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:C0018681 (headache)
56,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Blood brain barrier disruption enhances drug delivery in primary central nervous system lymphoma. In this study, we report adverse events that were encountered intraoperatively and in the postoperative period in these patients. A retrospective analysis of 17 patients documenting demographic data, preprocedure medical history, intraoperative, and postoperative anesthetic complications was conducted between January 2002 and December 2004. Seventeen patients underwent 210 treatments under general anesthesia with a mean of 12.4+/-7.2 treatments per patient. Focal seizures occurred in 13% of patients. Generalized motor seizures occurred in 4 treatment sessions in 2 different patients. The incidence of seizures was significantly higher when the internal carotid artery was used for injection, as opposed to the vertebral artery (20.8% and 6.02%, respectively, P=0.0034). Tachycardia associated with ST segment depression occurred 9 times (4.3%) in 3 patients. One patient had significant ST segment elevation (more than 1.5 mm). Transient cerebral vasospasm after methotrexate injection occurred in 9% of patients. Postoperative nausea and vomiting were observed in 11.9% of patients. After emergence, lethargy and obtundation occurred in 7.6% of the cases. The incidence of postoperative headache and reversible motor deficits was 6% and 3.8%, respectively. Our review highlights the problems that were encountered during blood brain barrier disruption under anesthesia and in the postoperative period. Further prospective studies are required for comprehensive evaluation of intraprocedure and postprocedure complications that will allow development of an optimal anesthetic plan and will improve patient outcome by preventing potential complications.
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PMID:Perioperative complications of blood brain barrier disruption under general anesthesia: a retrospective review. 1815 25

Aneurysmal subarachnoid hemorrhage (SAH) is a neurologic emergency and often a neurologic catastrophe. Nontraumatic subarachnoid hemorrhage is characterized by the extravasation of blood into the spaces covering the central nervous system. The leading cause of SAH is rupture of an intracranial aneurysm, which accounts for about 80-85% of cases. Mortality and morbidity can be reduced if SAH is treated urgently. Sudden, explosive headache is a cardinal but nonspecific feature in the diagnosis of SAH; computered tomography (CT) scanning is mandatory in all the patients with symp toms that are suggestive of SAH. Catheter angiography for detecting aneurysms is gradually being replaced by CT angiography. Diagnosing SAH can be challenging and treatment is complex, sophisticated and multidisciplinary. Reble eding is the most imminent danger, which must be prevented by endovascular occlusion with detachable coils (coiling) or by surgical clipping of the aneurysm; the risk of delayed cerebral ischemia is reduced with nimodipine and avoiding hypovolemia; hydrocephalus can be treated by ventricular drainage. Intensive care plays a more important role in the management of SAH than in any other neurological disorder. Excellence in neurologic diagnosis, in operative neurosurgery or neuroradiologic procedures must be accompanied by excellence in Intensive Care. This review emphasizes treatment in the Intensive Care Unit, surgical and endovascular therapeutic options and the current state of treatment of major complications such as rebleeding, cerebral vasospasm and acute hydrocephalus.
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PMID:[General management in intensive care of patient with spontaneous subarachnoid hemorrhage]. 1884 26

Transcranial Doppler (TCD) enables indirect assessment of cerebral circulation by measurement of cerebral blood flow velocity. Stenosis and occlusion of cerebral vessels or cerebral vasospasm can be detected with this non-invasive method. Moreover, changes in cerebral blood flow velocity in response to hypercapnia or hypocapnia, exercise, temperature, orthostatic stress, visual and intellectual stimulation can be recorded and vasoreactivity or autoregulation mechanisms assessed. Migraine is considered to be a vasomotor disorder; its pathogenesis, however, is complex and requires further studies. TCD may help to detect mechanisms leading to migraine attack as well as during the attack and help to understand its pathophysiology. In this paper, the results of TCD examination in migraine patients in headache-free periods and during the attacks, in basal condition and during different stimulations, are presented. The influence of triptans on cerebral circulation is also described. Additionally, the role of TCD in diagnosis of patent foramen ovale in migraineurs is discussed.
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PMID:Transcranial Doppler evaluation in migraineurs. 1948 94

