Background: OHSS is a dangerous and potentially life-threatening condition for which many researchers look for new ways to treat. Aim: To determine the effectiveness of prophylactic cabergoline administration on prola...Background: OHSS is a dangerous and potentially life-threatening condition for which many researchers look for new ways to treat. Aim: To determine the effectiveness of prophylactic cabergoline administration on prolactine levels in patients with high risk for ovarian hyperstimulation syndrome (OHSS). Material and Methods: 163 in vitro fertilisation (IVF) patients with high risk for OHSS were enrolled in the study. The criteria for inclusion were more than 15 oocytes retrieved at oocyte pick up. A standard antagonist protocol was used for ovulation induction. Cabergoline treatments (0.5 mg/day) were started on the day of oocyte retrieval and continued for eight days. Prolactine levels were measured at the day of oocyte retrieval and the 9th day after the oocyte retrieval. Results: Of the 163 patients, 26 (15.9%) had OHSS. Prolactine levels on the day of oocyte retrieval were 44.22 ± 24.78 ng/mL and 37.6 ± 22.5 ng/mL in patients with OHSS and without OHSS, respectively (P > 0.05). In contrary prolactine levels were significantly higher in patients with OHSS patients (3.9 ± 5.07 ng/mL) than in patients without OHSS (2.1 ± 2.92 ng/mL) at the 9th day after oocyte retrieval (P < 0.05). Conclusion: Prolactine levels were higher in patients with OHSS than without OHSS who were treated with cabergoline for the prevention of OHSS.展开更多
BACKGROUND: Researchers discovered that serum prolactin could rise following an epileptic seizure. The prolactin level might reach three times more than basic level within 30 minutes and decrease to the normal value ...BACKGROUND: Researchers discovered that serum prolactin could rise following an epileptic seizure. The prolactin level might reach three times more than basic level within 30 minutes and decrease to the normal value 2 hours after the seizure occurred. The mechanism might result in an increase of serum prolactin concentrations with the activation of the hypothalamic-pituitary axis. OBJECTIVE:To probe into the correlation between changes of serum prolactin and incidence of epileptic discharges of electroencephalogram (EEG) at 24-36 hours after epileptic onset of patients with secondary epilepsy. DESIGN : Clinical observational study SEI-FING: Department of Neurology, First Hospital affiliated to Soochow University PARTICIPANTS: A total of 21 patients with secondary epilepsy were selected from the Department of Neurological Emergency or Hospital Room of the First Hospital affiliated to Soochow University from November 2005 to April 2006. There were 14 males and 7 females aged from 25 to 72 years. All patients met International League Anti-epileptic (ILAE) criteria in 1981 for secondary generalized tonic clonic seizure through CT or MRI and previous EEG. All patients were consent. Primary diseases included cerebral trauma (3 cases), tumor (2 cases), stroke (7 cases) and intracranial infeion (9 cases). METHODS : Venous blood of all patients was collected at 24-36 hours after epileptic onset. Serum prolactin kit (Beckman Coulter, Inc in USA) was used to measure value of serum prolactin according to kit instruction. Then, value of serum prolactin was compared with the normal value (male: 2.64-13.13 mg/L; female: 3.34- 26.72 mg/L); meanwhile, EEG equipment (American Nicolet Incorporation) was used in this study. MAIN OUTCOME MEASURES : ① Abnormal rate of serum prolactin of patients with secondary epilepsy; ②Comparison between normal and abnormal level of serum prolactin and incidence of EEG epileptic discharge of patients with secondary epilepsy. RESULTS:All 21 patients with secondary epilepsy were involved in the final analysis. ① Results of serum prolactin level: Among 21 patients with of secondary epilepsy, 10 of them had normal serum prolactin and 11 had abnormal one, and the abnormal rate was 52% (11/21). ② Detecting results of EEG: EEG results showed that 6 cases were normal and 15 were abnormal, and the abnormal rate was 71% (15/21). The symptoms were sharp wave, spike wave or sharp slow wave, spike slow wave of epileptic discharges in 8 cases, which was accounted for 38%. ③ Correlation between abnormality of serum prolactin and EEG epileptic wave: Eleven cases had abnormal serum prolactin, and the incidence was 64% (7/11), which was higher of epileptic wave than that of non-epileptic wave [36% (4/11), P 〈 0.05]; however, 10 cases had normal serum prolactin, and the incidence was 10% (1/10). Epileptic wave was lower than non-epileptic wave [90% (9/10), P 〈 0.01]. CONCLUSION : The level of serum prolactin of patients with secondary epilepsy is abnormally increased at 24- 36 hours after epileptic onset; in addition, incidence of epileptic discharge is also increased remarkably.展开更多
