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Target Concepts:
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Query: UMLS:C0023380 (
lethargy
)
5,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CRH
has been shown to produce increased locomotion, arousal, and anorexia in experimental animals. A deficiency of
CRH
in patients with seasonal affective disorder could contribute to the characteristic
lethargy
, hypersomnia, and hyperphagia characteristic of this illness. To test this hypothesis, we studied basal plasma ACTH and cortisol levels and their responses to ovine
CRH
in controls and depressed patients with seasonal affective disorder before and after light treatment. Untreated seasonal affective disorder patients showed normal basal plasma cortisol and ACTH levels, but their responses to
CRH
tended to be delayed and were significantly reduced. When patients were studied after 9 days of light treatment, a significant increase in plasma ACTH and cortisol responses to
CRH
was observed. Our findings in untreated patients with seasonal affective disorder are similar to those in patients with Cushing's disease 2 weeks after transsphenoidal hypophysectomy, who uniformly show sustained suppression of their
CRH
neuron because of long-standing hypercortisolism. This findings suggest that the
CRH
neuron of patients with seasonal affective disorder is hypofunctional. We postulate that the clinical symptomatology in patients with seasonal affective disorder could reflect deficient activity of this important arousal-producing system.
...
PMID:Abnormal pituitary-adrenal responses to corticotropin-releasing hormone in patients with seasonal affective disorder: clinical and pathophysiological implications. 185 Nov 85
The cardinal clinical manifestations of major depression with melancholic features include sustained anxiety and dread for the future as well as evidence of physiological hyperarousal (e.g., sustained hyperactivity of the two principal effectors of the stress response, the corticotropin-releasing-hormone, or
CRH
, system, and the locus ceruleus-norepinephrine, or LC-NE, system). Sustained stress system activation in melancholic depression is thought to confer both behavioral arousal as well as the hypercortisolism, sympathetic nervous system activation, and inhibition of programs for growth and reproduction that consistently occur in this disorder. Data also suggest that activation of the
CRH
and LC systems in melancholia are involved in the long-term medical consequences of depression such as premature coronary artery disease and osteoporosis, the two-three-fold preponderance of females in the incidence of major depression, and the mechanism of action of antidepressant drugs. In addition, recent data reveal important bidirectional interactions between stress-system hormonal factors in depression and neural substrates implicated in many discrete behavioral alterations in depression (e.g., the medial prefrontal cortex, important in shifting affect based on internal and external cues, the mesolimbic dopaminergic reward system, and the amygdala fear system). We have also advanced data indicating that the hypersomnia, hyperphagia,
lethargy
, fatigue, and relative apathy of the syndrome of atypical depression are associated with concomitant hypofunctioning of the
CRH
and LC-NE systems. These data indicate the need for an entirely different therapeutic strategy than that used in melancholia for the treatment of atypical depression, and they suggest that this subtype of major depression will be associated with its own unique repertoire of long-term medical consequences.
...
PMID:The endocrinology of melancholic and atypical depression: relation to neurocircuitry and somatic consequences. 989 54
Stress precipitates depression and alters its natural history. Major depression and the stress response share similar phenomena, mediators and circuitries. Thus, many of the features of major depression potentially reflect dysregulations of the stress response. The stress response itself consists of alterations in levels of anxiety, a loss of cognitive and affective flexibility, activation of the hypothalamic-pituitary-adrenal (HPA) axis and autonomic nervous system, and inhibition of vegetative processes that are likely to impede survival during a life-threatening situation (eg sleep, sexual activity, and endocrine programs for growth and reproduction). Because depression is a heterogeneous illness, we studied two diagnostic subtypes, melancholic and atypical depression. In melancholia, the stress response seems hyperactive, and patients are anxious, dread the future, lose responsiveness to the environment, have insomnia, lose their appetite, and a diurnal variation with depression at its worst in the morning. They also have an activated
CRH
system and may have diminished activities of the growth hormone and reproductive axes. Patients with atypical depression present with a syndrome that seems the antithesis of melancholia. They are
lethargic
, fatigued, hyperphagic, hypersomnic, reactive to the environment, and show diurnal variation of depression that is at its best in the morning. In contrast to melancholia, we have advanced several lines of evidence of a down-regulated hypothalamic-pituitary adrenal axis and
CRH
deficiency in atypical depression, and our data show us that these are of central origin. Given the diversity of effects exerted by
CRH
and cortisol, the differences in melancholic and atypical depression suggest that studies of depression should examine each subtype separately. In the present paper, we shall first review the mediators and circuitries of the stress system to lay the groundwork for placing in context physiologic and structural alterations in depression that may occur as part of stress system dysfunction.
...
PMID:Organization of the stress system and its dysregulation in melancholic and atypical depression: high vs low CRH/NE states. 1192 Jan 53
Central adrenal insufficiency (CAI) is a life-threatening condition caused by either pituitary disease (secondary adrenal insufficiency) or impaired hypothalamic function with inadequate
CRH
production (tertiary adrenal insufficiency). ACTH deficiency may be isolated or, more frequently, occur in conjunction with other pituitary hormone deficiencies and midline defects. Genetic mutations of the TBX19 causing isolated CAI are rare but a number of genes encoding transcription factors involved in hypothalamic-pituitary gland development, as well as other genes including POMC and PC1, are associated with ACTH deficiency. CAI is frequently identified in congenital, malformative, genetic, and epigenetic syndromes as well as in several acquired conditions of different etiologies. The signs and symptoms vary considerably and depend on the age of onset and the number and severity of associated pituitary defects. They may include hypoglycemia,
lethargy
, apnea, poor feeding, prolonged cholestatic jaundice, jitteriness, seizures, and sepsis in the neonate, or nonspecific signs such as fatigue, hypotension, vomiting and hyponatremia without hyperkalemia in children. The diagnosis of CAI relies on the measurement of morning cortisol concentrations along with dynamic test for cortisol release with different stimulating agents. Early recognition of CAI and its correct management are mandatory in order to avoid both morbidity and mortality in affected neonates, children and adolescents.
...
PMID:Central adrenal insufficiency in children and adolescents. 3008 67
