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ABSTRACT: Die zentrale Adipositas als wesentlicher kardiovaskulärer Risikofaktor wie auch das metabolische Syndrom und der Typ-2-Diabetes
mellitus sind mit niedrigen Testosteronspiegeln assoziiert. In Einklang mit diesen Daten zeigen Untersuchungen bei Patienten
unter einer androgenablativen Therapie wegen eines Prostatakarzinoms einen negativen Effekt dieser Therapie auf die Insulinsensitivität
und die Fettmasse. Die Wirkungen einer Testosterontherapie in physiologischen Dosen scheint geringere Wirkung auf Parameter
des Fettstoffwechsels zu haben. Supraphysiologische Testosteronspiegel können jedoch HDL-Spiegel senken. Bezüglich der glykämischen
Kontrolle bei Typ-2-Diabetikern sind die Daten aktuell noch nicht einheitlich. Negative Effekte auf die glykämische Kontrolle
bei Typ-2-Diabetikern sind jedoch nicht berichtet. Zwei Studien haben jedoch durchaus eine positive Wirkung von Testosteron
auf die glykämische Kontrolle bei Typ-2-Diabetikern. Eine abschließende Bewertung der Bedeutung einer Testosterontherapie
beim metabolischen Syndrom und Typ-2-Diabetes mellitus ist aktuell noch nicht möglich. Erst größere randomisierte prospektive
Studien werden zeigen, ob eine Testosterontherapie beim metabolischen Syndrom oder Typ-2-Diabetes hilfreich sein kann. Jedoch
scheint die Gabe von Testosteron bei hypogonadalen Männern mit metabolischem Syndrom eine viel versprechende Therapieoption
zur Verbesserung der metabolischen Kontrolle zu sein.
Abdominal obesity as a key cardiovascular risk factor as well as metabolic syndrome and type 2 diabetes mellitus are associated
with low testosterone levels. In line with these facts, investigations of patients undergoing androgen ablation therapy for
prostate cancer have shown a negative effect of this treatment approach on insulin sensitivity and body fat mass. The effects
of physiological doses of testosterone seem to have less impact on the parameters of lipid metabolism. However, supraphysiological
levels of testosterone can lower HDL levels. At present data on glycemic control in patients with type 2 diabetes are not
yet uniform, but negative effects on glycemic control in type 2 diabetics have not been reported. In fact two studies were
able to demonstrate a positive effect of testosterone on glycemic control in patients with type 2 diabetes. It is currently
not yet possible to conclusively evaluate the significance of testosterone treatment in patients with metabolic syndrome and
type 2 diabetes mellitus. Only larger, randomized prospective trials will show whether testosterone therapy is helpful in
metabolic syndrome or type 2 diabetes. However, administration of testosterone in hypogonadal men with metabolic syndrome
appears to be a promising treatment option to improve metabolic control.
Der Urologe 04/2012; 49(1):47-50. · 0.50 Impact Factor
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ABSTRACT: Abdominal obesity as a key cardiovascular risk factor as well as metabolic syndrome and type 2 diabetes mellitus are associated with low testosterone levels. In line with these facts, investigations of patients undergoing androgen ablation therapy for prostate cancer have shown a negative effect of this treatment approach on insulin sensitivity and body fat mass. The effects of physiological doses of testosterone seem to have less impact on the parameters of lipid metabolism. However, supraphysiological levels of testosterone can lower HDL levels. At present data on glycemic control in patients with type 2 diabetes are not yet uniform, but negative effects on glycemic control in type 2 diabetics have not been reported. In fact two studies were able to demonstrate a positive effect of testosterone on glycemic control in patients with type 2 diabetes. It is currently not yet possible to conclusively evaluate the significance of testosterone treatment in patients with metabolic syndrome and type 2 diabetes mellitus. Only larger, randomized prospective trials will show whether testosterone therapy is helpful in metabolic syndrome or type 2 diabetes. However, administration of testosterone in hypogonadal men with metabolic syndrome appears to be a promising treatment option to improve metabolic control.
Der Urologe 01/2010; 49(1):47-50. · 0.50 Impact Factor
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T Minnemann,
M Schubert,
S Freude,
D Hübler,
I Gouni-Berthold,
C Schumann,
A Christoph,
M Oettel,
M Ernst,
U Mellinger,
W Krone, F Jockenhövel
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ABSTRACT: To assess the efficacy and safety of a novel long-acting im testosterone undecanoate (TU) formulation in comparison with testosterone enanthate (TE).
