View clinical trials related to Bone Diseases.
Filter by:In summary, the investigators want to investigate whether UTE sequences are capable to replace imaging techniques involving ionizing radiation for bone imaging in the future. This would improve patient care greatly and might reduce medical imaging associated cancer risk drastically from an epidemiological standpoint. This field of research can be considered cutting-edge. The investigators determine this study promising to provide substantial generalizable knowledge and hope that this study results will improve patient care worldwide considerably.
Kidney disease patients have a variety of bone disorders that result in bone loss and fractures. The mechanisms of these bone disorders are not clear but may be related to abnormal modification of a bone protein known as collagen. Therefore, the investigators are conducting this research study to identify underlying mechanisms that are responsible for the disruption of bone collagen and determining whether the abnormal bone collagen impairs bone strength. The investigators intend to identify these mechanisms through studying relationships between kidney disease and bone strength via bone imaging, bone biopsy and non-invasive measures from blood and skin.
Objectives: The primary objective of this study is to evaluate the effect of denosumab on bone turnover in individuals with fibrous dysplasia (FD). Secondary objectives are to determine the effect of denosumab on bone pain, FD lesion intensity as revealed in 18F-sodium fluoride PET/CT bone scan, and to determine the effect of denosumab discontinuation on bone turnover re-bound after discontinuation. Study Population: Up to 14 adult subjects with FD may be enrolled to ensure complete study data on 9 subjects. Design: This study is a single center, open label pilot study of once-monthly dosing of denosumab. Subjects will be treated for 6 months, after which they will be followed by an 8-month observation period. A final visit will occur 21 months after denosumab discontinuation. Dosing will be adopted from studies in adults on treatment for giant cell tumors, with denosumab administered at 120 mg per dose every 4 weeks, with loading doses on days 7 and 14 of month 1. Outcome Measures: Primary: Assessment of the effects of denosumab on: 1. Markers of bone turnover: Beta-crosslaps C-telopeptides (bone resorption marker) Procollagen-1-propeptide (bone formation marker) Secondary: Assessment of the effects of denosumab on: 1. Bone histomorphometric indices: Mineralized perimeter Bone formation rate Cortical width Cortical area Osteoid width Osteoid perimeter Mineral apposition rate 2. Surrogate markers of a direct therapeutic effect of denosumab on FD lesions: Semi-quantitative changes in RANKL, Ki67 (marker of cell proliferation), p16 (marker of cell senescence), and/or apoptosis index before and after treatment, as assessed by immunohistochemistry Changes in sentinel lesion intensity, measured quantitatively by uptake on 18Fsodium fluoride PET/CT bone scan. 3. FD-related bone pain assessed by the Brief Pain Inventory (Short Form) , a validated self-reporting tool for assessment of pain. Exploratory Endpoints: 1. Effect of denosumab initiation and discontinuation on Serum calcium, phosphorus and parathyroid hormone Serum RANKL and osteoprotegerin (OPG), and RANKL/OPG levels 2. Effect of denosumab discontinuation, as measured by the following outcomes: Biochemical markers of bone metabolism: beta-crosslaps C-telopeptides, procollagen-1 propeptide, bone specific alkaline phosphatase, osteocalcin, NTX-telopeptides 3. Effect measured by change in other outcome measures, such as: Bone density assessed by DXA Physical Medicine and Rehabilitation evaluation
The study hypothesis is to determine the feasibility of switching HIV-HCV co-infected patients receiving methadone or buprenorphine/naloxone as opioid substitution therapy with suppressed HIV RNA viral load on current antiretroviral therapy to elvitegravir/cobicistat/emtricitabine/tenofovir alafenamide (E/C/F/TAF, Genvoya™) followed by 12 weeks of HCV antiviral therapy with sofosbuvir/velpatasvir (SOF/VEL, Epclusa™), followed then by switch to bictegravir/emtricitabine/tenofovir alafenamide (B/F/TAF, Biktarvy™) for an additional 48 weeks.
