Primary empty sella

CONTEXT: The term primary empty sella (PES) refers to a number of endocrine and/or neurological disturbances that may be caused by the herniation of subarachnoid space within the sella. SETTING: The records of all patients with a diagnosis of empty sella between 1985 and 2002 seen at the Catholic University of Rome and University of Brescia were examined retrospectively. PATIENTS: We have observed 171 female and 42 male patients affected by PES (over 4:1 sex ratio). The mean age at diagnosis in our subjects was 51.8 +/- 2.1 yr. Mean body mass index was 27.3 +/- 3.5 kg/m2. MAIN OUTCOME MEASURE: All the patients have been analyzed first either with sellar computed tomography scan or magnetic resonance imaging. All patients underwent neurological, ophthalmological, and baseline endocrine evaluation (appropriate stimulation tests were performed when hypopituitarism was suspected). Results: In the overall population, 40 of 213 patients had documented endocrine abnormalities, specifically 31 females and nine males. Twenty-two patients (10.3% of total patients; 18 women, 10.5% of all women, with a mean age of 38.6 +/- 1.1 yr and four males, with a mean age 46.5 +/- 3.52 yr) presented with hyperprolactinemia. Global anterior hypopituitarism was confirmed in nine patients. Eight patients presented an isolated GH deficiency. One hundred thirty-eight of our patients presented a so-called partial empty sella at computed tomography scan/magnetic resonance imaging, and 75 had total PES. CONCLUSIONS: PES may be associated with variable clinical conditions ranging from mild endocrine disturbances to severe intracranial hypertension and rhinorrhea. The need for treatment of hyperprolactinemia as well as for replacement hormone therapy must be assessed in PES. Symptomatic intracranial hypertension makes cerebrospinal fluid shunting procedures necessary.     

Evolving hypopituitarism as a consequence of traumatic brain injury (TBI) in childhood - call for attention

Hypopituitarism is a common complication of TBI in long-term survivors, more frequent than previously realized. It may be partial or complete, sometimes very subtle without visible lesions in hypothalamo-pituitary region and is diagnosed only by biochemical means. Neuroendocrine abnormalities caused by TBI may have significant implications for the recovery and rehabilitation of these patients. The subjects at risk are those who have suffered moderate to severe trauma, although mild intensity trauma may precede hypopituitarism also. Particular attention should be paid to this problem in children and adolescents. We describe a patient with hypopituitarism thought to be idiopathic due to mild head trauma which caused diabetes insipidus in childhood, gradual failure of pituitary hormones during the period of growth and development, and metabolic (dyslipidemia), physical (obesity), and cognitive impairments in the adult period.     

Hypopituitarism induced by traumatic brain injury in the transition phase

Traumatic brain injury (TBI) has been associated with hypopituitarism in general and GH deficiency (GHD) in particular; the consequences of this on growth and development are likely to be critical in children and adolescents in the so-called "transition phase". In order to verify the consequences of TBI on pituitary function in the transition phase, we studied a population of adolescents and young adults 3 and 12 months after brain injury [no. = 23, 9 females, 14 males; age: 16-25 yr; body mass index (BMI): 21.9 +/- 0.6 kg/m2]. At 3 months, hypopituitarism was present in 34.6%. Total, multiple and isolated deficits were present in 8.6, 4.3 and 21.7%, respectively. Diabetes insipidus (DI) was present in 8.6% patients and mild hyperprolactinemia in 4.3%. At 12 months, hypopituitarism was present in 30.3%. Total, multiple and isolated deficits were present in 8.6, 4.3 and 17.4%, respectively. DI was present in 4.3% of patients and mild hyperprolactinemia in 4.3%. Total hypopituitarism was always confirmed at retesting. Multiple and isolated hypopituitarism were confirmed in 0/1 and 2/5, respectively. Two/23 patients showed isolated hypopituitarism at 12 months only; 1 patient with isolated at 3 months showed multiple hypopituitarism at retesting. GHD and secondary hypogonadism were the most common acquired pituitary deficits. These results show the high risk of TBI-induced hypopituitarism also in the transition age. Thus it is recommended that pediatric endocrinologists follow-up pituitary function of children and adolescents after brain injuries.     

Hormonal Replacement in Patients with Brain Injury-Induced Hypopituitarism: Who, When and How to Treat?

