Document Type : Original Article
Authors
Obstetrics and Gynecology Dept., Faculty of Medicine, Al-Azhar University, Cairo, Egypt
Abstract
Keywords
Main Subjects
EFFECT OF SURGICAL OPERATION FOR BENIGN OVARIAN TUMORS ON ANTI MULLERIAN HORMONE
By
Mohammed Aboul-Fotouh Abd El-Mageed, Mahmoud S. Zaki and Ahmed A. El-Tabaakh
Obstetrics and Gynecology Dept., Faculty of Medicine, Al-Azhar University, Cairo, Egypt
E-mail: moooyadak90@gmail.com
ABSTRACT
Background: Surgical operation for benign ovarian tumors creates a potential risk for the ovarian reserve. Ovarian procedures including excision of cysts (cystectomy) are very commonly performed worldwide for various disorders.
Objective: To study the long term effect of ovarian surgery on blood level of anti mullerian hormone.
Patients and Methods: The present study was a prospective cohort study of patients who have benign ovarian tumor which carried on Patients from December 2019 to October 2020 at Obstetrics and Gynecology Department, Faculty of Medicine, Al-Azhar University.
Results: There was a significant decrease in Anti mullerian hormone ( AMH ) post operatively by 25.79%. There was a significant relation between level of AMH and age of the patients. The old age had a low level of AMH. Also, the bilateral lesion showed a low level of AMH less than the unilateral lesions. The cyst size more than 5 cm showed a negative relation with level of AMH. The log duration of surgery had a negative effect on the level of AMH. The endometeriotic type showed a significant decrease in AMH level more than the other histopathological findings.
Conclusion: Serum AMH levels could be preferred in determining the indication and selection of operative methods for benign gynecologic conditions, especially endometriomas.
Keywords: Surgical Operation for Benign Ovarian tumors, Anti Mullerian Hormone.
INTRODUCTION
Benign gynecologic diseases are often implicated in fertility problems, and therefore, fertility-preserving interventions are required for such conditions. However, surgical interventions involving the uterus and ovaries have been demonstrated to possibly affect ovarian function, as these interventions might decrease ovarian tissue levels and blood supply to ovaries (Litta et al., 2013).
Among newly developed ovarian reserve tests, the serum level of anti-Müllerian hormone (AMH) has been recognized as an improved and informative marker (Iwase et al., 2015).
AMH is produced by granulosa cells from preantral and small antral follicles, and therefore, AMH levels indirectly represent the total number of follicles, as estimated by the number of early-growing-stage follicles. AMH is reported to be a better marker than FSH and inhibin B, and it displays similar performance as the antral follicle count in predicting ovarian response (La Marca et al., 2010).
Many researchers have begun using serum AMH levels to evaluate ovarian damage caused by surgical interventions, such as ovarian cystectomy and uterine artery embolization. Moreover, serum AMH levels from conception to menopause in healthy females were analyzed to assess the value of AMH in predicting reproductive lifespan (Kelsey et al., 2011).
Surgical intervention for resection of ovarian cyst may be performed by laparotomy or laparoscopic approach. In cases which oophorectomy is not indicated, ovarian cystectomy is performed. Ovarian cystectomy of endometriosis lesions has been associated with significant decrease in ovarian reserve assessed by measurement of serum AMH level in previous studies; especially when bipolar cauterization has been administered during the procedure. It has been shown that AMH levels recover within 3 months after the surgery but doesn’t reach the primary levels (Litta et al., 2013).
The operation of resecting an ovarian cyst (ovarian cystectomy) can be performed either by laparotomy or laparoscopically. Recent studies have reported significant decrease in ovarian reserve, estimated by measurement of serum anti-mullerian hormone (AMH) levels drops significantly after ovarian cystectomy. (Lee et al., 2011) This reduction was partially reversible three months after operation. Some other studies have reported no decrease in the serum level of AMH or damage to ovarian reserve after ovarian cystectomy. In the present study we investigated the effect of laparoscopic ovarian cystectomy on serum AMH in patients with three most common types of ovarian cysts (Dermoid cyst, serous and mucinous cystadenoma) in Shiraz Zeinab Hospital, an affiliated center to Shiraz University of Medical Sciences (Amooee et al., 2015).
The present study aimed to evaluate the surgical effect of benign ovarian tumors on Anti Mulerian Hormone (AMH) in female patient of reproductive age.
