Department of Obstetrics and Gynecology, University Hospital of Ioannina, Medical School of Ioannina, Ioannina, Greece
1 To whom correspondence should be addressed at: Kosti Palama 3, 45221 Ioannina, Greece. e-mail: kalantas{at}exchange.nih.gov
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Abstract |
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Key words: leiomyoma/management of leiomyoma/myomectomy/pregnancy
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Introduction |
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Although during pregnancy leiomyomas usually remain asymptomatic, they may complicate its course. Indeed, leiomyomas have been associated with an increased frequency of spontaneous abortion, preterm labour, premature rupture of membranes, antepartum bleeding, placental abruption, malpresentation and Caesarean section (Phelan, 1995). The most common complication is the syndrome of painful myoma; this is due to red or carneous degeneration and occurs in
58% of myomas during pregnancy (Phelan, 1995
). This complication is associated with nausea, vomiting and fever, and usually occurs during the second trimester of pregnancy.
The management of leiomyoma during pregnancy is medical, but in rare circumstances surgical intervention and myomectomy may be required.
The aim of the present study was to evaluate the safety and efficacy of myomectomy during the second trimester of pregnancy. The results are reported of a prospective cohort study based on: (i) a protocol entailing serial scanning of all patients with fibroids diagnosed at routine first trimester sonographic screening; and (ii) a protocol of myomectomy during pregnancy. Thus, pregnancy outcome in carefully selected patients is presented when myomectomy was performed during pregnancy.
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Materials and methods |
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Investigations and surgical approach
The myomas were evaluated for size, number, position, location, relationship to the placenta and echogenic structure (Exacoustos and Rosati, 1993). The classification of the location of a leiomyoma was based on previously described criteria (Benson et al., 2001
). Based on previous experience (Lolis et al., 1994
), the criteria for deciding to submit to myomectomy during pregnancy were: (i) rapidly growing leiomyoma causing discomfort; (ii) severe abdominal pain (painful myoma) that did not respond to conservative management; (iii) a distance between the leiomyoma and the endometrial cavity >5 mm, in order to avoid opening of the endometrial cavity; and (iv) the provision of a signed consent form, after the patients had been informed of the risks of surgical intervention. Surgery was performed between the 15th and 19th weeks of gestation.
Laparotomy was performed under general endotracheal anaesthesia using a midline incision that extended over the umbilicus. A vertical incision was made over the myoma that was then rapidly and carefully removed using blunt and sharp dissection. Following leiomyoma removal, haemostasis was carefully carried out and the myometrium closed with two layers of interrupted sutures in a front-to-back closure using number 2/0 Vicryl sutures. A portion of omentum was secured over the uterine incision to cover the uterine scar (Lolis et al., 1994; Wittich et al., 2000
). An intra-abdominal drain was placed in all patients, and this was removed on the first postoperative day. Fetal monitoring (using ultrasonography) was carried out immediately after surgery to evaluate fetal viability. All patients received uterine relaxants for 4 days, and were discharged on post-operative day 7. Post-operatively, patients were followed-up using ultrasonography at 2-week intervals.
Statistical analysis
Statistical analysis was performed using a t-test and Fishers exact test; a P-value <0.05 was considered statistically significant. An incidence ratio and an operative intervention ratio of leiomyoma during pregnancy were calculated. Confidence intervals (CIs) of an observed frequency were calculated using the binomial distribution (Sachs, 1984).
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Results |
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Among 622 pregnant patients with leiomyomas, 16 presented with complications during pregnancy (2.57%; 95% CI 1.33.8%), due to an increase in lesion size causing discomfort and/or severe abdominal pain that did not respond to conservative management with analgesics and non-steroidal anti-inflammatory drugs. Six cases presented with a significant increase in lesion size, eight with severe abdominal pain not responding to medical treatment, and two with severe abdominal pain along with an increase in lesion size. Because the distance between the endometrial cavity and the myoma was <5 mm, three of six women with a leiomyoma size increase (by 3, 5 and 6 cm respectively) were managed conservatively with ultrasound monitoring. Two of these women had normal vaginal deliveries at 34 and 38 weeks gestation, with birthweights of 2350 g and 2950 g respectively. The myomas did not increase further in size during the third trimester. The third woman aborted at 22 weeks gestation due to premature rupture of membranes and, because of massive post-partum haemorrhage, an abdominal hysterectomy was performed.
