatrics, Faculty of Medicine Siriraj Hospital from Jan 1999 to Dec 2003. Male to female ratio was 1.4:1 with 54.5% aged between 6-12 years old and 9.1% aged less than 1 year. Hypertension was found to be severe (BP more than the 99th percentile for age, sex and height) in 79.1% but most (78.6%) of the patients did not have symptoms related to hypertension. Chronic headaches were found in 10%, hypertensive encephalopathy in 8.6%, epistaxis in 1.4% and visual disturbance in 1.4%. The most common cause of hypertension was renal parenchymal diseases (62.7%) mainly lupus nephritis (26.9%), idiopathic nephrotic syndrome (16.4%) and chronic renal failure (16.4%). Other causes of hypertension included renovascular diseases (7.5%), drug-induced (7.5%), essential (7.5%), tumors (4.5%), coarctation of aorta (3.0%), bronchopulmonary dysplasia (3.0%), and pheochromocytoma (1.5%). Obesity and overweight (body mass index, BMI more than 25) was found in only 10 patients (15.1%). The proportion of children with BMI more than 25 was not different between essential and secondary hypertension (p = 0.15). Left ventricular hypertrophy was noted in 7.5%, hypertensive retinopathy in 3.0%, and hypertensive encephalopathy in 9.0%. One-third of the patients had normal BP within 1 month and another 47.0% had normal BP within 6 months of diagnosis. One-fifth of the patients also needed surgical intervention for specific underlying diseases. The authors suggest that since a large number of children with hypertension have secondary hypertension, intensive investigation and prompt management should be done in all. Obesity and overweight is not reliable in the differentiation between primary and secondary hypertension. Short term outcome of hypertension is good with medications and surgery in selected cases but long term outcome is still unknown.
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PMID:Persistent hypertension in Thai children: etiologies and outcome. 1704 51