Phaeochromocytoma in multiple endocrine neoplasia type 2: RET codon-specific penetrance and changes in management during the last four decades.

OBJECTIVES: We describe phaeochromocytoma (phaeo) penetrance in multiple endocrine neoplasia type 2 (MEN2) according to RET protooncogene-specific mutations and report changes in phaeo diagnosis and management from 1968 to 2015. DESIGN: This retrospective chart review included 309 MEN2 patients from one specialized ambulatory care centre. Phaeo patients were categorized by diagnosis date: early, 1968-1996, n=40, and recent, 1997-2015, n=45. RESULTS: Phaeochromocytoma was diagnosed in 85/309 patients with RET mutations in the following exons (phaeos/all carriers, %): exon 11 (56/120, 46.6%); exon 16 (7/17, 41.2%), exon 10 (14/47, 29.8%), and exon 13-15 (2/116, 1.7%). Age at phaeo diagnosis differed according to affected exon: 21.9±1.5 years, exon 16; 34.1±11.6 years, exon 11; and 41.8±8.8 years, exon 10. Age-related phaeo penetrance differed among five amino acid substitutions at codon 634 and was highest for Cys634Arg and Cys634Tyr. Age at diagnosis was 34.4±11.6 years in the early and recent groups. Phaeochromocytoma and medullary thyroid carcinoma (MTC) were diagnosed synchronously in 21/40 (early) vs 8/45 (recent) and metachronously in 19/40 vs 37/45 cases. Diagnostic methods significantly changed from clinical (22/40 vs 4/45) to biochemical and/or imaging based (14/40 vs 35/45). Phaeochromocytoma diameter at diagnosis was 4.6 vs 2.6 cm. CONCLUSION: Phaeochromocytoma penetrance and age of diagnosis are highly correlated with MTC aggressiveness based on RET mutation status, with higher penetrance and younger age of diagnosis associated with more aggressive MTC. Penetrance steadily increases with age. At-risk patients require lifelong follow-up.

Long-Term Follow-Up and Treatment of Postoperative Permanent Hypoparathyroidism in Patients with Medullary Thyroid Carcinoma: Differences in Complete and Partial Disease.

This study aimed to identify factors influencing long-term outcome in complete or partial postoperative hypoparathyroidism (parathyroid hormone ≤10 or >10 ng/l, respectively) in medullary thyroid carcinoma (MTC). It was designed as retrospective, long-term follow-up with single-center outpatient visits. Quality of treatment, renal calcification, and function were evaluated. In 33 patients with MTC and postoperative hypoparathyroidism, current medication includes: calcium (73%), calcitriol (73%), alfacalcidol (6%), dihydrotachysterol (3%), and cholecalciferol supplements (21%). Mean hypoparathyroidism duration was 15.9±9.4 years. Initially, 15% of patients received high cholecalciferol dosages. Initial calcium dosages were higher (1 542±1 179 mg/day) than final dosages (1 188 ± 595 mg/day) (p<0.05); calcitriol dosages remained constant. Over the median observation period of about 12 years it was found that serum calcium was within the target range (2.0-2.3 mmol/l) in 63% of visits, decreased (<2.0 mmol/l) in 20.4%, high-normal (2.4-2.6 mmol/l) in 15.8%, and increased (>2.65 mmol/l) in 0.9% of visits. Calcitriol dosages were 0.73±0.22 µg/day and 0.47±0.20 µg/day in patients with complete (n=13) and partial (n=20) hypoparathyroidism, respectively (p=0.008). Renal function decreased slightly during follow-up (eGFR: 102±22 vs. 90±27 ml/min). eGFR was negatively correlated with hypoparathyroidism duration (r=-0.35, p=0.05). Of 9 patients with renal calcification, 5 had received high initial cholecalciferol doses. eGFR was lower in patients with than in those without calcification (77±17 vs. 95±29 ml/min) (p=0.07). At least one tetanic episode occurred in 60.6% of patients, and 9% had repeated tetanic complaints. In conclusion, severity of hypoparathyroidism affects treatment: Partial hypoparathyroidism required lower calcitriol dosages than complete hypoparathyroidism. Renal calcifications occurred more frequently in patients treated initially with high cholecalciferol dosages. Impaired renal function was related to hypoparathyroidism duration and renal calcification.