PATIENTS AND METHODS
A prespective study was carried out on 50 patients who have benign ovarian tumors and enrolled to undergo laparoscopic cystectomy at Obstetrics and Gaynecology Department, Faculty of Medicine, Al-Azhar University Hospitals and Kafer Elsheikh General Hospital from December 2019 to October 2020.Before enrollment, they were diagnosed as having uni-/bilateral benign ovarian tumor by ultrasound examination and histologicl confirmed after surgery.
The female patients included in this study gave informed consent.
Inclusion criteria: Age between ( 21-42) years with regular menstrual cycles (21-35 days), have no clinical signs or ultrasound evidence suspicious of ovararian malignancy, have no evidence of any other endocrine disorder such diabetes mellitus, thyroid disorder, hyper prolactinemia, congenital adrenal hyperplasia, Cushing syndrome, or adrenal insufficiency.
Exclusion criteria: Patients less than (18 years) and more than (45years), malignancy in the ovary, poly cystic ovary, previous adnexal surgery, evidence of pre mature ovarian failure or pre mature menopause, history of infertility or abortion, under any kind of hormonal treatment for at least 6 months.
Patient Evaluation:
Preoperative Workup, Complete History Taking and Complete Clinical Examination (general and local). All patients underwent to Lab Investigation in the form of measurement of FSH, LH, E2, and AMH during the early follicular phase (day3) of the month in which surgery was scheduled. Serum AMH was assayed using an enzyme immunoassay (Immunotech SAS, Marseilles, France). And radiological investigations in the form of trasvaginal ultrea sonography, chest X ray, computed tomography (CT), magnetic resonance imaging (MRI), electrocardiography.
Blood sample and trans-vaginal ultrasound examination were then repeated three months after the laparoscopic cystectomy in the same cycle.
Operative techniques:
All the laparoscopic operations were performed under general anesthesia by the same team of experienced pelvic examination the surgery was done as follows. A three –port laparoscopy technique was used: After an 11- mm trocar was inserted through sub umbilical vertical incision, a10 -mm laparoscope was introduced and the pneumo-peritoneum was achieved by inflating with CO2 (12 mmHg); a lateral 10 –mm operating port and a central supra pubic 5-mm operating port were also inserted. After inspection of peritoneal cavity, the cyst was freed and every effort was made to excise the cyst without spilling its contents, especially when the ultrasound diagnosis had revealed a dermoid cyst .Removal of the cyst was carried out carefully by identifying the cyst wall and removing it from the ovarian cortex by traction with grasping foreceps. Bipolar electrocoagulation was applied occasionally for hemostasis on the ovarian parenchyma with caution to damage ovarian hillus and vascularity. The sutures were used for ovarian reconstruction. Postoperatively, all patient should be under Close observation for vital signs (ICU admission if indicated), Postoperative increase amount of vaginal bleeding, Laboratory Investigation (AMH, CBC, LFT, S. creatine), Dark or smelly vaginal discharge, Postoperative assessment of any pain or swelling in the abdomen.
Statistical Analysis:
The Data was collected and entered into the personal computer. Statistical analysis was done using Statistical Package for Social Sciences (SPSS/version 21) software.
Arthematic mean, standard deviation, for categorized parameters, chai square test was used while for numerical data t-test was used to compare two groups while for more than two groups ANOVA test was used. Mann Whitney test was used to compare between the nonparametric data. To find the association between two variables, Spearman correlation coefficient test was used the level of significant was 0.05.
RESULTS
The patients in this study their age ranged from 21-42 yrs. with mean value 32.34-6.69. BMI ranged from 23.3-32.2 with mean value 27.96-2.76.The parity in our study showed that 26(52%) with no parity and one or more was 24(48%). Unilateral laterality was higher with 30(60%) while bilateral was 20(40%). Cyst size ranged from 2.90-7.20 with mean value. Operative duration less than 75 min was 19(38%) and operative duration more than 75 min was 31(62%). Operative duration ranged from 65-90 with mean value 77.98-7.53. Amount of blood loss ranged from 26-200 with mean value 121.04-52.53.
Endometriotic type was higher with 21(42%) followed by dermoid cyst 15(30%), simple or functional cyst 11(22%) and cyst adenomas 3(6%) (Table 1).
