We reviewed the pre- and postoperative lateral cervical roentgenograms in 90 patients who had anterior fusions and compared their findings with age and sex-matched people without neck problems. The average interval from surgery to review was 5 years. Preoperatively, all patients had a higher incidence of degenerative spondylosis at the levels to be fused than their asymptomatic counterparts. Postoperatively, there was no difference in the incidence of degenerative change between the operated and the control group at the levels above and below the fusion with the exception of anterior osteophyte formation which was more frequent in those with fusions.
A new method for monitoring the durations of foot-floor contact during walking is described. The method uses a screen walkway and conducting paper on the soles of the shoes as parts of an electrical circuit. The materials used are identified and circuit diagrams are provided. Several clinical applications and advantages and disadvantages of the method are discussed.
Skeletal muscle is characterized by its three-dimensional (3D) anisotropic architecture composed of highly aligned, organized, and electrically excitable muscle fibers that enable normal locomotion. Biomaterial-based tissue engineering approaches to repair skeletal muscle injuries are limited due to difficulties in combining 3D structural alignment (to guide cell/matrix organization) and electrical conductivity (to enable electrically excitable myotube assembly and maturation). In this work we successfully produced aligned and electrically conductive 3D collagen scaffolds using a freeze-drying approach. Conductive polypyrrole (PPy) microparticles were synthesized and directly mixed into a suspension of type I collagen and chondroitin sulfate followed by directional lyophilization. Scanning electron microscopy (SEM), energy-dispersive spectroscopy (EDS), and confocal microscopy analyses showed that directional solidification resulted in scaffolds with longitudinally aligned macropores (transverse plane: 155 ± 27 µm, longitudinal plane: 218 ± 49 µm) with homogeneously-distributed PPy content. Chronopotentiometry verified that PPy incorporation resulted in a five-fold increase in conductivity when compared to non-PPy containing collagen scaffolds without detrimentally affecting C2C12 mouse myoblast metabolic activity. Furthermore, the aligned scaffold microstructure provided contact guidance cues that directed myoblast growth and organization. Incorporation of PPy also promoted enhanced myotube formation and maturation as measured by myosin heavy chain (MHC) expression and number of nuclei per myotube. Together these data suggest that aligned and conductive 3D collagen scaffolds could be useful for skeletal muscle tissue engineering.
Measurements of functional performance were made before and 6 months after 31 primary total hip replacements and 31 total hip revisions for prosthetic loosening. After revision, functional performance returned to levels substantially the same as after primary hip replacement except for greater reliance on canes for patients in the revised group. Ratings of hip status and hip pain were slightly less satisfactory after revision as compared to after the primary operation.
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