An open-label, randomized, prospective clinical trial in 40 hypogonadal men (baseline serum testosterone levels <5 nmol/l), randomly assigned to 250 mg TE/3 weeks (no.=20) or 1000 mg TU im every 6 to 9 weeks for 30 weeks (no.=20). Subsequently, 32/40 men continued the study for another 114 weeks, now receiving TU 1000 mg/12 weeks.
TU and TE produced no statistically significant improvements in grip strength over the first 30 weeks, which only occurred after approximately 90 weeks when all subjects received TU. There were no changes in body mass index with TU and TE, neither in the follow-up period when all patients received TU. But ratios of waist to hip circumferences declined in the longer term. Total serum cholesterol, LDL cholesterol, and triglycerides declined over the first 30 weeks, while plasma HDL also declined. Plasma LDL decreased further under long-term TU therapy, while HDL then increased. Hemoglobin and hematocrit values significantly increased over the first 30 weeks in both treatment groups and then no further increase was observed. Levels did not exceed the upper limit of normal. In both treatment groups, serum prostate specific antigen levels rose slightly after 30 weeks, with no further increase over the first 12 months, remaining stable within the normal range. Plasma T before the following TU injection was above the lower limit of reference values. Four injections per year are adequate.
Administration of TU every 12 weeks is at least as safe and efficacious for treatment of hypogonadal men as TE, with a substantially lower frequency of administration. Follow-up over 114 weeks, when all subjects received TU, showed an excellent profile of efficacy and safety.
Journal of endocrinological investigation 08/2008; 31(8):718-23. · 1.57 Impact Factor
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T Minnemann,
M Schubert,
D Hübler,
I Gouni-Berthold,
S Freude,
C Schumann,
M Oettel,
M Ernst,
U Mellinger,
F Sommer,
W Krone, F Jockenhövel
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ABSTRACT: This is a four-year follow-up of 25 men who received parenteral testosterone undecanoate (TU), 1000 mg every 12 weeks for at least four years. This study was a continuation of a 30-week study wherein the effects of TU had been compared to those of parenteral testosterone enanthate.
Plasma testosterone (T) trough values of the injection interval of 12 weeks): median 11.9 - 15.9 nmol/L (N 10.0-30.0). E2 and SHBG were stable. Body weight, BMI, waist-to-hip ratio remained stable. Total cholesterol, and triglycerides were unchanged but plasma LDL declined while HDL, after an initial reduction over the first 30 weeks, had increased significantly after three years. Leptin levels, bone mineral density, blood pressure, liver function tests, haemoglobin and haematocrit levels remained stable without values above the upper limit of normal. Over the first 12 months of the study there was an increase in prostate volume from 19.7 +/- 8.8 mL to 22.0 +/- 8.4 mL (p < 0.05) but thereafter volumes remained stable, paralleled by an increase in PSA from 0.67 +/- 0.38 microg/dL to 0.75 +/- 0.35 microg/dL (p < 0.05) without any further changes after 12 months.
TU appears to be a stable and safe treatment modality of hypogonadal men.
The Aging Male 09/2007; 10(3):155-8. · 1.52 Impact Factor
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ABSTRACT: Late-onset hypogonadism (LOH) is defined by reduced serum testosterone levels (either total testosterone or free testosterone) and the careful exclusion of any form of classical hypogonadism. When the androgen decline associated with advancing age causes detrimental physiological and mental effects, the syndrome is known as symptomatic LOH (SLOH). A detailed medical history and physical examination are the bases of the diagnosis, and should always precede any biochemical investigations. A general screening of men above a certain age for testosterone deficiency is not feasible. Questionnaires may assist in identifying men who suffer from LOH. Common clinical symptoms of SLOH are lethargy, fatigue, decreased sense of well-being, reduced physical and mental activity, diminished libido, increased sweating, depressive mood, reduced muscle and bone mass or even osteoporosis, erectile dysfunction, and mild anemia. When clinical symptoms are present, the laboratory work-up should focus on total testosterone serum levels. Total testosterone levels <200 ng/dl indicate hypogonadism. In cases of testosterone levels between 200 and 400 ng/dl, measurement should be repeated and supplemented by determination of free testosterone, either by appropriate laboratory methods or the calculation of free testosterone index. In case of very low testosterone levels, classical secondary hypogonadism needs to be considered and excluded. For the safety reasons to exclude contraindications of therapy with androgens, and for follow-up investigations during therapy prostate-specific antigen (PSA), hemoglobin and hematocrit are of interest.
