Manic-depressive states and daily temperature. Some circadian studies

The concept of "metabolic jet lag" in the pathophysiology of bipolar disorder: implications for research and clinical care

Bipolar disorder (BD) is a potentially chronic mental disorder marked by recurrent depressive and manic episodes, circadian rhythm disruption, and changes in energetic metabolism. "Metabolic jet lag" refers to a state of shift in circadian patterns of energy homeostasis, affecting neuroendocrine, immune, and adipose tissue function, expressed through behavioral changes such as irregularities in sleep and appetite. Risk factors include genetic variation, mitochondrial dysfunction, lifestyle factors, poor gut microbiome health and abnormalities in hunger, satiety, and hedonistic function. Evidence suggests metabolic jet lag is a core component of BD pathophysiology, as individuals with BD frequently exhibit irregular eating rhythms and circadian desynchronization of their energetic metabolism, which is associated with unfavorable clinical outcomes. Although current diagnostic criteria lack any assessment of eating rhythms, technological advancements including mobile phone applications and ecological momentary assessment allow for the reliable tracking of biological rhythms. Overall, methodological refinement of metabolic jet lag assessment will increase knowledge in this field and stimulate the development of interventions targeting metabolic rhythms, such as time-restricted eating.

Les rythmes circadiens dans la dépression

Les auteurs font une présentation générale des connaissances sur les troubles des rythmes circadiens dans la dépression et en proposent une synthèse. Ils soulignent d’abord les difficultés méthodologiques de ces éludes: difficultés liées à la nécessité du recueil d’un nombre considérable de données et difficultés pour analyser ces données et vérifier que les différences observées correspondent bien é des cycles circadiens.

Ils envisagent ensuite les troubles des phases, des taux moyens et des amplitudes. Les phases des cycles circadiens ont été beaucoup étudiées surtout après la proposition du concept d’avance de phase comme caractéristique propre de la dépression, qui avait été faite par Wehr en 1980. II semble actuellement que, plus qu’une avance de phase, ce qui caractérise la dépression c’est une désorganisation des phases. Les taux moyens sont souvent modifiés. Parlois diminués (mélatonine), parfois augmentés (cortisol). Les amplitudes des oscillations sont le plus souvent diminuées. Cette constatation, plus récente que les précédentes, semble être de première importance. Moins un rythme est ample, moins il est stable. Il est possible que désynchronisation et diminution d’amplitude soient deux manifestations d’une «faiblesse» des rythmes circadiens qui serait leur caractère principal dans la dépression.

Ces anomalies n’existent pas que dans la dépression, mais c’est dans son cas qu’elles sont le plus manifestes. En général, elles disparaissent en période de rémission clinique. Pour expliquer ces perturbations, il semble qu’il faille envisager à la fois un trouble de la sensibilité aux synchroniseurs externes et un trouble des systèmes de contrôle interne des rythmes.

Le sommeil de sujets dépressifs endogenes avant, pendant et apres un décalage des horaires de sommeil

Cette étude décrit la structure et l'organisation temporelle du sommeil de 5 sujets dépressifs endogènes qui participèrent à un processus de décalage en avance de 5 heures des horaires de sommeil maintenu pendant deux semaines.

Comparée à ces témoins du même âage, I'architecture du sommeil est, chez les dépressifs avant décalage, très perturbée avec, notamment, fragmentation et inefficacité du sommeil, réduction du taux de sommeil lent et raccourcissement de la latence du sommeil paradoxal. L'organisation temporelle semble traduire, elle, une lutte entre tendance au sommeil lent et tendance au sommeil paradoxal.

Le sommeil des mêmes sujets s'est pratiquement normalisé pendant et surtout après le decalage des horaires de sommeil, exceptée la persistance de la réduction importante de la latence du sommeil paradoxal.

Il serait ainsi possible d'associer la dépression à une désynchronisation entre rythmicités contrôlant sommeil lent, sommeil paradoxal et d'autres rythmes circadiens. Une resynchronisation forcée par décalage des horaires de sommeil pourrait alors rendre compte des améliorations cliniques et biologiques qui ont été observées.

Biological clocks in depression: phase-shift experiments revisited

Five endogenous depressed patients were asked to participate in a phase-shift experiment consisting of advancing, by 5 hours, the time-schedule of the major external synchronizers such as light/dark cycle, sleep/wake, meal-time and social activity cycles. Clinical and biological parameters (body temperature, plasma cortisol, TSH and norepinephrine (NE) circadian rhythms) were observed throughout this two week period. The circadian rhythms were severely altered in the pre-treatment period, with a significant reduction of amplitude. During the phase shift experiment, the clinical state of the patients improved significantly. Their circadian rhythms were dramatically impaired in the first days of the procedure and were then restored after the first week, with higher amplitude. However, the TSH circadian rhythm remained unentrained by the phase shift leading to an internal desynchronization. Our findings suggest that entrainment of internal clocks by environmental information may be impaired in depression.

