Bone Abstracts

Titanium implants have been extensively used in dentistry as a replacement of absent dental elements. The biocompatibility of a material depends on cellular response in contact with a surface. The microarray technology is a tool to obtain an overview of the cell state in terms of large-scale transcriptional expression in different situations. Thus, the objective of this investigation was to evaluate the transcriptional profile of osteoblastic cells from human alveolar bone cul...

In this study, the effect of food restriction of 30% in calorie intake on femurs of rats of different ages was investigated. Male Rattus novegicus albinus rats, Holtzman lineage, aged 38 days, 4 and 16 months were used. The animals were divided into six groups (n=8–10 per group), three being control groups (C38, C4 and C16) and three groups on restricted diet (R38, R4 on R16). The restricted animals were submitted to food restriction of 30% being fed wit...

Heritability of bone mineral density (BMD) varies at skeletal sites, possibly reflecting different relative contributions of environmental and genetic influences. To quantify shared genetic influences across different sites, we estimated the genetic correlation of BMD at the upper limb (UL), lower limb (LL) and skull (S) obtained from whole body DXA scans, using bivariate genome-wide complex trait analysis (GCTA). The study (n=9395) combined data from the Avon Longitu...

Objectives: Bone development can be enhanced by exercise during growth, but not all types of exercise may be beneficial. Weight bearing and non-weight bearing sports have different effects on bone outcomes during adolescence. However, there is no longitudinal evidence comparing the effects of popular sports in the UK on bone acquisition in adolescent males.Methods: In the present study 116 adolescent males (13.1±0.1 years: 37 footballers, 37 swimmer...

Recessive osteogenesis imperfecta (OI) is caused by mutations in genes encoding proteins involved in post-translational interactions with type I collagen. A founder mutation in a new gene responsible for recessive OI has recently been reported in Bedouins from Israel and Saudi Arabia, who have a homozygous deletion of TMEM38B exon 4 and surrounding intronic sequence. TMEM38B encodes TRIC-B, an integral ER membrane monovalent cation channel involved in Ca...

Classical osteogenesis imperfecta (OI) is caused by mutations in the two genes encoding type I collagen. OI is associated with low bone mass and abnormally high bone matrix mineralization. The Brtl/+ OI mouse is a knock-in model caused by a glycine substitution in one COL1A1 allele. Brtl/+ pups display 30% perinatal lethality; survivors have small size and brittle bone. Unexpectedly, homozygous Brtl/Brtl pups, producing only mutant collagen, have normal survival rates...

Objectives: Osteogenesis Imperfecta (OI) is a collagen-related disorder. Type V OI, caused by a recurrent dominant mutation in the plasma membrane protein IFITM5/BRIL, and type VI OI, caused by recessive null mutations in the anti-angiogenic factor PEDF, have distinct features. IFITM5 S40L, reported in six patients, causes severe dominant OI with phenotype and bone histology similar to type VI, rather than Type V, OI. Our objective is to understand the pathway connecting IFITM...

Objectives: A common feature of nearly all forms of osteogenesis imperfecta (OI) is a hypermineralized bone matrix. Null mutations in SERPINF1, encoding the potent antiangiogenic factor PEDF, lead to type VI OI with excessive osteoid formation, abnormal osteoblast-osteocyte development and increased matrix mineralization. Recently, atypical type VI OI has been delineated, caused by a loss-of-function mutation (p.S40L) in IFITM5 the causative gene for type V OI. The 6 cases rep...

The development of optimally performing biomaterials mimicking the natural physiological processes underlying bone repair is essential for non-healing large bone lesions. We sought to develop scaffolds that fill the lesions and improve bone healing. We tested three scaffolds comprised of varying percentages of lactide (LA), caprolactone (CL), and methacrylate produced by two-photon photopolymerization; LCM 3 (8:2; 85%), 4 (9:1; 90%), and 6 (9:1; 40%). We hypothesized that the ...

Non-healing fractures caused by trauma, disease or tumour resection demand the use of bone grafts to support and stimulate the healing process. We sought to develop and evaluate the effect of a novel bioactive biodegradable biomaterial designed to fill large bone lesions and to improve bone healing. We used two-photon polymerised synthetic polymer scaffolds composed of lactide (LA), caprolactone (CL), and methacrylate (MA) with varying LA: CL ratio and percentage of methacryla...