[Endocrine tumors: clinical overview]. / Endokrine Tumoren : Klinische Übersicht.

The term endocrine tumor incorporates all neoplasms which originate from the various endocrine organs. Endocrine tumors can be characterized by different criteria: localization, endocrine function, dignity (i.e. tumorigenesis, sporadic or hereditary). These characteristics also determine the clinical outcome. The clinical history, symptoms and physical examination findings (e.g. amenorrhea, skin alterations, striae, virilization, increased blood pressure and flush) direct the diagnostic process of functioning endocrine tumors. Laboratory findings (endocrine parameters) are needed to establish a diagnosis supplemented by imaging for localization and special investigations (ophthalmological examination). In hereditary tumor syndromes, the familial history and molecular genetic testing and screening of family members are essential for establishing the diagnosis and achieve optimal and early treatment. Ideally, affected family members can be treated before clinical symptoms or metastatic disease occurs, improving outcome and prognosis. Incidentalomas are increasingly found due to widespread use of imaging techniques, especially in the thyroid, adrenal glands, pancreas and pituitary gland. In incidentalomas the functional status and risk of malignancy has to be evaluated as both parameters determine therapy decisions. The aim of this introductory article is to give an overview about particular features of endocrine tumors, clinical and related aspects for the diagnostic and therapeutic approach. The clinical features of tumors of the pituitary, parathyroid and adrenal glands and the gastroenteropancreatic system are summarized according to localization.

[Secondary osteoporosis - relevant clinical characteristics in diagnosis and therapy]. / Sekundäre Osteoporose - praxisrelevante Besonderheiten bei der Diagnostik und Therapie.

Osteoporosis is a systemic skeletal disease causing increased fracture risk. According to pathogenesis, primary (70 - 80 %) and secondary osteoporosis (20 - 30 %) are distinguished. Secondary osteoporosis comprises all entities in which osteoporosis is predominantly and causally associated with certain diseases or conditions. The aim of this review article is to put attention to special features in diagnosis, prophylaxis and treatment of secondary osteoporosis in general and to demonstrate some forms of secondary osteoporosis which seem particularly important during clinical practice. The manuscript refers to the guidelines of the DVO 2009 for prevention, diagnosis and therapy of osteoporosis and selective original papers considering the special types of secondary osteoporosis. History, clinical examination and basic laboratory tests are indicative for the diagnosis of secondary osteoporosis. Its clinical presentation is frequently characterized by rapid development and multiple fractures. Therefore, early diagnosis, prophylaxis and causal treatment is decisive. If causal treatment is impossible, risk adaption of bone mineral density (BMD) for osteoporosis specific treatment is essential. Common causes are medications, endocrine, gastrointestinal and hematologic diseases. Glucocorticoid induced osteoporosis, antihormonal therapy (aromatase inhibitor in women with breast cancer, androgen deprivation therapy in men with prostate cancer) and vitamin D deficiency causing secondary hyperparathyroidism are presented in detail. History and basic laboratory testing are decisive to identify possible causes for secondary osteoporosis and to initiate early diagnostic procedures. The risk of severe osteoporosis can be reduced by early and causal treatment or by risk stratified early bone specific medication if causal therapy is impossible.

[Hereditary variants of primary hyperparathyroidism--MEN1, MEN2, HPT-JT, FHH, FIHPT]. / Hereditäre Formen des primären Hyperparathyreoidismus. MEN1, MEN2, HPT-JT, FHH, FIHPT.

OBJECTIVE: The challenge in diagnosing primary hyperparathyroidism (HPT) is to detect hereditary cases before first surgery. About 5% of cases are hereditary and integral component of multiple endocrine neoplasia type 1 and 2 (MEN1/MEN2), hyperparathyroidism-jaw tumor syndrome (HPT-JT), familial hypocalciuric hypercalcemia (FHH), and familial isolated hyperparathyroidism (FIHPT). Aim of this study was to evaluate similarities and differences in hereditary varieties of HPT. PATIENTS: 80 patients with hereditary HPT were evaluated in a retrospective analysis between 1980 and 2010 concerning clinical findings, family history, therapy, biochemical and molecular-genetic findings and follow-up. RESULTS: 80 patients with hereditary HPT are described, 52 belonged to MEN1, 15 to MEN2, 7 to HPT-JT, 4 to FHH and 2 to FIHPT kindreds. Penetrance of HPT was highest in MEN1 (85%), followed by HPT-JT (64%), FHH (28.5%), and MEN2 (8%). Youngest age at diagnosis of HPT was 7 and 16 years in the MEN2/HPT-JT group. Serum Calcium was highest in the HPT-JT group (3.6 mM), recurrencies of HPT were highest in the MEN1 group (40.5%). Parathyroid cancer solely occurred in the HPT-JT group. In single cases HPT occurs in FHH. CONCLUSION: Among the different varieties of hereditary HPT MEN1-HPT is most frequent and carries the utmost recurrence rate. Early diagnosis of HPT-JT syndrome is important because of the occurrence of parathyroid cancer. Single cases of HPT in FHH are described. Preoperative diagnosis of hereditary HPT has therapeutic consequences concerning extent of surgery and implications concerning patient and family care.