Using Chronobiological Phenotypes to Address Heterogeneity in Bipolar Disorder

Bipolar disorder (BD) is a neuropsychiatric mood disorder characterized by recurrent episodes of mania and depression in addition to disruptions in sleep, energy, appetite, and cognitive functions-rhythmic behaviors that typically change on daily cycles. BD symptoms can also be provoked by seasonal changes, sleep, and/or circadian disruption, indicating that chronobiological factors linked to the circadian clock may be a common feature in the disorder. Research indicates that BD exists on a clinical spectrum, with distinct subtypes often intersecting with other psychiatric disorders. This heterogeneity has been a major challenge to BD research and contributes to problems in diagnostic stability and treatment outcomes. To address this heterogeneity, we propose that chronobiologically related biomarkers could be useful in classifying BD into objectively measurable phenotypes to establish better diagnoses, inform treatments, and perhaps lead to better clinical outcomes. Presently, we review the biological basis of circadian time keeping in humans, discuss the links of BD to the circadian clock, and pre-sent recent studies that evaluated chronobiological measures as a basis for establishing BD phenotypes. We conclude that chronobiology may inform future research using other novel techniques such as genomics, cell biology, and advanced behavioral analyses to establish new and more biologically based BD phenotypes.

The association between mood state and chronobiological characteristics in bipolar I disorder: a naturalistic, variable cluster analysis-based study

BACKGROUND

Multiple types of chronobiological disturbances have been reported in bipolar disorder, including characteristics associated with general activity levels, sleep, and rhythmicity. Previous studies have focused on examining the individual relationships between affective state and chronobiological characteristics. The aim of this study was to conduct a variable cluster analysis in order to ascertain how mood states are associated with chronobiological traits in bipolar I disorder (BDI). We hypothesized that manic symptomatology would be associated with disturbances of rhythm.

RESULTS

Variable cluster analysis identified five chronobiological clusters in 105 BDI subjects. Cluster 1, comprising subjective sleep quality was associated with both mania and depression. Cluster 2, which comprised variables describing the degree of rhythmicity, was associated with mania. Significant associations between mood state and cluster analysis-identified chronobiological variables were noted. Disturbances of mood were associated with subjectively assessed sleep disturbances as opposed to objectively determined, actigraphy-based sleep variables. No associations with general activity variables were noted. Relationships between gender and medication classes in use and cluster analysis-identified chronobiological characteristics were noted. Exploratory analyses noted that medication class had a larger impact on these relationships than the number of psychiatric medications in use.

CONCLUSIONS

In a BDI sample, variable cluster analysis was able to group related chronobiological variables. The results support our primary hypothesis that mood state, particularly mania, is associated with chronobiological disturbances. Further research is required in order to define these relationships and to determine the directionality of the associations between mood state and chronobiological characteristics.

The relationship between affective state and the rhythmicity of activity in bipolar disorder

OBJECTIVE

The aim of this study was to test the relationships between mood state and rhythm disturbances as measured via actigraphy in bipolar disorder by assessing the correlations between manic and depressive symptoms as measured via Young Mania Rating Scale (YMRS) and 30-item Inventory for Depressive Symptomatology, Clinician-Rated (IDS-C-30) scores and the actigraphic measurements of rhythm, the 24-hour autocorrelation coefficient and circadian quotient.

METHOD

The research was conducted at the University of Texas Southwestern Medical Center at Dallas from February 2, 2009, to March 30, 2010. 42 patients with a DSM-IV-TR diagnosis of bipolar I disorder were included in the study. YMRS and the IDS-C-30 were used to determine symptom severity. Subjects wore the actigraph continuously for 7 days. The 24-hour autocorrelation coefficient was used as an indicator of overall rhythmicity. The circadian quotient was used to characterize the strength of a circadian rhythm.

RESULTS

A greater severity of manic symptoms correlated with a lower degree of rhythmicity and less robust rhythms of locomotor activity as indicated by lower 24-hour autocorrelation (r = -0.3406, P = .03) and circadian quotient (r = -0.5485, P = .0002) variables, respectively. No relationship was noted between the degree of depression and 24-hour autocorrelation scores (r = -0.1190, P = .45) or circadian quotient (r = 0.0083, P = .96). Correlation was noted between the 24-hour autocorrelation and circadian quotient scores (r = 0.6347, P < .0001).

CONCLUSIONS

These results support the notion that circadian rhythm disturbances are associated with bipolar disorder and that these disturbances may be associated with clinical signatures of the disorder. Further assessment of rhythm disturbances in bipolar disorder is warranted.