Journal of endocrinological investigation 01/2005; 28(3 Suppl):23-7. · 1.57 Impact Factor
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ABSTRACT: In an open-label, randomized, prospective trial, we investigated pharmacokinetics and several efficacy and safety parameters of a novel, long-acting testosterone (T) undecanoate (TU) formulation in 40 hypogonadal men (serum testosterone concentrations < 5 nmol/liter). For the first 30 wk (comparative study), the patients were randomly assigned to receive either 10 x 250 mg T enanthate (TE) im every 3 wk (n = 20) or 3 x 1000 mg TU im every 6 wk (loading dose) followed by 1 x 1000 mg after an additional 9 wk (n = 20). In a follow-up study, observation continued in those patients who completed the comparative part and opted for TU treatment (8 x 1000 mg TU every 12 wk in former TU patients and 2 x 1000 mg TU every 8 wk plus 6 x 1000 mg every 12 wk in former TE patients) for an additional 20-21 months. Here we report only the pharmacokinetic aspects of the new TU formulation for the first approximately 2.5 yr of treatment. At baseline, serum T concentrations did not significantly differ between the two study groups. In the TE group, mean trough levels of serum T were always less than 10 nmol/liter before the next injection, whereas in the TU group, mean trough levels of serum T were 14.1 +/- 4.5 nmol/liter after the first two doses (6-wk intervals) and 16.3 +/- 5.7 nmol/liter after the 9-wk interval at wk 30. The mean serum levels of dihydrotestosterone and estradiol also increased in parallel to the serum T pattern and remained within the normal range. In the follow-up study, the former TU patients (n = 20) received eight TU injections at 12-wk intervals, and the TE patients (n = 16) switched to TU and initially received two TU injections at 8-wk intervals (loading) and continued with six TU injections at 12-wk intervals (maintenance). This regimen resulted in stable mean serum trough levels of T (ranging from 14.9 +/- 5.2 to 16.5 +/- 8.0 nmol/liter) and estradiol (ranging from 98.5 +/- 45.2 to 80.4 +/- 14.4 pmol/liter). The present study has shown that 1000 mg TU injected into male patients with hypogonadism at 12-wk intervals is well tolerated and leads to T levels within normal ranges, using four instead of 17 or more TE injections per year. An initial loading dose of either 3 x 1000 mg TU every 6 wk at the beginning of hormone substitution or 2 x 1000 mg TU every 8 wk after switching from the short-acting TE to TU were found to be a adequate dosing regimens for starting of treatment with the long-acting TU preparation.
Journal of Clinical Endocrinology & Metabolism 11/2004; 89(11):5429-34. · 6.50 Impact Factor
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ABSTRACT: Familial central diabetes insipidus is an inherited disease of predominant autosomal dominant trait characterized by a deficiency of arginine vasopressin. The arginine vasopressin-neurophysin II ( AVP-NPII) gene consists of three exons and is located on chromosome 20p13 encoding for the precursor protein of AVP. We investigated two Caucasian families with a typical autosomal dominant trait of familial central diabetes insipidus, defined by deficiency of arginine vasopressin. After PCR amplification of exon 1 and exon 2/3, fragments were pooled and purified. Nucleotide sequencing was performed with the Taq DyeDeoxy-terminator cycle sequencing method using nested primers. Two mutations in the coding region of NPII were identified. In family C we found a heterozygous G ==> C missense mutation (AA61) in exon 2 leading to the substitution of cystein with serine. In family D a novel heterozygous nonsense mutation in exon 3 (AA 83, GAG ==> TAG) was indentified, leading to a stop codon instead of glutamine. Both mutations were confirmed by restriction analysis and were found in all affected but not in healthy family members or control subjects. We therefore have identified a missense mutation of the AVP-NPII gene and a novel mutation predicting a truncated protein.
Experimental and Clinical Endocrinology & Diabetes 05/2002; 110(3):134-7. · 1.69 Impact Factor
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ABSTRACT: The following article reviews nuclear medicine techniques which can be used for assessment of endocrine disorders of the hypothalamic-pituitary axis. For planar and SPECT imaging somatostatin-receptor- and dopamine-D2-receptor-scintigraphy are the most widely distributed techniques. These nuclear medicine techniques may be indicated in selected cases to answer differential diagnostic problems. They can be helpful to search for presence and localization of receptor positive tissue. Furthermore they can detect metastasis in the rare cases of a pituitary carcinoma. Scintigraphy with Gallium-67 is suitable for further diagnostic evaluation in suspected hypophysitis. Other SPECT radiopharmaca do not have relevant clinical significance. F-18-FDG as PET radiopharmacon is not ideal because obvious pituitary adenomas could not be visualized. Other PET radiopharmaca including C-11-methionine, C-11-tyrosine, F-18-fluoroethylspiperone, C-11-methylspiperone, and C-11-raclopride are available in specialized centers only. Overall indications for nuclear medicine in studies for the assessment of endocrine disorders of the hypothalamic-pituitary-axis are rare. Original studies often report only about a small number of patients. According to the authors' opinion the relevance of nuclear medicine in studies of clinically important endocrinologic fields, e.g. localization of small ACTH-producing pituitary adenomas, tumor localization in ectopic ACTH syndrome, localization of recurrent pituitary tissue, assessment of small incidentalomas, can not be definitely given yet.
