1 Department of Gynaecology and Obstetrics, 2 Laboratory of Endocrinology, Medical Department, The National Hospital and 3 Department of Informatics, University of Oslo, Oslo, Norway
![]() |
Abstract |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Key words: adhesions/menstrual pattern/ovarian wedge resection/polycystic ovarian syndrome/pregnancy rate
![]() |
Introduction |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
The introduction of clomiphene citrate in the 1960s created a new and effective method by which the operation could be avoided and pregnancy achieved (Macgregor et al., 1968). In patients not responding to the operation, the intervention per se seems to enhance the clomiphene effect (Goldzieher, 1981
; Campo, 1998
).
Reports of post-operative adhesions, which constitute an additional factor of infertility, resulted in a more cautious attitude towards OWR (Kistner, 1969; Buttram and Vaquero, 1975
; Toaff et al., 1976
).
Campo et al. demonstrated in 1983 a successful laparoscopic approach for clomiphene-resistant PCOS patients by wedge resection of ovarian tissue performed through multiple biopsies (Campo et al., 1983). By the use of electrocautery the ovulatory effect and pregnancy rate was even better (Gjønnæss, 1984
).
In the 1980s purified FSH, laparoscopic electrocauterization or laser drilling of the ovaries with or without clomiphene, follicle-stimulating hormone (FSH) alone or combined with IVF, have been the treatment of choice (Naether and Fischer, 1993; Gjønnæss, 1994
; Naether et al, 1994
; Donesky and Adashi, 1995
).
Prior to 1980, laparotomy with OWR was standard procedure in PCOS patients in our department. In an attempt to evaluate the ultimate result of OWR, the previous preferred treatment, a long-term follow-up study on our patients was undertaken. Among the multiple parameters investigated, this study focused on fertility and menstrual pattern and the results were evaluated in the light of the modern methods of treatment.
![]() |
Materials and methods |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
In 1980, 1984 and 1995 the patients were asked to answer a detailed questionnaire about their clinical status. They concomitantly signed an informed consent according to the Helsinki Committee requirements. In several cases the information was controlled when patients presented themselves at our outpatient clinic.
Fertility
The patients were asked about the number of pregnancies, year of delivery, outcome of the pregnancy and use of any ovulatory drugs. The date of the last period was mandatory for the first pregnancy after OWR. Written statements concerning their health and their pregnancies were collected from the various hospitals and doctors which they had previously visited, including reports on later abdominal intervention, i.e. laparoscopic second-look, tubal surgery or sterilization as well as Caesarean section.
At OWR the condition of the internal genital organs, uterus and adnexae were evaluated and described as follows: apart from polycystic ovaries, 0 = normal, 1 = scattered adhesions without any possible interference with fertility, 2 = more widespread adhesions with obscure significance, 3 = massive adhesions, probably incompatible with fertility. Descriptions from later surgery were evaluated using the same criteria. The adhesion score was calculated as the mean of the adhesions in both adnexae.
In order to study the risk of inducing additional infertility factors by OWR, patients without adhesions at OWR and no subsequent known pelvic inflammatory disease were investigated at primary Caesarean section and at tubal sterilization.
Menstrual pattern
At OWR menstrual cycles were classified as follows: 1 = regular (flow at intervals <35 days), 2 = oligomenorrhoea (35 days < intervals <90 days), 3 = oligoamenorrhoea (3 months < intervals <6 months), 4 = secondary amenorrhoea (more than 6 months since the last period), 5 = primary amenorrhoea (above 18 years of age and no spontaneous vaginal bleeding) (Lunde, 1982). In the questionnaire the patients were requested to elaborate on the regularity of their periods, the average interval from the beginning of one to the start of the next, and the shortest and the longest. In addition, the duration of the bleeding and the amount of the flow were recorded.