Are commonly recommended dosages for vitamin D supplementation too low? Vitamin D status and effects of supplementation on serum 25-hydroxyvitamin D levels--an observational study during clinical practice conditions.

UNLABELLED: Vitamin D deficiency is associated with increased fracture risk. The observational study aimed to investigate vitamin D status and supplementation in ambulatory patients. Only 20% of patients had optimal serum 25-hydroxyvitamin D [25(OH)D] levels. Commonly recommended dosages were insufficient to achieve clinically relevant increase of 25(OH)D levels. Higher dosages were safe and effective under clinical practice conditions. INTRODUCTION: Vitamin D deficiency is associated with adverse health outcome. The study aimed to investigate vitamin D status and supplementation in ambulatory patients. METHODS: Nine hundred seventy-five women and 188 men were evaluated for bone status from January 2008 to August 2008 within an observational study; 104 patients (n = 70 osteoporosis) received follow-up after 3 months. Dosage of vitamin D supplementation was documented and serum 25(OH)D and parathyroid hormone (PTH) determined. RESULTS: In all patients (age, 60.4 ± 14.1 years), distribution of 25(OH)D was 56.3 ± 22.3 nmol/L (normal range, 52-182 nmol/L) and PTH 53.8 ± 67.5 ng/L (normal range, 11-43 ng/L). The proportion of patients with 25(OH)D < 25, 25 to <50, 50 to <75, ≥75 nmol/L was 7.5%, 33.3%, 38.9% and 20.2% in the total group and 20.1%, 38.5%, 30.8%, 10.6% at baseline in the follow-up group, respectively. After 3 months, 3.9% had still 25(OH)D < 25 nmol/L; only 12.5% achieved 25(OH)D ≥ 75 nmol/L. In osteoporosis patients, 25(OH)D increased more in those taking ≥1,500 (median, 3,000) IU vitamin D per day (33.1 ± 14.7 nmol/L) compared with ≤1,000 (median, 800) IU/day (10.6 ± 20.0 nmol/L) (p < 0.0008). PTH decreased more in patients taking ≥1,500 IU/day (-13.2 ± 15.2 ng/L) compared with ≤1,000 IU/day (-7.6 ± 19.2 ng/L; p = 0.29). 25(OH)D was negatively correlated to PTH (r = -0.49, p < 0.0001). An increase of 25(OH)D ≥ 75 nmol/L resulted in normalised PTH. CONCLUSION: Supplementation with higher vitamin D dosages (2,000-3,000 IU/day) is required to achieve a relevant increase of 25(OH)D and normalisation of PTH.

New mutations in the RET protooncogene-L881V - associated with medullary thyroid carcinoma and -R770Q - in a patient with mixed medullar/follicular thyroid tumour.

