UMLS:C0039730 - FACTA Search

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Query: UMLS:C0039730 (thalassemia)
10,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with beta-thalassemia major (beta-thalassemia) frequently have bone disorders of multifactorial etiology. We attempted to analyze the relationship between the bone mineral density ([BMD] measured by dual-photon absorptiometry) and auxanologic parameters, degree of siderosis, function of the growth hormone (GH)/insulin-like growth factor-I (IGF-I)/IGF-binding protein-3 (IGFBP3) axis, calcium-phosphate balance, parathyroid hormone (PTH), and cytokines (interleukin-1beta [IL-1] and tumor necrosis factor-alpha [TNF-alpha]) in 30 prepubertal children with beta-thalassemia major and 15 age-matched children with constitutional short stature (CSS), who have normal glucose tolerance and thyroid function. Children with beta-thalassemia had a significantly decreased BMD and mean BMD% for age and sex (0.75+/-0.24 g/cm2 and 71%+/-10%, respectively) versus children with CSS (1.06+/-0.3 g/cm2 and 92%+/-7%, respectively). Thalassemic patients had significantly lower circulating concentrations of IGF-I and IGFBP3 (49+/-21 ng/mL and 1.2+/-0.25 mg/L, respectively) compared with control children (153+/-42 ng/mL and 2.1+/-0.37 mg/L, respectively). The GH response to provocation by clonidine and glucagon was defective (peak GH < 7 microg/L) in 12 of the 30 thalassemic children. Serum concentrations of IL-1beta and TNF-alpha did not differ among the two study groups. Hypocalcemia was detected in five of the 30 thalassemic patients: hypoparathyroidism was diagnosed in two of the five and rickets in the other three. BMD was highly correlated with the circulating concentrations of IGF-I and IGFBP3, as well as with the auxanologic parameters (age, weight, height, height standard deviation score [HSDS], and body mass index [BMI]). It is suggested that increasing the circulating IGF-I concentration through aggressive nutritional therapy and/or GH/IGF-I therapy with supplementation with vitamin D and/or calcium might improve bone growth and mineralization and prevent the development of osteoporosis and consequent fractures in these patients. Such therapy requires blinded controlled trials.
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PMID:Bone mineral density in prepubertal children with beta-thalassemia: correlation with growth and hormonal data. 959 44

As thalassemia patients age, bone disease becomes a serious cause of morbidity. The frequency and type of bone disease is affected by the underlying type of thalassemia and its treatment. Problems include rickets, scoliosis, spinal deformities, nerve compression, fractures and severe osteoporosis. In early stages, patients may be asymptomatic but can present with back pain, a limp, dyspnea, neurological emergencies, or sudden fractures. The etiologies are often multifactorial, culminating with increased bone resorption and remodeling. They include hormonal deficiency, bone marrow expansion, nutritional deficiency, or desferal toxicity. Particular risk factors include older patients, low baseline hemoglobin, delayed puberty, hormonal failure, and high iron stores. Nutritional deficiencies may further compound the patient's risk for bone disease. Increasing evidence suggests that these complications and their associated long-term morbidity can be prevented if an annual screening is done, followed by long-term intervention. Patients treated with amino biphosphonates inhibit bone resorption and may demonstrate rapid healing. Intra-nasal calcitonin has also been successful in treating osteopenia. Early use of estrogen and testosterone appears to markedly lower the risk for selective patients. Both transfused and non-transfused patients should be educated about risk factors and early symptoms. All patients should be screened annually for bone disease. Once adolescence occurs, annual testing in selected cases should include bone density studies with X-ray absorptiometry.
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PMID:The morbidity of bone disease in thalassemia. 966 56