Actigraphic assessment of circadian activity and sleep patterns in bipolar disorder

OBJECTIVES

Theoretical accounts and psychological interventions for bipolar disorder indicate that disruption of circadian rhythms is important, both in affective episodes and as a vulnerability factor in subsyndromal periods. This study aims at assessing both circadian activity and sleep patterns using actigraphy within a bipolar sample experiencing low levels of subsyndromal symptoms. It is hypothesized that such participants will display circadian activity disruption in spite of low levels of symptoms.

METHODS

This study employed a mixed design with cross-sectional assessment of mood and week-long (7-day) recording of actigraphy data. All clinical participants were psychiatric outpatients within a UK NHS Hospital. Nineteen bipolar patients and 19 age- and gender-matched controls wore an actigraph for 7 days to obtain sleep and circadian activity data. SCID was used to confirm DSM-IV diagnostic status. Self-report measures of mood were obtained from both groups.

RESULTS

Bipolar patients were found to have less stable and more variable circadian activity patterns than controls. Regression analysis indicated that variability alone was a significant independent predictor of diagnostic group. There was evidence from raw activity data that bipolar patients were also less active than controls. These differences were not associated with levels of subsyndromal symptoms. Bipolar patients did not differ from controls on any of the sleep indices used.

CONCLUSIONS

Circadian activity disruption is apparent in bipolar patients even when not acutely ill. This finding is not associated with the presence of sleep disturbance. Should such patterns be replicated interventions to address both circadian instability and individual attributions for the effects of such instability are likely to be relevant to successful psychological interventions.

Psychological therapies for bipolar disorder: the role of model-driven approaches to therapy integration

OBJECTIVES

The psychological and social aspects of bipolar disorder are receiving increasing recognition. Recently, there have been promising developments in psychological interventions, but there is scope for further improvement of therapeutic outcomes. This paper argues for the use of more detailed psychological models of bipolar disorder to inform the further development of therapeutic approaches.

METHOD

Evidence for psychological, family and social factors in bipolar disorder is reviewed. The efficacy of current individual and family interventions are discussed. A model, which has potential to synthesize group and individual approaches, is outlined.

RESULTS

Psychological, social and family factors have important influences on the onset, course and outcome of bipolar disorder. Interventions based on vulnerability stress models have proved effective. However, to enhance efficacy future developments need to be based on models that integrate current understandings of the multiple levels at which mood fluctuations occur. A particular recent model is discussed which leads to specific proposals for future intervention research.

CONCLUSIONS

Psychological and family approaches to BD have much potential. They clearly have a role in conjunction with appropriate pharmacological treatment. If this potential is to be fully realized future developments need to be based on psychological models that can accommodate the complexity of this illness.

Diurnal rhythm in extracellular levels of 5-hydroxyindoleacetic acid in the medial prefrontal cortex of freely moving rats: an in vivo microdialysis study

The cerebral monoaminergic nervous system was monitored for its diurnal changes to find whether these can be used as neurochemical indices for emotional states. Freely moving rats that were not anesthetized were used: by employing an in vivo microdialysis technique, the levels of extracellular monoamine metabolites were measured. Under an alternating 12 h light and dark (LD) cycle and subsequent constant light (LL) condition, the extracellular 5-hydroxyindoleacetic acid (5-HIAA) level was significantly higher in the dark phase than in the light phase in the medial prefrontal cortex (mPFC). However, the 5-HIAA levels in the light and dark phases in the striatum or hippocampus did not significantly differ. The homovanillic acid (HVA) level was significantly higher in the dark phase than in the light phase in the mPFC and striatum. These findings indicate that the extracellular 5-HIAA level in the mPFC has site-specific circadian rhythmicity. Furthermore, considering the relationship among diurnal rhythm, emotional disturbance and the mPFC, the site-specific diurnal rhythmicity of 5-HIAA in the mPFC may be a useful index in neurochemical studies on emotional states, such as seen in affective disorders and psychiatric diseases.

Effects of trazodone and imipramine on the biological rhythm: an analysis of sleep EEG and body core temperature

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.

Critical analysis of the theories advanced to explain short REM sleep latencies and other sleep anomalies in several psychiatric conditions

One of the most consistent and most studied sleep modifications in several psychiatric conditions is the shortening of the rapid eye movement (REM) sleep latency. While its clinical usefulness is still to be proven and its meaning relatively obscure, the appearance of a short REM latency continues to be a daily fact in sleep laboratories. Many theories compete to explain what is observed, the most important being the circadian rhythm hypotheses, the homeostatic model and the reciprocal interaction model. These three are summarised and their pros and cons are exposed in a systematic manner. Points of conflict, possible convergences and limitations are discussed in the light of recent developments on the general theories of sleep regulation.

