Pituitary dysfunction and association with fatigue in stroke and other acute brain injury

To describe the course of fatigue during the first year poststroke and to determine the relation between fatigue at 1 year poststroke and personal characteristics, stroke characteristics, and poststroke impairments. Inception cohort. Rehabilitation center. Patients (N=167) with a first-ever supratentorial stroke admitted for inpatient rehabilitation. Not applicable. The Fatigue Severity Scale measured the presence and impact of fatigue at admittance for inpatient rehabilitation, as well as at 6 months and 1 year poststroke. At admission, 6 months and 1 year poststroke, fatigue was present in 51.5%, 64.1%, and 69.5% of the patients, respectively. Fatigue impact 1 year poststroke was greater among patients with more depressive symptoms, higher age, women, and patients with a locus of control more directed to powerful others. Because fatigue impact is an increasing problem during the first year poststroke, it deserves more attention in clinical practice and scientific research. Locus of control and depression are related to poststroke fatigue and might be important foci for future interventions.

Traumatic brain injury (TBI) is a growing public health problem worldwide and is a leading cause of death and disability. The causes of TBI include motor vehicle accidents, which are the most common cause, falls, acts of violence, sports-related head traumas, and war accidents including blast-related brain injuries. Recently, pituitary dysfunction has also been described in boxers and kickboxers. Neuroendocrine dysfunction due to TBI was described for the first time in 1918. Only case reports and small case series were reported until 2000, but since then pituitary function in TBI victims has been investigated in more detail. The frequency of hypopituitarism after TBI varies widely among different studies (15-50% of the patients with TBI in most studies). The estimates of persistent hypopituitarism decrease to 12% if repeated testing is applied. GH is the most common hormone lost after TBI, followed by ACTH, gonadotropins (FSH and LH), and TSH. The underlying mechanisms responsible for pituitary dysfunction after TBI are not entirely clear; however, recent studies have shown that genetic predisposition and autoimmunity may have a role. Hypopituitarism after TBI may have a negative impact on the pace or degree of functional recovery and cognition. What is not clear is whether treatment of hypopituitarism has a beneficial effect on specific function. In this review, the current data related to anterior pituitary dysfunction after TBI in adult patients are updated, and guidelines for the diagnosis, follow-up strategies, and therapeutic approaches are reported.