Cooley's original description of beta-thalassaemia major included marked bone deformities as a characteristic feature. These were thought to be due to expansion of haemopoiesis attempting to compensate for the congenital anaemia. Regular blood transfusions from infancy prevents these skeletal problems. Nevertheless, symptoms due to bone disease frequently occur in adult patients. Osteoporosis has not previously been reported as a cause of severe morbidity in thalassaemia major. The present study shows a high prevalence of low bone mass among thalassaemia major patients and analyses the predisposing causes. Bone density scans were performed in 82 patients with transfusion-dependent beta thalassaemia. Factors known to be associated with low bone mass such as gender, endocrine disorders and lifestyle activities, together with factors specific to the thalassaemia and its management, were included in a series of univariate analyses to ascertain any significant associations. 42 (51%) of the patients had severely low bone mass and a further 37 (45%) had low bone mass. The three factors showing a statistically significant association with severely low bone mass were male sex, 24/38 (63%) males had severely low bone mass, compared with 18/44 (41%) females, the lack of spontaneous puberty, 22/32 (69%) who required therapeutic induction of pubertal development had severely low bone mass, compared with 19/47 (40%) with spontaneous puberty and diabetes, 8/10 (80%) diabetic patients had severely low bone mass, compared with 23/56 (41%) with normal glucose tolerance. There was no association between the bone mineral density measurements and the haematological characteristics or treatment details of these patients. Severely low and low bone mass are common findings in patients with beta-thalassaemia major despite optimal transfusion and iron chelation. The associated features suggest that the severely low bone mass is due to endocrine abnormalities, in contrast to the haematological causes of bone disease characteristically seen in untreated thalassaemics.
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PMID:High prevalence of low bone mass in thalassaemia major. 988

An increasing number of adult thalassaemics have been complaining of aches and pains of varying degrees of severity. In a minority the pains are debilitating and there is stiffness in movement. This study is an attempt to understand the osteoporosis of thalassaemia using DEXA and MRI as the main investigative tools. 122 patients with homozygous beta-thalassaemia were examined by DEXA. It was found that almost half had BMD below two standard deviations from the mean for the normal population, especially in the lumbar spine. There was no marked worsening with age. However the proportion of patients who had their first transfusion after the 3rd year (especially after the 6th) was significantly greater in those with the low BMD. There is also an excess of hypogonadic thalassaemics amongst those with low BMD. 72 thalassaemics were examined by MRI of marrow. Hypercellular, dark marrow on T1 weighted images found in young patients (20-30 yr) was replaced by fatty marrow in later life (30-40 yr). In a group of 21 older thalassaemics (33-62 yr) extreme bone marrow expansion was expressed by the reappearance of hypercellular areas, giving the impression of patchiness which affects not only the diaphyses but also the metaphyses. These patients mostly (66%) had thalassaemia intermedia and had started irregular transfusion after the 6th year of life. About 75% had a BMD below 2 SD. The conclusion is that patients who were late in receiving blood and especially those with thalassaemia intermedia had a more expanded bone marrow with pressure on cortical bone which caused pain in several cases. An attempt was made in 10 patients to reduce marrow hyperplasia by using hydroxyurea. Results showed a relief of pain and modification of magnetic signal intensity.
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PMID:Bone pain in thalassaemia: assessment of DEXA and MRI findings. 1009 Nov 46

We have previously shown a high incidence of osteopenia and osteoporosis in patients with thalassaemia major. These bone changes, were more severe in males than females, in those with diabetes mellitus and with hypogonadal-hypogonadism. Our recent studies concern the relationship of erythroid activity, assessed by serum transferrin receptors as an overall measure of anaemia, to osteoporosis. Serum transferrin receptor levels correlated with the mean pre-transfusion haemoglobin level, but there was no correlation with the incidence of osteopenia and osteoporosis. As osteoporosis has a strong genetic component we have also studied the COLIA1 and COLIA2 genes which code for the major protein of bone (type 1 collagen). Studies by others have shown in non-thalassaemic patients that a polymorphism G-->T or TT in a regulatory region of COLIA1 at the recognition site for transcription factor Sp1 is associated with the presence of osteoporosis. Our studies suggest that Sp1 polymorphism is not specific to any one ethnic group; the polymorphism occurs more commonly in females (female to male ratio 2:1). In male thalassaemia major patients the presence of the Sp1 mutation was associated with more severe osteoporosis of the spine and the hip compared with female patients. There is failure of improvement in spinal osteoporosis with bisphosphonate therapy (intravenous Pamidronate) in male patients with the Sp1 mutation.
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PMID:Genetic and acquired predisposing factors and treatment of osteoporosis in thalassaemia major. 1009 Nov 49