Temperature circadian rhythms during the menstrual cycle and sleep deprivation in premenstrual dysphoric disorder and normal comparison subjects

The aim of this study was to test the hypothesis that the circadian rhythm of core body temperature is altered in premenstrual dysphoric disorder (PMDD) subjects compared to that in normal comparison (NC) subjects and that it is normalized in PMDD subjects after treatment with early night partial sleep deprivation (ESD) or late night partial sleep deprivation (LSD). A total of 23 subjects meeting DSM-IV criteria for PMDD and 18 NC subjects had 24-h core body temperature recordings taken during the following conditions: (1) baseline midfollicular (preovulatory) and (2) late luteal (postovulatory) menstrual cycle phases and after a randomized crossover trial in subsequent luteal phases of (3) ESD, in which subjects slept from 03:00 to 07:00 h, followed by (4) a night of recovery sleep (ESD-R: sleep 22:30 to 06:30 h), and (5) LSD, in which subjects slept from 21:00 to 01:00 h, also followed by (6) a night of recovery sleep (LSD-R: sleep 22:30 to 06:30 h). Temperature amplitudes were significantly decreased in the luteal phase compared to those in the follicular menstrual cycle phase and increased after nights of recovery sleep. Compared to the baseline late luteal phase, during LSD, temperature amplitude increased in PMDD subjects but decreased in NC subjects. During ESD, the temperature acrophase was delayed in PMDD subjects but was advanced in NC subjects; during LSD, the temperature acrophase was advanced in PMDD subjects but was delayed in NC subjects compared to the late luteal baseline. Nocturnal temperature and temperature maxima and mesors tended to be higher in PMDD subjects than in NC subjects; when not reduced during sleep deprivation interventions, these were not associated with therapeutic effects. Alterations in both phase and amplitude of temperature circadian rhythms characterize PMDD subjects as contrasted with NC subjects in response to sleep deprivation. The changes in phase reflected more shifts in temperature acrophase in response to shifts in sleep in PMDD subjects. This realignment of the timing of sleep and temperature in addition to the enhancement of blunted amplitude rhythms during recovery nights of sleep may provide corrective mechanisms that contribute to the therapeutic effects of sleep deprivation.

Circadian rhythms and the pharmacology of affective illness

The chronic effects of antidepressant drugs (ADs) on circadian rhythms of behavior, physiology and endocrinology are reviewed. The timekeeping properties of several classes of ADs, including tricyclic antidepressants, selective serotonin reuptake inhibitors, monoamine oxidase inhibitors, serotonin agonists and antagonists, benzodiazepines, and melatonin are reviewed. Pharmacological effects on the circadian amplitude and phase, as well as effects on day-night measurements of motor activity, sleep-wake, body temperature (Tb), 3-methoxy-4-hydroxyphenylglycol, cortisol, thyroid hormone, prolactin, growth hormone and melatonin are examined. ADs often lower nocturnal Tb and affect the homeostatic regulation of sleep. ADs often advance the timing and decrease the amount of slow wave sleep, reduce rapid eye movement sleep and increase or decrease arousal. Together, AD effects on nocturnal Tb and sleep may be related to their therapeutic properties. ADs sometimes delay nocturnal cortisol timing and increase nocturnal melatonin, thyroid hormone and prolactin levels; these effects often vary with diagnosis, and clinical state. The effects of ADs on the coupling of the central circadian pacemaker to photic and nonphotic zeitgebers are discussed.

Light and biological rhythms

Chronobiology--derived from chronos (time), bios (life), and logos (study of)--is the objective description of biological time structures and plays an important role in medicine. Circadian rhythms regulate the behaviour, physiology and function of living organisms at many biochemical levels. The influence of the rhythmic manifestation of life may be shown in the constructive effects of growth, development and maturation and is named anachronobiology. In contrast catachronobiology denotes deleterious effects of time and rhythm which may lead to a diseased state. This article summarizes some new data about light as a synchronizer of biological rhythms. A time-keeper--biological clock--is used by the body for readjustment of rhythms when this is desirable. More recently, light has been used to adjust the biological clock following changes of circadian rhythms during shift work or jet lag occurring when flying from one time zone to another. Light may be used to treat depression, sleep disorders, menstrual dysregulations and other illnesses with disturbed circadian and seasonal rhythms. Examples of the importance of chronopharmacology (time-dependent changes in drug metabolism and drug effect) are also presented. New findings indicate that circadian oscillators are under genetic control; a light-influenced regulatory role for cellular immediate-early genes in circadian behaviour has been discovered. This suggests that light is of importance in regulation of macromolecular synthesis at all levels of the circadian system.

