UMLS:C0012833 - FACTA Search

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Query: UMLS:C0012833 (dizziness)
9,689 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Approximately 20 million patients suffer from major depressive disorder each year, indicating a need for antidepressant agents that are synonymous with effectiveness, tolerability and patient compliance. The authors examined the effects of fluvoxamine, a selective serotonin reuptake inhibitor, in the treatment of outpatients meeting DSM-III-R criteria for major depressive disorder. A randomized, double-blind, parallel group, placebo- and imipramine-controlled single center study was conducted in 150 outpatients. Patients were randomized to receive up to 150 mg/day of fluvoxamine as a single bedtime dose, 240 mg/day of imipramine on a twice-daily (BID) schedule, or placebo for six weeks. Efficacy measurements included HAM-D, MADRS, CGI, Raskin-Covi and SCL-56 scales. The HAM-D total score indicated that both active treatment groups showed significantly (p < or = 0.05) greater therapeutic benefit than did placebo. Severely depressed patients (HAM-D > or = 30) responded better to fluvoxamine in five of six measures. Side-effects from fluvoxamine were similar to those reported for other selective serotonin reuptake inhibitors (nausea, somnolence) and were well tolerated. Imipramine was associated with anticholinergic effects such as dry mouth and dizziness. The pharmacokinetic properties of fluvoxamine which allow the drug to be administered as a single daily dose should aid in the maintenance of patient compliance, while offering significant clinical benefit in the improvement of depressive symptoms.
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PMID:Fluvoxamine versus imipramine and placebo: a double-blind comparison in depressed patients. 880 49

Early adverse effects of a drug may be a manifestation of individual differences in drug metabolism or of different pathologic processes. These differences may influence therapeutic responsiveness. Using data from Ciba-Geigy's multicenter 10-week clinical trial, we studied the relationship between early side effects and subsequent therapeutic response to clomipramine (CMI) in obsessive-compulsive disorder. We used tabular analyses and multiple regression to evaluate associations between early complaints and change in score on the Yale-Brown Obsessive-Compulsive Scale. We also evaluated whether early complaints were drug related (i.e., true side effects). It appeared that dry mouth, constipation, dizziness, insomnia, male impotence, nervousness, palpitation, and tremor reported during the first 4 weeks were predictive of good response to CMI. Myoclonus and tinnitus appeared weakly associated with treatment success. Most of these complaints were reported more by the CMI group than the placebo group, and more during CMI treatment than before. The more common complaints may reflect an individual's ability to metabolize CMI appropriately so that adequate therapeutic blood levels are attained. The less common complaints may reflect a sensitivity to CMI's serotonergic actions.
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PMID:Relationship between early side effects and therapeutic effects of clomipramine therapy in obsessive-compulsive disorder. 883 9

The effects of dimethindene maleate (CAS 3614-69-5) on the central nervous system-as sustained release pellets (Fenistil OAD; OAD = once a day) and sustained release tablets (Fenistil retard) with an immediate release fraction-were investigated by means of the oculodynamic test (ODT) and visual analogue scales and compared to loratadine (CAS 79794-75-5) and placebo. In the confirmatory part of the study 18 healthy volunteers were included in a single-blind, randomised, 3-way change-over design with Fenistil OAD, loratadine, and placebo. An additional, fourth exploratory arm with Fenistil retard was run in 6 (out of the 18) subjects after completing the main part of the study. The ODT includes electro-oculography, choice reaction task, and cardiologic parameters under workload. Visual analogue scales were used for subjective ratings on well-being and drug effects concerning wakefulness (sedation), excitation, dizziness, performance, effort, and dry mouth. The results show no relevant differences between either of the active drugs and placebo. Therefore it can be stated that after a single dose there is no sedating effect of dimethindene maleate compared to loratadine or placebo.
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PMID:Effects of dimethindene maleate on psychomotor performance in the oculodynamic test compared with placebo and loratadine. 887 38