Table (1): Distribution of the studied patients group regarding the histopathological findings
Variables |
Number “n=50” |
Percent |
Dermoid cyst |
15 |
30.0 |
Endometriotic type |
21 |
42.0 |
simple or functional cyst |
11 |
22.0 |
cyst adenomas |
3 |
6.0 |
Total |
50 |
100.0 |
Pre-operative serum ranged from 2.60-7.50 with mean value 4.70±1.53 and post-operative ranged from 1.61-6.07 with mean value 3.49±1.19. Percent of decrease ranged from 38-12 with mean value 25.79±4.12. There was statistical significant relation between pre and post-operative serum AMH and the percent of decreasing (Table 2).
Table (2): Comparison between pre and post-operative serum AMH and the percent of decreasing.
Variables |
Pre-operative ( n=50) |
Post-operative ( n=50) |
Percent of decrease |
Mean ±S.D. |
4.70±1.53 |
3.49±1.19 |
25.79±4.12 |
p value |
0.012 |
|
There was a statistical significant difference between age, laterality, cyst size and duration of surgery with serum AMH pre and post-operative (P < 0.05), while there was no statistical significant difference between them and percent of change (Table 3).
Table (3): Relation between age, laterality, cyst size and duration of surgery in relation to serum AMH pre and post-operative and the percent of change.
Parameters Variables |
Pre-operative AMH |
Post-operative AMH |
Percent of decrease in AMH |
Age group > 30 years ( n=50) P value |
3.29±0.76 5.71±1.07 0.0126 |
2.46±0.74 4.24±0.84 0.0210 |
25.90±4.83 25.71±3.60 0.251 |
Laterality Bilateral ( n=50) Unilateral ( n=50) P value |
3.66±0.88 6.25±0.82 0.001 |
2.76±0.79 4.59±0.77 0.001 |
25.16±4.37 26.73±3.61 0.23 |
Cyst size > 5 cm ( n=50) < 5 cm ( n=50) P value |
3.26±0.76 5.65±1.10 0.001 |
2.44±0.75 4.20±0.86 0.002 |
25.94±4.95 25.69±3.54 0.271 |
Duration of surgery < 75 min. ( n=50) > 75 min. ( n=50) P value |
3.24±0.78 5.59±1.14 0.0025 |
2.41±0.76 4.16±0.87 0.0036 |
26.19±4.96 25.54±3.58 0.082 |
P value was calculated by using Mann-Whitney test.
There was statistical significant relation between histopathological findings and serum AMH pre and post-operative and the percent of change (Table 4).
Table (4): Relation between histopathological findings and serum AMH pre and post operative and the percentage of change
Histopathological findings ( n=50)
Variables |
Dermoid cyst |
Endometriotic type |
simple or functional cyst |
cyst adenomas |
P value |
Pre-operative AMH |
5.49±1.34 |
3.56±1.07 |
5.53±1.22 |
5.60±1.67 |
0.013 |
Post-operative AMH |
4.16±1.13 |
2.60±0.75 |
4.07±0.86 |
4.29±1.37 |
0.002 |
Percentage of decrease in AMH |
24.69% |
26.76% |
26.05% |
23.53% |
0.035 |
It was found that the age had a positive significant correlation with both serum AMH at base line and post-operative. Also, cyst size, duration of surgery and amount of blood loss show a positive significant correlation with both serum AMH at base line and post-operative (Table 5).
Table (5): Correlation between different studied variables
AMH Parameters |
Serum AMH base line |
AMH at 3 months post-operative |
Percent of decrease in AMH |
|
AMH at 3 months post-operative |
R |
0.984 |
|
|
p-value |
0.000 |
|
|
|
Percentage of decrease in AMH |
R |
0.149 |
0.313 |
|
p-value |
0.302 |
0.027 |
|
|
Age |
R |
0.909 |
0.856 |
0.016 |
p-value |
< 0.001 |
< 0.001 |
0.912 |
|
BMI |
R |
0.014 |
0.001 |
0.113 |
p-value |
0.923 |
0.994 |
0.434 |
|
Cyst size |
R |
0.955 |
0.924 |
0.095 |
p-value |
< 0.001 |
< 0.001 |
0.510 |
|
Duration of surgery |
R |
0.941 |
0.898 |
0.042 |
p-value |
< 0.001 |
< 0.001 |
0.774 |
|
Amount of blood loss |
R |
0.907 |
0.859\ |
0.009 |
p-value |
< 0.001 |
< 0.001 |
0.948 |
DISCUSSION
The results of our study showed that the age of the patients ranged from (21-42) years with a mean value of 32.34±6.69. BMI ranged from 23.3-32.2 with a mean value of 27.96±2.76.
