[Osteosonography of the phalanges of men]

Bone ultrasonometric features and growth hormone secretion in asthmatic patients during chronic inhaled corticosteroid therapy

BACKGROUND

Quantitative ultrasound bone densitometry (QUBD) is a new method to assess bone mineral density and bone microarchitecture. Corticosteroid (CS) therapy may diminish bone mass, alter bone quality and may influence growth hormone (GH) secretion and bone metabolism markers. Therefore, the aim of this study was to evaluate the effects of long-term therapy with inhaled CSs (ICSs) on structural bone characteristics and their correlations with GH secretion and bone markers in asthmatic patients.

METHODS

In a cross-sectional study, we enrolled 60 adult patients with mild to moderate persistent asthma: 22 on chronic (>1 year) ICS therapy, 10 naive to ICSs treatment and 28 healthy control subjects. The groups were matched for age and BMI. Each subject underwent to QUBD at the phalanxes to assess bone microarchitecture by ultrasound bone profile index (UBPI), bone density by amplitude-dependent speed of sound (AdSos); test with GH-releasing hormone (GHRH) injection with calculation of peak GH and the Delta GH (peak GH-basal GH); and hormonal and bone markers measurements.

RESULTS

Asthmatics treated with long-term ICS therapy showed a lower UBPI (P < 0.01) compared to controls (49.8 +/- 19.3 vs. 77.0 +/- 10.1, respectively) and to asthmatics never taking ICSs (73.2 +/- 9.6). In ICS-treated asthmatics, DeltaGH and GH-peak showed a significant correlation with UBPI. A significant difference was observed comparing asthmatics treated with ICSs to controls and asthmatics naive to ICSs in GH response to GHRH iv bolus. Serum osteocalcin was significantly reduced in asthmatic patients treated with ICSs.

CONCLUSIONS

In asthmatic patients, long-term ICSs treatment produces negative effects on bone quality assessed by QUBD, and such effects are associated to an impaired GH secretion.

Quantitative ultrasound assessment in children with fractures

BMD of children with fractures was compared with healthy controls using QUS. We found significantly lower SOS values in children suffering from fractures. None of the studied environmental factors could explain the difference in BMD measurements.

INTRODUCTION

The aims of this study were to compare the results of quantitative ultrasound (QUS) in children with fractures with the respective values in children without fractures and to identify possible environmental factors influencing speed of sound (SOS) in our study cohort.

MATERIALS AND METHODS

BMD was measured by QUS in 50 children who had sustained an acute fracture and in 154 healthy children as controls. SOS values were obtained from the proximal phalanges of the last four fingers of the dominant hand. Nutritional habits and activity level of the children were documented by a standardized questionnaire.

RESULTS

Children with fractures had a significantly lower SOS compared with children without a history of fractures. This difference in SOS could not be explained by differences in diet, body mass index, or physical activity.

CONCLUSIONS

Previous studies have suggested that low BMD levels might contribute to an increased prevalence of fractures in patients with systemic diseases. Our study showed that, in an otherwise healthy pediatric population, the SOS values are lower in children with fractures compared with healthy controls. Despite statistical significance, the biological impact of the results remains unclear. The difference in SOS values could not be explained by any of the studied environmental factors.

Monitoring bone density in hypogonadal men by quantitative phalangeal ultrasound

Monitoring bone density (BMD) in hypogonadal and testosterone (T) substituted men is a major component of andrological therapy and is performed by methods that are cost-intensive and use radiation, such as quantitative computer tomography (QCT). Therefore, we assessed the feasibility of a more practical and inexpensive approach through application of phalangeal quantitative ultrasound (pQUS; IGEA DBM BP Sonic 1200, Sensweiler, Germany) in a cross-sectional study of 521 men, aged 18-91 years (224 healthy controls, 156 newly diagnosed hypogonadal, and 141 T substituted men). The method was compared with QCT of the lumbar spine in the first 80 patients. We evaluated longitudinal changes of amplitude-dependent speed-of-sound (AdSoS) in 54 hypogonadal men from the beginning of T substitution. AdSoS decreased with age (p < 0.0001) and with declining total T concentration, with a four to fivefold larger reduction in AdSoS for each nanomole-per-liter decrement in total T in the hypogonadal range (<12 nmol/L) compared with the eugonadal range (p < 0.0001). AdSoS was higher in eugonadal and substituted men than in hypogonadal patients (p < 0.0001, by analysis of covariance [ANCOVA]). Substituted men <50 years of age showed lower AdSoS than eugonadal men (p = 0.004) and untreated men with secondary hypogonadism had lower values than men with primary hypogonadism (p = 0.005). Therapeutic effects were seen regardless of age, diagnosis, or T substitution modality. In the longitudinal approach, AdSoS increased from 1986 +/- 93 to 2035 +/- 77 m/sec over 237 +/- 57 days with the highest gain in those men with initially the lowest values (p < 0.0001, by ANCOVA for repeated measurements). In comparison to QCT, patients with a lumbar content of hydroxylapatite of <100 mg/cm(3) were reliably identified by pQUS (cutoff level 1965 m/sec, T score -3.5 based on eugonadal subjects; receiver operating characteristics: area under the curve [AUC] 0.94, sensitivity 94.1, specificity 92%, p < 0.0001), but specific values of lumbar BMD could not be predicted by pQUS. pQUS represents a feasible, sensitive, and inexpensive method for assessing bone tissue in hypogonadal men over the full age range and also for monitoring the effects of T substitution.