Fifty major depressed patients, resistant to multiple pharmacotherapies, were treated by the addition of moclobemide (up to 600 mg/day) to paroxetine or fluoxetine (20 mg/day) for 6 weeks in an open study to assess tolerability. There were 188 adverse events: insomnia, dizziness, headache, nausea, dry mouth and myoclonic jerks were the most common. Many events were rated as severe. The high rate of adverse events suggest that there are clinically significant pharmacodynamic interactions between moclobemide and SSRIs. However the uncontrolled data on effectiveness is encouraging and the combination deserves further consideration as a strategy for treating intractable depression.
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PMID:Safety and tolerability of combined treatment with moclobemide and SSRIs: a systematic study of 50 patients. 892 97

Transdermal scopolamine patches have been extensively prescribed for nonspecific dizziness and vestibular disorders. Patient response may be favorable and side effects are generally limited to xerostomia and blurred vision. However, subtle dependency and outright addiction may develop. Tapered reduction and drug elimination will suffice to eliminate the dependency. However, hospitalization may be necessary to treat severe cases of physiological chemical dependency. Long-term use of transdermal scopolamine patches carries a risk of chemical dependency. Prescribing physicians should review and heed the manufacturer's recommended use.
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PMID:Clinical manifestations of transdermal scopolamine addiction. 893 44

Cardiovascular adverse effects are amongst the most serious observed with antidepressant drugs and are often due to effects on cardiac conduction and refractoriness. However, such electrophysiologic effects may not be evident when using conventional electrocardiographic measures. Forty patients with major depressive disorder (according to DSM-III-R criteria) were enrolled in a 6-week double-blind parallel group study of fluoxetine (N = 20) or doxepin (N = 20). Cardiac conduction (QRS duration) and repolarization (corrected QT interval, QTc), were measured using signal-averaged electrocardiograms and 12-lead electrocardiogram at baseline and after 2, 4, and 6 weeks of treatment. Patients taking doxepin (mean daily dosage at 6 weeks 169 +/- 42 mg) were similar to those taking fluoxetine (37 +/- 18 mg) for demographic variables and improvement in depression scores but volunteered more side effects (p = 0.011), especially dry mouth (p < 0.001) and dizziness/lightheadedness (p = 0.005). After 6 weeks, doxepin increased heart rate (69 +/- 12 to 81 +/- 13 beats per minute; p = 0.0003) and prolonged QTc (from 417 +/- 36 to 439 +/- 28 msec; p < 0.03); overall QRS duration was not prolonged but was correlated with serum doxepin concentrations (r = 0.78, p < 0.0001). Fluoxetine had no effect on QTc (428 +/- 24 msec at baseline vs. 430 +/- 24 msec at 6 weeks) or QRS duration (97 +/- 12 msec at baseline vs. 94 +/- 12 msec at 6 weeks). The standard 12-lead electrocardiogram showed no significant change in QRS or QTc for either drug. Using a sensitive measure of electrocardiographic effects, doxepin prolongs repolarization and may slow cardiac conduction. Fluoxetine has no measurable electrocardiographic effects, which suggests an increased safety margin for cardiac adverse effects. The ability of the signal-averaged electrocardiogram to resolve small changes in the electrocardiogram is useful in the assessment of drugs with subtle electrophysiologic effects.
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PMID:Electrocardiographic effects of fluoxetine and doxepin in patients with major depressive disorder. 900 52

