**2.1 Reversal of sterilization**

88 Ectopic Pregnancy – Modern Diagnosis and Management

Microsurgery of the fallopian tubes to restore functioning in the presence of tubal infertility is a therapeutic standard that has been established for decades. In contrast to IVF therapy, reconstructive surgeries of the fallopian tubes are curative measures. They are performed with the intention of permanently restoring the physiological ability of a woman to have a chance to conceive in every ovulating cycle. After successful surgery, additional spontaneous conceptions are, therefore, possible without renewed therapy. The course of pregnancy and the manner of birth in patients who underwent microsurgery do not differ from childbirth in a normal population. Also with respect to premature births, the rate of cesarean section and multiple births there are no differences versus healthy women who

Ectopic pregnancy (EP) is a serious and also nowadays a cause of maternal mortality in early pregnancy. The risk factors for EP in general population are pelvic infection, tubal disease, endometriosis, previous tubal surgery, age >35 years and smoking (Thornburn et al., 1986; Tuomovaara & Kauppila, 1988; Dubuisson et al., 1996; Strandell et al., 1999; Bouyer et al., 2003; Clayton et al., 2006; Practice Committee of American Society for Reproductive Medicine, 2008; Gelbaya, 2010). The incidence of EP in general population is approximately

The first pregnancy conceived after ART and embryo transfer was ectopic (Steptoe & Edwards, 1976). The risk factors for ectopic pregnancy following ART with an incidence of 2.1% to 9.4% (Lesny et al., 1999) in all ART patients and up to 11% in patients with tubal infertility (Dubuisson et al., 1991) are reported to be tubal disease, history of pelvic infection (Marcus & Brinsden, 1995; Strandell et al., 1999) and tubal infertility as it is considered to be the indication for ART (Herman et al., 1990; Dubuisson et al., 1991, Verhulst et al., 1993). In Germany, the overall rate of EP in women undergoing ART procedures from 1999 to 2009 was 2.0% (95% confidence interval [CI] 1.9-2.1) related to all pregnancies with a maximum of 2.2% in the group of women >39 years of age (95% CI 1.8-2.5). 19.9% of all cycles which lead to a pregnancy are done in couples who had an infertility diagnosis of "tubal factor" or "tubal disease". The incidence of EP according to the presence or absence of tubal pathology ranges from 2.3% to 3.7% in the presence of tubal pathology and from 1.7% to 2.1% in women without documented tubal disease. The highest EP rate was detected to be 4.5% (95% CI: 3.0-6.0) related to all pregnancies in young women <30 years who firstly had a tubal pathology, who secondly had been treated with IVF, and who thirdly smoked (original data from the German IVF-Registry, D.I.R. committee´s office, Bismarckallee 8-12, 23795 Bad Segeberg, Germany). Tubal EP is also a known adverse effect of tubal reconstructive surgery; however the incidence varies widely between 0% and up to 40% depending on the type, location and severity of the tubal disease and the surgical procedure. The success of infertility surgery

and the risk for EP depend on the careful selection of appropriate patients.

When compared with the macrosurgical approach, the use of a microsurgical technique has significantly improved the outcome of tubal anastomosis with reduced EP rates (Lavy et al.,

The reconstructive microsurgical techniques should include the following elements (Gauwerky, 1999, Schippert et al., 2010): Atraumatic surgical technique, complete removal of diseased tissue, careful hemostasis, preparation layer by layer and exact adaptation of the tissue structures, complete peritonealization, and continuous irrigation of exposed

have not undergone surgery.

**1.1 Ectopic pregnancy** 

2% (Strandell et al., 1999).

1987).

peritoneal tissue surfaces.

