Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027497 (nausea)
 23,468 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sudden onset headache is a common condition that sometimes indicates a life-threatening subarachnoid haemorrhage (SAH) but is mostly harmless. We have performed a prospective study of 137 consecutive patients with this kind of headache (thunderclap headache=TCH). The examination included a CT scan, CSF examination and follow-up of patients with no SAH during the period between 2 days and 12 months after the headache attack. The incidence was 43 per 100 000 inhabitants >18 years of age per year; 11.3% of the patients with TCH had SAH. Findings in other patients indicated cerebral infarction (five), intracerebral haematoma (three), aseptic meningitis (four), cerebral oedema (one) and sinus thrombosis (one). Thus no specific finding indicating the underlying cause of the TCH attack was found in the majority of the patients. A slightly increased prevalence of migraine was found in the non-SAH patients (28%). The attacks occurred in 11 cases (8%) during sexual activity and two of these had an SAH. Nausea, neck stiffness, occipital location and impaired consciousness were significantly more frequent with SAH but did not occur in all cases. Location in the temporal region and pressing headache quality were the only features that were more common in non-SAH patients. Recurrent attacks of TCH occurred in 24% of the non-SAH patients. No SAH occurred later in this group, nor in any of the other patients. It was concluded that attacks caused by a SAH cannot be distinguished from non-SAH attacks on clinical grounds. It is important that patients with their first TCH attack are investigated with CT and CSF examination to exclude SAH, meningitis or cerebral infarction. The results from this and previous studies indicate that it is not necessary to perform angiography in patients with a TCH attack, provided that no symptoms or signs indicate a possible brain lesion and a CT scan and CSF examination have not indicated SAH.
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PMID:Sudden onset headache: a prospective study of features, incidence and causes. 1211 Jan 11

We reported a 59-year-old woman with four episodes of recurrent self-limited aseptic meningitis. Her episodes had resolved in 14-20 days without residural and all were marked clinically by acute headache, back pain, and nausea with fever. No concurrent systemic or genital symptoms or signs were present. CSF analysis performed on the third day of her fourth episode of recurrent meningitis showed the DNA of herpes simplex virus type 2 by means of the polymerase chain reaction method. Acyclovir therapy may be useful in a further possible occurrence of meningitis.
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PMID:[A case of recurrent aseptic meningitis (Mollaret meningitis) with back pain in which was detected the DNA of herpes simplex virus type 2 in cerebrospinal fluid]. 1235 47

A total of 38 adult cases of aseptic meningitis were diagnosed based on clinical manifestations as well as examination of cerebrospinal fluid at Kaohsiung Veterans General Hospital in 2001. The majority (31 cases, 82%) of cases occurred between June and August, and most (33 cases, 87%) of them aged from 18 to 35 years (median age, 25 years). The male-to-female ratio was 2.16:1. Common clinical presentations included headache, fever, nausea or vomiting, and symptoms of common cold. On initial cerebrospinal fluid examination, white cell counts were above 500 cells/mm3 in 7 (18%) cases, and neutrophils predominated in 10 (28%) of 36 cases. The cerebrospinal fluid protein concentration was below 100 mg/dL in 29 (77%) of 38 cases, and hypoglycorrhachia (cerebrospinal fluid/serum glucose ratio <0.5) was seen in 9 (24%) cases. Enterovirus as a definite etiology was confirmed by isolation from cerebrospinal fluid in 17 (45%) of 38 cases and was the presumptive etiology by isolation from the stool or throat swab in 2 (5%) cases. Of the 19 cases with positive viral isolation, echovirus serotype 30 accounted for the majority (15 cases, 79%), followed by echovirus serotype 6 (3 cases, 16%), with one (5%) case undetermined. The viral isolation rate from cerebrospinal fluid correlated to the day of cerebrospinal fluid sampling after disease onset (chi2 = 12.05, p = 0.007). All patients were discharged uneventfully without receiving antibiotic therapy.
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PMID:Outbreak of aseptic meningitis among adults in southern Taiwan. 1458 64

Intravenous immunoglobulin (IVIg) has been used successfully for hypogammaglobulinemic states for more than 20 yr. In both primary and secondary situations when hypogammaglobulinemia is of clinical significance, IVIg should be the first line of treatment. In most cases, 400 mg/kg infused every 3 to 4 wk will lead to a trough level higher than 500 mg/dL, which in most cases provides good protection against bacterial infections. Higher doses may be needed in patients with known lung damage. Side effects include headache, nausea, chills, and fever but can be minimized by lowering the infusion speed rate. Rarely, aseptic meningitis may develop but it is always reversible. Although all products have been shown to be beneficial, differences among the various products have still been reported. In this regard, all products should be standardized according to common accepted international parameters. The route of immunoglobulin G replacement (intravenously vs subcutaneously) was reported to be of similar benefit. However, guidelines for usage and choice of route should be established and might be of help.
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PMID:Intravenous immunoglobulin in immunodeficiency states: state of the art. 1639 91