The pharmacology, pharmacokinetics, efficacy, adverse effects, and dosage and administration of tramadol are reviewed. Tramadol is a synthetic analogue of codeine that binds to mu opiate receptors and inhibits norepinephrine and serotonin reuptake. It is rapidly and extensively absorbed after oral doses and is metabolized in the liver. Analgesia begins within one hour and starts to peak in two hours. In patients with moderate postoperative pain, i.v. or i.m. tramadol is roughly equal in efficacy to meperidine or morphine; for severe acute pain, tramadol is less effective than morphine. Oral tramadol can also be effective after certain types of surgery. Tramadol and meperidine are equally effective in postoperative patient-controlled analgesia. In epidural administration for pain after abdominal surgery, tramadol is more effective than bupivacaine but less effective than morphine. In patients with ureteral calculi, both dipyrone and butylscopolamine are more effective than tramadol. For labor pain, i.m. tramadol works as well as meperidine and is less likely to cause neonatal respiratory depression. Oral tramadol is as effective as codeine for acute dental pain. In several types of severe or refractory cancer pain, tramadol is effective, but less so than morphine; for other types of chronic pain, such as low-back pain, oral tramadol works as well as acetaminophen-codeine. Common adverse effects of tramadol include dizziness, nausea, dry mouth, and sedation. The abuse potential seems low. The recommended oral dosage is 50-100 mg every four to six hours. Tramadol is an effective, if expensive, alternative to other analgesics in some clinical situations.
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PMID:Tramadol: a new centrally acting analgesic. 907 93

Nefazodone hydrochloride is a phenylpiperazine antidepressant with a mechanism of action that is distinct from those of other currently available drugs. It potently and selectively blocks postsynaptic serotonin (5-hydroxytryptamine; 5-HT) 5-HT2A receptors and moderately inhibits serotonin and noradrenaline (norepinephrine) reuptake. In short term clinical trials of 6 or 8 weeks' duration, nefazodone produced clinical improvements that were significantly greater than those with placebo and similar to those achieved with imipramine, and the selective serotonin reuptake inhibitors (SSRIs) fluoxetine, paroxetine and sertraline. The optimum therapeutic dosage of nefazodone appears to be between 300 and 600 mg/day. Limited long term data suggest that nefazodone is effective in preventing relapse of depression in patients treated for up to 1 year. Analyses of pooled clinical trial results indicate that nefazodone and imipramine produces similar and significant improvements on anxiety- and agitation-related rating scales compared with placebo in patients with major depression. Short term tolerability data indicate that nefazodone has a lower incidence of adverse anticholinergic, antihistaminergic and adrenergic effects than imipramine. Compared with SSRIs, nefazodone causes fewer activating symptoms, adverse gastrointestinal effects (nausea, diarrhoea, anorexia) and adverse effects on sexual function, but is associated with more dizziness, dry mouth, constipation, visual disturbances and confusion. Available data also suggest that nefazodone is not associated with abnormal weight gain, seizures, priapism or significant sleep disruption, and appears to be relatively safe in overdosage. Nefazodone inhibits the cytochrome P450 3A4 isoenzyme and thus has the potential to interact with a number of drugs. Further long term and comparative studies will provide a more accurate assessment of the relative place of nefazodone in the management of major depression. Nonetheless, available data suggest that nefazodone is a worthwhile treatment alternative to tricyclic antidepressants and SSRIs in patients with major depression.
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PMID:Nefazodone. A review of its pharmacology and clinical efficacy in the management of major depression. 921 Oct 88