Traumatic brain injury is one of the main causes of death, as well as, physical and cognitive disabilities in young adults. Recent studies have demonstrated head injury (TBI and SAH) as a frequent cause of hypopituitarism. Since hormonal deficits may contribute to the outcome of the patient, it is important to establish guidelines of who, when, and how to treat. The probability of developing hypopituitarism has been based on the severity of the TBI. Yet discrepancies in recent studies display that minimal TBI can also result in hypopituitarism. Thus patients with moderate to severe TBI must be screened and those with minimal TBI monitored for hypopituitarism. The temporal relationship between TBI and occurrence of hypopituitarism is observed in 3 phases-acute, recovery, and chronic. Clear hormonal deficits should be treated, but the question arises concerning subtle abnormalities and their role in the outcome of TBI patients.     

Hypopituitarism findings in patients with primary brain tumors 1 year after neurosurgical treatment: preliminary report

Hypopituitarism represents the consequence of many conditions, in both the adult and child population. It may occur after neurosurgical treatment of brain tumors arising near sella turcica. Much more attention has been focused on lesions far from the hypothalamic-pituitary region as possible causes of pituitary impairment, validating the concept of the particular fragility of these structures. The aim of this study was to evaluate pituitary function in particular GH deficiency (GHD) in patients submitted to neurosurgery for benign tumors of the central nervous system (CNS) not involving hypothalamic-pituitary region. We observed 37 patients with benign brain tumors [13 males, 24 females, age: 54.6+/-13.9 yr; body mass index (BMI): 25.1+/-4.0 kg/m2] performing a basic evaluation of the pituitary function and a dynamic test of the GH/IGF-I axis [GHRH (1 microg/kg iv)+arginine (0.5 g/kg iv) test] for 3 and 12 months after the neurosurgical treatment. Some degree of hypopituitarism was shown in 16 patients (43.2%) at the 3-months follow-up. Hypogonadism was present in 4 patients, hypoadrenalism in another 4 and hypothyroidism in 2. Two patients showed mild hyperprolactinemia and no patients had diabetes insipidus. Seven patients (18.9%) were GH deficient (peak GH <16.5 microg/dl). At 12 months retesting, some degree of hypopituitarism was confirmed in 8 patients, hypogonadism in 2 and hypothyroidism in one; no patients showed hypoadrenalism and GHD was present in 5. This data suggests that hypopituitarism of various degree may develop in patients who are submitted to neurosurgery for primary brain tumors, even far from hypothalamic-pituitary region.     

GH Deficiency as The Most Common Pituitary Defect After TBI: Clinical Implications

Recent studies have demonstrated that hypopituitarism, and in particular growth hormone deficiency (GHD), is common among survivors of traumatic brain injury (TBI) tested several months or years following head trauma. In addition, it has been shown that post-traumatic neuroendocrine abnormalities occur early and with high frequency. These findings may have significant implications for the recovery and rehabilitation of patients with TBI. The subjects at risk are those who have suffered moderate-to severe head trauma although mild intensity trauma may precede hypopituitarism also. Particular attention should be paid to this problem in children and adolescents. GH deficiency is very common in TBI, particularly isolated GHD. For the assessment of the GH-IGF axis in TBI patients, plasma IGF-I concentrations plus GH response to a provocative test is mandatory. Growth retardation secondary to GHD is a predominant feature of GHD after TBI in children. Clinical features of adult GHD are variable and in most obesity is present. Neuropsychological examinations of patients with TBI show that a significant portion of variables like attention, concentration, learning, memory, conceptual thinking, problem solving and language are impaired in patients with TBI. In the few case reports described, hormone replacement therapy in hormone deficient head-injured patients resulted in major neurobehavioral improvements. Improvements in mental-well being and cognitive function with GH replacement therapy in GHD adults have been reported. The effect of GH replacement in posttraumatic GHD needs to be examined in randomized controlled studies.     