Intravenous immunoglobulin (IVIg) is administered for various indications and generally considered a safe therapy. Most of the adverse effects (AEs) associated with IVIg administration are mild and transient. The immediate AEs include headache, flushing, malaise, chest tightness, fever, chills, myalgia, fatigue, dyspnea, back pain, nausea, vomiting, diarrhea, blood pressure changes, tachycardia, and anaphylactic reactions, especially in IgA-deficient patients. Late AEs are rare and include acute renal failure, thromboembolic events, aseptic meningitis, neutropenia, and autoimmune hemolytic anemia, skin reactions, and rare events of arthritis. Pseudohyponatremia following IVIg is important to be recognized. Renal failure, usually oliguric and transient, occurs mostly on using sucrose-containing products owing to osmotic injury. Among high-risk patients who have a previous renal disease, dehydration, diabetes mellitus, advanced age, hypertension, hyperviscosity, or are treated by other nephrotoxic medications, administration of a non-sucrose-containing IVIg product after accomplishing hydration, in a low concentration and a slow infusion rate while supervising urine output and kidney function, is recommended. Thromboembolic complications occur because of hyperviscosity especially in patients having risk factors including advanced age, previous thromboembolic diseases, being bedridden, diabetes mellitus, hypertension, dyslipidemia, or those receiving high-dose IVIg in a rapid infusion rate. Immediate AEs can be treated by the slowing or temporary discontinuation of the infusion and symptomatic therapy with analgesics, nonsteroidal anti-inflammatory drugs, antihistamines, and glucocorticoids in more severe reactions. Slow infusion rate of low concentration of IVIg products and hydration, especially in high-risk patients, may prevent renal failure, thromboembolic events, and aseptic meningitis.
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PMID:Intravenous immunoglobulin: adverse effects and safe administration. 1639 92

Efalizumab is a recombinant humanised IgG1 kappa isotype monoclonal antibody against the CD11a molecule. Efalizumab is approved for the treatment of moderate-to-severe psoriasis and is currently administered as a weekly subcutaneous injection. Throughout October 2005, 19,000 patients were treated with efalizumab. According to the package insert that is based on 2762 subjects, the most common adverse reactions associated with efalizumab are a first dose reaction complex that includes headache, chills, fever, nausea and myalgia within two days following the first two injections. These reactions are dose-level-related in incidence and severity and were largely mild-to-moderate in severity when a conditioning dose of 0.7 mg/kg was used as the first dose. Adverse events occurring at a rate between 1 and 2% greater in the efalizumab group compared with placebo were arthralgia, asthenia, peripheral oedema and psoriasis. Efalizumab is associated with a rebound flare reaction in approximately 5% of patients when therapy is ceased. Antiefalizumab antibodies develop in approximately 5% of the subjects who were treated with efalizumab, but the clinical significance of these antibodies is unclear. Efalizumab has rare but serious haematological side effects. Immune-mediated thrombocytopenia platelet counts at or below 52,000 cells/microl have been observed in 0.3% of cases and monitoring of platelet counts monthly for the first 3 months of use and each 3 months thereafter. Reports of four cases of haemolytic anaemia diagnosed four to six months after patients started on the monoclonal antibody exist. Infrequent new onset or recurrent severe arthritis events, including psoriatic arthritis events, have been reported in clinical trials and postmarketing surveillance. Symptoms associated with a hypersensitivity reaction (e.g., dyspnoea, asthma, urticaria, angioedema, maculopapular rash) were rarely noted in the first 12 weeks of the controlled clinical studies. The overall incidence of malignancies of any kind was 1.8 per 100 patient-years for efalizumab-treated patients compared with 1.6 per 100 patient-years for placebo-treated patients. One case each of the following serious adverse reactions was observed: transverse myelitis, bronchiolitis obliterans, aseptic meningitis, idiopathic hepatitis, sialedenitis and sensorineural hearing loss. In the complete safety data from both controlled and uncontrolled studies, the overall incidence of hospitalis ation for infections was 1.6 per 100 patient-years for efalizumab-treated patients compared with 1.2 per 100 patient-years for placebo-treated patients. The rate of infection was 26% in the control group and 29% in treated cases. The most common findings on laboratory assessments in patients using efalizumab were reversible increases in lymphocyte count and total white blood cell. Efalizumab is a safe, effective, but expensive treatment for psoriasis.
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PMID:Efalizumab: a review of events reported during clinical trials and side effects. 1650 42

