RESUMO
In the brain, specific signaling pathways localized in highly organized regions called niches allow the persistence of a pool of stem and progenitor cells that generate new neurons in adulthood. Much less is known about the spinal cord where a sustained adult neurogenesis is not observed. Moreover, there is scarce information concerning cell proliferation in the adult mammalian spinal cord and virtually none in aging animals or humans. We performed a comparative morphometric and immunofluorescence study of the entire cervical region (C1-C8) in young (5 mo.) and aged (30 mo.) female rats. Serum prolactin (PRL), a neurogenic hormone, was also measured. Gross anatomy showed a significant age-related increase in size of all of the cervical segments. Morphometric analysis of cresyl violet stained segments also showed a significant increase in the area occupied by the gray matter of some cervical segments of aged rats. The most interesting finding was that both the total area occupied by neurons and the number of neurons increased significantly with age, the latter increase ranging from 16% (C6) to 34% (C2). Taking the total number of cervical neurons the age-related increase ranged from 19% (C6) to 51% (C3), C3 being the segment that grew most in length in the aged animals. Some bromodeoxyuridine positive-neuron specific enolase negative (BrdU(+)-NSE(-)) cells were observed and, occasionally, double positive (BrdU(+)-NSE(+)) cells were detected in some cervical segments of both young and aged rats groups. As expected, serum PRL increased markedly with age. We propose that in the cervical spinal cord of female rats, both maturation of pre-existing neuroblasts and/or possible neurogenesis occur during the entire life span, in a process in which PRL may play a role.
Assuntos
Envelhecimento , Neurônios/citologia , Medula Espinal/citologia , Envelhecimento/sangue , Animais , Contagem de Células , Vértebras Cervicais/anatomia & histologia , Vértebras Cervicais/citologia , Feminino , Prolactina/sangue , Ratos , Ratos Sprague-DawleyRESUMO
Ansa cervicalis is a loop of nerves found in the anterior wall of the carotid sheath in the carotid triangle of neck innervating infrahyoid muscles. Its superior root has fibres from the first cervical nerve that leaves the hypoglossal nerve and joins the inferior root formed by the branches from the second and third cervical nerves. The two roots join to form ansa cervicalis. The ansa cervicalis nerve formation is relatively complex, as its course and location along the great vessels of the neck vary. In the present case on the left side of an adult male cadaver the inferior root was absent and the contributions from C2 and C3 were joining independently with the superior root of ansa to form ansa cervicalis. However no such variation was found in the ansa cervicalis formation on the right side.
El asa cervical es un loop de nervios que se encuentra en la pared anterior de la vaina carotídea, en el triángulo carotídeo del cuello, que inerva los músculos infrahioideos. Su raíz superior tiene fibras del primer nervio cervical que sale del nervio hipogloso y se une a la raíz inferior formada por las ramas de los nervios cervicales segundo y tercero. Las dos raíces se unen para formar el asa cervical. La formación del asa cervical del nervio es relativamente compleja, ya que su curso y ubicación varía a lo largo de los grandes vasos del cuello. En el lado izquierdo del cuello de un cadáver adulto de sexo masculino, la raíz inferior del asa cervical estaba ausente y las contribuciones de los ramos de C2 y C3 se unieron, de forma independiente, con la raíz superior del asa y así formar el loop.
Assuntos
Humanos , Masculino , Adulto , Vértebras Cervicais/anatomia & histologia , Vértebras Cervicais/citologia , Vértebras Cervicais/inervação , Vértebras Cervicais/irrigação sanguínea , Vértebras Cervicais/ultraestrutura , Cadáver , Medida do Comprimento Cervical/métodosRESUMO
The cervical portion of the spinal cord is an area frequently affected by alterations of medical and veterinary importance. Since there is scarce quantitative anatomical data on this region, we undertook a morphometric study of the grey matter of all segments of the rat cervical spinal cord of male rats in order to generate reference patterns to be used in future experimental studies. Using image analysis software, the total spinal cord length and grey and white matter area of each segment was recorded. The morphometric characteristics of the neurones populating the laminae of the grey matter of the cervical segments was also recorded. Neurones were classified into small, medium and large sizes for each lamina and statistically compared. The present data fill an anatomical information gap by providing quantitative data about the normal anatomical features of the rat cervical cord. The anatomical data found could be used to better understand the physiological relevance of that region in the rat.