Chronic Trauma in Sports as a Cause of Hypopituitarism

TBI is one of the most important public health problems in the world. Although the relationship between TBI and hypopituitarism has been known for a long time, neuroendocrine changes were investigated in detail recently. The prevalence of neuroendocrine abnormalities in patients with TBI is very high. Gonadotropin and GH deficiencies appear to be the most common defects. Although combative sports are very popular around the world, trauma due to sports is not generally considered as a cause of TBI in most of the epidemiological studies. All the studies regarding TBI in sports published so far in the literature based on neuropshycological or radiological assessment and no neuroendocrine changes were investigated. In a recent study, pituitary functions in amateur boxers have been investigated and it has been reported that boxing is a cause of TBI and isolated GH deficiency is very common among amateur boxers. It seems that acute or chronic head trauma in sports is a possible cause of hypopituitarism. In this review, current data regarding TBI in sports are discussed.     

Hypopituitarism following traumatic brain injury.

Recent studies have demonstrated that hypopituitarism, and in particular growth hormone (GH) deficiency, is common among survivors of traumatic brain injury (TBI) tested several months or years following head trauma. In addition, it has been shown that post-traumatic neuroendocrine abnormalities occur early and with high frequency. These findings may have significant implications for the recovery and rehabilitation of patients with TBI. Although data emerging after 2000 demonstrate the relevance of the problem, in general there is a lack of awareness in the medical community about the incidence and clinical repercussions of the pathology. Most, but not all, head trauma associated with hypopituitarism is the result of motor accidents. The subjects at risk are those who have suffered moderate-to severe head trauma although mild intensity trauma may precede hypopituitarism also. Particular attention should be paid to this problem in children and adolescents. Onset of pituitary deficits can evolve over years following injury. For the assessment of the GH-IGF axis in TBI patients, plasma IGF-I concentrations, plus dynamic GH testing is indicated. Some degree of hypopituitarism is found in 35-40% of TBI patients. Among multiple pituitary deficits, the most common ones were GHD and gonadotrophin deficiency. In most series 10-15% presented with severe GHD and 15% with partial GHD after stimulating GH secretion confirming that the most common isolated deficit is GHD. Psychometric evaluation together with neurocognitive testing shows variability of disability and the possibility that untreated TBI induced hypopituitarism contributes to the chronic neurobehavioral problems seen in many head-injured patients warrants consideration. Preliminary data, from small pilot, open-label studies show that subjects treated with GH experience significant improvements in concentration, memory, depression, anxiety and fatigue. In conclusion, pituitary failure can occur even in minor head injuries and is poorly recognized.     

Hypopituitarism as a consequence of traumatic brain injury (TBI) and its possible relation with cognitive disabilities and mental distress

Recent studies have demonstrated that hypopituitarism, in particular GH deficiency, is common among survivors of traumatic brain injury (TBI) tested several months or yr following head trauma. We present the results of endocrine, neurological, neuropsychological and psychiatric evaluation in a group of 67 patients who suffered TBI at least one yr ago. Our study shows that decreased endocrine function is either restricted to one or more anterior pituitary hormones and is present in 34% of patients with any pituitary hormone deficit, while multiple pituitary hormone deficiencies are found in 10% of patients. GH/IGF-I axis was evaluated by GHRH+GHRP-6 test and IGF-I measurement. Severe GHD is the most frequent deficiency present in 15% of TBI patients. Gonadotrophin deficiency was present in 9% of patients with TBI, while thyrotroph and corticotroph function seemed more refractory to impairment. Patients with moderate-to-severe trauma are not necessarily more likely to have hypopituitarism than those with mild injury. Neuropsychological testing revealed a significant positive correlation of peak GH levels after GHRH+GHJRP-6 test with verbal learning and verbal short term memory (RAVLT total score p = 0.06, immediate free recall p = 0.02 and delayed free recall p = 0.04). Verbal and visual memory was significantly lower in elderly patients and in males. Visoconstructional abilities (RCF copy) were significantly lower in the elderly (p < 0.01) and undereducated (p = 0.02). Visual memory (free recall of complex figure after 30 min) significantly correlated with lower IGF-I levels (p = 0.01). Gonadotrophins and testosterone correlated significantly with visoconstructional abilities. Simple and complex conceptual tracking (TMT A and B) was significantly more impaired in older TBI patients (p < 0.01) and with longer time from trauma (TMT B only, p = 0.03). The psychiatric evaluation by using two different scales showed depression, phobic anxiety and psychoticism to be more prominent in the TBI group. Paranoid ideation and somatization negatively correlated with the peak GH responses to GHRH+GHRP-6 test (p = 0.04 and p = 0.03, respectively). Depression scale showed that nearly half of patients suffered from mild to moderate depression. The benefits of hormone replacement therapy on cognitive functioning and mental distress in TBI patients are eagerly awaited.     