The distribution of the studied patients group regarding the histopathological findings showed that the endometriotic type was higher with (42%) followed by dermoid cyst (30%), simple or functional cyst (22%) and cyst adenomas (6%). The majority of the patients were endometriosis in agreement with our study (Jang et al., 2012).
The results of our study showed statistical significant relation between pre and post-operative serum AMH and the percent of decreasing.
In agreement with our study Jeon et al. (2015) showed that preoperative AMH level was significantly lower in endometrioma group than other benign ovarian cyst group in similar sized diameter. Although it is not yet definite whether the ovarian reserve is diminished in patients with endometriosis, several studies demonstrated decreased ovarian reserve in endometriosis patients. Follicular density in cortex from ovaries with endometriomas is lower19 and increased oxidative stress in ovarian cortex around endometriomas might induce follicular depletion.
By space-occupying effects and local reactions, cysts can reduce the amount of functional ovarian tissue available, and endometriosis-related inflammation causes ovulatory dysfunction, disturbed folliculogenesis, decreased oocyte quality, and increased granulosa cell apoptosis (Stilley et al., 2012).
AMH appears in the fetal period and decreases continuously throughout puberty. It becomes undetectable when menopause occurs, identifying it as a typical hormone of reproductive age (Meczekalski et al., 2016).
The levels of AMH reflect the number of preantral follicles; that comprise the oocyte pool. Moreover serum levels of AMH are highly correlated with the antral follicle count assessed by ultrasonography and also with AMH concentrations measured in the follicular fluid. 26 Recently, AMH has been used in initial fertility work up and follow up studies on ovarian damage due to chemotherapy, ovarian surgery of diseases like endometriosis (Jeon et al., 2015).
As in endometriosis, majority of studies investigated AMH as an assessment tool for ovarian reserve depletion after ovarian surgery, predictive responses to assisted reproduction techniques (Streuli et al., 2012).
Endometriosis possibly related to infertility or subfertility. Endometriosis can have direct effect on ovarian reserve and presents with low serum AMH level without previous ovarian surgery or regardless of their fertility state.
Alborzi et al. (2014) emphasized that bilateral presence of endometrioma results in greater decline in serum AMH. They also reported that older groups are susceptible to greater damage to ovarian reserve which is in contrary with our finding. To maintain hemostasis during ovarian cystectomy suturing techniques seem to be associated with less ovarian parenchymal damage than bipolar cauterization; though we suggest further studies to compare the effect of these two procedures on ovarian reserve.
Serum AMH levels appears to correspond well with AFC and ovarian response to hyperstimulation in in vitro fertilization. It was suggested that AMH was a superior marker for predicting ovarian response over either age, FSH, or inhibin B (Ercan et al., 2010).
There are some reports examining the role of AMH for the evaluation of ovarian damage after the ovarian surgery. Most of them were retrospective study or investigated only with endometrioma, or measured the serum AMH only. In this prospective study, we measured the serum AMH, FSH, E2, AFC, and ovarian volume in women with the endome-trioma and non-endometrioma (Raffi et al., 2012).
Serum AMH levels significantly decreased after laparoscopic cystectomy without the changes of other ovarian reserve markers. Serum AMH could be a delicate marker to provide surgical impact on ovarian reserve. Postoperative serum AMH levels significantly decreased especially in endometrioma group, but not in non-endometrioma group.
In our results, it was found that the level of AMH pre and post-operative was low in patients with age more than 30. In agreement with our study (Elsemary et al., (2018). They found that according to age (>38 years), the baseline serum AMH level was lower in older patients. However, it did not reach a statistically significant level. Three months after surgery, there is a significant reduction in AMH level in both age groups (Kovačević et al., 2018).
On contrast to our results, Hirokawa et al. (2011) demonstrated no significant correlation between the rate of decline in serum AMH level and patients age Celik et al. (2012). Found a weakly negative correlation between age and preoperative AMH level, with no independent age effect on postoperative AMH level.
In this study, it was found that the level of AMH pre and post-operative was low in patients with bilateral findings. This result was agreement with (Elsemary et al., 2018).