Statistical analysis
The BMDP statistical package (BMDP Statistical Software Inc., Los Angeles, CA, USA) was employed for the statistical analysis. Mean and range are used for descriptive statistics. Pair- and groupwise comparisons were performed using the t-test with separate variances. Fisher's exact test was used for analysing 2x2 tables. The confidence interval for one proportion was calculated using standard normal approximation. KaplanMeier analysis was used to estimate time-accumulative rates.
Bootstrapping was used to assess the variation in the incidence of adhesions after OWR and the resulting effect on pregnancy. In bootstrapping the original data are resampled to create a large number of replicate datasets from which measures of variability like SEM and confidence intervals can be estimated (Davison and Hinkley, 1997). The resampling simulates the randomness when a group of patients is assembled from the population. By repeating the resampling one simulates the assembly of several study groups, which form a basis for the statistical estimation of variability. Bootstrapping is an alternative to complex parametric analysis, which in some cases can be error-prone. In the experiments, cells with 0 observations were allocated a value of 0.5 before bootstrapping. After 100 000 repetitions confidence intervals were calculated from the bootstrap distribution using the 2.5 and the 97.5 percentiles. The frequencies of some cells could not be determined experimentally and were therefore estimated from assumed similarities with observed cells. For each bootstrap the simulated probabilities of the observed cells were applied to corresponding unobserved cells as has been previously described (Aalen et al., 1997
). To test the sensitivity to this assumed similarity the probabilities of the unobserved cells were perturbated by a random error. This was accomplished by the following procedure: (i) generate a new set of cell counts in the observed cells by resampling the data with the original cell probabilities, (ii) from these counts calculate the logit-function for the pair of observed cells which act as template for an unknown pair of cells, (iii) add a random error drawn from a normal distribution with mean 0 and SD of 0.5 to the logit function and calculate the resulting probabilities in the unknown cells, (iv) generate the cell counts in the unknown cells by sampling with the thus obtained cell probabilities, (v) repeat the procedure for all unknown cells, (vi) repeat steps iv, 100 000 times and calculate the 95% confidence interval (CI) from the simulated data. The median cell probability remains unchanged using this procedure. The SD of the error of 0.5 was chosen so that the cell probabilities varied within a reasonably large range.
![]() |
Results |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Twenty patients had no wish for children, infertile partner, genital alteration beyond surgical repair or hysterectomy within a year after OWR. The remaining 129 patients had desire and assumed capability of attaining pregnancy. As shown in Table I, 78 of these patients became pregnant spontaneously one or several times. Pregnancies occurred both spontaneously and upon induction with gonadotrophins, clomiphene citrate or bromergocryptine in 12 patients. However, this additional treatment was an arbitrary response to heavy patient demand only a few months after OWR or delivery. Therefore these patients are considered as spontaneously ovulatory. An additional three patients became spontaneously pregnant after secondary tubal surgery. Fifteen patients achieved pregnancy only after administration of ovulatory drugs. Spontaneous pregnancy thus occurred in 72% (93/129). When taking non-respondents into account along with cases of natural or operative menopause, a KaplanMeier analysis showed a cumulative proportion of spontaneous pregnancies of 76% (95% CI 68.784.7%). Induced pregnancies were not recorded in this analysis. These included, the cumulative pregnancy rate was 88.0% (95% CI 81.794.2%).
|
Due to various reasons (marital, social, use of ovulatory drugs), the interval from OWR to pregnancy could only be evaluated in 60 spontaneously ovulating patients. The mean interval was 22.5 months. A total of 50% became pregnant within 1 year. After 4 years 88% had conceived.
The mean interval between deliveries in 39 patients who gave birth to two children and conceived spontaneously was 35.9 months. This was significantly less (P = 0.006) than the 54 months reported in a reference material of 22 normal women (Lunde et al., 1989).
In 218 non-induced pregnancies 34 ended as spontaneous abortions. Ten of them occurred in the second trimester and were thus unlikely to be caused by PCOS. This gives a frequency of spontaneous abortions of 11% (24/218). In induced pregnancies the rate was 14% (5/36).