Nuklearmedizin 05/2002; 41(2):80-90. · 1.28 Impact Factor
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F Jockenhövel
DMW - Deutsche Medizinische Wochenschrift 04/2001; 126(9):247-52. · 0.53 Impact Factor
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ABSTRACT: Hypertensive cardiac hypertrophy and myocardial infarction (MI) are clinically relevant risk factors for heart failure. There is no specific information addressing signaling alterations in the sequence of hypertrophy and post-MI remodeling. To investigate alterations in beta-adrenergic receptor G-protein signaling in ventricular remodeling with pre-existing hypertrophy, MI was induced by coronary artery ligation in Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR). Ten weeks after the induction of MI, the progression of left ventricular dysfunction and increases in plasma atrial natriuretic peptide (ANP) and cardiac ANP mRNA were more pronounced in SHR than WKY. In addition, the impaired contractile response to beta-adrenergic stimulation was observed in the noninfarcted papillary muscle isolated from SHR. Immunochemical G(s alpha) protein and beta-adrenoceptor density were not significantly altered by MI in both strains. However, immunochemical G(i alpha) was increased (1.5-fold) in the noninfarcted left ventricle of the SHR in which infarction had been induced when compared with that in SHR that underwent sham operation. This increase was observed especially in rats with a high plasma ANP level. Furthermore, there was a positive correlation between G(i alpha) and the extent of post-MI remodeling in WKY. A similar correlation between G(i alpha) and the extent of hypertensive hypertrophy was observed in SHR. In conclusion, the vulnerability of hypertrophied hearts to ischemic damage is greater than that of normotensive hearts. An increase in G(i alpha) could be one mechanism involved in the transition from cardiac hypertrophy to cardiac failure when chronic pressure overload and loss of contractile mass from ischemic heart disease coexist.
Hypertension 08/2000; 36(1):42-7. · 6.21 Impact Factor
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ABSTRACT: We retrospectively reviewed 5 patients with neurosarcoidosis, who all presented with central diabetes insipidus and hypogonadism.
This was a single-centre, retrospective analysis of 5 cases with a minimum follow-up of 2 years.
Case analysis included clinical, biochemical, and endocrinological evaluation and frequent CT/MRI scans of involved organs as primary evaluation and in response to immunosuppressive therapy.
Neurosarcoidosis was diagnosed in all patients. Two patients had no proven extracerebral manifestation and had a stable disease over 3 and 5 years. One patient showed deterioration with corticosteroids alone but partial remission after additional cyclophosphamide. Pituitary dysfunction remained unchanged in all patients, despite total clinical and radiological remission in two patients. However, one of these patients died of acute granulomatous meningoencephalitis after two years of follow-up.
Although the presenting symptoms of neurosarcoidosis may vary, the occurrence of central diabetes insipidus associated with typical radiological features is suggestive of neurosarcoidosis. However, there is an increasing number of case reports on lymphocytic hypophysitis. Without the bioptic diagnosis, the differentiation between potentially lethal isolated neurosarcoidosis and lymphocytic hypophysitis is difficult. These cases demonstrate the difficulties in diagnosing neurosarcoidosis and reflect experiences with follow-up parameters.
European Journal of Endocrinology 05/2000; 142(4):365-72. · 3.42 Impact Factor
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ABSTRACT: Hypercholesterolemia causes an upregulation of vascular angiotensin II type 1 (AT1) receptor expression in cell culture and animal models. The presented studies were undertaken to examine AT1 receptor overexpression in hypercholesterolemic men and therapeutic interventions thereof by HMG CoA reductase inhibitors (statins).
Effects of AT1 receptor activation were measured by assessing the blood pressure increase after infusion of angiotensin II in normo- (cholesterol 181+/-11 mg/dL) and hypercholesterolemic (cholesterol 294+/-10 mg/dL) men (n=19 and 20, respectively). AT1 receptor expression was assessed on isolated platelets. Some patients were investigated before and after cholesterol-lowering therapy with statins. Hypercholesterolemia led to a significant increase of angiotensin II-induced blood pressure elevation. AT1 receptor expression was significantly enhanced in hypercholesterolemic individuals (B(max)=5.2+/-1.2 fmol/mg protein) compared with normocholesterolemic men (B(max)=2.1+/-0.2 fmol/mg protein). Cholesterol-lowering treatment with statins reversed the elevated blood pressure response to angiotensin II infusion (P<0.05) and downregulated AT1 receptor density (P<0.05).
