Femoral Osteotomy (femoral + osteotomy)

Distribution by Scientific Domains


Selected Abstracts


Modified technique for varus derotation osteotomy of the proximal femur in children

ANZ JOURNAL OF SURGERY, Issue 11 2001
Andrew J. Wilkinson
Background: The results of a study in which the Richards' intermediate hip screw and the AO (Association for the Study of­­Internal Fixation (ASIF)) 908 fixed-angle blade plate were compared for use in proximal femoral osteotomy in children have previously been reported. In that study loss of position at the osteotomy site was reported as a specific complication associated with the use of the Richards' intermediate hip screw. Methods: The authors devised a simple modification of surgical technique using the Richards' intermediate hip screw to enhance the stability of the fixation. In the present article the results of a prospective study of that modified technique are reported and compared with the results of the previous study. Results: During a 2-year period 24 proximal femoral osteotomies were performed on 12 children with cerebral palsy, using the modified technique by two surgeons. Only two of the 12 patients (16%) required postoperative immobilization in a hip spica cast. This represents a significant reduction in the level of spica casting when compared with the previous cohort study (61%). Conclusion: A simple modification of surgical technique improves the stability of fixation in proximal femoral osteotomy in children who have cerebral palsy. This resulted in a decreased need for supplementary hip spica casting and may reduce morbidity. [source]


Transcriptional profiling and biochemical analysis of mechanically induced cartilaginous tissues in a rat model

ARTHRITIS & RHEUMATISM, Issue 4 2010
Kristy T. Salisbury Palomares
Objective To characterize patterns of molecular expression that lead to cartilage formation in vivo in a postnatal setting, by profiling messenger RNA expression across the time course of mechanically induced chondrogenesis. Methods Retired breeder Sprague-Dawley rats underwent a noncritical-sized transverse femoral osteotomy. Experimental animals (n = 45) were subjected to bending stimulation (60° cyclic motion in the sagittal plane for 15 minutes/day) of the osteotomy gap beginning on day 10 after the operation. Control animals (n = 32) experienced continuous rigid fixation. Messenger RNA isolated on days 10, 17, 24, and 38 after surgery was analyzed using a microarray containing 608 genes involved in skeletal development, tissue differentiation, fracture healing, and mechanotransduction. The glycosaminoglycan (GAG) content in the stimulated tissues was compared with that in native articular cartilage as a means of assessing the progression of chondrogenic development of the tissues. Results The majority of the 100 genes that were differentially expressed were up-regulated in response to mechanical stimulation. Many of these genes are associated with articular cartilage development and maintenance, diarthrodial joint development, cell adhesion, extracellular matrix synthesis, signal transduction, and skeletal development. Quantitative real-time polymerase chain reaction results were consistent with the microarray findings. The GAG content of the stimulated tissues increased over time and was no different from that of articular cartilage on day 38 after surgery. Conclusion Our findings indicate that mechanical stimulation causes up-regulation of genes that are principally involved in joint cavity morphogenesis and critical to articular cartilage function. Further study of this type of stimulation may identify key signaling events required for postnatal hyaline cartilage formation. [source]


Effects of vitamin K1 supplementation on vascular responsiveness and oxidative stress in a rat femoral osteotomy model

CELL BIOCHEMISTRY AND FUNCTION, Issue 5 2007
Arda Tasatargil
Abstract The main function of vitamin K1 is to act a co-factor for gamma-glutamyl carboxylase. However, it has also been shown to lessen oxidative stress. This study was aimed to evaluate the effect of vitamin K1 supplementation on vascular responsiveness and oxidative status in rats that underwent femoral osteotomy. Twenty-four male rats were divided into three groups to serve as sham, osteotomy and vitamin K1 groups. Indices of oxidative stress (catalase), and oxidative damage (malondialdehyde) were analysed in erythrocytes. In order to evaluate vascular reactivity, concentration-response curves to phenylephrine, angiotensin II, 5-hydroxytryptamine, bradykinin and histamine were constructed. The findings of this study clearly show that oxidative stress clearly increases after femoral osteotomy in rats. Also, this operation causes a significant depression in vascular responsiveness to contracting agents and endothelium-dependent vasodilators. However, vitamin K1 supplementation prevents vascular hyporeactivity by reducing oxidative stress and may represent a novel approach during osteotomy healing. Copyright © 2006 John Wiley & Sons, Ltd. [source]