Proximal Cadaveric Femur Preparation for Fracture Strength Testing and Quantitative CT-based Finite Element Analysis.

Cadaveric fracture testing is routinely used to understand factors that affect proximal femur strength. Because ex vivo biological tissues are prone to lose their mechanical properties over time, specimen preparation for experimental testing must be performed carefully to obtain reliable results that represent in vivo conditions. For that reason, we designed a protocol and a set of fixtures to prepare the femoral specimens such that their mechanical properties experienced minimal changes.

Osteoblastic and osteolytic human osteosarcomas can be studied with a new xenograft mouse model producing spontaneous metastases.

There is no animal model that reflects the histological and radiographical heterogeneity of osteosarcoma. We assessed seven osteosarcoma cell lines for their potential to develop orthotopic tumors and lung metastasis in SCID mice. Whereas radiologically, 143B developed osteolytic tumors, SaOS-LM7 developed osteoblastic primary tumors.

Pregnancy associated plasma protein-A is necessary for expeditious fracture healing in mice.

Pregnancy-associated plasma protein A (PAPP-A), a metalloproteinase that regulates IGF bioavailability in vitro through cleavage of inhibitory IGF-binding protein-4 (IGFBP-4), has been implicated in skeletal development and injury repair responses. However, direct in vivo data are lacking. In this study, we used PAPP-A knock-out (KO) mice to determine the role of PAPP-A in fracture repair.

Continuous parathyroid hormone induces cortical porosity in the rat: effects on bone turnover and mechanical properties.

Unlabelled: We examined the time course effects of continuous PTH on cortical bone and mechanical properties. PTH increased cortical bone turnover and induced intracortical porosity with no deleterious effect on bone strength. Withdrawal of PTH increased maximum torque to failure and stiffness with no change in energy absorbed.

Identification of estrogen-regulated genes during fracture healing, using DNA microarray.

Estrogen deficiency impairs fracture healing, while estrogen treatment of ovariectomized rats accelerates fracture healing. To identify genes regulated by estrogen during fracture healing, we evaluated gene expression in calluses from three groups of rats: sham-operated, ovariectomized, and ovariectomized and treated with estrogen. RNA from calluses harvested 10 days after fracture was subjected to DNA microarray-based analysis of 5147 genes.

Determination of the complete cDNA sequence of rat type II collagen and evaluation of distinct expression patterns of types IIA and IIB procollagen mRNAs during fracture repair in rats.

Elucidating the molecular mechanisms that underlie fracture healing is crucial to understanding and devising strategies for the management of fractures, especially those associated with a pathological condition such as diabetes or old age. Cartilage formation, and therefore the expression of type II collagen by chondrocytes, is a critical step in frac-ture healing. Two forms of type II collagen, IIA and IIB, are known to be produced by alternative splicing of the Alpha(1) (II) procollagen gene.