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Bone marrow regeneration follwing tibial marrow ablation in rats is age dependentFisher, Maya 19 November 2008 (has links)
Objective: Injuries to the marrow cavity result in rapid bone formation followed by regeneration of the marrow. It is not known whether this process is affected by age, although the quality of marrow is markedly different in young and old animals. To test if marrow restoration differs with age, we used the rat tibial bone marrow ablation model, which has been used to examine calcification, osteointegration of metal implants, and remodeling of bone graft substitutes. Methods: Marrow was ablated in the left tibia of seven rats (rNu/rNu) per time point. At 0,7,14,21,28,35 and 42 days post-surgery, treated tibias and contralateral tibias were harvested and fixed in buffered formalin. Both tibias were scanned using microCT and trabecular and cortical BVF/TV calculated. Mid-sagittal sections of decalcified bones were stained with H&E and BVF/TV calculated. Results: MicroCT analysis of 1-month animals showed increased bone formation on day-7 and on day-21 the marrow was restored. Increased bone was seen in 3-month animals on day-7 and day-14, but it was significantly less than in 1-month rats. By day-21, trabecular bone was reduced by 50%. 10-month animals had less trabecular bone at day-7 and 14, but bone remained in the medullary canal through day-1. Histomorphometry indicated that bone formation peaked at day-7 in 1-month rats with remodeling underway by day-14. Bone formation in 3-month rats also peaked at day-7, but restoration occurred by day-21. However, in 10-month rats, peak bone occurred on day-14, with remodeling on day-28. Conclusions: Aged animals produced less primary bone than younger animals and remodeling was initiated later. Differences in micro-CT and histomorphometric analyses may reflect a reduction in calcification of the osteoid in the 10-month old animals. (Supported by Boston Scientific, Inc.)
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Two-Dimensional Computer Model of Human Atrial AblationEsfahani, Samineh R. 01 January 2011 (has links)
A finite-element model of a two-dimensional slice of human atrial tissue for the study of the electrograms and propagation of action potentials is presented. Action potential propagation is described by a reaction-diffusion model coupled with the complex Courtemanche et al. atrial cell model. The effects of recording electrode size and location on electrograms are presented. Action potential propagation as a result of atrial fibrillation ablation therapy is also modeled by defining a lesion area with decreased electrical conductivity. The effect of electrical conductivity and geometry of the lesion was also studied. It is shown that the success rate of atrial fibrillation ablation therapy is primarily correlated with the creation of continuous ablation lines and also the formation of fibrous tissue.
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