This article presents a summary of drug safety data concerning the use of tramadol hydrochloride and an outline of the specific aspects of this analgesic in particular with regard to respiratory depression and dependence potential. Information from phase II to IV clinical studies, postmarketing surveillance studies (covering safety data from a total of more than 21,000 patients) and the spontaneous reporting system have been taken into consideration. The data from the spontaneous reporting system covers the period between 1977 and 1993, during which more than one billion single dose units were distributed throughout the world. The phase II to IV studies compare acute intravenous, acute intramuscular, acute oral and multiple dose oral administration Postmarketing surveillance studies provide a picture of everyday use of tramadol in general medical practice. Further analyses were performed to provide information about the gender-, age- and dose-related distribution of adverse reactions The prevalence of side effects was calculated by comparing the number of symptoms with the number of patients. The pooled data from the clinical studies and the postmarketing surveillance studies reveal that the most commonly observed side effects were nausea, dizziness, drowsiness, tiredness, sweating, vomiting and dry mouth, with an overall incidence of between 1 and 6%. In the postmarketing surveillance studies on long term and acute administration, the profile of adverse events was qualitatively almost identical to that in the phase II to IV studies. However, there were distinct quantitative differences it favour of the long term studies. In the postmarketing surveillance study on acute parenteral administration, the incidences of nausea and vomiting were only 4.2 and 0.5% respectively, which is significantly lower than the 20.7 and 11.4% in the patient-controlled analgesia studies. Nevertheless, it is important to take into consideration the different conditions in these studies. All the postmarketing surveillance studies were outpatient studies, whereas almost all of the phase II to IV studies were carried out in hospitals. The studies with intravenous and intramuscular administration were mainly postoperative, which explains the relatively high incidence of nausea and vomiting, 17.8 and 7.0%, respectively, with intramuscular administration. The different conditions in the phase II to IV studies and the postmarketing surveillance studies are also reflected in the occurrence of dizziness and postural hypotension: The incidence of dizziness in the postmarketing surveillance studies is slightly higher than that observed in the phase II to IV studies. Particularly in the studies with intravenous and intramuscular administration, the patients were confined to bed and were therefore much less sensitive to dizziness than those in the long term oral and postmarketing surveillance studies, who were all outpatients. On the other hand, postural hypotension played almost no role in the multiple dose studies, in which the oral formulation were used most frequently. It is interesting to note that diarrhoea, pruritus and gastrointestinal disorder (except nausea and vomiting) are mainly reported in the multiple dose studies in the groups receiving oral tramadol, and also in the postmarketing surveillance studies. Once again, the study conditions may well be the explanation. The adverse effects reported in both clinical and postmarketing surveillance studies are similar to those in the spontaneous reports. The most frequently documented adverse effects in clinical and postmarketing surveillance studies, i.e. nausea/vomiting, dizziness, drowsiness, tiredness, sweating and dry mouth, are noted very infrequently in spontaneous reports, since in medical practice these side effects are usually known and are described in the product information. Almost all reports referring to abuse/dependence are connected with pain therapy; they give no reason to suspect any pro
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PMID:[Tolerance and safety of tramadol use. Results of international studies and data from drug surveillance]. 919 Mar 25

Major depressive disorder and dysthymia are twice as prevalent in women as in men, and the lifetime risk of a woman's developing a major depressive disorder is about 20%. Yet depression is often unrecognized or misdiagnosed in women, and only about one quarter of women who meet criteria for major depressive disorder receive appropriate therapy. Until recently, women were generally excluded from clinical drug trials because of concerns of inadvertent pregnancy and risk of teratogenicity. Thus, information on safety and efficacy in those most likely to require antidepressant therapy is lacking. Studies have shown that the antidepressant fluoxetine, a selective serotonin reuptake inhibitor (SSRI) has a more tolerable side effect profile than do tricyclic amine (TCA) antidepressants, but few data have been reported on the efficacy and tolerability of fluoxetine or other SSRIs in female patients. In this study, a retrospective analysis of 11 randomized, double-blind, well-controlled trials was done to compare data from 427 female patients on fluoxetine and 423 female patients on TCAs. Both fluoxetine and TCAs significantly reduced the HAMD17 total mean score from baseline to end point, week 5 (fluoxetine, 24.35 to 14.37; TCAs, 24.57 to 14.43; p < 0.001). Both treatment groups were associated with significant reductions in the HAMD17 anxiety/somatization and insomnia subfactor scores. Abnormal vision, constipation, dizziness, dry mouth, and somnolence occurred more frequently (p < 0.05) in the TCA group. Insomnia and nausea were the only adverse events more common (p < 0.05) in the fluoxetine group. This study demonstrates that fluoxetine is an effective and tolerable agent for the treatment of major depressive disorder in women.
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PMID:Fluoxetine vs. tricyclic antidepressants in women with major depressive disorder. 920 68

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