The optimal management of mineral and bone disorders associated to chronic kidney disease (CKD-MBD) is a daily challenge for nephrologists. Its consequences may be immediate (biological abnormalities such as hypocalcemia, hyperphosphatemia, hyperparathyroidism, etc.) or delayed (fractures, renal osteodystrophy, vascular calcifications, increased morbi-mortality and growth retardation in the youngest patients). CKD-MBD is defined by the association of one or more of the following abnormalities: 1/ disturbances in calcium, phosphate, PTH or vitamin D metabolism, 2/ bone and growth abnormalities, and 3/ calcifications of vessels or soft tissues . Three main bone characteristics can be modified by CKD, namely turnover, mineralization and volume. They should therefore be carefully assessed to distinguish between the different sub-types of renal osteodystrophy, as defined in the 2006 K-DIGO guidelines on the TMV classification . The primary bone lesion in pediatric CKD, at least in pediatric patients reaching end-stage renal disease without any previous management, is the high-turnover/hyperparathyroidism, because of high circulating PTH levels with low 1-25 vitamin D levels. Conversely, low turnover (or adynamic bone) may be observed in dialysis children receiving too much calcium and/or vitamin D analogs. All these lesions are deleterious on the long-term, increasing both the risk of growth retardation, fractures and vascular calcifications . In order to better understand the complex pathophysiology of renal osteodystrophy, biomarkers of bone and phosphate/calcium metabolism may be used, but their interpretation may be challenging in the context of CKD. The gold standard remains bone biopsy at the iliac crest with histomorphometry, but it is rarely performed in Europe . The research team of this study has developed and validated a unique non-invasive technique to differentiate circulating human monocytes into mature and functional osteoclasts, using only 15 mL of total blood (instead of conventional techniques they used to use, with 200 to 250 mL of total blood). They propose to use this innovative tool in the specific setting of CKD. The current management of CKD-MBD consists mainly of correcting native vitamin D deficiency, decreasing phosphate levels (using nutritional management and phosphate-binders), and decreasing PTH levels (using active vitamin D, calcimimetics such as cinacalcet and etelcalcetide, and/or surgical parathyroidectomy) . Active vitamin D analogs and calcimimetics are cornerstone of this management. The first working hypothesis is the following: when CKD progresses and glomerular filtration rate (GFR) decreases, 1-25-D is able to inhibit osteoclastic differentiation, however to a lesser extent to what is observed in healthy controls with normal renal function. The second working hypothesis is therefore the following: etecalcetide could be an inhibitor of osteoclastic resorption and a stimulator of osteoblastogenesis. When CKD worsens and GFR decreases, etelcalcetide inhibits osteoclastic differentiation, however to a lesser extent to what is observed in subjects with normal renal function. Aims In Vitro 1. Effects of 1-25-D and etecalcetide on human osteoclastogenesis and osteoclastic resorption (in cells obtained from CKD patients at different stages of CKD) 2. Effects of 1-25-D and etecalcetide on murine osteoblastogenesis and mineralization
The main study aim is to quantify the agreement between the analytical results provided by two third generation and two second generation Parathyroid hormone (PTH) assays. The primary comparison will be performed between the second-generation PTH assay"Intact PTH assay" from Siemens Healthcare Diagnostics Inc. and the third-generation PTH assay "biointact (1-84)" from Roche Diagnostics in terms of a Bland-Altman analysis. Several studies have evaluated the correlation between various PTH assays at a single time-point, but no previous study has tested the hypothesis that longitudinal changes in PTH levels, which are important for making treatment decisions, can be monitored by several PTH assays alike. To this aim, the key secondary objective is to analyze the longitudinal variance in PTH over the course of 1 year, using each of two assays of the second and third generations, respectively. Other secondary objectives include determining changes in serum phosphate, serum calcium, fibroblast growth factor 23 (FGF23), with respect to treatment decisions. For clinical applicability of the results to be obtained here, an important goal of the present study will be not to influence treatment decisions, which will remain independent of the study investigators, at the full responsibility of the hemodialysis physicians. At every quarterly blood draw over the course of one year, the investigators will freeze the serum from 100 patients, and at the end of 4 quarters the investigators will analyze PTH-levels using the following assays: Intact Parathyroid Hormone (Advia Centaur, Siemens Healthcare), PTH-Intact (Cobas, Roche), PTH (1-84) - The agreement between the PTH assays will be analyzed at baseline, as well as at the subsequent quarterly evaluation time-points by Bland-Altman analysis and complemented by Passing-Bablok regression. The longitudinal changes in PTH will be displayed graphically and analyzed by estimating the within-patient variance across time, the between patient variance at each time-point as well as effects on the mean log-PTH level due to course of disease and therapeutic interventions from a linear mixed model.