Microsurgical reversal of sterilization leads to a cumulative pregnancy rate ranging from 40% to 84% and monthly fecundability of 8%-10% (Kim et al., 1997; Land & Evers, 2002), the overall risk of EP appears to be less than 10% (Posaci et al., 1999; Practice Committee of American Society for Reproductive Medicine, 2008). Possible prognostic factors include the type of performed sterilization procedure, the site of anastomosis and the postoperative tubal length (Posaci et al., 1999). Tubal occlusion with rings or clips, isthmic-isthmic anastomosis and a tubal length >5 cm are associated with a greater likelihood of successful pregnancy after resterilization (Practice Committee of American Society for Reproductive Medicine, 2008).

During a retrospective study time of eleven years, 127 women (median age 35.4 years [26- 42]) were refertilized in our clinic after a sterilization was performed before (Figure 1; Figure 2a and 2b).

The follow-up data of 89 patients could be collected for analysis. The EP rate following the microsurgical reversal of sterilization was 6.7% (6/89 patients), and the intrauterine pregnancy rate was 73.0% respectively (65/89 patients) (Table 1).

Fig. 1. Isthmic-isthmic reanastomosis of the fallopian tube after sterilization (refertilization) using sutures 8-0 and 6-0 vicryl

Ectopic Pregnancy Following Reconstructive, Organ-Preserving Microsurgery in Tubal Infertility 91

increased up to 20% if at least one of these criteria was not fulfilled (Posaci et al., 1999; Lundroff et al., 1991) or if the tubal damage was severe (Lok et al., 2003; Boer-Meisel et al., 1986; Schlaff et al., 1990). For this reason, patients with dense adhesions and a severe tubal

In our study, the rate of EP following microsurgical adhesiolysis was 7.8% (9/116 patients),

**Pregnancy rate** 

**Adhesiolysis 12,8%** 116 49 (42.2%) 9 (7.8%) 3 (2.6%) 37 (31.9%) **Fimbrioplasty 17,3%** 55 30 (54.6%) 3 (5.5%) 6 (10.9%) 21 (38.2%) **Salpingostomy 49,7%** 153 53 (34.6%) 12 (7.8%) 7 (4.6%) 34 (22.2%) **Anastomosis 20,2 %** 68 38 (55.9%) 7 (10.3%) 9 (13.2%) 22 (32.4%)

> 170 (43.4%) related to total number of surgery

Table 2. Results of reconstructive tubal surgery due to acquired tubal damages: 426 patients contacted, 287 patients answered; median age 31.0 years (21-42), multiple methods of surgeries during one intervention possible, total rates are related to total number of interventions. Medical School of Hannover, Germany, 1990-2001, analysis 2004. The analysis considered only the first pregnancy that followed the operation, even if an EP or

Pregnancy outcome after distal tubal microsurgery has been related to several factors such as preexisting tubal disease, the extent of adnexal or even dense adhesions, the ampullary dilatation, the wall thickness, and the lack of normal mucosa (Posaci et al., 1999). In general, salpingostomy has the lowest success rate among the tubal microsurgeries. Pregnancy rates following fimbrioplasty are higher than those after salpingostomy (60% vs. 31%) (Donnez & Casanas-Roux, 1986). The term pregnancy rates following distal tubal surgery varied from 3% to 59% when patients had only few and non-fixed adhesions, a thin tubal wall, and normal mucosal appearance of the endosalpinx (Boer-Meisel et al., 1986). A meta-analysis including eight studies with 399 patients showed EP rates from 3% to 23% with an IUP rate of 0% to 51%

Another analysis with a total of 1,514 patients showed an IUP rate and recurrent EP rate following salpingostomy for the treatment of EP of 61% and 15%, respectively (Yao & Tulandi, 1997). A large review of ten case series in women who underwent salpingoneostomy due to distal tubal occlusion (n=1,128) reported a cumulative EP rate per pregnancy of 23% (Marana & Quagliarello, 1988b) and an EP rate of 8% in women who underwent tubocornual

In our own patient database (Table 2), the EP rates had been 7.8% (12/153 patients) when salpingotomy was performed and 5.5% (3/55 patients) (Figures 3a and 3b), respectively, when fimbrioplasty was done (Figure 4a and 4b). The pregnancy rates had been 34.6%

**Ectopic pregnancy rate** 

**Abortion** 

31 (7.9%) 25 (6.4%)

**rate Birth rate** 

114 (29.2%) related to total number of surgery

pathology are best referred to IVF.