Boxing as a sport activity associated with isolated GH deficiency

Traumatic brain injury (TBI) has long been known as a cause of hypopituitarism, and it is characterized by a high prevalence of neuroendocrine abnormalities. Boxing, one of the most common combative sports, may also result in TBI. As far as we know, pituitary functions including GH status have not been investigated in boxers. Therefore, in this preliminary study, we have assessed the pituitary functions in boxers. Eleven actively competing or retired male boxers with a mean age of 38.0 +/- 3.6 yr and 7 age-, sex- and BMI-matched healthy non-boxing controls were included in the study. Biochemical and basal hormonal parameters including IGF-I levels were measured. To assess GH secretory status in boxers and healthy controls, GHRH (1 microg/kg)+GHRP-6 (1 microg/kg) test was performed. After GHRH+GHRP-6 test, mean peak GH level in boxers and in controls were 10.9 +/- 1.7 and 41.4 +/- 6.7 microg/l, respectively (p < 0.05). Peak GH levels in 5 (45%) boxers were found to be lower than 10 microg/l and considered as severe GH deficient. In the control group, mean IGF-1 levels (367 +/- 18.8 ng/ml) were significantly higher than that obtained in boxers (237 +/- 23.3 ng/dl) (p < 0.01). All the other pituitary hormones were normal including ADH as no signs and symptoms of diabetes insipidus. There was a significant negative correlation between peak GH levels and boxing duration, and between peak GH levels and number of bouts. In conclusion, we think that boxing is a cause of TBI, and GH deficiency is very common among boxers. Further studies including large number of boxers, both professional and amateur, are needed to clarify pituitary dysfunction in boxers.     

Variations of Pituitary Function Over Time after Brain Injuries: The Lesson from a Prospective Study

Traumatic Brain Injury (TBI) and Subarachnoid Haemorrhage (SAH) are conditions at high risk to develop hypopituitarism as pointed out by many papers in scientific literature. But most of the papers were referred to retrospective evaluations, not considering the possible evolution of the pituitary function over time. Aim of our studies was to clarify whether pituitary deficiencies and normal pituitary function recorded at short term follow-up (3 months), would improve or worsen, respectively, at long term (12 months after the brain injury). In a multicenter study protocol, in patients who suffered TBI (n = 70; 50 Males, 20 Females; age 39.31 ± 2.4 years; BMI 23.8 ± 0.4 kg/m²) or SAH (n = 32; 12M, 20F; age: 51.9 ± 2.2 year; BMI: 24.7 ± 0.6 kg/m²) we tested 3 and 12 months after the pathological events the pituitary function. In TBI patients, the 3 month evaluation had shown some degree of hypopituitarism in 32.8% and the 12 months retesting demonstrated some degree of hypopituitarism in 22.7%. Total hypopituitarism was always confirmed at 12 months while Multiple and Isolated deficits recorded at 3 months was confirmed in nearly 25% only of the patients. On the other hand, in 5.5% of TBI with normal pituitary function at 3 months Isolated deficits were recorded at 12 months testing. Moreover, in 13.3% of TBI with Isolated deficit at 3 months Multiple hypopituitarism was demonstrated at 12 months retesting. In SAH patients, the 3 months evaluation had shown some degree of hypopituitarism in 46.8% and the 12 month retesting demonstrated some degree of hypopituitarism in 37.5%. No multiple hypopituitarism recorded at 3 months was confirmed at 12 months, but 2 patients with isolated deficits at 3 months showed multiple hypopituitarism at 12 month retesting. At 12 as well as at 3 months, both in TBI and SAH patients, the most common deficit was severe GHD (>20%) followed by secondary hypogonadism and then hypoadrenalism and hypothyroidism. In all, in patients who experienced TBI or SAH the risk to develop hypopituitarism is very high; early diagnosis of total hypopituitarism is always confirmed at the long term follow-up; however pituitary function in brain injured patients may improve over time, because, isolated and even multiple pituitary insufficiencies recorded at short term can be transient; on the other hand normal pituitary function recorder at short term may, become impaired 12 months after the injury. Thus, brain injured patients must undergo neuroendocrine follow-up over time in order to monitoring pituitary function and eventually providing appropriate placement.     