Ectopic pregnancies occurred nine times in six patients, corresponding to an incidence of 3.5% (9/254). However, two took place after normal deliveries, ascribing OWR as a possible releasing factor in only four of the six patients, which by KaplanMeier analysis gives an OWR related incidence of 5.1% (95% CI 1.19.0%) in the 129 patients.
Among 108 pregnant patients, 11 spontaneously ovulating and one induced did not deliver a living child, corresponding to an overall live birth rate of 74% (96/129). Using a KaplanMeier analysis as previously described the cumulative live birth rate was 78.2% (95% CI 70.585.9%).
Adhesions were seen and dealt with at OWR in 14 (11%) of the 129 patients. The mean adhesion score was 1.46 (0.53.0). Twelve of these achieved pregnancy later on. There was no significant difference in the cumulative pregnancy rate between the patients with adhesions at OWR and those without. In the 115 patients without, the subsequent development of adhesions could be evaluated only indirectly. Before any assessment of post-OWR alterations could be made, four patients developed intra-abdominal diseases that were likely to cause adhesions (cancer and peritonitis) and were therefore excluded from the analysis. Data from the remaining 111 patients are shown in bold numbers in Figure 1a. Infertility persisted in 21 patients (18.9%) after OWR, and 11 chose a second-look operation where adhesions were seen in all of them with a mean score of 2.05 (12.5). After removal of adhesions, three of these delivered children. Adhesions were evaluated in 38 of the remaining 90 patients, mainly at Caesarean section and sterilization. In 24 of these adhesions had developed with a mean score of 1.48 (0.52.5), which was significantly lower than in the 11 patients with persisting infertility after OWR (P = 0.01).
|
To assess how sensitive the results were to the underlying assumptions of the same relative frequencies in corresponding sections of the tree, the bootstrapping was repeated but with a random departure from the hypothetical similarity as described in the methods section. The resulting effect on the unobserved cell probabilities is indicated in Figure 1b by the lower numbers which represent the 95% CI. In the group with post-operative adhesions who remained permanently infertile (a+p-p-) the 95% CI did not change perceptibly (from 6.420.9% to 6.121.1%).
Table II shows the menstrual pattern of the 149 patients at OWR and delineates the factors influencing the evaluation in 1995. Thirteen (8.7%) had their uterus removed, usually because of fibroids and intractable bleeding irregularities. However, in five instances the reason was pre- and malignant genital disease. Natural menopause had occurred in 23 patients, nine patients were taking hormonal substitution and in 13 patients data were missing. Based on a conservative estimate where the missing patients were included in the denominator a beneficial effect of OWR was found in 82% (81/99, 95% CI 7489%).
|
![]() |
Discussion |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
The fear of OWR causing additional infertility factors was heavily debated throughout the 1970s (Kistner, 1969; Buttram and Vaquero, 1975
; Toaff et al., 1976
). Evaluation of adhesions with respect to fertility is difficult. Meticulous inspection by an experienced gynaecologist is mandatory; nevertheless the prediction of future pregnancy is conflicting. Obviously OWR could cause adhesions, which might interfere with fertility. However, the extent of such interference remains uncertain. In an attempt to assess the possibility of complications caused by the procedure a bootstrap simulation was performed on the current data. The results indicate that adhesions after OWR occur in as much as 2/3 of the patients and prevent pregnancy in 1/4 of these. However, if adhesions are removed, permanent infertility persists only in 1314% of the total number of patients. Although the average adhesion score was higher in these patients than in the 14 with adhesions at OWR, there was a considerable overlap in the adhesion score and together with the very low fecundity rate (3/11 versus 12/14) this might indicate that additional infertility factors may be present in the permanently infertile patients.