**Method of surgery (microsurgery due to acquired tubal damages)**

**Total 100 %** 

and the IUP rate was 42.2% (49/116) respectively (Table 2).

**Number of patiens** 

392 interventions (287 pat.)

abortion was followed by a normal pregnancy with subsequent childbirth.

**2.2.2 Distal tubal surgery: fimbrioplasty and salpingostomy / salpingotomy** 

(Posaci et al., 1999) following salpingostomy, salpingoneostomy and fimbrioplasty.

anastomosis for proximal tubal occlusion (n=118) (Marana & Quagliarello 1988a).

(53/153 salpingotomy), and 54.6% (30/55 fimbioplasty) respectively.

Fig. 2. (a) status after sterilization by bipolar coagulation of the fallopian tube; (b) isthmiccornual refertilization of the fallopian tube


Table 1. Results of reversal of sterilization (refertilization): All types of anastomosis and length of fallopian tubes; 127 patients contacted, 89 patients answered; median age 35.4 years (26-42). Medical School of Hannover, Germany, 1990-2001, analysis 2004; percentages are related to all patients. The analysis considered only the first pregnancy that followed the operation, even if an EP or abortion was followed by a normal pregnancy with subsequent childbirth.

#### **2.2 Microsurgery due to acquired tubal damages**

In our study, 426 women (median age 31 years [21-42]) underwent tubal microsurgery after hysteroscopic and laparoscopic diagnosis of acquired tubal sterility and the prior exclusion of serious ovarian and andrological disorders: Adhesiolysis, anastomosis due to an acquired damage of the fallopian tubes, fimbrioplasty and salpingsotomy had been performed. Several of these surgical procedures were occasionally combined in a single procedure, e.g. a fimbrioplasty on one tube and an anastomosis on the other tube. It was finally possible to contact 287 patients and proceed with the analysis (Table 2).

#### **2.2.1 Peritubal adhesiolysis**

Overall intrauterine pregnancy rates following adhesiolysis by microsurgery vary widely from 21% to 80% (Feinberg et al., 2008; Lok et al., 2003; Posaci et al.; 1999), mainly because of bias in case selection and the absence of standardized assessment of the extent of tubal damage, especially the mucosal state. In an analysis including nine studies with 456 patiens, an EP rate of 0% to 16% following adhesiolysis by microsurgery, and a rate of intrauterine pregnancy (IUP) of 21% to 68% respectively is reported (Posaci et al., 1999). High pregnancy rates of about 60% with EP rates of 6% have been reported in cases of the absence of peritoneal damage of serosa after the surgical procedure and a complete removal of adhesions with a good anatomical reconstruction of ovaries and fallopian tubes. EP rates

Fig. 2. (a) status after sterilization by bipolar coagulation of the fallopian tube; (b) isthmic-

**Pregnancy rate** 

Table 1. Results of reversal of sterilization (refertilization): All types of anastomosis and length of fallopian tubes; 127 patients contacted, 89 patients answered; median age 35.4 years (26-42). Medical School of Hannover, Germany, 1990-2001, analysis 2004; percentages are related to all patients. The analysis considered only the first pregnancy that followed the operation, even if an EP or abortion was followed by a normal pregnancy with subsequent

In our study, 426 women (median age 31 years [21-42]) underwent tubal microsurgery after hysteroscopic and laparoscopic diagnosis of acquired tubal sterility and the prior exclusion of serious ovarian and andrological disorders: Adhesiolysis, anastomosis due to an acquired damage of the fallopian tubes, fimbrioplasty and salpingsotomy had been performed. Several of these surgical procedures were occasionally combined in a single procedure, e.g. a fimbrioplasty on one tube and an anastomosis on the other tube. It was finally possible to