There was no consistent report on the effect of bilaterality on the AMH level. In the study by Hirokawa et al. (2011). Bilaterality was the unique factor correlating with the rate of postoperative decline, which was not shown by Celik et al. (2012). Hwu et al. (2011) showed a significantly lower baseline level in bilateral endometriomas and reported a more profound effect of bilaterality on the ovarian reserve, regardless of either conservative or surgical intervention.
In our results, the ovarian cyst size had a significant effect on the level of pre and post-operative AMH. The high size showed a low level of AMH. This result was agreement with (Elsemary et al., 2018) who revealed that there was no significant difference in the baseline AMH level. However, after 3 months of surgery, there was a significant reduction in the levels of AMH. The size of endometrioma did not correlate with baseline and postoperative AMH level. On contrast with our results, they demonstrated that there was an adverse effect of surgery in large and also in small cysts on ultrasonographic results. Ovarian stripping had a significant decrease in residual ovarian volume regardless of the size of the endometrioma, which may result in diminished ovarian reserve and function.
CONCLUSION
Serum AMH was helpful for counseling patients who desired future fertility, but have benign gynecologic conditions that may require surgical interventions. Serum AMH levels may be preferred in determining the indication and selection of operative methods for benign gynecologic conditions, especially endometriomas.
REFERENCES
10. Jeon JH, Park SY, Lee SR, Jeong K and Chung HW. (2015): Serum Anti-Müllerian Hormone Levels before Surgery in Patients with Ovarian Endometriomas Compared to Other Benign Ovarian Cysts. Journal of menopausal medicine., 21(3): 142–148.
11. Kelsey TW, Wright P, Nelson SM, Anderson RA and Wallace WH. (2011): A validated model of serum anti-mullerian hormone from conception to menopause. PLoS One., 6 (7): 1-7.
12. Kovačević VM, Anđelić LM and Jovanović AM. (2018): Changes in serum antimüllerian hormone levels in patients 6 and 12 months after endometrioma stripping surgery. Fertility and Sterility, 110 (6): 1173-1180.
13. La Marca A, Sighinolfi G, Radi D, Argento C, Baraldi E, Artenisio AC, Stabile G and Volpe A. (2010): Anti-Mullerian hormone (AMH) as a predictive marker in assisted reproductive technology (ART). Hum Reprod Update, 16:113–130.
14. Lee DY, Young Kim N, Jae Kim M, Yoon BK and Chos D. (2011): Effects of laparoscopic surgery on serum antimullerian hormone levels in reproductive-aged women with endometrioma. Gynecol Endocrinol., 27:733–736.
15. Litta P, D'Agostino G, Conte L, Saccardi C, Cela V, Angioni S and Plebani M. (2013): Anti-mullerian hormone trend after laparoscopic surgery in women with ovarian endometrioma. Gynecol Endocrinol., 29: 452-454.
16. Meczekalski B, Czyzyk A, Kunicki M, Podfigurna-Stopa A, Plociennik L, Jakiel G, Maciejewska-Jeske M and Lukaszuk K. (2016): Fertility in women of late reproductive age: the role of serum anti-Müllerian hormone (AMH) levels in its assessment. J Endocrinol Invest., 39: 1259–1265.
17. Raffi F, Metwally M and Amer S. (2012): The impact of excision of ovarian endometrioma on ovarian reserve: a systematic review and meta-analysis. J Clin Endocrinol Metab., 97:3146-54.
18. Stilley JA, Birt JA and Sharpe-Timms KL. (2012): Cellular and molecular basis for endometriosis-associated infertility. Cell Tissue Res., 349: 849-62.
19. Streuli I, de Ziegler D, Gayet V, Santulli P, Bijaoui G, de Mouzon J and Chapron C. (2012): In women with endometriosis anti-Mullerian hormone levels are decreased only in those with previous endometrioma surgery. Hum Reprod., 27:3294-303.
تأثير العمليات الجراحية لأورام المبيض الحميدة على هرمون ضد الموليريان
محمد أبو الفتوح عبد المجيد، محمود سامي ذکي، أحمد عبد القادر الطباخ
قسم النساء والتوليد، کلية الطب، جامعة الأزهر
E-mail: moooyadak90@gmail.com
خلفية البحث: العمليات الجراحية لأورام المبيض الحميدة لها تأثير فعال على مخزون البويضات.