UNLABELLED: Clinical studies are needed to classify rare and novel RET mutations associated with hereditary medullary thyroid carcinoma (MTC) into one of the clinical risk groups. Here we describe two new RET mutations/variants, R770Q and L881V, in patients with MTC and analyzed genotype-phenotype correlations associated with these RET mutations in the gene carriers. FAMILY 1: Calcitonin screening in a 42-year-old female patient with multinodular goiter showed elevated levels. RET mutation analysis revealed a new variant in exon 13 R770Q (CGA>CAA) in the patient. A thyroidectomy with central and lateral node dissection was done. Histology showed MTC in a mixed variance with follicular cancer of 2 cm diameter (T2N0M0). Postoperatively there was no increase of calcitonin after pentagastrin stimulation. The patient is biochemically cured concerning MTC and FTC after radioiodine therapy. In the sister of the index patient surprisingly another, previously not described amino-acid substitution Y791N (TAT><) in the RET protooncogene was found. In the parents the R770Q variant was detected in the mother, the Y791N mutation in the father. Another sister carries the R770Q variant. In all other gene carriers (aged 44-70 years), calcitonin levels were in the normal range, therefore, thyroidectomy had not yet been performed. FAMILY 2: In a 46-year-old female patient with nodular goiter thyroidectomy, central and left lateral lymph node dissection was done because of elevated calcitonin levels. Histology revealed a microcarcinoma with one lymph node metastasis (T1N1(1/8)Mx). RET analysis revealed a new mutation in exon 15 L881V (CTG>GTG). The L881V mutation was detected in five other family members. In the first generation stimulated calcitonin levels were in the normal range, therefore thyroidectomy had not yet been performed. In the sons of the index case thyroidectomy revealed CCH in the older one, no MTC in both. In a cousin thyroidectomy is intended because of elevated basal and stimulated calcitonin. CONCLUSION: Our clinical findings indicate that the L881V mutation may be associated with late-onset nonaggressive disease. If the germline RET R770Q variant has a causative role in the pathogenesis of the mixed medullar/follicular derived histology of the thyroid tumour in the index patient of family 1 has to be proven. The recommendations for prophylactic thyroidectomy in these mutations should be individualized depending on basal and stimulated calcitonin levels until more data are available.

Endothelin-1 levels in patients with disorders of the thyroid gland.

The endothelium derived peptide endothelin-1 (ET-1) is the major isoform of the endothelin peptide family, which is produced and secreted in the endothelial cell system. We measured plasma levels in patients with thyroid diseases and investigated associations between laboratory and clinical markers of thyroid metabolism and ET-1 plasma levels. ET-1 plasma levels were determined in patients with Graves' disease (n = 54), endemic goiter (n = 26), patients with Hashimoto's thyroiditis (n = 21) and compared to healthy controls (n = 60). ET-1 plasma levels were significantly elevated in patients with Hashimoto's thyroiditis (p < 0.0001) and in patients with Graves' disease (p = 0.003), when compared to healthy controls. In patients with endemic goiter, no significant differences were found compared to healthy controls (p = 0.298) and when compared to patients with Graves' disease (p = 0.16). We did not observe an association between ET-1 plasma levels and parameters of thyroid disease (e.g. thyroidea-stimulating hormone, thyroxine, volume of the thyroid). Furthermore, patients with and without endocrine thyroid disease showed no significantly different ET-1 plasma levels (p = 0.78). These data suggest that the autoimmunologically induced inflammatory response of the thyroid gland in Hashimoto's thyroiditis and Graves' disease is responsible for increased ET-1 plasma levels. Furthermore, our data do not support a role for ET-1 as a valid quantitative indicator for stage or progression in endemic goiter, Graves' disease or Hashimoto's thyroiditis.

Better late than never? Experience with intravenous pamidronate treatment in patients with low bone mass or fractures following cardiac or liver transplantation.