Endocrine changes after pediatric traumatic brain injury

Traumatic brain injury (TBI) is a very common occurrence in childhood, and can lead to devastating long term consequences. Recent research has focused on the potential endocrine consequences of TBI in adults. The research in children is less robust. This paper reviews current literature regarding TBI and possible hypothalamic and pituitary deficiencies in childhood. Acute endocrine changes are commonly found after TBI in pediatric patients, which can include changes in hypothalamic-pituitary-adrenal axis and antidiuretic hormone production and release. In the long term, both temporary and permanent alterations in pituitary function have been found. About 30% of children have hypopituitarism up to 5 years after injury. Growth hormone deficiency and disturbances in puberty are the most common, but children can also experience ACTH deficiency, diabetes insipidus, central hypothyroidism, and elevated prolactin. Every hormonal axis can be affected after TBI in children, although growth hormone deficiency and alterations in puberty are the most common. Because transient and permanent hypopituitarism is common after TBI, survivors should be screened serially for possible endocrine disturbances. These children should undergo routine surveillance at least 1 year after injury to ensure early detection of deficiencies in hormonal production in order to permit normal growth and development.     

Longitudinal hormonal and pituitary imaging changes in two females with combined pituitary hormone deficiency due to deletion of A301,G302 in the PROP1 gene

Genomic DNA from 18 patients with combined pituitary hormone deficiency was screened for 2-bp deletion (A301,G302) in PROP1 gene by BcgI restriction endonuclease analysis of PCR-amplified exon 2 gene fragments. Two unrelated female patients were homozygous for this 2-bp deletion. Patient 1 presented at 8.8 yr with severe short stature (-2.9 SD score), slightly enlarged sella turcica at x-rays, and diffusely enlarged pituitary gland (height, 8 mm vs. 4.5 +/- 0.6 mm in matched controls) with hyperintense enhanced signal at T1 weighted image at coronal and sagittal views at magnetic resonance imaging (MRI). MRI repeated at age 15 yr revealed a marked reduction of pituitary height (2 mm vs. 5.3 +/- 0.8 mm in matched controls). Patient 2 presented at 27 yr with short stature (-5.5 SD score) without pubertal development, normal sella turcica, and a pituitary gland of reduced size (height, 5 mm vs. 6.1 +/- 0.3 mm in matched controls) of normal intensity at MRI. Both patients had normal pituitary stalk and normally located neurohypophysis. Hormonal features were characterized by GH, TSH, PRL, LH, and FSH deficiencies. Patient 1 had normal cortisol secretion at 8.8 yr, and at 16.6 yr had developed partial cortisol deficiency, whereas patient 2 maintained normal cortisol secretion at 28.4 yr. We conclude that 1) a large sella turcica and an enlarged pituitary anterior lobe with hyperintense enhanced signal at T1 at MRI can be suggestive of PROP1 deficiency; 2) pituitary morphology can change during follow-up of patients with PROP1 gene mutation; and 3) hormonal deficiencies could include the adrenal axis.     

High risk of hypopituitarism in patients who recovered from hemorrhagic fever with renal syndrome

CONTEXT: Hemorrhagic fever with renal syndrome (HFRS) caused by hantaviruses, is a severe systemic infection, with acute shock, vascular leakage, hypotension, and acute renal failure. Pituitary ischemia/infarction and necrosis are known causes of hypopituitarism, often remaining unrecognized due to subtle clinical manifestations. Cases of hypopituitarism after HFRS were previously only sporadically reported. OBJECTIVE: The aim of this study was to determine, for the first time, the prevalence of hypopituitarism among HFRS survivors. SUBJECTS AND METHODS: In 60 adults (aged 35.8+/-1.3 yr) who recovered from HFRS 3.7 +/- 0.5 yr ago (median 2 yr), assessment of serum T(4), free T(4), TSH, IGF-I, prolactin, cortisol, and testosterone (in males) was followed by insulin tolerance test and/or GHRH+GH-releasing peptide-6 stimulation tests. RESULTS: Severe GH deficiency was confirmed in eight of 60 patients (13.3%): in five with multiple pituitary hormone deficiencies (MPHDs) and isolated in three. Thyroid axis deficiency was confirmed in five of 60 patients (8.3%), all with MPHD. Hypothalamus-pituitary-adrenal axis deficiency was observed in six of 60 (10.0%); in five with MPHD and isolated in one. Gonadal axis deficiency was confirmed in seven of 56 male subjects (12.5%): five with MPHD and isolated in two. Overall six patients (10.0%) had a single pituitary deficit (three GH, two gonadal, and one adrenal), and five (8.3%) had MPHD. The prevalence of patients having any endocrine deficiency was 18% (11 of 60). CONCLUSION: A high prevalence of hypopituitarism after recovery from HFRS is identified, with magnetic resonance imaging revealing atrophic pituitary and empty sella. Awareness is raised to neuroendocrine consequences of HFRS because unrecognized hypopituitarism significantly affects the physical and psychological well-being.     