Usefulness of bone quantitative ultrasound in management of osteoporosis in men

In order to evaluate the usefulness of QUS at the phalanx in the diagnosis of osteoporosis and in the prediction of fracture risk in males. The study consisted of 182 subjects (age 61.2 +/- 9.4 yr), of which 22 had had a previous nontraumatic bone fracture. In all subjects, bone mineral density (BMD) at the lumbar spine and femur was measured by DXA. Moreover, in the same subjects, QUS parameters, the amplitude-dependent speed of sound (AD-SOS), and the parameters characterizing the graphic trace (fast-wave amplitude, signal dynamic, and bone transmission time [BTT]) were assessed at the phalanxes using the DBM Sonic 1200 (IGEA). According to World Health Organization (WHO) criteria, all the patients were divided into two groups: 62 osteoporotic subjects and 120 nonosteoporotic subjects. All QUS parameters were significantly lower in osteoporotic than in nonosteoporotic patients. Receiver operating characteristic (ROC) analysis showed a moderate ability of AD-SOS, BTT, and ultrasound bone profile index (UBPI) in distinguishing between healthy and osteoporotic men. Among osteoporotic patients, BMD values were lower in patients with fracture than in those without fracture. AD-SOS and BTT were significantly reduced in men with fracture. Furthermore, in a regression analysis, only BTT and DXA parameters were predictive of fracture. Moreover, performing a multivariate regression analysis BTT entered before BMD at the lumbar spine and at Ward's triangle. In conclusion, our data show that QUS parameters are reduced in osteoporotic males; however, only BTT was comparable to DXA parameters in the prediction of fracture risk in men.

Quantitative ultrasound in the assessment of skeletal status in uremic patients

Renal osteodystrophy (ROD) can be characterized by both high (HT) and low (LT) bone turnover states. Although bone biopsy remains the "gold standard" to diagnose ROD, noninvasive tools for the diagnosis and follow-up of such bone disease are desirable. Recently, ultrasound (US) techniques, proposed to assess skeletal status, have been shown to be correlated not only with bone density but also with bone quality. We have investigated 98 patients on chronic hemodyalisis (HD) and 98 healthy, sex- and age-matched subjects. Amplitude-dependent speed of sound (AD-SOS) and ultrasound bone profile score (UBPS) at phalanxes and speed of sound (SOS), broadband ultrasound attenuation (BUA), and a quantitative ultrasound index (QUI/stiffness) at the heel were performed in both groups. In all subjects intact parathyroid hormone (PTH), total alkaline phosphatase (T-ALP), bone isoenzyme alkaline phosphatase (B-ALP), and carboxy-terminal telopeptide of type I collagen (ICTP) were assessed. All US parameters were significantly lower in the hemodialysis group than in control subjects. Moreover, among US parameters only AD-SOS and UBPS showed a significant correlation with PTH, T-ALP, and B-ALP. Dialytic age showed a modest, but significant correlation only with US parameters at the phalanxes. On the basis of bone biochemical markers, we considered a group with high and a group with normal to low bone turnover. AD-SOS and UBPS, but not SOS, BUA, and stiffness were significantly (p < 0.01) lower in the high bone turnover than in low bone turnover group. Furthermore, in the high bone turnover group, parameters of the US phalanxes strongly correlated with B-ALP. Our results seem to demonstrate that US parameters are a useful tool in the assessment of skeletal status in patients on maintenance dialysis.