In addition to its U.S. Food and Drug Administration (FDA) approved conditions, immune globulin intravenous (IGIV) is now being used to treat a vast array of autoimmune disorders. Some of the reasons for this overall increase in the use of IGIV include its effectiveness and safety. Despite many years of safe use, side effects and adverse reactions still occur. Common and mild side effects associated with IGIV include: headache, malaise, nausea, low-grade fever, urticaria, arthralgias, and myalgia. These symptoms typically resolve within a few days after their onset. Although rare, the serious and potentially fatal side effects include: anaphylactic reactions, aseptic meningitis, acute renal failure, stroke, myocardial infarction, and other thrombotic complications. Many of these side effects have occurred in patients who have significant, underlying risk factors for the development of the event. Thus, it is vitally important that a thorough and comprehensive medical evaluation be performed on every patient who is being evaluated for potential IGIV therapy. This evaluation can, to some extent, significantly minimize the risk of these side effects. Careful, constant, and close monitoring by trained personnel during the infusion can also result in early detection of such events. Physicians should thoroughly discuss the risks and benefits of IGIV with patients who are being considered for this therapy.
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PMID:Adverse events associated with intravenous immunoglobulin therapy. 1650 16

Intravenous immunoglobulin (IVIg) is administered both for the treatment of immunodeficiencies and for an expanding list of autoimmune diseases. Most adverse effects are mild and transient including headaches, flushing, fever, chills, fatigue, nausea, diarrhea, blood pressure changes and tachycardia. IgA deficiency-related anaphylactic reactions are largely preventable. Late adverse events are rare and include acute renal failure and thromboembolic events. Acute renal failure, usually oliguric and transient, occurs generally in insufficiently hydrated patients and with sucrose-stabilized products due to osmotic injury. Thromboembolic complications occur due to hyperviscosity especially in patients having risk factors including advanced age, previous thromboembolic events, immobilization, diabetes mellitus, hypertension, dyslipidemia or those receiving high-dose IVIg in a rapid infusion rate or excessive dose. Slow infusion rate and good hydration may prevent renal failure, thromboembolic events and aseptic meningitis. In our experience in more than 200 patients receiving IVIg for different autoimmune diseases and near 10000 infusions for relapsing-remitting multiple sclerosis patients, the occurrence of adverse effects was 24-36% after high dose IVIg, most were headaches and all were mild adverse events. We conclude that IVIg is a safe therapy when given in a slow infusion rate in well-hydrated patients, better avoiding patients with known risk factors.
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PMID:Safety of intravenous immunoglobulin (IVIG) therapy. 1731 19

We report a case of aseptic meningitis thought to be associated with chronic sulindac use in a patient with osteoarthritis. The patient was hospitalized with an acute onset of headache, nuchal rigidity, nausea, and blurred vision. Brain imaging was unremarkable and a lumbar puncture revealed a lymphocytic pleocytosis. No infectious source was identified. The patient reported taking sulindac over the past year, it was discontinued, and symptoms promptly resolved. This case underscores the importance of obtaining a thorough drug history in conjunction with the knowledge of causative medications associated with aseptic meningitis. Given the widespread use of nonsteroidal anti-inflammatory drugs, clinicians must recognize that aseptic meningitis is a possible adverse effect of these medications.
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PMID:Aseptic meningitis associated with chronic sulindac use for osteoarthritis: a case report. 1770 6

An outbreak of aseptic meningitis caused by echovirus type 30 (E-30) occurred in the southern area of Fukushima Prefecture from March to September in 2004. The data of 54 patients with E-30 meningitis were analyzed. The median age was 7.3 years and the age range was 4 to 14 years. The male to female ratio was 2.2:1. The major symptoms of fever, headache and nausea/vomiting were observed more than 80% of the patients. The mean cerebrospinal fluid cell count was 104/microL, and polymorphonuclear cells were predominant in 61% of the cases. The clinical characteristics were not remarkably different from those in the outbreak in the middle to southern region of Fukushima Prefecture in 1997. The phylogenetic analysis based on the VP4 structural gene showed that the E-30 strains isolated in 2004 formed different clusters from those isolated during other time periods, suggesting that a variant genotype of E-30 was responsible for the outbreak in Fukushima in 2004.
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PMID:[Epidemiological and virological study of aseptic meningitis in children caused by echovirus type 30 in Fukushima in 2004]. 1854 46


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