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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Utilizing polysomnography (PSG) and psychometry, objective and subjective sleep and awakening quality was investigated in 11 drug-free patients (five females, six males) aged 35-75 years (mean age 54.1 +/- 11.4) suffering from nonorganic insomnia (F 51.0) related to a depressive episode (F 32) or recurrent depressive disorder (F 33). as compared with 11 age- and sex-matched normal controls (five females, six males) aged 36-75 years (mean age 53.0 +/- 13.5). PSG demonstrated decreased sleep efficiency, total sleep time (TST), total sleep period (TSP) and sleep stage S2, as well as increased wakefulness during TSP, early morning awakening, sleep latency to S1, S2, S3 and sleep stage S1 in depressed patients. Subjective sleep quality and the total score of the Self-Assessment of Sleep and Awakening Quality Scale (SSA) were deteriorated as were morning and evening well being, drive, mood and fine motor activity right. Evening and morning blood pressure, the O2 desaturation index and periodic leg movement (PLM) index were increased. In a subsequent acute, placebo-controlled cross-over design study, the acute effects of 100 mg of trazodone, a serotonin reuptake inhibitor with a sedative action due to 5-HT2 and alpha1 receptor blockade, were investigated in the patients. As compared with placebo, trazodone induced an increase in sleep efficiency (primary target variable), TST, TSP and SWS (S3 + S4), as well as a decrease in wakefulness during the TSP, early morning awakening and S2. There was no change in rapid eye movement (REM) sleep with the exception of an increase in the REM duration in minutes. Trazodone also caused an improvement in subjective sleep quality, affectivity, numerical memory and somatic complaints. All respiratory variables remained within normal limits. Critical flicker frequency and moming diastolic blood pressure were decreased. The present study demonstrated that depression induced significant changes in objective and subjective sleep and awakening quality, which were counteracted by 100 mg of trazodone, thus suggesting a key-lock principle in the treatment of depression.
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PMID:Insomnia in depression: differences in objective and subjective sleep and awakening quality to normal controls and acute effects of trazodone. 1181 1

Depression commonly involves abnormalities of the sleep-wake rhythm, the temperature rhythm, and other biological rhythms. The changes of these biological rhythms are caused in remission by medications. However, it has yet to be clarified whether the biological rhythms are changed as a result of recovery from depression or from the direct pharmacological effects of the antidepressants. Therefore, we have undertaken a study on the direct effects of the antidepressants trazodone and imipramine on the biological rhythms of healthy volunteers. The study involved 12 healthy male volunteers (ages 21 approximately 28 years, mean age 23.9+/-1.7 years) who had given written informed consent. Placebo, trazodone, and imipramine were each administered in a single blind manner four times a day, during the three-day study period. The total daily dosage of trazodone was 100 mg (50 mg in one subject), and of imipramine 40 mg (20 mg in one subject). Subjects were submitted to polysomnography (PSG) and body core temperature (rectal temperature) measurements during the study period. We compared the data concerning the antidepressants to those of the placebo. The results show that, with regard to the sleep rhythm, trazodone significantly increased slow wave sleep (SWS), but no changes were observed in REM (rapid eye movement) sleep. Imipramine significantly decreased REM sleep and prolonged the REM cycle. With regard to the temperature rhythm, trazodone showed a tendency to advance the appearance time of the minimal temperature. Imipramine significantly lowered the maximal temperature and decreased the difference between the maximal and the minimal temperature, but no changes in the phases were observed. Neither antidepressant had any effect on the temperature cycle. Trazodone and imipramine showed different effects on PSG. Furthermore, they had different effects on the temperature rhythm. The changes of the sleep-wake rhythm were greater than those of the temperature rhythm. Although the two antidepressants had different mechanisms of action, it is worthy of note that both directly influenced the biological rhythms of healthy volunteers.
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PMID:Effects of trazodone and imipramine on the biological rhythm: an analysis of sleep EEG and body core temperature. 1218 65