Hypercholesterolemia induces AT1 receptor overexpression and enhances biological effects of angiotensin II in men. These findings provide novel insights into the pathogenesis of hypertension and atherosclerosis and may initiate rational and new therapeutic concepts.
Circulation 11/1999; 100(21):2131-4. · 14.74 Impact Factor
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ABSTRACT: We investigated whether the androgen type or application mode or testosterone (T) serum levels influence serum lipids and lipoprotein levels differentially in 55 hypogonadal men randomly assigned to the following treatment groups: mesterolone 100 mg orally daily ([MES] n = 12), testosterone undecanoate 160 mg orally daily ([TU] n = 13), testosterone enanthate 250 mg intramuscularly every 21 days ([TE] n = 15), or a single subcutaneous implantation of crystalline T 1,200 mg ([TPEL] n = 15). The dosages were based on standard treatment regimens. Previous androgen substitution was suspended for at least 3 months. Only metabolically healthy men with serum T less than 3.6 nmol/L and total cholesterol (TC) and triglyceride (TG) less than 200 mg/dL were included. After a screening period of 2 weeks, the study medication was taken from days 0 to 189, with follow-up visits on days 246 and 300. Before substitution, all men were clearly hypogonadal, with mean serum T less than 3 nmol/L in all groups. Androgen substitution led to no significant increase of serum T in the MES group, subnormal T in the TU group (5.7 +/- 0.3 nmol/L), normal T in the TE group (13.5 +/- 0.7 nmol/L), and high-normal T in the TPEL group (23.2 +/- 1.1 nmol/L). 5 alpha-Dihydrotestosterone significantly increased in all treatment groups compared with baseline. Compared with presubstitution levels, a significant increase of TC was observed in all treatment groups (TU, 14.4% +/- 3.0%; MES, 18.8% +/- 2.5%; TE, 20.4% +/- 3.0%; TPEL, 20.2% +/- 2.6%). Low-density lipoprotein cholesterol (LDL-C) also increased significantly by 34.3% +/- 5.5% (TU), 46.4% +/- 4.1% (MES), 65.2% +/- 5.7% (TE), and 47.5% +/- 4.3% (TPEL). High-density lipoprotein cholesterol (HDL-C) showed a significant decrease by -30.9% +/- 2.8% (TU), -34.9% +/- 2.5% (MES), -35.7% +/- 2.6% (TE), and -32.5% +/- 3.5% (TPEL). Serum TG significantly increased by 37.3% +/- 11.3% (TU), 46.4% +/- 10.3% (MES), 29.4% +/- 6.5% (TE), and 22.9% +/- 6.7% (TPEL). TU caused a smaller increase of TC than TE and TPEL, whereas the parenteral treatment modes showed a lower increase of TG. There was no correlation between serum T and lipid concentrations. Despite the return of serum T to pretreatment levels, serum lipid and lipoprotein levels did not return to baseline during follow-up evaluation. In summary, androgen substitution in hypogonadal men increases TC, LDL-C, and TG and decreases HDL-C independently of the androgen type and application made and the serum androgen levels achieved. Due to the extended washout period for previous androgen medication and the exclusion of men with preexisting hyperlipidemia, this investigation demonstrates more clearly than previous studies the impact of androgen effects on serum lipids and lipoproteins. It is concluded that preexisting low serum androgens induce a "male-type" serum lipid profile, and increasing serum androgens further within the male normal range does not exert any additional effects. The threshold appears to be above the normal female androgen serum levels and far below the lower limit of normal serum T levels in adult men. These findings may have considerable implications for the use of androgens as a male contraceptive and for androgen therapy in elderly men.