The most characteristic symptom of an aneurysmal subarachnoid haemorrhage (aSAH) is a sudden onset of severe headache, which can be accompanied by meningism, impaired consciousness, and vegetative symptoms. A cerebral CT scan is the initial diagnostic tool of choice if aSAH is suspected. The localisation and morphology of the aneurysm is depicted in a CT-angiography and/or conventional panangiography. Until definitive exclusion of the aneurysm by either microsurgical clipping or endovascular coiling, rebleeding should be avoided implicitly. The postoperative phase, especially in patients with severe aSAH is embossed with the occurrence of disease-specific complications (cerebral vasospasm, intracranial hypertension, seizure disorder, hydrocephalus) and consecutively increased risk for secondary brain injury. Furthermore, many patients present systemic complications such as electrolyte disturbances and cardiac dysfunctions. Early identification and therapy of cerebral and systemic complications are very important in order improve functional outcome.
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PMID:[Aneurysmal subarachonid haemorrhage]. 2053 31

We report a case of reversible cerebral vasoconstriction, possibly secondary to the use of indomethacin to relieve pain during a migraine with aura attack. Non-steroidal anti-inflammatory drugs are not reported among substances precipitating secondary forms of reversible cerebral vasoconstriction. A transcranial Doppler sonography study, performed during the phase with headache and the other neurological deficits, suggested the presence of distal cerebral vasospasm, which normalized when all symptoms regressed completely (<24 hours). We speculated that indomethacin might represent the trigger factor of these particular phenomena, by acting either directly on distal cerebral vessels, or under certain predisposing conditions, such as migraine with aura attacks.
Headache 2011 May
PMID:Reversible cerebral vasoconstriction phenomena following indomethacin administration. 2152 Dec 11

Reversible cerebral vasoconstriction syndrome is a rare cause of headache and stroke in the pediatric population. Reversible vasoconstriction is reported in a 19-month-old girl with retinoblastoma who underwent selective ophthalmic artery infusion chemotherapy with melphalan. Procedure-related cerebral vasoconstriction was specifically triggered during coadministration of adjunctive medications, which included mydriatic eye drops containing phenylephrine, intranasal oxymetazoline, nebulized albuterol, intravenous hydrocortisone, and intravenous diphenhydramine. The course of cerebral vasospasm, which began with a severe hypertensive surge and resolved spontaneously within hours of blood pressure normalization, was documented by angiography in real time. Subsequent brain magnetic resonance imaging showed no evidence of perfusion abnormality, cerebral infarction, or cerebral hemorrhage, and the patient was discharged home without any neurologic sequelae. In this report, we highlight the potential risk of reversible cerebral vasoconstriction in children administered vasoactive drugs and discuss its relevance during treatment of retinoblastoma by intraarterial chemotherapy.
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PMID:Cerebral vasoconstriction triggered by sympathomimetic drugs during intra-atrerial chemotherapy. 2333 8