Akathisia is a common and distressful extrapyramidal adverse side effect usually resulting from the use of antipsychotic medications. Early management of akathisia is important because it may be associated with poor treatment response and medication noncompliance. Unfortunately many patients fail to respond to standard management of akathisia. In addition to dopaminergic mechanisms, it has been hypothesized that serotonin may play a prominent role in the pathophysiology of akathisia. Trazodone is an antidepressant agent demonstrating prominent serotonergic antagonistic properties. This open-label pilot study investigates the efficacy of trazodone in the management of akathisia. Nine female patients with a score of at least "mild akathisia" on the Barnes Akathisia Scale, and receiving a stable dose of antipsychotic medication, were administered trazodone, titrated up to a dosage of 100 mg/day over a period of 5 days. The patients demonstrated marked improvement in symptoms of akathisia. In addition, some improvement was noted in symptomatology of anxiety, depression, and psychosis. These observations suggest the use of trazodone as a beneficial and relatively safe medication for the treatment of antipsychotic medication-induced akathisia. Further study in the context of a double-blind, placebo-controlled trial is mandated to substantiate these preliminary findings.
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PMID:Treatment of neuroleptic-induced akathisia with the 5-HT2A antagonist trazodone. 1278 15

Antidepressants are often applied in the treatment of chronic pain. Analgesic action of tricyclic antidepressants (TCAs) has been extensively studied and proven. TCAs are associated with a number of adverse effects which are inconvenient for patients. The newer antidepressants have fewer side effects and equivalent efficacy on mood disorders. This article reviews the available publications (mainly placebo-controlled trials) concerning the efficacy of these medications in the treatment of chronic pain. The data regarding selective serotonin reuptake inhibitors (SSRI) are conflicting. Trazodone (a serotonin-reuptake inhibitor as well as a postsynaptic serotonin receptor antagonist) does not appear to be effective for the treatment of chronic pain. No placebo-controlled studies are available for noradrenergic and specific serotoninergic antidepressant (NaSSA)--mirtazapine and noradrenaline reuptake inhibitor (NaRI)--reboxetine. Bupropion, a noradrenaline and dopamine-reuptake inhibitor appears to be effective in the treatment of neuropathic pain. Venlafaxine--selective serotonin and noradrenergic reuptake inhibitors (SNRI) was shown to be effective in the treatment of different kinds of pain. Duloxetine (SNRI) is effective in relieving both the emotional and painful physical symptoms of depression. Additional randomized, controlled trials are necessary to fully evaluate the role of new antidepressants in the treatment of chronic pain.
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PMID:[The effectiveness of antidepressants in the treatment of chronic non-cancer pain--a review]. 1577 Nov 51

Patients with chronic pain often suffer from sleep disturbances, specifically decreased deep sleep, and thus may get into a vicious circle which maintains their pain condition. Utilizing polysomnography and psychometry, objective and subjective sleep and awakening quality was investigated in 11 patients with nonorganic insomnia (F51.0) related to somatoform pain disorder (SPD; F45.4) as compared with age- and sex-matched healthy controls of the Siesta normative database. Patients demonstrated a markedly deteriorated Pittsburgh Sleep Quality Index, a decreased Quality of Life Index, slightly increased self-reported anxiety (Zung SAS) and depression scores (Zung SDS), as well as an increased Epworth Sleepiness Scale and International Restless Legs Syndrome Scale score. Subjective sleep and awakening quality was markedly reduced, while somatic complaints were increased. Polysomnographic evaluation by a recently developed automatic sleep classifier (Somnolyzer 24 x 7) based on the rules of Rechtschaffen and Kales demonstrated reduced slow-wave sleep (SWS), the target variable in the present study, a decreased stage shift index, increased SWS latency and stage 4 sleep (S4) latency and an increased frequency of shifts from S2 to wakefulness (W) in patients as compared with controls. Minimal oxygen saturation was found decreased, periodic leg movements (PLMs) were increased. In the morning, patients showed deteriorated well-being, drive, mood and wakefulness. There were no significant noopsychic or psychophysiological differences between patients and controls (except for a reduced numerical memory and a slightly increased morning diastolic blood pressure in patients). Subsequent evaluation of the acute effects of 100 mg of a controlled-release formulation of trazodone (Trittico retard) in the patients demonstrated an increase in the target variable SWS, accompanied by a reduction in the number of awakenings and stage shifts. It normalized the frequency of shifts from S2 to W and reduced the frequency of shifts from W to S1, from S1 to S2, as well as from any stage to S1 and S2. Trazodone, however, also significantly reduced the total sleep period and S2 and increased the latency to S1. Moreover, the drug increased the reduced minimal O(2 )saturation, reduced the arousal index and the PLMs-in-wake index and normalized the increased morning diastolic blood pressure. In conclusion, our study demonstrated that SPD induced significant changes in subjective and objective sleep and awakening quality, which were partially mitigated by trazodone therapy. The data on the target variable SWS support our hypothesis of a key-lock principle in the diagnosis and drug treatment of sleep disorders. Our study provided the first evidence on the usefulness of the Somnolyzer 24 x 7 and the Siesta database in clinical practice.
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PMID:Insomnia in somatoform pain disorder: sleep laboratory studies on differences to controls and acute effects of trazodone, evaluated by the Somnolyzer 24 x 7 and the Siesta database. 1583 86