Metabolism 06/1999; 48(5):590-6. · 2.66 Impact Factor
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ABSTRACT: Alkylating drugs (cyclophosphamide and ifosfamide) have been in clinical use for the treatment of malignant diseases in the past. They are most useful anticancer agents and cyclophosphamide is also widely used for its immunosuppressive properties. However the effect of alkylating drugs on thyroid hormone parameters have not been evaluated so far. Three groups of patients were prospectively evaluated: Group I: 15 patients with Wegener's granulomatosis and 4 patients with severe scleritis received a single dose cyclophosphamide (15 mg/kg bw/day) and 250 mg prednisone i.v. Group II: 9 patients with malignant lymphomas were treated according to the IMVP 16-protocol. Patients received daily ifosfamide 1000 mg/m2 from day 0 to 4 and vepesid from day 0 to 2. Patients did not receive corticosteroids additionally. Group III: 6 patients with a relapse of malignant lymphomas received ifosfamide 1.500 mg/m2/day from day 0 to 4 i.v. and dexamethasone 40 mg/m2 as well as ara-c and etoposid. All patients received mesna to prevent hemorrhagic cystitis and odansetran or metoclopramide as antiemetic drugs. Alkylating drugs were given as a one hour infusion. Thyroid hormone parameters were determined before and on day 1, 2, 3, 4 after drug administration. We observed a significant increase in T4 and fT4 concentrations and a concomitant fall in TSH in either group one day after the administration of alkylating drugs. The effect was most pronounced in group III: T4 increased from 113 +/- 8 nmol/L to 175 +/- 8 (normal: 58-154) and fT4 from 14.0 +/- 0.8 to 24.8 +/- 2.5 pmol/L (normal 10-25). TSH dropped from 1.27 +/- 0.16 to 0.33 +/- 0.07 mU/L (normal 0.3-4). All changes were significant: p < 0.001. Two of the six patients displayed biochemical hyperthyroidism. Also reverse T3 increased significantly. Two days after drug administration a gradual normalization occurred. However, T3, Tg, TBG, Transthyretin and albumin levels did not change throughout the study period. One patient with coexisting hypothyroidism, who received his last thyroxine substitution therapy one day before the administration of cyclophosphamide (as in group I), also demonstrated an increase in T4, fT4 and rT3 and a fall in TSH concentrations. I.v. administrations of cyclophosphamide and ifosfamide induce a transient increase in T4 and fT4 concentrations and a concomitant fall of TSH in the presence of normal Tg, T3 and thyroid binding protein concentrations. These data suggest, that the changes are not due to a release of thyroid hormones from the thyroid itself, but is likewise related to a release of thyroxine from cellular pools such as the liver.
Experimental and Clinical Endocrinology & Diabetes 02/1999; 107(3):177-82. · 1.69 Impact Factor
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ABSTRACT: Gynecomastia is a very common symptom of an underlying hormonal imbalance in men. In addition to the three age peaks, a number of pathological conditions can also lead to an increase in the ratio of estrogen to androgen in the male, and thus provoke gynecomastia. While it is not necessary to carry out a thorough diagnostic investigation in every case of gynecomastia, the presence of an underlying tumor needs to be excluded. Should appropriate treatment of associated or causal pathology fail to resolve the problem, drug treatment or surgical options are available.
Fortschritte der Medizin 01/1999; 116(35-36):18-22.
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ABSTRACT: Persistent hyperparathyroidism after renal transplantation (Rtx) has been reported in several studies. However these studies evaluated biochemical bone parameters either only during a short time period (up to 6 months) or for a longer time period, but with long intervals in between. Therefore, we prospectively evaluated biochemical bone parameters of kidney-transplant recipients at short intervals for 2 years after surgery.
Biochemical bone parameters were prospectively investigated in 129 patients 2, 3, 5, 8, 12, 18 and 24 months after Rtx. All patients received prednisone and cyclosporin A as immunosuppressive therapy, and 75 patients also received azathioprine. None of the patients was treated with calcium, phosphorus, or vitamin D preparations.
Serum creatinine levels decreased from 166.8 +/- 5.4 mumol/l to 140.0 +/- 4.9 two years after Rtx; (data are expressed as mean +/- s.e.m.). Serum phosphorus levels increased slightly from 0.9 +/- 0.022 mmol/l to 0.98 +/- 0.025 (12 m), but remained within the lower normal range. We observed a rise in total and albumin adjusted calcium concentrations 3 months after Rtx. 52% of all patients had serum calcium levels above 2.62 mmol/l (upper normal limit in our laboratory) 3 months after renal transplantation with a gradual decrease thereafter. There was no correlation of calcium and PTH levels. We observed a significant rise in biochemical bone parameters from 2 to 5 months after renal transplantation (P < 0.001): alkaline phosphatase (AP) increased from 164.3 +/- 9.4 to 236 +/- 12.7 U/l (normal 50-180), bone specific alkaline phosphatase (BAP) rose from 17.7 +/- 1.36 to 23.2 +/- 1.7 ng/ml (normal:4-20) and osteocalcin (OC) increased from 20.2 +/- 1.5 to 26.7 +/- 1.9 ng/ml (normal 4-12). AP and BAP levels values normalized 12 months after renal transplantation, whereas OC was still above normal throughout the study period. Patients were subdivided into two groups: those with good and those with impaired graft functions. Patients with good graft function had stable serum creatinine levels (< or = 132 mumol/l or < or = 1.5 mg/dl) well below the mean serum creatinine concentration during the study period. The significant changes in AP, BAP, and OC occurred irrespective of renal function. However, patients with impaired graft function (n = 65) had significantly higher PTH-levels (70 pg/ml higher) than patients with good graft function (n = 64), P < 0.01. PTH was positively correlated with serum creatinine (r = 0.81, P < 0.001). Moreover, patients with low 25 (OH) vitamin D levels (n = 63) had significantly higher PTH concentrations (between 40 and 80 pg/ml, P < 0.01) throughout the study period compared to patients (n = 66) with a sufficient 25(OH)D supply irrespective of graft function. There was a negative correlation of 25 (OH)D levels and PTH; (r = -0.49, P < 0.001). 1,25(OH)2D3 (evaluated in 24 patients) levels increased from 46.5 +/- 6.6 to 76.9 +/- 7.6 pg/ml (normal:35-90) at 12 months.