Organ transplantation is associated with a high turnover of bone metabolism, and an increased loss of bone mass and incidence of osteoporotic fractures. Established therapies for osteoporosis after organ transplantation are still lacking, however. We report on an intravenous bisphosphonate therapy initiated in transplant patients because of a high rate of bone loss or incident osteoporotic fractures. Twenty-one patients after liver transplantation and 13 patients after heart transplantation received 30 mg pamidronate intravenously every 3 months, combined with 1000 mg calcium and 1000 IU vitamin D per day. The median time interval between transplantation and start of pamidronate treatment was 1.9 years in cardiac patients and 2.3 years in liver patients. Lumbar spine bone mineral density (LS BMD) and femoral neck BMD (FN BMD) were measured before and every 6 months after pamidronate therapy was initiated. Spinal radiographs were performed annually. Biochemical markers of bone metabolism were determined every 3 months, immediately before pamidronate administration. From a previous observational study, 58 patients treated only with calcium and vitamin D were matched for age, sex, pretransplantation LS BMD and time interval between transplantation and the first pamidronate treatment. In the pamidronate-treated patients, the mean increase in LS BMD adjusted for baseline values amounted to 0.080 +/- 0.038 g/cm(2) (8.6 +/- 4.0 %) after 1 year and 0.091 +/- 0.058 g/cm(2) (10.4 +/- 6.1%) after 2 years compared with 0.001 +/- 0.037 g/cm(2) (0.26 +/- 4.0%) after 1 year and 0.015 +/- 0.057 g/cm(2) (1.8 +/- 6.0%) after 2 years in the historical control group (absolute LS BMD changes pamidronate group vs historical group p < 0.0001 after 1 and 2 years). The changes of FN BMD were 0.024 +/- 0.043 g/cm(2) (3.2 +/- 6.1%) after 1 year and 0.046 +/- 0.052 g/cm(2) (7.0 +/- 6.1%) after 2 years in the pamidronate group compared with -0.012 +/- 0.043 g/cm(2) (-1.6 +/- 6.1%) after 1 year and -0.013 +/- 0.052 g/cm(2) (-1.1 +/- 6.1%) after 2 years in the historical control group (absolute FN BMD changes pamidronate group vs historical group p = 0.003 after 1 year and p = 0.001 after 2 years). From a total of 287 application cycles of pamidronate treatment, no severe side effects were observed and non-severe side effects were seen in only 39 cycles (13.6%). We conclude that cyclic intravenous pamidronate treatment is beneficial to patients with low bone mass or osteoporotic fractures following transplant, even when not immediately initiated.

Low serum concentrations of insulin-like growth factor I are associated with femoral bone loss in a population-based sample of postmenopausal women.

OBJECTIVE: Cross-sectional studies suggest that the decline in insulin-like growth factor-I (IGF-1) levels with age may contribute to age-associated bone loss. However, prospective data on the relation between circulating IGF-I and bone loss in old age have not yet been reported. DESIGN: A longitudinal study (follow-up time 3.3 years) of the change of bone mineral density (BMD) at the lumbar spine and femoral neck in relation to serum IGF-I. PATIENTS: A population-based sample of 173 elderly men and 107 postmenopausal women without medical conditions or medication known to significantly affect BMD or serum IGF-I levels. MEASUREMENTS: BMD at the lumbar spine and femoral neck at baseline and after a mean follow-up-time of 3.3 years, serum-IGF-I, insulin-like growth factor binding protein 3 (IGFBP-3), sex hormone-binding globulin (SHBG) and biologically available testosterone (BAT). RESULTS: In women, there was a graded negative relationship between quartiles of serum IGF-I and bone loss at the proximal femur (P = 0.04), which persisted after adjustment for potential covariables of bone loss and serum IGF-I. In subgroup analysis the association between serum IGF-I and change in BMD was only apparent in women more than 10 years past menopause (r = + 0,38, P = 0.01). No association between serum IGF-I levels and changes in BMD was observed in men. IGF-I levels were not associated with changes in spinal BMD. CONCLUSIONS: Our data suggest that low circulating levels of IGF-I in elderly women are associated with greater femoral bone loss, and support previous findings of gender differences in the relation between serum IGF-I and BMD in older age.

Diabetes mellitus a risk for osteoporosis?