Trazodone is an effective antidepressant drug with a broad therapeutic spectrum, including anxiolytic efficacy. Although trazodone is usually referred to as a serotonin (5-HT) reuptake inhibitor, this pharmacological effect appears to be too weak to fully account for its clinical effectiveness. The present study aimed to elucidate the agonist properties of trazodone and its active metabolite, m-chlorophenylpiperazine (m-CPP), at 5-HT(1A) receptors by means of the guanosine-5'-O-(3-[(35)S]thio)-triphosphate ([(35)S]GTPgammaS) binding assay. In membranes prepared from Chinese hamster ovary cells expressing human 5-HT(1A) receptors (CHO/h5-HT(1A)), trazodone behaved as an almost full agonist and m-CPP was also a highly efficacious partial agonist at 5-HT(1A) receptors. The intrinsic activities of both compounds were higher than those of tandospirone and buspirone, which are clinically effective anxiolytics with well-known 5-HT(1A) partial agonist properties. These effects were replicated in the 5-HT(1A) receptor-mediated [(35)S]GTPgamma(S) binding assay in native rat brain membranes (at least in hippocampal membranes), although the intrinsic activities of the compounds were low and differently ranked compared to those in CHO/h5-HT(1A) cell membranes. When considering the implications of 5-HT(1A) receptors in anxiety and/or depression, as well as the clinical effectiveness of azapirone anxiolytics with partial 5-HT(1A) receptor agonist properties such as buspirone, it is possible that the agonist effects on 5-HT(1A) receptors of trazodone and its active metabolite m-CPP presented in this study contribute, at least in part, to the clinical efficacy of the atypical antidepressant trazodone.
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PMID:Trazodone and its active metabolite m-chlorophenylpiperazine as partial agonists at 5-HT1A receptors assessed by [35S]GTPgammaS binding. 1588 8

Trazodone is an antidepressant agent used in Spain since 1975. There are few documented reports of fatalities solely attributed to trazodone and none in which the main metabolite is analyzed. A fatal case of self-poisoning following oral ingestion is reported along with a description of the validated analytical methods involved, a discussion of poisoning characteristics, and a review of reports describing trazodone overdose cases with analytical results. The deceased was an 86-year-old man with cancer, who suffered depression. He went to see his doctor in a primary health care unit and told him he had just taken an unknown amount of tablets of Deprax to commit suicide. The doctor induced emesis as a first emergency measure. His death occurred before arriving to the hospital, and he left a suicide note nearby. Systematic toxicological analysis of postmortem blood used routinely in our laboratory revealed the presence of trazodone 4.9 mg/L and m-chlorophenyl-piperazine (m-CPP) 0.6 mg/L, its active and major metabolite. In addition, metamizol 19.6 mg/L and 4-methyl-amino-antipyrine (4-MAA) 40.7 mg/L, its active metabolite, were also found in blood. All drugs and metabolites involved in the case were detected using gas chromatography-nitrogen-phosphorus detection (GC-NPD) and confirmed using gas chromatography-mass spectrometry (GC-MS) mode total ion chromatogram. An additional high-performance liquid chromatography-diode array detection (HPLC-DAD) screening also obtained the same results. Quantitation of trazodone together with its metabolite in blood was carried out using GC-NPD, while quantitation of metamizol was performed using HPLC-DAD. Limits of detection for trazodone and m-CPP were 33 and 11 microg/L, respectively, absolute recoveries were more than 86% and 75%, respectively, intra-assay precisions less than 4%, interassay precisions less than 5%, and linearity up to 2.0 mg/L. Limit of detection for metamizol was 1117 microg/L, absolute recovery more than 84%, intra-assay precision less than 8%, interassay precision less than 12%, and linearity up to 48 mg/L. Based on the autopsy findings, patient history, toxicology results, and previously reported trazodone intoxications, the forensic pathologists ruled that the cause of death was due to an overdose of trazodone, and the manner of death was listed as suicide.
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PMID:Investigation of a fatality due to trazodone poisoning: case report and literature review. 1597 58