Overall intrauterine pregnancy rates following adhesiolysis by microsurgery vary widely from 21% to 80% (Feinberg et al., 2008; Lok et al., 2003; Posaci et al.; 1999), mainly because of bias in case selection and the absence of standardized assessment of the extent of tubal damage, especially the mucosal state. In an analysis including nine studies with 456 patiens, an EP rate of 0% to 16% following adhesiolysis by microsurgery, and a rate of intrauterine pregnancy (IUP) of 21% to 68% respectively is reported (Posaci et al., 1999). High pregnancy rates of about 60% with EP rates of 6% have been reported in cases of the absence of peritoneal damage of serosa after the surgical procedure and a complete removal of adhesions with a good anatomical reconstruction of ovaries and fallopian tubes. EP rates

**Ectopic pregnancy rate** 

89 (100%) 65 (73.0%) 6 (6.7%) 14 (15.7%) <sup>45</sup>

**Abortion** 

**rate Birth rate** 

(50.6%)

cornual refertilization of the fallopian tube

**Number of patiens (percent)** 

**2.2 Microsurgery due to acquired tubal damages** 

contact 287 patients and proceed with the analysis (Table 2).

**Method of surgery (microsurgery)** 

**Refertilization after previous sterilization** 

**2.2.1 Peritubal adhesiolysis** 

childbirth.

increased up to 20% if at least one of these criteria was not fulfilled (Posaci et al., 1999; Lundroff et al., 1991) or if the tubal damage was severe (Lok et al., 2003; Boer-Meisel et al., 1986; Schlaff et al., 1990). For this reason, patients with dense adhesions and a severe tubal pathology are best referred to IVF.

In our study, the rate of EP following microsurgical adhesiolysis was 7.8% (9/116 patients), and the IUP rate was 42.2% (49/116) respectively (Table 2).


Table 2. Results of reconstructive tubal surgery due to acquired tubal damages: 426 patients contacted, 287 patients answered; median age 31.0 years (21-42), multiple methods of surgeries during one intervention possible, total rates are related to total number of interventions. Medical School of Hannover, Germany, 1990-2001, analysis 2004. The analysis considered only the first pregnancy that followed the operation, even if an EP or abortion was followed by a normal pregnancy with subsequent childbirth.

#### **2.2.2 Distal tubal surgery: fimbrioplasty and salpingostomy / salpingotomy**

Pregnancy outcome after distal tubal microsurgery has been related to several factors such as preexisting tubal disease, the extent of adnexal or even dense adhesions, the ampullary dilatation, the wall thickness, and the lack of normal mucosa (Posaci et al., 1999). In general, salpingostomy has the lowest success rate among the tubal microsurgeries. Pregnancy rates following fimbrioplasty are higher than those after salpingostomy (60% vs. 31%) (Donnez & Casanas-Roux, 1986). The term pregnancy rates following distal tubal surgery varied from 3% to 59% when patients had only few and non-fixed adhesions, a thin tubal wall, and normal mucosal appearance of the endosalpinx (Boer-Meisel et al., 1986). A meta-analysis including eight studies with 399 patients showed EP rates from 3% to 23% with an IUP rate of 0% to 51% (Posaci et al., 1999) following salpingostomy, salpingoneostomy and fimbrioplasty.

Another analysis with a total of 1,514 patients showed an IUP rate and recurrent EP rate following salpingostomy for the treatment of EP of 61% and 15%, respectively (Yao & Tulandi, 1997). A large review of ten case series in women who underwent salpingoneostomy due to distal tubal occlusion (n=1,128) reported a cumulative EP rate per pregnancy of 23% (Marana & Quagliarello, 1988b) and an EP rate of 8% in women who underwent tubocornual anastomosis for proximal tubal occlusion (n=118) (Marana & Quagliarello 1988a).