Localized lesions at the foot skeleton are a serious and well recognized complication of diabetes mellitus which may impair the clinical outcome of the patients remarkably. In contrast, the presence of a generalized bone disease or osteoporosis related to diabetes mellitus is less acknowledged and its clinical relevance is less obvious. This paper is a clinically focused review of the literature on osteoporosis related to diabetes mellitus. Due to the different pathogenesis of diabetes mellitus type 1 and type 2 it is not surprising that there is no uniform entity of diabetic osteopathy. The majority of clinical studies in subjects with diabetes mellitus type 1 showed a moderately decreased bone mass at the forearm, while bone mass at the femur or lumbar spine was either decreased or not different from non-diabetic controls. In patients with diabetes mellitus type 2 the risk of osteopenia is not as clear as in type 1 diabetes. Bone mineral density at the forearm in patients with type 2 diabetes mellitus was decreased, unchanged or even increased in comparison to controls, while bone mineral density at the vertebrae or femoral neck was either not significantly different or increased, but rarely decreased. The underlying mechanisms triggering changes in bone mass in patients with diabetes mellitus type 1 and type 2 are not well known. In most studies there was no consistent relationship between the metabolic control of diabetes and bone mineral density. Biochemical parameters of the calcium and bone metabolism showed no clear relationship to the bone mineral density measurements. From few bone histology studies in humans and experimental studies there is evidence that a decreased bone formation is one major mechanism leading to reduced bone mass in diabetics. Microangiopathy at the bone tissue was also discussed as a possible reason for diabetic osteopenia. It was shown that insulin and insulin like growth factors (IGF-1, IGF-2) have an influence on bone metabolism itself and other growth factors, cytokines and hormones may determine changes in diabetic bone metabolism. Recent findings suggest that leptin is involved in the regulation of osteoblast function and bone mass, which is of special interest in diabetes mellitus type 2. The clinical relevance of osteoporosis or osteopenia is determined by the increased risk for insufficiency fractures. Few studies found an increased fracture risk, especially in older women with type 1 diabetes mellitus, while others did not show an increased risk for fractures or even found a decreased rate of fractures in women with diabetes mellitus type 2. There is a need for further longitudinal studies, including the incidence and risk factors for osteoporotic fractures. In clinical routine the extent of diagnostic and therapeutic activities in patients with type 1 or type 2 diabetes mellitus in respect to generalized bone disease or diabetic osteopenia should be based on individual conditions and risk profile for osteoporosis.

Serum interleukin 6 is a major predictor of bone loss in women specific to the first decade past menopause.

The role of serum interleukin 6 (IL-6) as a predictor of bone loss was examined in a population-based, longitudinal study of 137 postmenopausal German women, 52-80 yr old at baseline. Serum IL-6 and other biochemical parameters were measured in baseline blood or urine specimens. Repeat standardized measures of bone mineral density (BMD) at the femur (total hip) and the lumbar spine (L2-L4) were taken by dual x-ray absorptiometry an average of 3.3 yr apart. Medical history and anthropometric measures were obtained from standardized interview and examination. Crude and age-adjusted mean serum IL-6 levels were significantly lower in postmenopausal women with than without hormone replacement therapy at baseline. Among nonusers of hormone replacement therapy, serum IL-6 concentrations were highly predictive of femoral bone loss, independently of potential confounders and plasma sex hormones. Statistical interaction between serum IL-6 and menopausal age or menopausal age group (>10 vs. < or =10 yr) indicated that the effect of IL-6 on bone loss weakened with increasing distance from menopause and was no longer significant in women more than 10 yr after menopause. Among women up to 10 yr past menopause (n = 39), serum IL-6 was the single most important predictor of femoral bone loss, accounting for up to 34% of the total variability of change in BMD. The unadjusted linear model predicted an annual 1.34% (95% confidence interval, 0.67-2.01) decrease in total hip BMD per log unit increase in serum IL-6. A similar, although nonsignificant, effect of serum IL-6 on vertebral bone loss was restricted to women within the first 6 yr after menopause (n = 18). These epidemiological data show that serum IL-6 is a predictor of postmenopausal bone loss, and that the effect appears to be most relevant through the first postmenopausal decade. Whether these findings reflect pathogenetic differences between early and postmenopausal bone loss, and whether serum IL-6 also predicts fracture risk need further elucidation.

Frequency and predictors of osteoporotic fractures after cardiac or liver transplantation: a follow-up study.

BACKGROUND: Osteoporosis and related fractures are a major complication after organ transplantation. The aim of this study was to find out the frequency and predictors of osteoporotic fractures after cardiac or liver transplantation. METHODS: 235 consecutive patients who had a cardiac transplant (n=105; 88 men, 17 women) or a liver transplant (130; 75 men, 55 women) were followed. Vertebral fractures were assessed by a standardised analysis of spinal radiographs before and annually after transplantation. Clinical and non-vertebral fracture data were noted from hospital records. FINDINGS: In the first and second years after transplantation, the proportion of patients (Kaplan-Meier estimates) who had at least one vertebral fracture was slightly higher in the cardiac group (first year 21%, second year 27%) than in the liver group (first year 14%, second year 21%). In the third and fourth years, one third of patients from both groups had had one or more vertebral fractures. Non-vertebral fractures occurred in nine patients (7%) after liver transplantation and avascular necrosis of the hip head in three patients (3%) after cardiac transplantation. In both groups, no dose-dependent effect of immunosuppressive therapy on fracture development could be identified. Independent predictors assessed by multivariate analysis were age (hazard ratio [95% CI] increase of 5 years, 1.71 [1.1-2.7]) and lumbar bone-mineral density (decrease of 1 SD t score, 1.97 [1.2-3.2]) in cardiac transplantation patients, and vertebral fractures before transplantation (6.07 [1.7-21.7]) in the liver group. INTERPRETATION: The high frequency of osteoporotic fractures in the 2 years after transplantation and the limitations of reliable fracture-risk predictions, show the need to investigate preventive therapies.