Circannual and menstrual rhythm characteristics in manic episodes and body temperature

Most reports in the literature deal with groups when summarizing the timing of affective disorders along the scale of the year and the menstrual cycle. In order to look for any regularity in timing of manic episodes in a single individual along these two time scales, a woman with a history of mania only, caused by schizoaffective disorder and on maintenance therapy with thioridazine hydrochloride self-measured basal body temperature daily and recorded onset and duration of manic episodes for 11 years. Statistically significant rhythms were found in body temperature with periods equal to the menstrual cycle and the year, with acrophase (highest values) during the luteal phase and winter, respectively. The timing of 11 manic episodes was not random but occurred during distinct portions of the menstrual cycle and the year. Most manic days occurred near menstruation or during the follicular phase of the menstrual cycle (up to ovulation) and between December and May (winter-spring). A temporal schedule for psychopharmacological treatment designed from individualized, longitudinal records that adjusts daily dosages according to both time of year and stage of menstrual cycle might alleviate or minimize the occurrence, magnitude and/or duration of mania and possibly other affective disorders that are found to be associated with underlying biological periodicities.

Sleep and heart rate circadian rhythm in depression: the necessity to separate

In order to determine whether a decrease in the amplitude of heart rate circadian rhythm (HRCR) could represent a chronobiological marker of depression and to answer the question of the possible role of this alteration in the reduction of rapid eye movement sleep latency (REM latency) observed in depression, 22 major depressed patients (DSM III R, Montgomery Asberg Depression Rating Scale) and 11 healthy volunteers entered this study, which included the simultaneous recordings of sleep and heart rate (HR) during two consecutive 24-h periods. After a smoothing procedure, the HR data, obtained from a portable device providing mean HR/min, were computed with the single cosinor method for the classical circadian parameters. We also determined the cosinor fitting index (CFI = percentage to fit). When studied as a single group and compared to the control group, the depressed patients, who had difficulties in sleep initiation and whose REM latencies were within normal limits, were characterized by a dampening of the amplitude HRCR and of the day-night HR difference. This was linked to a lesser increase of HR during the day and a reduced decrease at night. No significant phase modification of HRCR was observed in this group of depressives. In a second step, the depressives were divided into a depressed arrhythmic group (DAG, CFI < 50%, 11 patients) and a depressed rhythmic group (DRG, CFI > 50%, 11 patients) who did not differ on MADRS scores. Even though the amplitude of HRCR was reduced in the DAG only, with HR higher at night and lower during the daytime than for controls, both DAG and DRG significantly differed from controls on those items related to sleep induction and maintenance. In the DAG only was there a tendency toward a reduction of total sleep time and REM sleep time while REM latency was normal. This finding suggests that sleep problems are not responsible for the differences in HRCR parameters between the two depressed groups. These differences in HR and sleep parameters between two groups of similarly depressed patients also suggest that a short REM latency does not systematically imply a disruption of all circadian clocks.

Light therapy of depression; basal and clinical aspects

The effects of treatment with bright light in different forms of depressive conditions are described. The therapeutic mode rests on the hypothesis that they will normalize disturbed diurnal rhythms. The results have been more favourable when light has been given in the morning compared with in the evening, and in patients with seasonal depression rather than in those with non-seasonal illness.

Magnetic fields mimic the behavioral effects of REM sleep deprivation in humans

The discovery of rapid eye movement (REM) sleep by Aserinsky and Kleitman in 1953 initiated the impetus for sleep research and specifically the investigations of the effects of REM sleep deprivation (RSD) on animal and human behavior. The behavioral effects of RSD include the enhancement of motivational and "drive"-related behaviors. In laboratory animals, RSD has been reported to increase appetite, sexual behavior, aggressiveness, and locomotor activity. Moreover, RSD reportedly improves mood in patients with endogenous depression and heightens appetite and sexual interest in normal subjects. Since "drive"-related behaviors are thought to involve activation of limbic dopaminergic reward sites, RSD may enhance motivational behaviors through an action on limbic dopaminergic functions. In the present communication, we present two patients (one with multiple sclerosis and the other with Parkinson's disease) in whom treatment with magnetic fields produced behavioral effects which paralleled those observed in REM-sleep-deprived animals and humans. We propose, therefore, that the behavioral and mental effects of treatment with magnetic fields may be mediated via RSD and, by inference, involve activation of limbic dopaminergic reward sites.

The circadian rhythm of body temperature

This paper reviews the literature on the circadian rhythm of body temperature (CRT). The review starts with a brief discussion of methodological procedures followed by the description of known patterns of oscillation in body temperature, including ultradian and infradian rhythms. Special sections are devoted to issues of species differences, development and aging, and the relationships between the CRT and the circadian rhythm of locomotor activity, between the CRT and the thermoregulatory system, and between the CRT and states of disease. A section on the nervous control of the CRT is followed by summary and conclusions.