Hypercalcaemia is a common phenomenon in the early period after kidney transplantation and occurs in the presence of low normal phosphorus levels. It is most probably related to improved PTH action and 1-hydroxylation of vitamin D. The rise in biochemical bone parameters between 3 and 5 months occurs irrespective of graft function and normalization is only achieved 1 year after transplantation. PTH is constantly elevated for up to 2 years after kidney transplantation and is most probably related (a) to impaired graft function and (b) to suboptimal 25 OH vitamin D supply.
Nephrology Dialysis Transplantation 03/1998; 13(2):436-42. · 3.40 Impact Factor
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ABSTRACT: The syndrome of thyroid hormone resistance (RTH) is characterised by elevated circulating thyroid hormones, unsuppressed TSH levels and peripheral refractoriness to hormone action. Patients with RTH may be clinically hyperthyroid if the pituitary gland is more insensitive than other tissues to thyroid hormones. More often, patients have peripheral tissue resistance as well and are euthyroid. RTH is related to point mutations in the T3-binding domain of the beta-receptor gene. We report the variable clinical and biochemical features of five patients with RTH.
Five patients with RTH were clinically and biochemically evaluated: thyroid tests were done at baseline, after TRH stimulation and after T3-suppression test. Thyroid ultrasound was performed as well. Individual exons of the thyroid hormone receptor beta gene were amplified from leucocyte DNA in these patients using the polymerase chain reaction (PCR).
Sequence analysis identified a single point mutation at a certain nucleotide position. This corresponds to aminoacids substitutions at one position in the predicted aminoacid sequence. RTH was familial in three individuals and sporadic in two. Three of the patients underwent thyroid surgery or radioiodine treatment because of recurrent goiter and/or "refractory hyperthyroidism". Moreover, one of our patients with RTH developed also hyperthyroidism due to Graves disease and underwent thyroid surgery for the third time. Her brother, besides RTH, demonstrated strongly positive TPO-antibodies and a hypoechogenic pattern on ultrasound. So the diagnosis of Hashimoto's thyroiditis was made.
RTH has to be considered in all patients with inappropriate TSH secretion. The clinical manifestation of patients with RTH is heterogenous. Thyroid antibody measurements should be performed regularly in order to detect the development of coexisting autoimmune thyroid disease.
Nuklearmedizin 11/1997; 36(7):250-5. · 1.28 Impact Factor
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ABSTRACT: In order to investigate differential effects of androgens on erythropoiesis, 55 men with clincally and biochemical confirmed hypogonadism were randomly assigned to 4 groups receiving different forms of androgen substitution: Mesterolone (MES) 100 mg/d, testosterone undecanoate (TU) 160 mg/d, testosterone enanthate (TE) 250 mg i.m./21 days or 1200 mg crystalline testosterone (TPEL) subcutaneously implanted at study begin. Previous testosterone medication had been suspended at least 3 months prior to study begin. Testosterone (T), dihydrotestosterone (DHT), hemoglobin (HB) and hematocrit (HC) were assessed before, during and after substitution of androgens. MES did not increase serum T and TU raised average T levels during substitution to 5.7 +/- 0.3 nmol/l, thereby doubling baseline concentrations. TE resulted in a 6fold increase of baseline T yielding 13.5 +/- 0.7 nmol/l and TPEL increased serum T 8.5fold to 23.2 +/- 1.1 nmol/l. Average DHT levels during substitution were 4.3 +/- 0.2 (MES), 3.3 +/- 0.2 (TU), 4.0 +/- 0.4 (TE) and 5.5 +/- 0.4 (TPEL) nmol/l. The groups receiving TPEL, TU or TE showed a significant rise of HB and HC compared to baseline, whereas in the MES group these parameters did not change significantly. MES increased HB by 5.6 +/- 1.8 g/l, TU by 12.7 +/- 2.8 g/l, TE by 21.1 +/- 2.6 g/l and TPEL by 21.7 +/- 4.0 g/l. HC was raised by 1.8 +/- 0. 4% in the MES group, 3.9 +/- 1.1% in the TU group and 6.4 +/- 0.9% and 6.5 +/- 1.6% in the TE and TPEL groups, respectively. Except for 1 subject in the TPEL group, the HB and HC stayed within the normal limits. We conclude that, T, but not DHT, stimulates erythropoiesis in a dose dependent manner. T levels within the low normal range for men are required for maximal stimulation of erythropoiesis.