The results of the bootstrap simulation rely on two assumptions: (i) that adhesions were similar in the infertile patients who sought surgery and those who did not, consequently the pregnancy rate would have been the same given surgery and (ii) that the adhesion rate was similar in the fertile patients subjected to secondary surgery and those who were not. The decision to undergo renewed medical treatment probably depends much on the patient's personality and it is unlikely that it should be related to the unknown existence of tubal adhesions or other unknown and unfavourable reproductive obstacles. It also appears unlikely that the decision to perform sterilization or Caesarean section, which constitute the bulk of the `second-look' operations in the fertile patients, has any positive relation to the occurrence of tubal adhesions. We therefore believe that the assumptions are just. Moreover, by perturbation analysis it was shown that the results are fairly insensitive to reasonable departures in the assumptions.
It has been stated (Adashi et al., 1981) that patients with concurrent tuboperitoneal disease at OWR have a significantly lower fecundity rate than those without. This is in contrast to the results presented here, where the pregnancy rate in such patients did not differ from the rest of the material.
Ectopic pregnancies were recorded in six patients. Since two of these had delivered prior to the ectopic incidence, OWR was a releasing factor in only four. The cumulative OWR-incidence of 5.1% is five times that observed in the population at large. In a meta-study Campo (1998) reported a frequency of ectopic pregnancies after OWR of 2.76% (10/362) (Campo, 1998). This was not significantly different from the current data, which used the same way of calculating the frequency (4/108).
The abortion rate in PCOS is high (Sagle et al., 1988) as also seen in conceptions achieved by means of ovulatory drugs (Johnson and Pearce, 1990
; Ransom et al., 1993
). The high LH value is usually attributed as the cause (Homburg et al., 1988
). Apart from a beneficial effect on the abortion rate after down-regulation with gonadotrophin-releasing hormone (GnRH) analogue in IVF (Homburg et al., 1993
), drug induced ovulation per se or combined with IVF, imply a risk of abortion in PCOS of 2550% (Donesky and Adashi, 1995
). Post-operative LH has not been examined in the material contained in the current study. It is assumed, however, that normalization of menstrual irregularities and thereby reduction of LH seems to be the most likely explanation for the low abortion rate of 11%.
A total of 50% of the patients conceived spontaneously within a year after OWR, the mean period before conception being in concert with that published (Adashi et al., 1981).
The live birth rate in operative treatment of PCOS has not been published previously. In drug and IVF therapy a fairly realistic rate is 30% per treatment and on a cumulative basis >50% within 13 cycles (Bergh et al., 1995). The rate of 72% in the current study, conservatively estimated, could have been higher. Based on new knowledge and experience of the past, in cases complicated with primary amenorrhoea, obesity and insulin-resistance other primary therapy might have been preferable. Interestingly, the current findings confirm the cumulative conception rate of 73% after 10 years as previously predicted (Adashi et al., 1981
).
Both significance and duration of post-OWR menstrual regularity and ovulatory activity have been analysed previously (Stein, 1964; Rhodes, 1968
; Kistner, 1969
; Lunde, 1981
). One source claims that improvements were temporary, whereas others show continuity.
The menstrual cyclicity in 1995, 1525 years after OWR, is delineated in Table II. Apart from primary amenorrhoea where the results were poor, the beneficial effect seems independent of the menstrual situation at the time of surgery. With regular periods, regular ovulations are not a certainty but it represents a strong evidence of frequent ovulatory activity. The post-OWR ovulatory frequency was not studied. However, the intervals between the first and the second deliveries in this study were significantly less than in a reference material (Lunde et al., 1989
). Although there is no information on the use of contraception or deliberate family planning in any of these studies, the intervals per se ought to be regarded as a significant proof of normal and lasting ovulatory activity after OWR.
The relationship between PCOS and menopause cannot be fully assessed in the present study as only 15% of the patients had reached menopause at the end of the study period. The average age of these patients was 45 years, whereas the average age of the still menstruating patients was 46 years.