Insomnia and depression are widespread diseases causing deterioration of life's quality and increasing morbidity and mortality of cardiovascular diseases. Both of them and certain antidepressants adversely affect physiological structure of sleep, while others restore it. The latter drugs must be preferred in therapy of depression accompanying insomnia, and some of them may be effective in treatment of insomnias without depression. Most antidepressants cause REM-reduction, generally with increased serotonin-function. Selective H1-antagonists readily induce sleep, and also the inhibition of cholinergic neurons in the general arousal networks promotes sleep. Sleep continuity is improved by the rise of synaptic level of serotonin. Among tricyclic antidepressants trimipramine and amitriptyline are the best to improve sleep. However, the former has low antidepressant effect and the latter has many adverse side effects. Selective serotonin reuptake inhibitors, except paroxetine, improve sleep only at the time and to the extent of restoring depression. Paroxetine has beneficial effect on sleep at the beginning of the treatment. Mirtazapine is the first-line sleep promoter among atypical antidepressants, however, its effect on increasing appetite markedly limits its application. Trazodone causes hangover, and mianserin may induce restless legs. Insomnias without depression demand lower dose of antidepressants than depression.
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PMID:[Effects of antidepressants on sleep]. 1678 Jan 85

Behavioral and psychological symptoms of dementia (BPSD) includes anxiety, depression, hallucination, delusion, aggression, irritability, agitation and wandering. BPSD often causes a deterioration of activity of daily living (ADL) and worsens caregiver burden. Trazodone, an atypical antidepressant, is used for the treatment of BPSD, but the effectiveness is controversial. In this study, we retrospectively analyzed the medical records of the 13 AD patients who were rated as having the aggression and negativism in caregiving situation and were treated by trazodone. The BPSD of the per-treatment stage of the patients was assessed with Neoropsychiatric Inventory(NPI). Improvement of BPSD after trazodone was observed in 9 patients, and the aggression and negativism in caregiving situations were improved in 6 patient. Trazodone may be effect for the treatment of a certain type of BPSD such as aggression and negativism in caregiving situations. Prospective studies of this issue are recommended in AD patient.
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PMID:[Trazodone for the treatment of behavioral and psychological symptoms of dementia (BPSD) in Alzheimer's disease: a retrospective study focused on the aggression and negativism in caregiving situations]. 1685 16

Trazodone is one of the most commonly prescribed medicines for treating depression and insomnia. However, the pharmacological mechanism of action underlying trazodone's unique effects is unclear. Despite its nanomolar affinity for 5HT(2A) receptors, histamine(1) receptors and alpha(1) adrenoceptors the drug is given at high doses to achieve clinical efficacy suggesting that other target activities may also contribute to its effects. Here we report that trazodone inhibits recombinant T-type calcium channels (Ca(v)3.1, Ca(v)3.2 and Ca(v)3.3) in whole-cell patch-clamp studies at therapeutically relevant concentrations (IC(50)=43 microM, 45 microM, 23 microM, respectively). Inhibition was not use-dependent and showed only moderate voltage-dependence. Tonic block of Ca(v)3.1 channels held at negative membrane potentials suggested drug interaction with channels in the resting state. The major metabolite of trazodone, m-chlorophenylpiperazine, showed comparable potency on Ca(v)3.3 channels (IC(50)=35 microM) and was less active on Ca(v)3.1 channels (IC(50)=317 microM). We also demonstrate trazodone's inhibitory effects on native T-type calcium currents recorded from subthalamic neurons in a patch-clamp rat brain slice assay (approximately 30% inhibition at 100 microM). Our data suggest that T-type calcium channel antagonism may contribute to the pharmacology of trazodone and its reported neurological effects.
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PMID:Trazodone inhibits T-type calcium channels. 1761 Sep 10


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