Aim: To determine if androgens directly regulate veno-occlusion or if androgens act indirectly to maintain the penilestructures which control outflow. Methods: Using CASTRATE and TESTO rats, measurement was made of me...Aim: To determine if androgens directly regulate veno-occlusion or if androgens act indirectly to maintain the penilestructures which control outflow. Methods: Using CASTRATE and TESTO rats, measurement was made of meanarterial pressure (MAP), intracavernosal pressure (CCP), and intracavernosal flow (CCF) during erection resultingfrom stimulation of the autonomic innervation of the penis. CCP and CCF were also measured during saline infusioninto the cavernosal sinuses before and after treatment with sodium nitroprusside (SNP, a nitric oxide donor drag) tofully relax cavernosal smooth muscle. Penile tissue was also collected to measure the content of α actin and proline andhydroxyproline to determine if brief withdrawal of androgenic support led to changes in the number of smooth musclecells or the collagen content of the tissue. Results: Infusion of saline into the cavernosal sinuses demonstrated thatveno-occlusion was defective in CASTRATE rats while reno-occlusion was fully functional in TESTO animals.Furthermore, veno-occlusion could be induced in CASTRATE rats if they were first treated with SNP. Thisobservation suggests that failure of veno-occlusion in the CASTRATE rats is due to a deficiency in the production of NOresulting in a reduction in the degree of relaxation of the penile smooth muscle. The measurements of smooth muscleα actin and proline and hydroxyproline content of collagen showed that both were unaffected by castration and that thebasic structure of the penis did not degenerate after one week without androgenic support. Conclusion: Theseresults can be interpreted to mean that androgens control the veno-occlusive mechanism indirectly via a NO dependentmechanism and not by maintaining the structures of the penis which are essential to reno-occlusion.展开更多
文摘Aim: To determine if androgens directly regulate veno-occlusion or if androgens act indirectly to maintain the penilestructures which control outflow. Methods: Using CASTRATE and TESTO rats, measurement was made of meanarterial pressure (MAP), intracavernosal pressure (CCP), and intracavernosal flow (CCF) during erection resultingfrom stimulation of the autonomic innervation of the penis. CCP and CCF were also measured during saline infusioninto the cavernosal sinuses before and after treatment with sodium nitroprusside (SNP, a nitric oxide donor drag) tofully relax cavernosal smooth muscle. Penile tissue was also collected to measure the content of α actin and proline andhydroxyproline to determine if brief withdrawal of androgenic support led to changes in the number of smooth musclecells or the collagen content of the tissue. Results: Infusion of saline into the cavernosal sinuses demonstrated thatveno-occlusion was defective in CASTRATE rats while reno-occlusion was fully functional in TESTO animals.Furthermore, veno-occlusion could be induced in CASTRATE rats if they were first treated with SNP. Thisobservation suggests that failure of veno-occlusion in the CASTRATE rats is due to a deficiency in the production of NOresulting in a reduction in the degree of relaxation of the penile smooth muscle. The measurements of smooth muscleα actin and proline and hydroxyproline content of collagen showed that both were unaffected by castration and that thebasic structure of the penis did not degenerate after one week without androgenic support. Conclusion: Theseresults can be interpreted to mean that androgens control the veno-occlusive mechanism indirectly via a NO dependentmechanism and not by maintaining the structures of the penis which are essential to reno-occlusion.