In our own patient database (Table 2), the EP rates had been 7.8% (12/153 patients) when salpingotomy was performed and 5.5% (3/55 patients) (Figures 3a and 3b), respectively, when fimbrioplasty was done (Figure 4a and 4b). The pregnancy rates had been 34.6% (53/153 salpingotomy), and 54.6% (30/55 fimbioplasty) respectively.

Ectopic Pregnancy Following Reconstructive, Organ-Preserving Microsurgery in Tubal Infertility 93

general, microsurgery and IVF therapy are not competing, but complementary therapeutic options for the treatment of tubal infertility. The definitive decision about which therapy to pursue should always be left to the affected couple after the pertinent information has been

The risk for EP and the chances for an intrauterine ongoing pregnancy following tubal reconstructive surgery, respectively, vary widely depending on the type, location and

The ectopic rate for mild aquired tubal disease is reported to be 1%-10% (Boer-Meisel et al., 1986; Winston & Margara, 1991; Nackley& Muasher, 1998) and for reversal of sterilization less than 10% (Practice Committee of American Society for Reproductive Medicine, 2008), but in contrast, EP rates increase up to 40% in the presence of intrinsic tubal damage, salpingitis isthmica nodosa and severe tubal pathology (Taylor et al., 2001; Posaci et al., 1999; Pandian et al., 2008; Marana & Quagliarello, 1988a, 1988b; Akande et al., 2004, Mosgaard et al., 1996). For this reason, patients with dense adhesions like frozen pelvis and

severity of the tubal disease and the performed surgical procedure.

a severe tubal pathology are best referred to IVF (Schippert et al., 2010).

women are non-smokers, the EP rate was 4.2% (95% CI: 3.5 – 5.0).

In our own patient's collective, the EP rate following reversal of sterilization was 6.7%.

In the presence of acquired tubal disease, mainly because of previous pelvic inflammation and salpingitis, the overall EP rate was 7.9% following microsurgical reconstruction using the techniques of adhesiolysis, salpingostomy, salpinoneostomy, fimbrioplasty and anastomosis. The risk factors for developing EP after ART still are inconsistent. The incidence is reported to be between 2.1% and up to 11% in tubal infertiltiy. The data of the Geman IVF Registry demonstrate a significantly increased incidence of EP in the presence of tubal pathology (original data from the German IVF Registry). The highest EP rate related to all pregnancies was detected to be 4.5% (95% CI: 3.0-6.0) in women <30 years who firstly had a tubal pathology, who secondly had been treated with IVF, and who thirdly smoked. If these

In summary, the risks for EP after ART and microsurgical tubal reconstruction in women with tubal infertility or tubal co-morbidity are significant and approximately comparable. Surgical tubal reconstruction still remains a significant part in the range of modern infertility treatments, however the success and/or failure of infertility surgery depends on a careful selection of appropiate patients. ART is especially recommended in women with severe

The authors wish to thank Professor Dr. Hans Walter Schloesser, a great teacher, character,

Akande, V.A.; Cahill, D.J.; Wardle, P.G.; Rutherford, A.J.; Jenkins, J.M. (2004). The predictive

Boer-Meisel, M.E.; te Velde, E.R.; Habbena, J.D.F.; Kardaun, J.W.P.F. (1986). Predicting the

value of the 'Hull & Rutherford' classification for tubal damage. *BJOG,* Vol. 111, pp.

pregnancy outcome in patients treated for hydrosalpinx; a prospective study. *Fertil* 

tubal pathology and in the case of severe male infertility or ovarial dysfunction.

competently communicated.

**4. Acknowledgment** 

123–141.

**5. References** 

visionary gynaecologist and microsurgeon.

*Steril*, Vol. 45, pp. 23–29.

Fig. 3. (a) hydrosalpinges and peritubal adhesions; (b) salpingotomy on both sides and adhesiolysis

Fig. 4. (a) fimbrial phimosis; (b) fimbrioplasty