Children with chronic illness live with the specific consequences of their illness, as well as secondary endocrine abnormalities that further compromise growth and pubertal development. These secondary abnormalities may significantly add to their physiologic and psychological burden. Although these endocrine abnormalities theoretically arise as adaptations to the chronic illness, they may have deleterious effects if they persist untreated. Children with HIV infection and other wasting disorders, for example, show growth suppression out of proportion to the severity of their primary illness as a result of growth hormone resistance and enhanced cortisol secretion. In hematologic conditions such as sickle cell anemia, thalassemia, or bone marrow transplant, damage to the hypothalamus and/or pituitary may lead to growth hormone deficiency, gonadal insufficiency, and hypothyroidism. Growth and pubertal delay are also common among children with cystic fibrosis, along with insulin-dependent diabetes mellitus caused by pancreatic fibrosis. Similarly, children receiving long-term steroid therapy have delays in growth and pubertal development, accompanied by risk for osteoporosis, whereas chronic renal disease is associated with growth and pubertal delay, as well as secondary hyperparathyroidism. Recognition of potential endocrinopathies in children with chronic illness is an important aspect of the care of these children because the disturbances are frequently amenable to treatment, permitting full or partial restoration of normal growth and development in these children. In this chapter, the endocrine consequences of common chronic conditions of childhood are reviewed, as well as the etiology of the endocrine disturbance, the clinical consequences, and recommendations for treatment.
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PMID:Advances in the recognition and treatment of endocrine complications in children with chronic illness. 1064 63

Regular blood transfusions from infancy until adulthood in beta-thalassaemia major patients have substituted severe bone deformities with less marked skeletal lesions as osteoporosis. Osteoporosis is characterized by low bone mass and disruption of bone architecture, resulting in reduced bone strength and increased risk of fractures. Genetic factors have an important role in determining bone mineral density (BMD). We have investigated the possible association between BMD and two polymorphisms in 135 beta-thalassaemic patients: (i) a substitution G-->Tau in a regulatory region of the COLIA1 gene encoding for the major protein of bone (type 1 collagen), and (ii) a one-base deletion in intron 4 (713-8del C) of transforming growth factor beta 1 (TGF-beta1) gene. We have found a remarkable incidence (90%) of osteopenia and osteoporosis among regularly transfused patients. Bone mass was lower in men than in women (P = 0.0023), with a more prevalent osteopenia/osteoporosis of the spine in men than in women (P = 0. 001). The sample was stratified on the basis of BMD expressed as Z-score, i.e. normal, osteopenic and osteoporotic patients, and genotype frequencies of each group were evaluated. TGF-beta1 polymorphism failed to demonstrate a statistical difference in BMD groups. However, subjects with heterozygous or homozygous polymorphism of the COLIA1 gene showed a lower BMD than subjects without the sequence variation (P = 0.012). The differences among genotypes were still present when the BMD was analysed as adjusted Z-score and when men and women were analysed separately (P = 0.022 and 0.004 respectively), with men more severely affected. Analysis of COLIA1 polymorphism could help to identify those thalassaemic patients at risk of osteoporosis and fractures.
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PMID:Osteoporosis in beta-thalassaemia major patients: analysis of the genetic background. 1112 85

