Studies show that patients with idiopathic Parkinson's disease (IPD) have an increased risk of fracture, particularly hip fracture whose complications and postoperative mortality appear to be higher than in the general population. This increased risk of fracture is due partly to an increased risk of falling, and secondly to an impairment of bone tissue with lower bone mineral density (BMD). A meta-analysis concluded that patients with IPD have lower BMD than healthy controls. Prospective studies also showed rapid bone loss in these patients compared with controls. The association between low BMD and IPD seems dependent on the severity and duration of the disease even if some data are contradictory. Various mechanisms may explain this bone loss including weight loss, malnutrition and a low level of physical activity. However, enrollments in these studies are often weak and it is difficult to conclude on the real impact of these factors on bone loss in the IPD. The main objective of our study is to assess and prioritize from these various bone loss mechanisms. Bone assessment by "peripheral quantitative computed tomography" (pQCT) will also assess the impact of various risk factors on bone strength parameters. The prevalence of vertebral compression fractures in the IPD, at this day unknown can be evaluated. This study will also estimate the prevalence of vertebral compression fractures in the IPD.
Studies show that patients with idiopathic Parkinson's disease (IPD) have an increased risk of fracture, particularly hip fracture whose complications and postoperative mortality appear to be higher than in the general population. This increased risk of fracture is due partly to an increased risk of falling, and secondly to an impairment of bone tissue with lower bone mineral density (BMD). A meta-analysis concluded that patients with IPD have lower BMD than healthy controls. Prospective studies also showed rapid bone loss in these patients compared with controls. The association between low BMD and IPD seems dependent on the severity and duration of the disease even if some data are contradictory. Various mechanisms may explain this bone loss including weight loss, malnutrition and a low level of physical activity. However, enrollments in these studies are often weak and it is difficult to conclude on the real impact of these factors on bone loss in the IPD. The main objective of our study is to assess and prioritize from these various bone loss mechanisms. Bone assessment by "peripheral quantitative computed tomography" (pQCT) will also assess the impact of various risk factors on bone strength parameters. The prevalence of vertebral compression fractures in the IPD, at this day unknown can be evaluated. This study will also estimate the prevalence of vertebral compression fractures in the IPD.
Study Type
OBSERVATIONAL
Enrollment
200
CHU Clermont-Ferrand
Clermont-Ferrand, France
RECRUITINGTotal bone mineral density of the tibia and radius quantified by peripheral quantitative computed tomography (pQCT)
Time frame: at day 1
Trabecular and cortical bone mineral density of the tibia and the radius
Time frame: at day 1
Architectural parameters and bone resistance of the tibia and radius measured by pQCT
Time frame: at day 1
Axial muscular area of the tibia and radius measured by pQCT
Time frame: at day 1
Bone mineral density of the lumbar spine and hip measured by DXA
Time frame: at day 1
body composition by DXA
Time frame: at day 1
Parkinson's disease score
Time frame: at day 1
Bone turnovers markers (CTX), 25 OH vitamin D
Time frame: at day 1
Vertebral fracture assessment (VFA)
Time frame: at day 1
Trabecular bone score of the lumbar spine
Time frame: at day 1
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