Clinical and biochemical aspects of depressive disorders: II. Transmitter/receptor theories

The present document is the second of three parts in a review that focuses on recent data from clinical and animal research concerning the biochemical bases of depressive disorders, diagnosis, and treatment. Various receptor/transmitter theories of depressive disorders are discussed in this section. Specifically, data supporting noradrenergic, serotonergic, cholinergic, dopaminergic, GABAergic, and peptidergic theories, as well as interactions between noradrenergic and serotonergic, or cholinergic and catecholaminergic systems are presented. Problems with the data and future directions for research are also discussed. A previous publication, Part I of this review, dealt with the classification of depressive disorders and research techniques for studying the biochemical mechanisms of these disorders. A future publication, Part III of this review, discusses treatments for depression and some of the controversies in this field.

Circadian rhythms in depression. Part II: Circadian rhythms in inpatients with various mental disorders

We investigated longitudinally the circadian body temperature rhythms in 65 inpatients with various mental disorders, 38 of whom had major depressive episodes, by estimating the deep body temperature from the skin surface every 2 h for a consecutive 48-h period. To estimate the circadian rhythm, the data obtained were analyzed by the least-squares method and maximum entropy spectral analysis (MEM). Circadian rhythm disturbances in patients with depression were likely to be manifested in phase variability rather than in phase advance. The amplitude of body temperature of the depressed group was significantly less than that of the control group. A positive correlation between the mesor and the severity of the depressive symptoms was found. Moreover, the body temperature of the patients with affective disorders, both in the depressive and in the manic state, tended to fluctuate so much as not only to fit poorly to sinusoid curves, but also to reduce the periodicity of the circadian rhythm. On the basis of these findings, we conclude that the essential feature of the rhythm disturbances in affective disorders is not the phase shift but the instability of the circadian temperature rhythm.

Effects of light treatment on core body temperature in seasonal affective disorder

Abnormalities in circadian rhythms of core body temperature have been reported previously in depressed patients. In this study, we compared the temperature rhythms of 10 depressed seasonal affective disorder (SAD) patients with winter depression with those of 12 normal controls and evaluated the effects of bright light on temperature in SAD. Unlike previous studies of depressed patients, the temperature curves of the patients and normal controls during the off-light condition were nearly identical. We found a significant difference in amplitude between the patients in the untreated and light-treated conditions. Although there was no systematic difference in circadian phase across groups or treatment conditions, we present preliminary evidence that suggests that phase-typed subgroups may be present in the population distinguished by their treatment responses.

Circadian rhythms in depression and recovery: evidence for blunted amplitude as the main chronobiological abnormality

Circadian rhythms of body temperature, plasma cortisol, norepinephrine (NE), thyroid stimulating hormone (TSH), and melatonin were compared in 16 endogenously depressed, 15 recovered (after 3 weeks of anti-depressant treatment), and 16 normal subjects. The depressed patients showed clear circadian rhythm abnormalities, consisting mainly in amplitude reduction. This amplitude reduction was significantly correlated with the patients' Hamilton depression scores. Normal circadian profiles were restored after recovery when amplitude, in particular, was increased. Features of the circadian rhythms observed in remission may be associated with antidepressant drug effects, whereas those observed in depression resemble the circadian rhythms observed in normal subjects living under conditions of temporal isolation and those of blind subjects. Our findings suggest that depression may be related both to a weakening of the coupling processes between internal pacemakers and to an abnormal sensitivity to environmental information.

Nocturnal TSH and prolactin secretion during sleep deprivation and prediction of antidepressant response in patients with major depression

In order to test the hypothesis that changes in the hypothalamic-pituitary axis during sleep deprivation are related to the antidepressant effects of this procedure, we measured thyroid-stimulating hormone (TSH) and prolactin levels in 32 depressed patients at 2:00 AM during a night before, during, and after total sleep deprivation (TSD). TSH levels increased significantly (p less than 0.05) during TSD, and prolactin levels decreased significantly (p less than 0.0001). When we divided the patients into responder and nonresponder groups based on a 30% reduction in the Hamilton Rating Scale, there was no difference between the two groups in their hormone levels on the baseline, TSD, or recovery nights. Changes in prolactin or TSH were not correlated with clinical improvement when the two groups were considered together or in the responder/nonresponder groups separately. Baseline values of both hormones were significantly (p less than 0.01) correlated with their respective levels during TSD and recovery sleep. These findings indicate that the relative levels of nocturnal TSH and prolactin are stable even within acutely depressed individuals and that changes in their levels are not related to the clinical response to sleep deprivation.