Management of patients with beta-thalassemia is based on adequate, safe blood transfusions (free of transfusion-transmitted diseases) and prevention of iron overload. Iron overload causes multiple endocrinopathies, contributes to osteoporosis, and is the cause of cardiac disease. Cardiac disease, secondary to iron damage, causes death in developed countries as a result of noncompliance to deferoxamine from the third decade of life. In underdeveloped countries, cardiac death starts from 12 years of age, due to nonavailability of deferoxamine. With the emergence of the advanced cardiac magnetic resonance imaging technique, early diagnosis of heart iron will allow the currently available iron-chelating agents (oral and parenteral) to be used in an innovative way to improve the quality of life and improve survival of patients with beta-thalassemia.
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PMID:Clinical management of beta-thalassemia major. 1160 70

This article investigates: (1) the criteria used to select cohorts of patients for study when seeking genetic causes of "osteoporosis;" (2) the possibilities, genetic and otherwise, that might cause or help to cause this disorder; and (3) how one should define this disorder and bone health. Patients selected for such a study because current World Health Organization (WHO) absorptiometric criteria diagnosed them with "osteoporosis," or because they had extremity bone fractures, could possibly include people with biologically different disorders, in addition to those with healthy or diseased bones. Seeking a common genetic cause of "osteoporosis" in such inhomogeneous cohorts may be like seeking a common genetic cause of "anemia" in a cohort that contained iron deficiency and pernicious anemias, thalassemia, sickle-cell disease, anemias due to blood loss, malnutrition, malaria, metastatic disease, etc. The Utah paradigm's insights suggest how to select more homogeneous cohorts for such studies. This would require defining bone health in a way that acknowledges the main purpose of load-bearing bones, which the WHO criteria do not do. The present understanding of bone physiology indicates that many biologic mechanisms and features could cause or help to cause an osteopenia or osteoporosis. This study identifies 30 such mechanisms, some osseous and some extraosseous, and even this number seems conservative. Because each such mechanism could depend on any number of genes, when a strong genetic association with some kind of osteopenia or osteoporosis is found it could be difficult to determine which mechanism(s) it perturbed. This article summarizes the evidence and ideas on which these suggestions depend.
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PMID:Seeking genetic causes of "osteoporosis:" insights of the Utah paradigm of skeletal physiology. 1170 89

The aim of our randomized, placebo-controlled study was to investigate the effects of 2 years' daily oral administration of alendronate or intramuscular administration of clodronate every 10 days, on bone remodeling parameters and bone mineral density (BMD), safety and tolerability in a group of osteoporotic thalassemic patients. Twenty-five young patients (mean age 26.6 +/- 7.1 years) with beta-thalassemia major were randomly divided to receive placebo or 100 mg of clodronate intramuscularly every 10 days or 10 mg of alendronate per os daily. All patients took 500 mg of elemental calcium and 400 IU cholecalciferol in the evening at meal time. After 2 years, pyridinium crosslinks, which are bone resorption markers, did not differ significantly from baseline values in the placebo group, whereas they had decreased significantly in the clodronate and alendronate groups. Osteocalcin, a bone formation marker, did not change significantly in the placebo group, whereas it decreased slightly, but not significantly, in the clodronate and alendronate groups after 12 and 24 months. At the end of the study, the lumbar spine BMD had decreased significantly in the placebo group; it did not change significantly in the clodronate group; in the alendronate group it had increased but not significantly, whereas the increase was significant with respect to the placebo group. Femoral neck BMD decreased significantly in the placebo group; it did not change significantly in the clodronate group, but increased significantly in the alendronate group. No relevant side effects were recorded during our study. In conclusion, in patients with thalassemia-induced osteoporosis, the daily administration of alendronate significantly increases BMD, the most important predictor of the risk of fracture at several sites. Clodronate treatment at our dosage is ineffective in this pathology in spite of the good compliance of patients.
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PMID:Bisphosphonates in the treatment of thalassemia-induced osteoporosis. 1218 23

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