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Query: UMLS:C0497406 (
overweight
)
26,365
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Growth hormone deficiency
(
GHD
) in adults is now recognized as a specific clinical syndrome with characteristic symptoms and signs. Thus, the patients are
overweight
, have an abnormal body composition (excess body fat and a decrease in the extracellular water volume) and a low bone mineral content compared to normals. Furthermore, the
GHD
patients have lipid abnormalities, decreased insulin sensitivity and a decreased fibrinolysis. Finally, the 'quality of life' is low in terms of energy and social life. Short- and long-term studies with recombinant human GH (rhGH) treatment have shown normalization of body composition, increase in the lipid pattern and marked improvement of the psychological well-being. The treatment seems safe with no serious side effects reported. In analogy with other hormonal replacement therapies, the rhGH dose should be individualized.
...
PMID:Consequences of growth hormone deficiency in adults and the benefits and risks of recombinant human growth hormone treatment. A review paper. 772 Dec 71
The concept of body composition covers the division of the body into a number of compartments. The most important are the fat mass (FM), the fat-free mass (FFM), the total body protein and the total body bone mineral content. Numerous methods for the measurement of body composition are available. The three classical methods for the measurement of FM and FFM, namely underwater weighing, measurement of total body potassium and measurement of total body water by isotope dilution, are often regarded as reference methods. However, newer methods such as computed tomography, neutron activation analysis and dual energy X-ray absorptiometry are increasingly used because of their reliability and ability for independent measurement of two or more components. Bioelectrical impedance analysis has become popular because of its clinical applicability. Three- or four-compartment models involving combination of two, three or more separate methods are more accurate than single methods, but are usually confined to research purposes because of the laborious measurement procedures. Computed tomography and dual energy X-ray absorptiometry have the unique possibility of regional measurements of body composition. Fat distribution and relative
overweight
may be estimated by simple anthropometric measures such as skinfold thicknesses. There are many applications for body composition measurements in research and clinical practice. These include treatment of obesity,
growth hormone deficiency
, diabetes mellitus and climacteric changes, as well as clinical nutrition and estimation of the hydration of dialysis patients and of critically ill intensive or surgical patients.
...
PMID:[Non-invasive measurement of body composition]. 806 96
The availability of recombinant human growth hormone (GH) has resulted in investigation of the role of GH in adulthood and the effects of GH replacement in the GH-deficient adult. These studies have led to the recognition of a specific syndrome of GH-deficiency, characterized by symptoms, signs and investigative findings. Adults with long-standing
growth hormone deficiency
are often
overweight
, have altered body composition, with reduced lean body mass (LBM), increased fat mass (FM), reduced total body water and reduced bone mass. In addition, there is reduced physical and cardiac performance, altered substrate metabolism and an abnormal lipid profile predisposing to the development of cardiovascular disease. Adults with GH deficiency report reduced psychological well-being and quality of life. These changes may contribute to the morbidity and premature mortality observed in hypopituitary adults on conventional replacement therapy. GH treatment restores LBM, reduces FM, increases total body water and increases bone mass. Following GH therapy, increases are recorded in exercise capacity and protein synthesis, and "favourable" alterations occur in plasma lipids. In addition, psychological well-being and quality of life improve with replacement therapy. GH is well tolerated; adverse effects are largely related to fluid retention and respond to dose adjustment. It is likely that GH replacement will become standard therapy for the hypopituitary adult in the near future. The benefits of GH replacement in the GH-deficient adult have been unequivocally demonstrated in studies lasting up to 3 years. The results of longer term studies are awaited to determine whether these benefits are sustained over a lifetime.
...