It has been stated that laparoscopic induced ovulation, use of clomiphene and gonadotrophins alone or in combination with IVF, the leading therapies of the last two decades, have not added any improvement where pregnancy rate is concerned (Donesky and Adashi, 1995).
The surgical intervention on polycystic ovaries has during the years varied from unilateral extirpation, uni- or bilateral wedge resection, and multiple biopsies to electrocautery and laser-punctures. It is tempting to speculate that several aetiological factors may cause an increased ovarian volume and that a correction of this, irrespective of the underlying cause, will abate the consequences of the disease. In the current study the wedge removed was of such a size that the ovaries were reduced to an apparently normal volume (Lunde, 1982). The importance of the volume is reflected in its correlation to the duration of symptoms, body mass index and ovarian morphology in untreated patients (Lunde et al., 1988
). A significant correlation between the effects on menstruation and ovulation and the number of uni-polar cautery spots employed on the ovaries has been reported (Gjønnæss, 1984
). Histological evaluation after unipolar cauterization of the ovaries has documented severe tissue loss (Van der Weiden, 1987). These findings confirm the significance of the ovarian mass and its reduction. The beneficial effect of volume reduction on ovulation and pregnancy rate has been documented by ultrasound measurement of ovarian volume before and after drilling (Tulandi et al., 1996
).
Despite the good results, OWR's invasive nature cannot be neglected. After the laparoscopic route of ovarian surgery was demonstrated, OWR was made medical history in the treatment of PCOS.
It has been shown that laparoscopic treatment can give excellent results regarding infertility as well as menstrual disturbances, and recently that the improvements are lasting (Gjønnæss, 1994, 1998
). Surgical treatment has the great advantage of being an occasional procedure with few complications and lasting effect on infertility and menstrual disturbances, thus giving relief from the nuisance of unpredictable periods. Therefore the patients may plan their pregnancies to come without medical aid. Although drugs alone or combined with IVF can solve the problems of PCOS, the therapy has the disadvantage of symptom recurrence by cessation. That surgery can cause adhesions and in a few cases tubal incompetence is undisputed. However, the latter can nowadays be overcome by IVF and should be a minor problem as compared with the benefit for the majority of patients who can be spared for years from close medical supervision. Unopposed oestrogen stimulation/chronic anovulation, the basic problem in PCOS, has been associated with endometrial cancer, diabetes mellitus and cardiovascular diseases (Coulam et al., 1983
; Dahlgren et al., 1992
; Gibson, 1995
; Pettigrew and Hamilton-Fairley, 1997
; Solomon, 1999
). A lasting reduction of the oestrogen stimulation by OWR might possibly reduce the likelihood of associated diseases in the future (Coulam et al., 1983
; Pierpoint et al, 1998
). It has been stated (Donesky and Adashi, 1995
) that surgical treatment should be the last resort in PCOS after failure of medical therapy. Neither the current study nor others (Gjønnæss, 1994
, 1998
; Li et al, 1998
) support this cautious attitude. One might reconsider the obvious advantageous results of operative intervention, taking into account the inexpensiveness of the procedure (Li et al., 1998
). Drugs and IVF can be reserved for less appropriate cases or if surgery fails.
![]() |
Acknowledgements |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
![]() |
Notes |
---|
![]() |
References |
---|
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() |
---|
Adashi, E.Y., Rock, J.A. and Guzick, D. (1981) Fertility following bilateral ovarian wedge resection: A critical analysis of 90 consecutive cases of the polycystic ovary syndrome. Fertil. Steril., 3, 320325.
Bergh, C., Josefsson, B., Nilsson, L. et al. (1995) The success rate in a Swedish in-vitro unit: a cohort study. Acta Obstet. Gyn. Scand., 74, 446450.[ISI][Medline]
Buttram, V.C. and Vaquero, C. (1975) Post-ovarian wedge resection adhesive disease. Fertil. Steril., 26, 874876.[ISI][Medline]
Campo, S. (1998) Ovulatory cycles, pregnancy outcome and complications after surgical treatment of polycystic ovary syndrome. Obstet. Gyn. Surv., 53, 297308.
