From Nose to Lumbar Spinal Cord - Reduced Sperm Numbers Occur by Olfactory Bulbectomy-Related Onuf's Nucleus Degeneration: New Experimental Evidence for Kallmann Syndrome.

INTRODUCTION: Olfaction and its relation to human health is an area of growing interest. Although olfaction disorders have been considered a part of Kallmann syndrome, the role of olfactory dysfunction on spermatogenesis has not been studied yet. We studied if olfactory bulbectomy (OBX) causes dysfunction in spermatogenesis as a result of Onuf's nucleus damage. METHODS: Twenty-eight male rats were divided into three groups: six as the control (G-1; n = 6), six as the only frontal burr hole applied animals SHAM (G-2; n = 6), and 16 as the study group (G-3; n = 16) in which OBX was performed. The animals were followed for 2 months. After the decapitation of the animals, olfactory bulb (OB) volumes (mm3), the neuron density of the Onuf's nucleus (n/mm3), and sperm density (n/mm3) were estimated stereologically and analyzed. RESULTS: OB volumes (mm3), degenerated neuron density of Onuf's nucleus (n/mm3), and sperm numbers of control, SHAM, and study groups were estimated as: 4 ± 0.5; 6 ± 2 and 103.245 ± 10.841 in G-1; 3.5 ± 0.7; 14 ± 4 and 96.891 ± 9.569 in G-2; and 1.3 ± 0.3; 91 ± 17 and 73.561 ± 6.324 in G-3. The statistical results of degenerated neuron density of Onuf's nucleus and sperm numbers between groups are p < 0.005 for G-1/G-2; p < 0.0005 for G-2/G-3; and p < 0.00001 for G-1/G-3. DISCUSSION: This study first time indicates that Onuf's nucleus degeneration secondary to OBX seems to be responsible for reduced sperm numbers.

Predestinative role acidic cerebrospinal fluid on the destiny of central channel in spinal cord following subarachnoid hemorrhage: an experimental study.

OBJECTIVE: Acidosis is the most dangerous complication in subarachnoid hemorrhage (SAH). This study aimed to investigate the effect of acidic cerebrospinal fluid on central canal structures after SAH. MATERIALS AND METHODS: Twenty-eight hybrid rabbits were studied. Blood and cerebrospinal fluid pH values were recorded before/during/after the experimental procedures. The structures related to the central canals at the level of C5 of the cervical spinal cord were then examined histopathologically. The relationship between pH values of ependymal cells and degenerated epithelial cell densities was statistically analyzed. RESULTS: Mean blood pH values and degenerated ependymal cell density (n/mm2) were as follows: 7.351 ± 0.033/23 ± 7 in control, 7.322 ± 0.059/78 ± 13 in SHAM, and 7.261 ± 0.048/254 ± 62 in study animals. Gross examinations revealed swelling, edema, pia-arachnoid adhesions, ventral canal dilatation, arachnoiditis, central canal hemorrhage, occlusions, and dilatation in the spinal cord. CONCLUSION: Cerebrospinal fluid acidosis-induced central channel pathologies should be considered an important complication of SAH following SAH.

OBJETIVO: La acidosis es la complicación más peligrosa en la hemorragia subaracnoidea (HSA). El objetivo de este estudio fue investigar el efecto del líquido cefalorraquídeo ácido en las estructuras del canal central tras la HSA. MATERIALES Y MÉTODOS: Se estudiaron 28 conejos híbridos. Se registraron los valores de pH de la sangre y del líquido cefalorraquídeo antes, durante y después de los procedimientos experimentales. A continuación se examinaron histopatológicamente las estructuras relacionadas con los canales centrales a nivel de C5 de la médula espinal cervical. Se analizó estadísticamente la relación entre los valores de pH de las células ependimarias y las densidades de células epiteliales degeneradas. RESULTADOS: Los valores medios de pH en sangre y la densidad de células ependimarias degeneradas (n/mm2) fueron los siguientes: 7.351 ± 0.033/23 ± 7 en el control, 7.322 ± 0.059/78 ± 13 en el SHAM, 7.261 ± 0.048/254 ± 62 en los animales del estudio. Los exámenes macroscópicos revelaron hinchazón, edema, adherencias pia-aracnoideas, dilatación del canal ventral, aracnoiditis, hemorragia del canal central, oclusiones y dilatación en la médula espinal. CONCLUSIONES: Las patologías del canal central inducidas por la acidosis del líquido cefalorraquídeo deben considerarse como una complicación importante de la HSA tras una hemorragia subaracnoidea.

Burned spinal cord in acidotic cerebrospinal fluid during subarachnoid hemorrhage: Experimental study.

OBJECTIVE: We investigated the effect of carotid body ischemia-induced cerebrospinal fluid acidosis on spinal cord during subarachnoid hemorrhage (SAH). METHODS: Twenty-three hybrid rabbits were divided into three groups: control (n = 5), Sham (injected with 0.5 ml isotonic) (n = 6), and the SAH (n = 12) (injected with 0.5 ml autologous blood into the 4th ventricle) and then monitored for 3 weeks. Cerebrospinal fluid pH and degenerated ependymal cell density and volume of cervical central canal were analyzed. RESULTS: The mean cervical central canal volumes, degenerated ependymal cells densities, and cerebrospinal pH values were 1.056 ± 0.053 mm3-6 ± 2 per mm2-7.342 ± 0.034, 1.321 ± 0.12 mm3-35 ± 9 per mm2-7.314 ± 0.056, and 1.743 ± 0.245 mm3-159 ± 24 per mm2-7.257 ± 0.049 in the Control, Sham, and SAH groups, respectively. The more degenerated carotid body neuron density induced decreased cerebrospinal fluid pH values (p < 0.0001) could result in the more ependymal cells desquamation (p < 0.0005) and central canal dilatation (p < 0.00001). CONCLUSION: Increased neurodegeneration of carotid bodies can reduce cause cerebrospinal fluid pH-induced ependymal cell degeneration and central canal dilatation following SAH.

OBJETIVO: El objetivo de este estudio fue investigar el efecto de la isquemia inducida del cuerpo carotideo por la acídosis de líquido cefalorraquídeo en la médula espinal durante una hemorragia subaracnoidea (SAH). METODO: Conejos híbridos (n = 23) fueron divididos en Control (n = 5), Sham (inyectados con 0.5 mil de solución isotónica) (n = 6), y SAH (n = 12) (inyectados en el 4º ventrículo con 0.5 ml de sangre autológa) y monitoreados por tres semanas. Se analizaron: El pH del líquido cerebro espinal, la densidad de las células ependimarias y el volúmen del canal cervical central. RESULTADOS: La media del volumen del canal cervical central, la densidad de las células ependimarias degeneradas y los valores de pH fueron 1.056 + 0.053 mm3-6 + 2 per mm2-7.342 + 0.034, 1.321 + 0.12 mm3-35 + 9 per mm2-7.314 + 0.056 y 1.743 + 0.245 mm3-159 + 24 per mm2-7.257 + 0.049 en los grupos Control, Sham y SHA, respectivamente. La mayor densidad inducida de la neurona del cuerpo carotideo degenerado, disminuyó los valores de pH del líquido cefalorraquideo lo que podría dar como resultado un aumento en la descamación de las células ependimarias asi como la dilatación del canal central. CONCLUSIÓN: Un aumento en la neurodegeneración del cuerpo carotideo puede reducir la degeneración de los ependimocitos y la dilatacióm del canal central siguiendo SAH.