PMID:The consequences of growth hormone deficiency in adulthood, and the effects of growth hormone replacement. 929 47
We used the Genentech National Cooperative Growth Study database to examine differences in weight relative to height (weight for height standard deviation score or WTHTZ) in 3460 patients at enrollment and after one year of therapy with recombinant human growth hormone (rhGH), and in a subset of 450 patients treated for three years with rhGH. The major diagnostic categories were idiopathic
growth hormone deficiency
(IGHD), organic GH deficiency (OGHD), and idiopathic short stature (ISS). Children with IGHD and ISS were underweight for height at baseline but had a progressive increase in WTHTZ during three years of rhGH therapy. The same pattern applied to children with IGHD associated with septo-optic dysplasia and CNS trauma or infection. However, children with OGHD associated with craniopharyngiomas, other CNS tumors, leukemia, or CNS irradiation were
overweight
when starting rhGH and showed a decrease in WTHTZ during the first year of rhGH therapy. The increase in WTHTZ during rhGH treatment in children with ISS and OGHD suggests that the GH-induced increase in muscle mass exceeded loss of fat mass. Because children with neoplasm-related OGHD were
overweight
at baseline, the decline in WTHTZ during the first year of rhGH therapy suggests that loss of fat mass is the predominant effect in this subgroup.
...
PMID:Weight relative to height before and during growth hormone therapy in prepubertal children. 980 25
Growth hormone deficiency
(
GHD
) in adults results in alterations of body composition and metabolism associated with a lowered insulin sensitivity and an increased cardiovascular risk. Since hemorheologic disturbances (putative factors of vascular risk) are found in the insulin-resistance syndrome, we investigated blood rheology in 9 adults GHDs (5 men, 4 women; age 37.9+/-4.7 years; body mass index 30.23+/-3.2 kg/m2) compared with 23 lean controls and 37 controls matched for sex, age and body mass index. While this sample of GHDs exhibits the typical metabolic picture of this syndrome (upper body
overweight
with a waist-to-hip ratio at 0.91+/-0.07; low HDL cholesterol at 1.07+/-0.09 mmol x l(-1); low insulin sensitivity with the minimal model technique at 3.3+/-1.29 min(-1)/(microU/ml) x 10(-4)) they have similar values of blood viscosity at either native or corrected hematocrit, similar hematocrit, similar red cell rigidity viscometric index, similar red cell aggregation parameters than
overweight
matched controls. There is only a nonsignificant tendency for plasma viscosity to be higher in GHDs: this tendency becomes significant when women are considered alone (GHDs: 1.44+/-0.04 mPa.s; controls: 1.31+/-0.04 mPa.s, p<0.05) while it is no longer found in men. This study suggests that GHDs exhibit the classical hemorheological disturbances of non-
GHD
individuals with the same degree of obesity. There is no evidence for a further impairment of blood rheology associated with the specific metabolic and endocrine pattern of GHDs that may be involved in their increased vascular risk.
...
PMID:Hemorheology of growth hormone-deficient adults. 1046 40
Hydrocephalus may cause disorders of growth and puberty. 31 patients (25 girls) with non-tumoral hydrocephalus were seen at 8.5 +/- 3.1 (SD) years for short stature (8 patients),
overweight
(8 patients), central early puberty (onset before 9 years, 21 patients), premature pubarche (1 patient) and/or delayed puberty (2 patients). Among the patients with short stature, 4 had meningomyelocele and one had untreated early puberty. Only 1/11 patients evaluated had
growth hormone deficiency
. Among the
overweight
patients, 5 had early puberty. The plasma leptin concentrations were positively correlated with the body mass index (r = 0.65, p < 0.01, n = 14). Free thyroxin, cortisol, prolactin and concomitant plasma and urinary osmolalities were normal in all cases evaluated, except one who had low free thyroxin. The 7 patients with early puberty and who were given gonadotropin releasing hormone analog for over 2 years had mean predicted adult height of -2.45 +/- 1.9 SD before treatment and -2.46 +/- 1.4 SD afterwards. Ventriculocisternostomy performed on 2 girls seen for delayed puberty was followed by breast development and menarche. In conclusion, in children with hydrocephalus, short stature is frequently due to meningomyelocele and rarely to GH deficiency. Central early puberty is the most frequent endocrine disorder.
...