Cerebral vasospasm is a well-known consequence of aneurysmal subarachnoid hemorrhage (SAH) triggered by blood breakdown products. Here, we present the first case of cerebral vasospasm with ischemia following a spontaneous spinal SAH. A 67-year-old woman, who was on Coumadin for atrial fibrillation, presented with chest pain radiating to the back accompanied by headache and leg paresthesias. The international normalized ratio (INR) was 4.5. Ten hours after presentation, she developed loss of movement in both legs and lack of sensation below the umbilicus. Spine MRI showed intradural hemorrhage. Her coagulopathy was reversed, and she underwent T2 to T12 laminectomies. A large subarachnoid hematoma was evacuated. Given her complaint of headache preoperatively and the intraoperative finding of spinal SAH, a head CT was done postoperatively that displayed SAH in peripheral sulci. On postoperative day 5, she became obtunded. Brain MRI demonstrated focal restricted diffusion in the left frontoparietal area. Formal angiography revealed vasospasm in anterior cerebral arteries bilaterally and right middle cerebral artery. Vasospasm was treated, and she returned to baseline within 48 hours. Spontaneous spinal SAH can result in the same sequelae typically associated with aneurysmal SAH, and the clinician must have a degree of suspicion in such patients. The pathophysiological mechanisms underlying cerebral vasospasm may explain this unique case.
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PMID:Cerebral Vasospasm with Ischemia following a Spontaneous Spinal Subarachnoid Hemorrhage. 2347 68

Subarachnoid hemorrhage (SAH) accounts for 5 % of strokes with a high rate of death and morbidity. It occurs in young patients, often hypertensive and smoking. Patients usually present with sudden headache. Initial clinical evaluation uses a prognosis grading scale including level of consciousness and motor deficit on admission (WFNS scale). Unenhanced CT brain imaging demonstrates the SHA together with evaluation of the initial blood amount, predictive of the occurrence of cerebral vasospasm that may lead to delayed cerebral ischemia. After referral to a multidisciplinary center with neurovascular expertise, MR, CT and/or catheter angiography detects the ruptured aneurysm, the cause of SAH in 85 % of cases. Since rebleeding is an imminent danger, occlusion of the aneurysm should be performed, as soon as possible and within the first 72 heures, either by an endovascular or microsurgical approach. Medical management includes early detection of hydrocephalus and cerebral vasospasm is a devastating complication inducing death and functional impairment. Prevention strategies remain limited and include maintenance of normovolemia and calcium antagonists such as nimodipine. Treatment of cerebral vasospasm associates maintenance of cerebral perfusion and more invasive techniques such as chemical or mechanical angioplasty.
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PMID:[Subarachnoid hemorrhage in young patients]. 2416 98

Sudden, severe, and life-threatening, the crises associated with baroreflex failure are diagnostically challenging, particularly in children, a population in which it has rarely been described. The baroreflex failure syndrome results from impaired afferent baroreceptive input and manifests with autonomic stimulation-induced surges in blood pressure and heart rate accompanied by distinct signs, including thunderclap headache, diaphoresis, and emotional instability. Although the adult literature includes cases of severe headache in baroreflex failure,(1) (,) (2) we present the first case of a child with recurrent thunderclap headache and cerebral vasospasm with baroreflex failure secondary to vascular complications of a rare genetic connective tissue disorder.
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PMID:Baroreflex failure, sympathetic storm, and cerebral vasospasm in fibulin-4 cutis laxa. 2473 66

There are numerous neural structures (parasympathetic, sympathetic, and trigeminal sensory) that are compacted in a small well defined area of the pterygopalatine fossa (PPF). These targets can be readily accessed via minimally invasive neuromodulation techniques making the methods more desirable than neurosurgical deep brain or hypothalamic intervention. Recent research has shed light over the important role of the sphenopalatine ganglion (SPG), which is located within the PPF, in cerebrovascular autonomic physiology as well as in the pathophysiology of different headache disorders (cluster headache, migraine, and trigeminal autonomic cephalalgias). Accordingly, neuromodulation of the autonomic fibers (parasympathetic and sympathetic) may play a key role in the management of headaches, stroke, or cerebral vasospasm. Another important structure within the PPF is the maxillary nerve (V2), which passes through the roof of the fossa. Here the trigeminal system is accessible for a reliable neuromodulation by targeting its second branch -the maxillary nerve- and this could be utilized in various painful conditions of the head and face.
Curr Pain Headache Rep 2014 Jul
PMID:Neurostimulation at pterygopalatine fossa for cluster headaches and cerebrovascular disorders. 2485 67


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