View clinical trials related to Bone Remodeling Disorder.
Filter by:This study aimed to evaluate the use of computer added designning / computer added manufacturing (CAD/ CAM ) technology versus conventional relining procedure for treating ill-fitted loose maxillary complete denture and its effect on patient satisfaction, denture retention, and denture adaptation to oral tissues.
Cell and mice studies suggest mitochondrial dysfunction may cause altered bone structure. Hypothesis: Decreased mitochondrial energy production affects bone cell development and activity negatively. Comparing humans with the mitochondrial DNA variant, m.3243A>G, pathogenic variants in POLG or TWNK genes to healthy controls, the aim is to evaluate the effect of mitochondrial dysfunction on: 1: bone-cell development and -activity in bone marrow stem cells and blood. 2: bone cell metabolism including glucose consumption. 3: bone structure assessed by electron microscopy and μCT scans of bone biopsies.
The study of children under one year of age for molecular genetic testing-VDR (rs1544410, rs2228570), RANKL (rs9594738, rs9594759) with the study of the frequency distribution of alleles and genotypes by polymorphisms, analysis of the relationship of molecular genetic markers with indicators of bone metabolism.
Low bone mineral density affects 77% of children with severe cerebral palsy (GMFCS IV & V) with an increased fracture risk of 4%. One strategy supposed to improve bone mineral density is verticalisation with static devices. Nowadays there is no time recommendation of verticalisation however high intensity verticalisation has been shown to be effective in improving bone mineral density in childrens with cerebral palsy, but difficult to apply in real life due to lack of qualified therapists, device's complexity, and severe impairment in those children. The investigators aim to compare bone mineral density and bone remodelling factors of verticalized and non verticalized childrens with severe cerebral palsy as achieved in everyday life. The investigators conduced a retrospective study comparing bone mineral density and factors who influence bone remolling in severe cerebral palsy's according to whether they are verticalized or not.