PMID:Disorders of growth and puberty in children with non-tumoral hydrocephalus. 1130 50
Current guidelines for the diagnosis of adult
growth hormone deficiency
(
GHD
) state that the diagnosis must be proven biochemically by provocative testing that is done within the appropriate clinical context. The need for reliance on provocative testing is based on evidence that the evaluation of spontaneous growth hormone (GH) secretion over 24 h and the measurement of IGF-I and IGFBP-3 levels do not distinguish between normal and
GHD
subjects. Regarding IGF-I, it has been demonstrated that very low levels in patients highly suspected for
GHD
(i.e., patients with childhood-onset, severe
GHD
, or with multiple hypopituitarism acquired in adulthood) may be considered definitive evidence for severe
GHD
obviating the need for provocative tests. However, normal IGF-I levels do not rule out severe
GHD
and therefore adults suspected for
GHD
and with normal IGF-I levels must undergo a provocative test of GH secretion. The insulin tolerance test (ITT) is the test of choice, with severe
GHD
being defined by a GH peak less than 3 microg/l, the cut-off that distinguishes normal from
GHD
adults. The ITT is contraindicated in the presence of ischemic heart disease, seizure disorders, and in the elderly. Other tests are as reliable as the ITT, provided they are used with appropriate cut-off limits. Glucagon stimulation, a classical test, and especially new maximal tests such as GHRH in combination with arginine or GHS (i.e., GHRP-6) have well-defined cut-off limits, are reproducible, are independent of age and gender, and are able to distinguish between normal and
GHD
subjects. The confounding effect of
overweight
or obesity on the interpretation of the GH response to provocative tests needs to be considered as the somatotropic response to all stimuli is negatively correlated with body mass index. Appropriate cut-offs for lean,
overweight
, and obese subjects must be used in order to avoid false-positive diagnoses of severe
GHD
in obese adults.
...
PMID:Growth hormone levels in the diagnosis of growth hormone deficiency in adulthood. 1742 91
The current guidelines for the diagnosis of adult
GHD
are mainly based on the statements from the GH Research Society Consensus from Port Stevens in 1997. It is stated that diagnosis of adult
GHD
must be shown biochemically by provocative tests within the appropriate clinical context. The insulin tolerance test (ITT) was indicated as that of choice and severe
GHD
defined by a GH peak lower than 3 microg/L. The need to rely on provocative tests is based on evidence that that the measurement of IGF-I as well as of IGFBP-3 levels does not distinguish between normal and
GHD
subjects. Hypoglycemia may be contraindicated; thus, alternative provocative tests were considered, provided they are used with appropriate cut-off limits. Among classical provocative tests, arginine and glucagon alone were indicated as alternative tests, although less discriminatory than ITT. Testing with the combined administration of GHRH plus arginine was recommended as an alternative to ITT, mostly taking into account its marked specificity. Based on data in the literature in the last decade, the GRS Consensus Statements should be appropriately amended. Regarding the appropriate clinical context for the suspicion of adult
GHD
, one should evaluate patients with hypothalamic or pituitary disease or a history of cranial irradiation, as well as those with childhood-onset
GHD
are at obvious risk as adults for severe
GHD
. Brain injuries (trauma, subarachnoid hemorrage, tumours of the central nervous system) very often cause acquired hypopituitarism, including severe
GHD
. Given the epidemiology of brain injuries, the important role of the endocrinologist in providing major clinical benefit to brain injured patients who are still undiagnosed should be underscored. From the biochemical point of view, although normal IGF-I levels do not rule out severe
GHD
, very low IGF-I levels in patients highly suspected for
GHD
(i.e. patients with childhood-onset, severe
GHD
or with multiple hypopituitarism acquired in adulthood) can be considered as definitive evidence for severe
GHD
; thus, these patients would skip provocative tests. Patients suspected for adult
GHD
with normal IGF-I levels must be investigated by provocative tests. ITT remains a test of reference but it should be recognized that other tests are as reliable as ITT. Glucagon as classical test and, particularly, new maximal tests such as GHRH in combination with arginine or GH secretagogues (GHS) (i.e. GHRP-6) have well defined cut-off limits, are reproducible, able to distinguish between normal and
GHD
subjects. Overweight and obesity have confounding effect on the interpretation of the GH response to provocative tests. In adults cut-off levels of GH response below which severe
GHD
is demonstrated must be appropriate to lean,
overweight
and obese subjects to avoid false positive diagnosis in obese adults and false negative diagnosis in lean
GHD
patients. Finally, normative values of GH response to provocative tests may depend on age, particularly in the transitional age; the normative cut-off levels of GH response to ITT in this phase of life are now available.