High risk of hypopituitarism after traumatic brain injury: a prospective investigation of anterior pituitary function in the acute phase and 12 months after trauma

CONTEXT: Recent data have demonstrated that traumatic brain injury (TBI)-mediated hypopituitarism could be more frequent than previously known. However, most previous data were obtained from retrospective studies. OBJECTIVES: The aim of this study was to determine 1) the prevalence of anterior pituitary hormone deficiencies in the acute phase of TBI and after 12 months, 2) whether severity of trauma correlated with basal hormone levels, and 3) whether initial hormone deficiencies predicted medium-term hormonal status. DESIGN AND PATIENTS: Fifty-two TBI patients (43 men and nine women) were included in the prospective study. Pituitary function was evaluated within 24 h of admission and after 1 yr. RESULTS: Some 5.8% of the patients had TSH deficiency, 41.6% had gonadotropin deficiency, 9.8% had ACTH deficiency, and 20.4% had GH deficiency (GHD). Twelve months after TBI, 5.8% had TSH deficiency, 7.7% had gonadotropin deficiency, 19.2% had ACTH deficiency, and 37.7% had GHD. Twenty-six patients (50.9%) had at least one anterior pituitary hormone deficiency, 21 patients (41.2%) had isolated hormone deficiencies, and five patients (9.7%) had combined hormone deficiencies. Overall, the pituitary hormone deficiencies recovered in 30 (57.7%) patients after 1 yr, and new pituitary hormone deficiencies were present in 27 (51.9%) patients after 1 yr. CONCLUSIONS: GHD is the most common pituitary deficit 12 months after TBI, and 50.9% of the patients had at least one anterior pituitary hormone deficiency. Pituitary function may improve or worsen in a considerable number of patients over 12 months.     

Analysis of clinical features of primary empty sella

ObjectiveA retrospective analysis of clinical data of 60 patients with primary empty sella (PES) was conducted to further improve the understanding of the disease.MethodsThe clinical data of 60 patients diagnosed with PES admitted to the Department of Endocrinology of Wuhan Union Hospital for different reasons from January 2000 to September 2018 were analyzed.ResultsThe 60 cases comprised 22 (36.67%) male and 38 (63.33%) female patients, for a male-to-female ratio of 1:1.73. There was predominance of 50–59 year-olds and women with multiple pregnancies. Of the 60 patients, 41.67% showed fatigue, 26.67% dizziness and headache, 21.67% nausea and vomiting, 18.33% anorexia, and 6.67% visual impairment and other symptoms. Twenty-seven patients (45.0%) had normal pituitary function, and 33 (55.0%) had hypopituitarism. Complete PES was more prone to result in hypopituitarism than partial PES. Men with PES were more likely to have hypopituitarism than women.ConclusionThe incidence of PES was significantly higher in women than in men; PES was common in middle-aged and older women with multiple pregnancies. Symptoms were diverse and clinical manifestations may lack specificity compared to other diseases and need to be differentiated. About half of PES patients may develop hypopituitarism. Therefore, for patients with empty sella detected on magnetic resonance imaging (MRI) with or without clinical symptoms, the pituitary function should be thoroughly and promptly evaluated.     

