OBJECTIVE: To investigate nitric oxide (NO) production in the two phases of normal menstrual cycle. DESIGN: Prospective clinical study. SETTING: Normal human volunteers in an academic research environment. PATIENT(S): Fifteen normally cycling women. INTERVENTION(S): Follicle growth monitoring by ultrasound, serum, and plasma sampling in the midfollicular phase, at ovulation, and in the midsecretory phase. MAIN OUTCOME MEASURE(S): Plasma concentration of NO stable oxidation products and serum concentrations of E2 and P. RESULT(S): Plasma concentration of NO metabolites resulted higher in the follicular phase with respect to the secretory phase and peaked at midcycle. CONCLUSION(S): The results strongly support the existence of an E2 control of NO production and release. The significant reduction in NO metabolites observed in the secretory phase suggests a possible opposing action of P on either NO production or release.
OBJECTIVE: To investigate nitric oxide (NO) production in the two phases of normal menstrual cycle. DESIGN: Prospective clinical study. SETTING: Normal human volunteers in an academic research environment. PATIENT(S): Fifteen normally cycling women. INTERVENTION(S): Follicle growth monitoring by ultrasound, serum, and plasma sampling in the midfollicular phase, at ovulation, and in the midsecretory phase. MAIN OUTCOME MEASURE(S): Plasma concentration of NO stable oxidation products and serum concentrations of E2 and P. RESULT(S): Plasma concentration of NO metabolites resulted higher in the follicular phase with respect to the secretory phase and peaked at midcycle. CONCLUSION(S): The results strongly support the existence of an E2 control of NO production and release. The significant reduction in NO metabolites observed in the secretory phase suggests a possible opposing action of P on either NO production or release.
Authors: Yi-Xiang J Wang; Chun Hay Ko; James F Griffith; Min Deng; Hing Lok Wong; Tao Gu; Yu Huang Journal: Pharmaceutics Date: 2012-12-21 Impact factor: 6.321