...
PMID:Diagnosis of adult GH deficiency. 1776 55
Based on previous consensus statements, it has been widely accepted that the diagnosis of adult
growth hormone deficiency
(
GHD
) must be shown biochemically by provocative tests of GH secretion; in fact, the measurement of IGF-I as well as of other markers was considered unable to distinguish between normal and
GHD
subjects. The Insulin Tolerance Test (ITT) was indicated as that of choice and severe
GHD
defined by a GH peak lower than 3 microg/l. It is now recognized that, although normal IGF-I levels do not rule out severe
GHD
, very low IGF-I levels in patients highly suspected for
GHD
(i.e. patients with childhood-onset severe
GHD
or with multiple hypopituitarism acquired in adulthood) can be considered as definite evidence for severe
GHD
. However, patients suspected for adult
GHD
with normal IGF-I levels must be investigated by provocative tests. ITT remains a test of reference but it should be recognized that other tests are as reliable as ITT. Glucagon as classical test and, particularly, new maximal tests such as GHRH in combination with arginine or GH secretagogues (GHS) (i.e. GHRP-6) have well defined cut-off limits, are reproducible, able to distinguish between normal and
GHD
subjects. Overweight and obesity have confounding effect on the interpretation of the GH response to provocative tests. In adults cut-off levels of GH response below which severe
GHD
is demonstrated must be appropriate to lean,
overweight
and obese subjects to avoid false positive diagnosis in obese adults and false negative diagnosis in lean
GHD
patients.
...
PMID:Diagnosis of adult GH deficiency. 1840 87
Long-term morbidity for children with low-grade glioma (LGG) requires exposure-specific characterization. Overall survival (OS) and progression-free survival (PFS) were estimated for 361 children diagnosed with LGG between 1985 and 2007 at a single institution. Five-year survivors (n = 240) received risk-based clinical assessment. Cumulative incidence of late effects 15 years from diagnosis were estimated. Risk factors for adverse health were identified using Fine and Gray's approach to Cox's proportional hazards model, accounting for death as a competing risk. OS at 15 years was 86% (95% confidence interval [CI] 82%-90%), and PFS was 55% (95% CI 51%-58%). Among the 240 5-year survivors, the 5-, 10-, and 15-year cumulative incidence of adverse outcomes included blindness: 10%, 13%, and 18%, respectively; hearing loss: 8%, 14%, and 22%; obesity/
overweight
: 18%, 35%, and 53%; hyperinsulinism: 1%, 5%, and 24%;
growth hormone deficiency
: 13%, 27%, and 29%;thyroid hormone deficiency: 16%, 28%, and 33%; and adrenocorticotropic hormone (ACTH) deficiency: 12%, 22%, and 26%. Multivariable models demonstrated radiation therapy to be a significant independent predictor of hearing loss,
growth hormone deficiency
, abnormal thyroid function, and ACTH deficiency. Diencephalic location was a statistically significant independent risk factor for blindness,
growth hormone deficiency
, abnormal thyroid function, and ACTH deficiency. Among the 182 5-year survivors assessed for intellectual function, 34% had an intelligence quotient (IQ) below average (<85), associated with younger age at diagnosis, epilepsy, and shunt placement. Survivors of childhood LGG experience substantial long-term adverse effects that continue to increase well beyond the 5-year survival time point.
...
PMID:Survival and long-term health and cognitive outcomes after low-grade glioma. 2117 81
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