[Osteoporosis in the male]. / Die Osteoporose des Mannes.

BACKGROUND: Osteoporotic fractures occur frequently also in men. Epidemiologic data from Germany indicate that more than 900,000 men are affected by osteoporotic fractures. Diagnosis and therapy of male osteoporosis are hampered by a lack of clinical studies. DIAGNOSIS: Risk factor analysis, conventional spine X-rays, bone densitometry and a limited number of serum and urine analyses contribute to the diagnosis of osteoporosis and the assessment of future fracture risk. Bone densitometry at the femoral neck is superior to measurements at the lumbar spine because of the high prevalence of degenerative changes at the lumbar spine in elderly men. Major risk factors for osteoporosis are hypogonadism, glucocorticoid therapy, hypercalciuria, gastrointestinal disease, and high alcohol consumption. In individual cases, bone histology or additional biochemical studies are needed to establish the cause of osteoporosis. THERAPY: Calcium and vitamin D deficits should be substituted both in prevention and treatment of male osteoporosis. Testosterone replacement therapy is effective in hypogonadism. In primary osteoporosis and in corticosteroid-induced osteoporosis, bisphosphonates (cyclical etidronate, alendronate) and fluorides are therapeutic options. CONCLUSION: Important principles in the care of men with osteoporosis are the transfer of knowledge established for postmenopausal osteoporosis and the rigorous search for secondary osteoporosis aiming at treatment of the underlying cause. Large prospective randomized trials aiming at the reduction of fracture rate in male osteoporosis are missing. They are urgently needed.

Sex difference in the validity of vertebral deformities as an index of prevalent vertebral osteoporotic fractures: a population survey of older men and women.

Morphometric methods have been developed for standardized assessment of vertebral deformities in clinical and epidemiologic studies of spinal osteoporosis. However, vertebral deformity may be caused by a variety of other conditions. To examine the validity of morphometrically assessed vertebral deformities as an index of osteoporotic vertebral fractures, we developed an algorithm for radiological differential classification (RDC) based on a combination of quantitative and qualitative assessment of lateral spinal radiographs. Radiographs were obtained in a population of 50- to 80-year-old German women (n = 283) and men (n = 297) surveyed in the context of the European Vertebral Osteoporosis Study (EVOS). Morphometric methods (Eastell 3 SD and 4 SD criteria, McCloskey) were validated against RDC and against bone mineral density (BMD) at the femur and the lumbar spine. According to RDC 36 persons (6.2%) had at least one osteoporotic vertebral fracture; among 516 (88.9%) nonosteoporotics 154 had severe spondylosis, 132 had other spinal disease and 219 had normal findings; 14 persons (2.4%) could not be unequivocally classified. The prevalence of morphometrically assessed vertebral deformities ranged from 7.3% to 19.2% in women and from 3.5% to 16.6% in men, depending on the stringency of the morphometric criteria. The agreement between RDC and morphometric methods was poor. In men, 62-86% of cases with vertebral deformities were classified as nonosteoporotic (severe spondylosis or other spinal disease) by RDC, compared with 31-68% in women. Among these, most had wedge deformities of the thoracic spine. On the other hand, up to 80% of osteoporotic vertebral fractures in men and up to 48% in women were missed by morphometry, in particular endplate fractures at the lumbar spine. In the group with osteoporotic vertebral fractures by RDC the proportion of persons with osteoporosis according to the WHO criteria (T-score < -2.5 SD) was 90.0% in women and 86.6% in men, compared with 67.9-85.0% in women and 20.8-50.0% in men with vertebral deformities by various methods. Although vertebral deformities by most definitions were significantly and inversely related to BMD as a continuous variable in both sexes [OR; 95% CI ranged between (1.70; 1.07-2.70) and (3.69; 1.33-10.25)], a much stronger association existed between BMD and osteoporotic fractures defined by RDC [OR; 95% CI between (4.85; 2.30-10.24) and (15.40; 4.65-51.02)]. In the nonosteoporotic group individuals with severe spondylosis had significantly higher BMD values at the femoral neck (p < 0.01) and lumbar spine (p < 0.0004) compared with the normal group. On the basis of internal (RDC) and external (BMD) validation, we conclude that assessment of vertebral osteoporotic fracture by quantitative methods alone will result in considerable misclassification, especially in men. Criteria for differential diagnosis as used within RDC can be helpful for a standardized subclassification of vertebral deformities in studies of spinal osteoporosis.