Campo, S., Garcea, N., Caruso, A. et al. (1983) Effect of celioscopic ovarian wedge resection in patients with polycystic ovaries. Gynecol. Obstet. Invest., 32, 213222.
Coulam, C.B., Annegers, J.F. and Kranz, J.S. (1983) Chronic anovulation syndrome and associated neoplasia. Obst. Gynecol., 61, 403407.[Abstract]
Dahlgren, E., Johansson, S., Lindstedt, G. et al. (1992) Women with polycystic ovary syndrome resected in 1956 to 1965: a long-term follow-up focusing on natural history and circulating hormones. Fertil. Steril., 57, 505513.[ISI][Medline]
Davison, A.C. and Hinkley, D.V. (1997) Bootstrap methods and their application. Cambridge University Press, Cambridge.
Donesky, B.W. and Adashi, E.Y. (1995) Surgically induced ovulation in the polycystic ovary syndrome: wedge resection revisited in the age of laparoscopy. Fertil. Steril., 63, 439463.[ISI][Medline]
Gibson, M. (1995) Reproductive health and polycystic ovary syndrome. Am. J. Med., 98, 1A67S75.[ISI]
Gjønnæss, H. (1984) Polycystic ovarian syndrome treated by ovarian electrocautery through the laparoscope. Fertil. Steril., 41, 2025.[ISI][Medline]
Gjønnæss, H. (1994) Ovarian electrocautery in the treatment of women with polycystic ovary syndrome (PCOS). Acta Obstet. Gynecol. Scand., 74, 407412.[ISI]
Gjønnæss, H. (1998) Late endocrine effects of ovarian electrocautery in women with polycystic ovary syndrome. Fertil. Steril., 4, 697701.
Goldzieher, J.W. (1981) Polycystic ovarian disease. Fertil. Steril., 35, 371394.[ISI][Medline]
Homburg, R., Armar, N.A. and Eshel, A. (1988) Influence of serum luteinising hormone concentrations on ovulation, conception, and early pregnancy loss in polycystic ovary syndrome. Br. Med. J., 297, 10241026.[ISI][Medline]
Homburg, R., Levy, T., Berkovitz, D. et al. (1993) Gonadotropin-releasing hormone agonist reduces the miscarriage rate for pregnancies achieved in women with polycystic ovarian syndrome. Fertil. Steril., 59, 527531.[ISI][Medline]
Johnson, P. and Pearce, J.M. (1990) Recurrent spontaneous abortion and polycystic ovarian disease: comparison of two regimens to induce ovulation. Br. Med. J., 300, 154156.[ISI][Medline]
Kistner, RW. (1969) Peri-tubal and peri-ovarian adhesions subsequent wedge resection of the ovaries. Fertil. Steril., 20, 3542.[ISI][Medline]
Li, T.C., Sarvaleos, H., Chow, M.S. et al. (1998) Factors affecting the outcome of laparoscopic ovarian drilling for polycystic ovarian syndrome in women with anovulatory infertility. Br. J. Obst. Gynaecol., 105, 338344.[ISI][Medline]
Lunde, O. (1981) Hyperprolactinaemia in polycystic ovary syndrome. Ann. Chir. Gynaecol., 70, 197201.[ISI][Medline]
Lunde, O. (1982) Polycystic ovarian syndrome: a retrospective study of the therapeutic effect of ovarian wedge resection after unsuccessful treatment with clomiphene citrate. Ann. Chir. Gynaecol., 71, 330333.[ISI][Medline]
Lunde, O. (1984) A study of body hair density and distribution in normal women. Am. J. Phys. Anthrop., 64, 179184.[ISI][Medline]
Lunde, O. and Grøttum, P. (1984) Body hair growth in women: normal or hirsute. Am. J. Phys. Anthrop., 64, 307313.[ISI][Medline]