Body core temperature and depression during total sleep deprivation in depressives

Endogenously depressed patients were subjected to a total sleep deprivation (TSD) schedule of sleep-TSD-sleep-TSD. They were simultaneously treated with the antidepressant drug clomipramine. Self- and observer-rated depression was measured daily. Continuously measured rectal temperature (RT) data were available for the second TSD. It was found that a higher nocturnal minimum RT during this TSD was associated with a positive clinical response.

Clinical and biochemical manifestations of depression. Relation to the neurobiology of stress (2)

Thousands of studies have been conducted of the functioning of the many neurotransmitter systems in order to explore the biologic basis of major depressive disorder. Instead of reviewing this literature exhaustively, we have attempted to propose a model that accommodates the clinical observation that chronic stress early in life in vulnerable persons predisposes them to major depression with contemporary observations of the potential consequences of repeated central nervous system exposure to effectors of the stress response. This model accords with current clinical judgment that major depression is best treated with a combination of psychopharmacologic agents and psychotherapy. Accordingly, whereas psychopharmacologic intervention may be required to resolve an active episode of major depression and to prevent recurrences, psychotherapy may be equally important to lessen the burden of stress imposed by intense inner conflict and counterproductive defenses.

Deficient nocturnal surge of TSH secretion during sleep and sleep deprivation in rapid-cycling bipolar illness

Rapid-cycling bipolar patients have a high prevalence of hypothyroidism, and this disturbance in their hypothalamic-pituitary-thyroid (HPT) function may provide a model for understanding the less severe thyroid dysfunction present in other forms of affective disorder. For these reasons, we investigated HPT function in eight rapid-cycling bipolar patients and eight normal controls by measuring plasma levels of thyroid-stimulating hormone (TSH) and cortisol every 30 min during a baseline 24-h period and during an additional night of sleep deprivation. Thyrotropin-releasing hormone (TRH) (500 micrograms) challenge tests were also performed in the patients. Controls exhibited a significant circadian variation in TSH with a nocturnal rise that was augmented by sleep deprivation. In the rapid cyclers, the nocturnal rise in TSH was absent, and sleep deprivation failed to raise their TSH levels significantly compared with baseline. Low nocturnal TSH levels were associated with blunted TSH responses to TRH infusions; due to the relatively brief sampling interval used in the TRH challenge tests, however, these results do not reliably discriminate between hypothalamic and pituitary dysfunction as an etiology for low nocturnal TSH levels. Additional studies are needed to determine the precise nature of the HPT disturbance in rapid-cycling patients.

Circadian manifestations of barbiturate habituation, addiction and withdrawal in the rat

The thermal acrophase for the circadian oscillation of core temperature in Charles River male rats fed ad libitum and entrained by light (12 hr dim light and 12 hr bright light) (DL 12:12 hr) occurred near the middle of the dim phase on a control diet of 30% protein. Dietary phenobarbital (0.25%) caused an increase in amplitude of the oscillation (from 0.7 degrees to 1.2 degrees C) and a phase-angle difference (psi-advance) between the zeitgeber and the biological oscillation of about 32 degrees, equivalent to an advance in the thermal acrophase of 2.1 hr in the steady-state. Food consumption was monitored continually and was nearly the same in the two groups; however, animals on the control diet ate around the clock, albeit at a greater rate during dim light than during the bright light phase, whereas rats on phenobarbital started to eat earlier and confined their feeding almost exclusively to early dim phase. This pattern of increase in amplitude of the thermal oscillation and of feeding closely resembling programmed feeding, persisted in phenobarbital-treated animals even in the absence of a dim light-bright light (DL) zeitgeber for eight days. Similar behavior was seen in rats entrained by illumination cycles of 17 hr of dim light and 7 hr of bright light, but with this reduced phase ratio for the zeitgeber, few psi-shifts occurred, and these were smaller than those induced in the group receiving 12 hr of dim light and 12 hr of bright light. In each group, introduction of the drug into the diet and, even more noticeably, removal of the drug from the diet, induced transients of circadian dyschronism that persisted for 4-5 days.

Antidepressant effects of the sleep/wake cycle phase advance. Preliminary report

Five patients with endogenous depression were asked to participate in a phase-advance procedure consisting in advancing by 5 h the time schedule of the major external synchronizers such as light/dark, sleep/wake, meal time and social activity cycles. Clinical and biological parameters were observed throughout this 2-week process which followed one night of partial sleep deprivation. All patients improved with partial sleep deprivation and four of the five showed continuing remission during the phase-advance process. The antidepressant effects of the phase-advance process are discussed in light of different chronobiological models for depression.