Severe osteoporosis in familial Hajdu-Cheney syndrome: progression of acro-osteolysis and osteoporosis during long-term follow-up.

Hajdu-Cheney syndrome is an autosomal dominant inherited osteodysplastic bone disease with the hallmarks of acro-osteolysis, skull deformations, and generalized osteoporosis. Very few patients have been followed long-term with respect to the prognosis of acro-osteolysis and osteoporosis. Here we describe a 39-year-old woman and her 19-year-old daughter who are both affected with the Hajdu-Cheney syndrome. Skeletal lesions were followed in the mother between the ages of 22 and 39 years. The acro-osteolytic lesions progressed markedly and caused shortening of several fingers; some end phalanges had completely disappeared. Severe spinal osteoporosis with serial vertebral fractures was found at the age of 22 years. New vertebral fractures developed until the age of 33 years, but did not progress afterward. High turnover osteoporosis was found in the bone histology of iliac crest biopsies performed at the ages of 22 and 34 years. Bone mineral content (BMC) was strikingly decreased at the age of 34 years (T score -5.1 SD) and did not significantly change during further follow-up. In the daughter, BMC failed to increase between the ages of 12 and 19 years and was also markedly decreased (T score -4.4 SD). This suggests that osteoporosis in Hajdu-Cheney syndrome is related to a low peak bone mass and a high bone turnover, leading to insufficient bone formation compared with the increased bone resorption.

Reduced pulmonary function in patients with spinal osteoporotic fractures.

Vertebral deformation in spinal osteoporosis results in spinal and thoracic deformation, causing pain, disability and an overall decrease in quality of life. We sought to determine whether thoracic spinal deformation may lead to impaired pulmonary function. We studied expiratory relaxed vital capacity (VC) and forced expiratory volume in 1 s (FEV1) in 34 patients with spinal osteoporotic fractures and 51 patients with chronic low back pain (CLBP) due to reasons other than osteoporosis. Measurements of pulmonary function tests were calculated as a percentage of the normal range adjusting for age, sex, and height using the equations for normal values of the EKGS (Europäische Gesellschaft für Kohle und Stahl). Severity of osteoporosis was determined by calculation of the spine deformity index (SDI-total and SDI-anterior) on lateral radiographs of the spine and clinical measures of body stature (height reduction, distance from lowest ribs to iliac crest and distance from the occiput to the wall). Patients with osteoporosis had a lower vital capacity (%VC of the reference value) than patients with CLBP. The differences were more prominent (p < 0.05) when the previous body height, at age 25 years, was used as reference for calculation of VC (mean +/- SD: 93.6% +/- 15.3% in patients with osteoporosis v 105.6% +/- 15.1% in patients with CLBP). FEV1 was significantly (p < 0.05) lower in patients with osteoporosis when previous body height was considered, in comparison with patients with CLBP (mean +/- SD: 85.0% +/- 14.2% in patients with osteoporosis v 92.4% +/- 13.6% in patients with CLBP). In patients with osteoporosis VC (standardized on previous body height) was significantly negatively correlated with SDI-anterior (r = -0.4, p < 0.03). Furthermore, VC standardized on previous body height showed a weak but significant negative correlation with some clinical measures of osteoporosis (height reduction vs %VC: r = -0.34, p < 0.05; distance from the lowest ribs to iliac crest vs %VC: r = 0.35, p < 0.04). In conclusion, we found that pulmonary function is significantly diminished in patients with spinal osteoporotic fractures as compared with CLBP patients without evidence of manifest osteoporosis. Reduction of pulmonary function is correlated significantly with clinical and radiological measures of severity of spinal deformation due to osteoporotic fractures.