Fisiologia de l'exercici en l'infant i l'adolescent. Algunes consideracions

En les edats infantil i peripuberal, les adaptacions a l'activitat física presenten particularitats específiques respecte a l'adult en els aspectes metabolics, resposta cardio-vascular i respiratoria, comportament neuro-endocrí, etc., amb diferéncies més evidents com més petit és el noi. Sembla evident que en alguns sentits el noi presenta unes respostes comparables a les de l'adult, mentte que en difereix substancialment en altres. Per aixo no és correcte considerar-lo en aquest sentit com un adult en miniatura (Borms, J., 1986). D'altra banda, cal saber en quina mesura la introducció de programes d'educació física escolar o, també en alguns casos, la participació en entrenaments intensius poden afectar les qualitats funcionals d'adaptació o alterar d'alguna forma el creixement pondo-estatural normal del noi. En aquest treball analitzem alguns aspectes essencials de tot aixo. Les consideracions que es puguin fer hauran de tenir en compte l'edat segons uns criteris biologics (grau de creixement sexual, estimació del nivell d'ossificació, dimensions corporals, etc.), més que no pas en un sentit cronologic. El fet de no atendre estrictament aquesta consideració pot ocasionar errors greus (Bar-Or, 1985).

Cronología de osificación del pie. Radiogoniometría.

El motivo por el cual elegimos para el trabajo el tema titulado " Cronología de osificación del pie. Radiogoniometría" fue debido al interés que despertó en nosotras, la disparidad de datos ofrecidos por diferentes autores respecto a la cronología de aparición en la radiografía, de los núcleos primarios, secundarios terciarios de osificación. Respecto a la radiogoniometría, también creímos que era necesario una revisión para comprobar si han aparecido cambios sobre el rango de normalidad de algunos ángulos, cuyas valoraciones son importantes en las edades de crecimiento.

BS-SEM evaluation of the tisular interactions between cortical bone and calcium-phosphate covered titanium implants

The improvement of the reliability of the contact between the osseous tissues and the implant materials has been tested by recovering the metallic implants with ceramic materials, usually calcium phosphates. In our study, the calcium phosphate recovering layers were deposited by means of a pulsed-laser deposition technique. Our aim was to to evaluate the tissue interactions established between cortical bone and titanium implants covered by five different layers, ranging from amorphous calcium phosphate to crystalline hydroxyapatite, obtained by altering the parameters of the laser ablation process. The surgical protocol of the study consisted in the simultaneous implantation of the five types of implants in both the tibial dyaphisis of three Beagle dogs, sacrificed respectively one, two and three months after the last surgical procedures. After the sacrifice, the samples were submitted to a scheduled procedure of embedding in plastic polymers without prior decalcification, in order to perform the ultrastructural studies: scanning microscopy with secondary and backscattered electrons (BS-SEM). Our observations show that both in terms of the calcified tissues appearing as a response to the presence of the different coatings and of time of recovering, the implants coated with crystalline calcium phosphate layers by laser ablation present a better result than the amorphous-calcium-phosphate-coated implants. Moreover, the constant presence of chondroid tissue, related with the mechanical induction by forces applied on the recovering area, strongly suggests that the mechanisms implied in osteointegration are related to endomembranous, rather than endochondral ossification processes

BS-SEM evaluation of the tisular interactions between cortical bone and calcium-phosphate covered titanium implants

The improvement of the reliability of the contact between the osseous tissues and the implant materials has been tested by recovering the metallic implants with ceramic materials, usually calcium phosphates. In our study, the calcium phosphate recovering layers were deposited by means of a pulsed-laser deposition technique. Our aim was to to evaluate the tissue interactions established between cortical bone and titanium implants covered by five different layers, ranging from amorphous calcium phosphate to crystalline hydroxyapatite, obtained by altering the parameters of the laser ablation process. The surgical protocol of the study consisted in the simultaneous implantation of the five types of implants in both the tibial dyaphisis of three Beagle dogs, sacrificed respectively one, two and three months after the last surgical procedures. After the sacrifice, the samples were submitted to a scheduled procedure of embedding in plastic polymers without prior decalcification, in order to perform the ultrastructural studies: scanning microscopy with secondary and backscattered electrons (BS-SEM). Our observations show that both in terms of the calcified tissues appearing as a response to the presence of the different coatings and of time of recovering, the implants coated with crystalline calcium phosphate layers by laser ablation present a better result than the amorphous-calcium-phosphate-coated implants. Moreover, the constant presence of chondroid tissue, related with the mechanical induction by forces applied on the recovering area, strongly suggests that the mechanisms implied in osteointegration are related to endomembranous, rather than endochondral ossification processes

BS-SEM evaluation of the tisular interactions between cortical bone and calcium-phosphate covered titanium implants

The improvement of the reliability of the contact between the osseous tissues and the implant materials has been tested by recovering the metallic implants with ceramic materials, usually calcium phosphates. In our study, the calcium phosphate recovering layers were deposited by means of a pulsed-laser deposition technique. Our aim was to to evaluate the tissue interactions established between cortical bone and titanium implants covered by five different layers, ranging from amorphous calcium phosphate to crystalline hydroxyapatite, obtained by altering the parameters of the laser ablation process. The surgical protocol of the study consisted in the simultaneous implantation of the five types of implants in both the tibial dyaphisis of three Beagle dogs, sacrificed respectively one, two and three months after the last surgical procedures. After the sacrifice, the samples were submitted to a scheduled procedure of embedding in plastic polymers without prior decalcification, in order to perform the ultrastructural studies: scanning microscopy with secondary and backscattered electrons (BS-SEM). Our observations show that both in terms of the calcified tissues appearing as a response to the presence of the different coatings and of time of recovering, the implants coated with crystalline calcium phosphate layers by laser ablation present a better result than the amorphous-calcium-phosphate-coated implants. Moreover, the constant presence of chondroid tissue, related with the mechanical induction by forces applied on the recovering area, strongly suggests that the mechanisms implied in osteointegration are related to endomembranous, rather than endochondral ossification processes