Traumatic brain injury and subarachnoid haemorrhage are conditions at high risk for hypopituitarism: screening study at 3 months after the brain injury

OBJECTIVE: Acquired hypopituitarism in adults is obviously suspected in patients with primary hypothalamic-pituitary diseases, particularly after neurosurgery and/or radiotherapy. That brain injuries (BI) can cause hypopituitarism is commonly stated and has been recently emphasized but the management of BI patients does not routinely include neuroendocrine evaluations. AIM: To clarify the occurrence of hypopituitarism in patients after traumatic brain injury (TBI) or subarachnoid haemorrhage (SAH) 3 months after the BI. SUBJECTS AND METHODS: The occurrence of hypopituitarism in conscious patients after traumatic brain injury [TBI, n = 100, 31 women, 69 men; age 37.1 +/- 1.8 years; body mass index (BMI) 23.7 +/- 0.4 kg/m(2); Glasgow Coma Scale (GCS) 3-15] or subarachnoid haemorrhage [SAH, n = 40, 14 men, 26 wpmen, 51.0 +/- 2.0 years; 25.0 +/- 0.6 kg/m(2); Fisher's scale 1-4] was studied in a multicentre study 3 months after the BI. All patients underwent wide basal hormonal evaluation; the GH/IGF-I axis was evaluated by GHRH + arginine test and IGF-I measurement. RESULTS: In TBI patients, some degree of hypopituitarism was shown in 35%. Total, multiple and isolated deficits were present in 4, 6 and 25%, respectively. Diabetes insipidus was present in 4%. Secondary adrenal, thyroid and gonadal deficit was present in 8, 5 and 17%, respectively. Severe GH deficiency (GHD) was the most frequent pituitary defect (25%). In SAH patients, some degree of hypopituitarism was shown in 37.5%. Despite no total hypopituitarism, multiple and isolated deficits were present in 10 and 27.5%, respectively. Diabetes insipidus was present in 7.5%. Secondary adrenal, thyroid and gonadal deficit was present in 2.5, 7.5 and 12.5%, respectively. Severe GHD was the most frequent defect (25%). CONCLUSIONS: TBI and SAH are conditions associated with high risk of acquired hypopituitarism. The pituitary defect is often multiple and severe GHD is the most frequent defect. Thus neuroendocrine evaluations are always mandatory in patients after brain injuries.     

Anterior pituitary dysfunction following traumatic brain injury (TBI)

Traumatic brain injury (TBI) is the commonest cause of death and disability in young adults living in industrialized countries. Several recent studies have convincingly shown that anterior hypopituitarism is a common complication of head trauma with a prevalence of at least 25% among long-term survivors. This is a much higher frequency than previously thought and suggests that most cases of post-traumatic hypopituitarism (PTHP) remain undiagnosed and untreated. These findings raise important questions about the potential contribution of PTHP to the high physical and neuropsychiatric morbidity seen in this group of patients. In this review, we examine the published reports on the neuroendocrine abnormalities in TBI patients and highlight new data that give novel insights into the natural history of this disorder. We discuss the potential contribution of PTHP to recovery and rehabilitation after injury and the need for the identification and the appropriate and timely management of hormone deficiencies to optimize patient recovery from head trauma, improve quality of life and avoid the long-term adverse consequences of untreated hypopituitarism.     

Traumatic brain injury induced hypothalamic-pituitary dysfunction: a paediatric perspective

In survivors of traumatic brain injury (TBI), impairment in anterior pituitary hormone function may be an important cause of long-term morbidity. Histopathological evidence from post-mortem studies suggests that the hypothalamic-pituitary structures are vulnerable to damage following head injury. Pituitary dysfunction, present months or years after injury, is now well recognised in adults, however, little evidence is known about this potential complication in children and adolescents. This article reviews the available paediatric data, which shows that hypopituitarism may occur after both mild and severe TBI, with growth hormone and gonadotrophin deficiencies appearing to be most common abnormalities. Central precocious puberty has also been documented. There are, however, few published data within a population of children with TBI on the incidence or prevalence of hypopituitarism, nor on its natural history or response to hormone replacement, and prospective studies are needed. Given the critical role of anterior pituitary hormones in the regulation of growth, pubertal and neurocognitive development in childhood, early detection of hormone abnormalities following TBI is important. We propose that a multidisciplinary approach to follow-up and endocrine assessment is required for the long-term management and rehabilitation of children and adolescents who survive moderate to severe head injury.