European journal of medical research 08/1997; 2(7):293-8. · 1.13 Impact Factor
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ABSTRACT: The ob gene product leptin (OB) is a feedback signal from the adipocyte to the hypothalamus and is involved in regulation of food intake and energy expenditure in rodents. A major determinant of serum OB levels is fat mass. Several studies suggest that men have lower OB levels than women even after adjustment for percent body fat. We, therefore, investigated the influence of testosterone (T) substitution in hypogonadal men on serum OB levels. Hypogonadal men with T levels of 3.6 nmol/L or less and off substitution therapy for at least 3 months were assigned to two treatment groups: testosterone enanthate (TE; 250 mg, i.m., every 21 days; n = 10) or a single s.c. implantation of 1200 mg crystalline T (TPEL; n = 12). Blood samples for determination of T, 5 alpha-dihydrotestosterone (DHT), sex hormone-binding globulin, and 17 beta-estradiol were obtained before therapy and then every 21 days until day 189 and at follow-up visits on days 246 and 300. Serum OB levels were assessed on days 0, 42, 84, 126, 168, and 300. OB levels were referred to a normal range for men based on the analysis of OB levels in 393 adult men. Substitution with T led to a large rise in T and DHT in both groups compared to baseline values (average T, days 21-189: TE, 14.33 +/- 2.63 nmol/L; TPEL, 24.98 +/- 1.64; average DHT, days 21-189: TE, 4.20 +/- 0.57 nmol/L; TPEL, 5.11 +/- 0.56; P < or = 0.05). Concomitantly, 17 beta-estradiol increased in both groups, and sex hormone-binding globulin levels were significantly decreased. At baseline, serum OB levels in hypogonadal men were 3-fold elevated compared to those in normal men (12.39 +/- 2.93 micrograms/L vs. 4.28 +/- 0.52; P < 0.01) and not different between groups (TE, 13.7 +/- 5.6; TPEL, 11.3 +/- 2.9 micrograms/L). This elevation was retained after adjustment for body mass index in the normal control group [TE, 1.45 +/- 0.51 SD score (P < 0.0001); TPEL, 0.98 +/- 0.35 SD score (P < 0.0008)]. During T substitution serum OB was completely normalized (trough levels: TE, 4.6 +/- 1.0 micrograms/L; TPEL 4.3 +/- 0.9 micrograms/L). In multiple regression analysis, the androgen (T plus DHT)/estrogen ratio was the only significant determinant of OB levels (r = -0.32; P < 0.01). At baseline, OB levels did not correlate with body mass index, but during substitution, the correlation was considerably improved. We conclude that hypogonadal men exhibit elevated OB levels that are normalized by substitution with T. The only determinant of OB levels was the androgen/estrogen ratio, indicating a major influence of sex steroids on OB production. The interaction of T and OB might be part of a hypothalamic-pituitary-gonadal-adipose tissue axis that is involved in body weight maintenance and reproductive function.
Journal of Clinical Endocrinology & Metabolism 08/1997; 82(8):2510-3. · 6.50 Impact Factor
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ABSTRACT: Many studies have been carried out evaluating thyroid hormone parameters in patients suffering from various illnessess. However data on thyroid function after a recreation period are missing. Therefore we evaluated thyroid hormone parameters in 178 patients (mostly suffering from chronic obstructive lung disease) undergoing a four week recreation period in a health spa on the island Borkum at the North Sea. We observed a subtle, but significant increase in basal TSH concentrations from 1.20 mU/l (median) to 1.50 mU/l; (p<0. 001) and a fall in T4 values from 97.5 +/- 17.7 nmol/l (mean +/- SD) to 90.3 +/- 17.0 (p<0.001) and T3 from 2.21 +/- 0.33 nmol/l to 2.09 +/- 0.33 (p<0.001). However no increase in iodine intake occurred during the four weeks: median iodine excretion 61 microg iodine/g creatinine at the beginning vs 65 microg iodine/g creatinine at the end. In conclusion: a recreation period at the North Sea is associated with subtle but significant changes in thyroid hormone parameters. However no increase in iodine intake occurs during the four week observation period.
European journal of medical research 05/1997; 2(5):209-14. · 1.13 Impact Factor