This study evaluates SPECT image data acquired from Spectrum Dynamics' multi-purpose CZT SPECT-CT camera. All subjects will undergo routine clinical Anger SPECT imaging and an additional SPECT acquisition on the CZT SPECT camera. Additionally some subjects will undergo CT on the CZT SPECT-CT camera. The quality of images from each device will be compared.
The aim of the study is to investigate sleep apnea, circulation and metabolism in acromegaly before and after surgery and/or medical treatment.
Tenofovir alafenamide (TAF), active against both HIV and HBV, demonstrates similar antiviral efficacy but improved renal and bone safety compared to tenofovir disoproxil fumarate (TDF) in HIV-1-infected patients. HIV-1-infected patients whose estimated glomerular filtration rate (eGFR) between 30-69 mL/min were shown to have minimal change in eGFR and improved proteinuria, albuminuria, and bone mineral density after switching to a single-tablet regimen containing Elvitegravir/Cobicistat/Emtricitabine/Tenofovir Alafenamide (EVG/cob/FTC/TAF). For treatment of chronic HBV infection, a similar proportion of HBV-monoinfected patients who received TAF and those who received TDF achieved undetectable HBV DNA at 48 weeks of therapy. Although TAF is effective for HIV and HBV suppression, data on efficacy of TAF are limited among patients co-infected with both viruses. Currently, only one open-label, single-arm study had investigated the efficacy and safety of TAF in HIV/HBV-coinfected patients. In this study, 72 HIV/HBV-coinfected patients switching to EVG/cob/FTC/TAF were enrolled, and 91.7% of them maintained or achieved virologic suppression for both HIV and HBV at 48 weeks of therapy. Seroconversion occurred in 2.9% of HBsAg-positive participants and in 3.3% of HBeAg-positive participants. Improvements in eGFR and declines in markers of bone turnover of the participants were observed. The limitations of the above study are the small sample size. Taiwan is a country hyperendemic for HBV infection, with 19.8% of HIV-positive patients who were born before the implementation of nationwide neonatal vaccination in 1986 had concurrent chronic HBV infection. To further the understanding of the difference between TAF- and TDF-containing combination antiretroviral therapy among HIV/HBV-coinfected patients, the investigators plan to conduct an observational study to evaluate the efficacy and safety of EVG/cob/FTC/TAF as maintenance treatment of HIV/HBV-coinfected patients.
The purpose of this study is to follow a cohort of HIV-infected adults who have alcohol and/or drug use to: 1) test the associations between alcohol (and illicit drugs and polypharmacy (multiple prescribed medications)) and falls (fractures secondarily), and whether frailty mediates these associations; and 2) test the associations between alcohol (and illicit drugs and polypharmacy) and utilization (emergency department use and hospitalization for falls and fractures), and whether frailty mediates them. To achieve the stated aims the investigators will expand (to 400) and continue to follow an existing prospective cohort (The Boston ARCH Cohort) of adults with HIV infection and a high prevalence of exposure to alcohol, other drugs, and polypharmacy. The Boston ARCH Cohort is a longitudinal cohort (1-3.5 years of follow-up) of 250 HIV-infected men and women with current substance dependence or ever injection drug use that have a spectrum of alcohol use.