Lunde, O., Hoel, P.S. and Sandvik, L. (1988) Ovarian morphology in patients with polycystic ovaries and in an age-matched reference material. A statistical evaluation of 149 cases. Gynecol. Obstet. Invest., 25, 192201.[ISI][Medline]
Lunde, O., Magnus, P., Sandvik, L. et al. (1989) Familial clustering in polycystic ovarian syndrome. Gynecol. Obstet. Invest., 28, 2330.[ISI][Medline]
Macgregor, A.H., Johnson, J.E. and Bunde, C.A. (1968) Further experience with clomiphene citrate. Fertil. Steril., 19, 616622.[ISI][Medline]
Naether, O.G.J. and Fischer, R. (1993) Adhesion formation after laparoscopic electrocauterisation of the ovarian surface in polycystic ovary patients. Fertil. Steril., 60, 9598.[ISI][Medline]
Naether, O.G.J., Baukloh, V., Fischer, R. et al. (1994) Long-term follow-up in 206 infertility patients with polycystic ovarian syndrome after laparoscopic electrocautery of the ovarian surface. Hum. Reprod., 9, 23422349.[Abstract]
Pettigrew, R. and Hamilton-Fairley, D. (1997) Obesity and female reproductive function. Br. Med. Bull., 53, 341358.[Abstract]
Pierpoint, T., McKeigue, P.M., Isaacs, A.J. et al. (1998) Mortality of women with polycystic ovary syndrome at long-term follow-up. J. Clin. Epidemiol., 51, 581586.[ISI][Medline]
Ransom, M.X., Bohrer, M. and Blotner, M.B. (1993) The difference in miscarriage rates between menotropin-induced and natural cycle pregnancies is not surveillance related. Fertil. Steril., 59, 567570.[ISI][Medline]
Rhodes, P. (1968) The effect of wedge resection of the ovaries in 63 cases of SteinLeventhal syndrome. J. Obstet. Gynaecol. Br. Commonw., 75, 11081112.[Medline]
Sagle, M., Bishop, K., Ridley, N. et al. (1988) Recurrent early miscarriage and polycystic ovaries. Br. Med. J., 297, 10271028.[ISI][Medline]
Solomon, C.G. (1999) The epidemiology of the polycystic ovarian syndrome. Prevalence and associated disease risks. Endocrinol. Metab. Clin. North. Am., 28, 247263.[ISI][Medline]
Stein, I.F. (1964) Duration of fertility following ovarian wedge resection- SteinLeventhal syndrome. West. J. Surg. Obstet. Gynecol., 72, 237242.[Medline]
Stein, I.F. (1966) Wedge resection of the ovaries: the SteinLeventhal syndrome. In Greenblatt, R.B. (ed.) Ovulation: stimulation, suppression, detection. Lippincott, Philadelphia, pp. 150157.
Stein, I.F. and Leventhal, M.L. (1935) Amenorrhea associated with bilateral polycystic ovaries. Am. J. Obstet. Gynecol., 29, 181191.
Toaff, R., Toaff, M.E. and Peyser, M.R. (1976) Infertility following wedge resection of the ovaries. Am. J. Obstet. Gynecol., 124, 9296.[ISI][Medline]
Tulandi, T., Watkin, K., Murray, C. and Mathur, S. (1996) Reproductive performance and three-dimension ultrasound volume determination of polycystic ovaries after laparoscopic ovarian drilling. J. Am. Ass. Gynecol. Laparosc., 3 (suppl.), 5051.
Van der Weiden, R.M.F. and Alberda, A.T. (1987) Laparoscopic ovarian cautery in patients with polycystic ovarian disease resistant to clomiphene citrate. Surg. Endosc., 1, 217219.[Medline]
Submitted on November 7, 2000; accepted on March 23, 2001.