Irene García-Martínez scite author profile

The human palmar aponeurosis is involved in hand proprioception, and it contains different sensory corpuscle morphotypes that serve this role. In palmar fibromatosis (classically referred to as Dupuytren's disease), the palmar aponeurosis undergoes fibrous structural changes that, presumably, also affect the nervous system, causing altered perception. We analysed the various sensory nerve formation morphotypes in the palmar aponeuroses of healthy subjects and patients with palmar fibromatosis. To do this, we used immunohistochemistry for corpuscular constituents and the putative mechanoproteins PIEZO2 and acid‐sensing ion channel 2. Free nerve endings and Golgi‐Mazzoni, Ruffini, paciniform and Pacinian corpuscles were identified in both the healthy and the pathological conditions. The densities of the free nerve endings and Golgi‐Mazzoni corpuscles were slightly increased in the pathological tissues. Furthermore, the Pacinian corpuscles were enlarged and displayed an altered shape. Finally, there was also morphological and immunohistochemical evidence of occasional denervation of the Pacinian corpuscles, although no increase in their number was observed. Both PIEZO2 and acid‐sensing ion channel 2 were absent from the altered corpuscles. These results indicate that the human palmar aponeurosis is richly innervated, and the free nerve endings and sensory corpuscles within the palmar aponeurosis undergo quantitative and qualitative changes in patients with palmar fibromatosis, which may explain the sensory alterations occasionally reported for this pathology.

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Terapia física en la hipofunción vestibular unilateral y bilateral

Benito-Orejas

Aylagas-Andrés

Martín-Moratinos

et al. 2019

Rev. ORL

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Conflicto de intereses: Los autores declaran no tener conflictos de intereses Imágenes: Los autores declaran haber obtenido las imágenes con el permiso de los pacientes Política de derechos y autoarchivo: se permite el autoarchivo de la versión post-print (SHERPA/RoMEO) Licencia CC BY-NC-ND. Licencia Creative Commons Atribución-NoComercial-SinDerivar 4.0 Internacional Universidad de Salamanca. Su comercialización está sujeta al permiso del editor RESUMEN: Introducción: La rehabilitación vestibular (RV) basada en la terapia física, tiene el objetivo, en el caso de patología vestibular, de inducir la compensación del sistema nervioso central (SNC) a nivel de núcleos vestibulares y de otros niveles del SNC. Incluye ejercicios de habituación, adaptación y sustitución vestibular, ejercicios para mejorar el equilibrio y el control postural dinámico y ejercicios para el acondicionamiento general. En este capítulo discutimos los recientes avances sobre el adiestramiento del equilibrio y de la marcha, la estabilidad de la mirada y la habituación, en el contexto de los trastornos vestibulares uni y bilaterales. Método: Revisión narrativa. Resultados: Los ejercicios se prescriben para TERAPIA FÍSICA EN LA HIPOFUNCIÓN VESTIBULAR UNILATERAL Y BILATERAL

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Irene García-Martínez

Influence of customized over-scan body rings on the intraoral scanning effectiveness of a multiple implant edentulous mandibular model

Accuracy of digitization obtained from scannable and nonscannable elastomeric impression materials

Sensory innervation of the human palmar aponeurosis in healthy individuals and patients with palmar fibromatosis

Terapia física en la hipofunción vestibular unilateral y bilateral

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