文摘Background: OHSS is a dangerous and potentially life-threatening condition for which many researchers look for new ways to treat. Aim: To determine the effectiveness of prophylactic cabergoline administration on prolactine levels in patients with high risk for ovarian hyperstimulation syndrome (OHSS). Material and Methods: 163 in vitro fertilisation (IVF) patients with high risk for OHSS were enrolled in the study. The criteria for inclusion were more than 15 oocytes retrieved at oocyte pick up. A standard antagonist protocol was used for ovulation induction. Cabergoline treatments (0.5 mg/day) were started on the day of oocyte retrieval and continued for eight days. Prolactine levels were measured at the day of oocyte retrieval and the 9th day after the oocyte retrieval. Results: Of the 163 patients, 26 (15.9%) had OHSS. Prolactine levels on the day of oocyte retrieval were 44.22 ± 24.78 ng/mL and 37.6 ± 22.5 ng/mL in patients with OHSS and without OHSS, respectively (P > 0.05). In contrary prolactine levels were significantly higher in patients with OHSS patients (3.9 ± 5.07 ng/mL) than in patients without OHSS (2.1 ± 2.92 ng/mL) at the 9th day after oocyte retrieval (P < 0.05). Conclusion: Prolactine levels were higher in patients with OHSS than without OHSS who were treated with cabergoline for the prevention of OHSS.
文摘BACKGROUND: Researchers discovered that serum prolactin could rise following an epileptic seizure. The prolactin level might reach three times more than basic level within 30 minutes and decrease to the normal value 2 hours after the seizure occurred. The mechanism might result in an increase of serum prolactin concentrations with the activation of the hypothalamic-pituitary axis. OBJECTIVE:To probe into the correlation between changes of serum prolactin and incidence of epileptic discharges of electroencephalogram (EEG) at 24-36 hours after epileptic onset of patients with secondary epilepsy. DESIGN : Clinical observational study SEI-FING: Department of Neurology, First Hospital affiliated to Soochow University PARTICIPANTS: A total of 21 patients with secondary epilepsy were selected from the Department of Neurological Emergency or Hospital Room of the First Hospital affiliated to Soochow University from November 2005 to April 2006. There were 14 males and 7 females aged from 25 to 72 years. All patients met International League Anti-epileptic (ILAE) criteria in 1981 for secondary generalized tonic clonic seizure through CT or MRI and previous EEG. All patients were consent. Primary diseases included cerebral trauma (3 cases), tumor (2 cases), stroke (7 cases) and intracranial infeion (9 cases). METHODS : Venous blood of all patients was collected at 24-36 hours after epileptic onset. Serum prolactin kit (Beckman Coulter, Inc in USA) was used to measure value of serum prolactin according to kit instruction. Then, value of serum prolactin was compared with the normal value (male: 2.64-13.13 mg/L; female: 3.34- 26.72 mg/L); meanwhile, EEG equipment (American Nicolet Incorporation) was used in this study. MAIN OUTCOME MEASURES : ① Abnormal rate of serum prolactin of patients with secondary epilepsy; ②Comparison between normal and abnormal level of serum prolactin and incidence of EEG epileptic discharge of patients with secondary epilepsy. RESULTS:All 21 patients with secondary epilepsy were involved in the final analysis. ① Results of serum prolactin level: Among 21 patients with of secondary epilepsy, 10 of them had normal serum prolactin and 11 had abnormal one, and the abnormal rate was 52% (11/21). ② Detecting results of EEG: EEG results showed that 6 cases were normal and 15 were abnormal, and the abnormal rate was 71% (15/21). The symptoms were sharp wave, spike wave or sharp slow wave, spike slow wave of epileptic discharges in 8 cases, which was accounted for 38%. ③ Correlation between abnormality of serum prolactin and EEG epileptic wave: Eleven cases had abnormal serum prolactin, and the incidence was 64% (7/11), which was higher of epileptic wave than that of non-epileptic wave [36% (4/11), P 〈 0.05]; however, 10 cases had normal serum prolactin, and the incidence was 10% (1/10). Epileptic wave was lower than non-epileptic wave [90% (9/10), P 〈 0.01]. CONCLUSION : The level of serum prolactin of patients with secondary epilepsy is abnormally increased at 24- 36 hours after epileptic onset; in addition, incidence of epileptic discharge is also increased remarkably.