Of the 622 pregnant women, 13 [mean age 33 (range 2540) years] underwent laparotomy for uterine myomectomy (2.1%; 95% CI 0.93.2%). The characteristics of the women are presented in Table I. Torsion of a pedunculated leiomyoma occurred in two of the 13 cases. Pathological examination of the 13 specimens showed degenerative changes in 10 (77%), the most common findings being hyalinization (n = 3) and red degeneration (n = 2) (Table I).
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Overall, one of 13 women with myomectomy during pregnancy aborted spontaneously, whereas only one of 609 women with expectant management aborted (P = 0.041).
No hysterectomy or Caesarean sections were performed at the time of myomectomy, and no blood transfusions were required post-operatively.
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Discussion |
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In the present study, the incidence of myoma during pregnancy was 3.9%, though only 2.6% of women with myoma developed complications that required surgical intervention. In the vast majority of those women who required surgery, a successful myomectomy was performed and the pregnancy progressed to term without further complications.
As expected, the mean maternal age was higher among women with uterine myoma than in the general obstetric population. The lack of patients with submucosal fibroids may be due to the fact that previously identified submucosal leiomyomas were removed prior to pregnancy. Surgical removal of submucosal fibroids is often performed in the present authors department as these tend to be symptomatic and may contribute to failure to conceive and pregnancy loss.
Among the present patients, the most common complication was severe abdominal pain that did not respond to medical therapy. Indications for myomectomy during pregnancy include severe abdominal pain due to torsion of subserous pedunculated myomas or red degeneration not responding to medical treatment, and an increase in myoma size causing abdominal discomfort. It has been reported that if symptoms persist after 72 h of therapy, then surgical intervention must be considered (Burton et al., 1989; Dildy et al., 1992
).
There are two basic complications of myomectomy during pregnancy: abortion and haemorrhage. Among the present patients, only one of 13 patients aborted post-operatively.
Although the presence of myoma has been associated with fetal anomalies (Graham et al., 1980; Romero et al., 1981
; Hasbargen et al., 2002
), none of the infants in the present study had major structural anomalies.
Pregnant women with myoma should undergo frequent ultrasound evaluation during pregnancy in order to monitor both fetal growth and myoma size. Of note, when serial ultrasonography was used to monitor leiomyomas during pregnancy, only half of the lesions examined showed a significant change in size (Lev-Toaff et al., 1987). During the first trimester, leiomyomas of all sizes either remained unchanged or increased in size, whereas during the second trimester smaller myomas (26 cm) usually remained unchanged or increased in size whilst larger myomas became smaller. During the third trimester, myomas usually remained unchanged or decreased in size, regardless of their initial dimensions. It was noted that, as both size and number of myomas increased, a significantly higher frequency of retained placentas, fetal malpresentations and preterm contractions was identified.
Red or carneous degeneration may present with localized pain and tenderness, fever, and an elevated white blood cell count. In most cases of red degeneration, ultrasound findings reveal cystic spaces in the myomas (Lev-Toaff et al., 1987; Exacoustos and Rosati, 1993
). Although medical therapy including analgesics, fluids and antibioticsmay be used in the majority of these patients (Katz et al., 1989
; Rice et al., 1989
; Hasan et al., 1990
; Exacoustos and Rosati, 1993
; Moise, 1993
), in patients with severe abdominal pain or an increase in myoma size causing abdominal pain and discomfort, a timely and well-planned myomectomy should be an option.
In conclusion, the present data provide reassurance for pregnant women with uterine myoma. The surgical management of uterine leiomyoma during pregnancy may be performed successfully in carefully selected patients, and this seems to lead to an improvement in pregnancy outcome.
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References |
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Submitted on January 17, 2003; accepted on April 29, 2003.