Rhythm and blues. Neurochemical, neuropharmacological and neuropsychological implications of a hypothesis of circadian rhythm dysfunction in the affective disorders

Current views on the organisation and functions of the circadian rhythm system are outlined. Evidence is presented supportive of the notion that the pathophysiology of the affective disorders involves a disruption of circadian rhythms and that the primary locus of action of agents effective in the affective disorders is on the circadian rhythm system. Potential disruptions of this system are enumerated. Such a hypothesis, it is argued, might potentially unite the disparate neurochemical and neuroendocrinological findings emerging in both depression and mania. There are in addition neuropsychological and nosological implications of such a framework, which may help bridge the divide between molecular and behavioural approaches to research on the affective disorders which are outlined.

REM latency and core temperature relationships in primary depression

REM latency and rectal and ear canal temperature were studied simultaneously in 11 controls and nine depressed patients; seven of the patients were studied when recovered. REM latency was shorter in the depressed group compared with controls and lengthened with recovery. The nocturnal and ear canal temperatures were higher in the depressed group compared with controls and decreased with recovery. REM latency and the nocturnal rectal temperature were negatively correlated when all the nights of the depressed patients were analyzed (r = -0.44) and when all the nights of the subjects were analyzed (r = -0.44). REM latency and nocturnal ear canal temperatures were negatively correlated when all the nights of the control group were analyzed (r = -0.34). The timing of the temperature rhythm did not appear to be correlated with the REM latency.

The circadian rhythm of plasma thyrotropin in depression and recovery

The 24-hr patterns of plasma thyrotropin have been observed in 12 endogenous depressed patients in both depressed and recovered states and in 13 normal subjects. A clear circadian rhythm was detected in controls with high values at night. In depression, the circadian rhythm was altered with amplitude reduction and blunted nocturnal secretion, abnormalities particularly relevant in bipolar patients. This flattened profile could be linked to the blunted response of TSH to TRH administration reported in depressed patients. Normal nyctohemeral patterns have been restored after recovery. These chronobiological abnormalities as well as their normalization under antidepressant drugs seem to be similar to those reported for various parameters (e.g. temperature, cortisol, etc) in depression which could support the chronobiological hypothesis for affective disorders.

Antidepressant tachyphylaxis

We report eleven patients in whom tachyphylaxis to antidepressants, lithium or ECT occurred. These cases are a small sample of patients we have encountered in whom an initial good response to mood regulating drugs was not sustained. We suspect that systematic studies would reveal that tachyphylaxis is a common phenomenon with antidepressant therapies.

The sleep therapies of depression

This paper reviews five different types of deliberate sleep-wake manipulations which are reported to have antidepressant effects: total sleep deprivation, partial sleep deprivation, a phase advance of the sleep periods, and REM deprivation. The effects of total sleep deprivation are best documented. Of 852 depressed patients studied, 493 or 57.9% improved following sleep deprivation. The REM deprivation procedure acts more slowly, but is of more lasting clinical value than the other forms. Partial sleep deprivation during the second half of the night may be as good as total sleep deprivation and better tolerated. The findings are reviewed in terms of psychological, neurophysiological, biochemical, and chronobiological perspectives.

Diurnal variation of urinary MHPG in unipolar and bipolar depressives

In eight bipolar depressives, 11 unipolar depressives, and 15 healthy controls urinary excretion of MHPG was measured at 3-h intervals over one 24-h period. Bipolars excreted smaller amounts of MHPG than unipolars and controls, especially at night. MHPG excretion was significantly dependent on time of day in the control group only. In the patients maximum excretion showed a tendency to occur earlier in the day than in controls. Minima were unaffected. There were indications that tricyclic antidepressants advance MHPG phases.

Circadian course of body temperature and the excretion of MHPG and VMA in a patient with bipolar depression

A 38-year old woman with a bipolar affective disorder was examined for 10 days during a serious retarded depression phase and for 10 days during the subsequent symptom -free interval. During depression the MHPG-excretion showed a significantly shorter circadian periodicity of 20.5 hours, whereas the periodicity of body temperature and VMA amounted to 24 hours. During the symptom-free interval the circadian periodicity of all parameters was 24 hours. These results indicated that the depression phase of a bipolar affective disorder in this patient is related to a desynchronization of central NA function with peripheral NA activity and body temperature.

[Analysis of circadian temperature rhythm in endogenous depressive illness (author's transl)]

In long term studies on three endogenous depressive female patients, the circadian course of body temperature has been observed during depressive and manic episodes as well as during the intervals. The patients measured their oral temperature regularly, several times a day. The mathematical analysis, carried out with methods of digital signal processing using an interactive computer program system TIMESDIA, showed the following results: A period length of 24 h, independent on the state of mood. During depression and during mania, however, a greater variability of the daily temperature pattern was found, which resulted from changes of the phase relationship of higher harmonics.