وتشمل عمليات المبيض إزالة أکياس منه والتي تعتبر شائعة على مستوى العالم لعدة مشاکل متعددة.
الهدف من البحث: دراسة تأثير العمليات الجراحية لأورام المبيض الحميدة على معدلات هرمون ضد الموليريان في الدم.
المريضات وطرق البحث: هذه دراسة مستقبلية أجريت على خمسين سيدة يعانين من أورام المبيض الحميدة في قسم النساء والتوليد بکلية الطب بجامعة الأزهر.
نتائج البحث: أظهرت نتيجة البحث أن هناک نقصاً ملحوظاً في هرمون ضد الموليريان بعد العمليات الجراحية بنسبة 25,29 % والتى تثبت أن هناک علاقة بين العمليات الجراحيه وهرمون ضد الموليريان.
وفي الأعمار الکبرى يوجد معدل منخفض من هرمون ضد الموليريان، وکذلک عندما توجد مشکلة في الناحيتين من المبيض تکون نسبة هرمون ضد الموليريان أقل من المرضى الذين عندهم مشکلة في ناحية واحده من المبيض وتکيسات المبايض أکبر من 5سم لها علاقة سلبية بمعدل هرمون ضد الموليريان وطول العملية الجراحية لها علاقة سلبية بمعدل هرمون ضد الموليريان.
الاستنتاج: هرمون ضد الموليريان له دور هام في تحديد إجراء واختيار العملية لأورام المبيض الحميدة خاصة البطانة المهاجرة.
الکلمات الدالة: العمليات الجراحية لأورام المبيض الحميدة، هرمون ضد الموليريان، هرمون ضد الموليريان.
REFERENCES
10. Jeon JH, Park SY, Lee SR, Jeong K and Chung HW. (2015): Serum Anti-Müllerian Hormone Levels before Surgery in Patients with Ovarian Endometriomas Compared to Other Benign Ovarian Cysts. Journal of menopausal medicine., 21(3): 142–148.
11. Kelsey TW, Wright P, Nelson SM, Anderson RA and Wallace WH. (2011): A validated model of serum anti-mullerian hormone from conception to menopause. PLoS One., 6 (7): 1-7.
12. Kovačević VM, Anđelić LM and Jovanović AM. (2018): Changes in serum antimüllerian hormone levels in patients 6 and 12 months after endometrioma stripping surgery. Fertility and Sterility, 110 (6): 1173-1180.
13. La Marca A, Sighinolfi G, Radi D, Argento C, Baraldi E, Artenisio AC, Stabile G and Volpe A. (2010): Anti-Mullerian hormone (AMH) as a predictive marker in assisted reproductive technology (ART). Hum Reprod Update, 16:113–130.
14. Lee DY, Young Kim N, Jae Kim M, Yoon BK and Chos D. (2011): Effects of laparoscopic surgery on serum antimullerian hormone levels in reproductive-aged women with endometrioma. Gynecol Endocrinol., 27:733–736.
15. Litta P, D'Agostino G, Conte L, Saccardi C, Cela V, Angioni S and Plebani M. (2013): Anti-mullerian hormone trend after laparoscopic surgery in women with ovarian endometrioma. Gynecol Endocrinol., 29: 452-454.
16. Meczekalski B, Czyzyk A, Kunicki M, Podfigurna-Stopa A, Plociennik L, Jakiel G, Maciejewska-Jeske M and Lukaszuk K. (2016): Fertility in women of late reproductive age: the role of serum anti-Müllerian hormone (AMH) levels in its assessment. J Endocrinol Invest., 39: 1259–1265.
17. Raffi F, Metwally M and Amer S. (2012): The impact of excision of ovarian endometrioma on ovarian reserve: a systematic review and meta-analysis. J Clin Endocrinol Metab., 97:3146-54.
18. Stilley JA, Birt JA and Sharpe-Timms KL. (2012): Cellular and molecular basis for endometriosis-associated infertility. Cell Tissue Res., 349: 849-62.
19. Streuli I, de Ziegler D, Gayet V, Santulli P, Bijaoui G, de Mouzon J and Chapron C. (2012): In women with endometriosis anti-Mullerian hormone levels are decreased only in those with previous endometrioma surgery. Hum Reprod., 27:3294-303.