Ectopic pregnancy: Expectant management an immediate surgery?

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Applied Evidence

Ectopic pregnancy: Expectant management an immediate surgery?

J Fam Pract. 2006 June;55(6):517-522

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References

1. Carr RJ, Evans P. Ectopic pregnancy. Prim Care 2000;27:169-183.

2. Fernandez H, Lelaidier C, Thouvenez V, et al. The use of a pretherapeutic, predictive score to determine inclusion criteria for the non-surgical management of ectopic pregnancy. Hum Reprod 1991;6:995-998.

3. Elito J, Jr, Reichmann AP, Uchiyama MN, Camano L. Predictive score for the systemic treatment of unruptured ectopic pregnancy with a single dose of methotrexate. Int J Gynecol Obstet 1999;67:75-79.

4. Pisarska MD, Carson SA, Buster JE. Ectopic pregnancy. Lancet 1998;351:1115-1120.

5. Farquhar CM. Ectopic pregnancy. Lancet 2005;366:583-591.

6. Kelly AJ, Sowter MC, Trinder J. The management of tubal pregnancy. Royal College of Obstetricians and Gynecologists (RCOG). Guideline No. 21, May 2004. Available at: www.rcog.org.uk/resources/Public/pdf/management_tubal_pregnancy21.pdf.

7. Rulin MC. Is salpingostomy the surgical treatment of choice for unruptured tubal pregnancy? Obstet Gynecol 1995;86:1010-1013.

8. Seifer DB. Persistent ectopic pregnancy: an argument for heightened vigilance and patient compliance. Fertil Steril 1997;68:402-404.

9. Hagstrom HG, Hahlin M, Bennegard-Edèn B, Sjoblom P, Thorburn J, Lindblom B. Prediction of persistent ectopic pregnancy after laparoscopic salpingostomy. Obstet Gynecol 1994;84:798-802.

10. ACOG practice bulletin. Medical management of tubal pregnancy. Number 3, December 1998. Clinical management guidelines for obstetrician-gynecologists. American College of Obstetricians and Gynecologists. Int J Gynaecol Obstet 1999;65:97-103.

11. Mittal S. Non-surgical management of ectopic pregnancy. Obs Gyn Com 1999;1:23-28.

12. Cohen MA, Sauer MV. Expectant management of ectopic pregnancy. Clin Obstet Gynecol 1999;42:48-54.

13. Buster JE, Pisarska MD. Medical management of ectopic pregnancy. Clin Obstet Gynecol 1999;42:23-30.

14. Murray H, Baakdah H, Bardell T, Tulandi T. Diagnosis and treatment of ectopic pregnancy. CMAJ 2005;173:905-912.

15. Pansky M. Methotrexate (MXT) treatment for ectopic pregnancy-systemic vs local injection. Scientific presentation at The First World Congress on Controversies in Obstetrics, Gynecology & Infertility. Prague, Czech Republic, 1999. Available at: www.obgyn.net/firstcontroversies/prague1999pansky.doc. Accessed December 4, 2005.

16. Barnhart KT, Gosman G, Ashby R, Sammel M. The medical management of ectopic pregnancy: a meta-analysis comparing “single dose” and “multidose” regimens. Obstet Gynecol 2003;101:778-784.

17. Lipscomb GH, Meyer NL, Flynn DE, Peterson M, Ling F. Oral methotrexate for treatment of ectopic pregnancy. Am J Obstet Gynecol 2002;186:1192-1195.

18. Trio D, Strobelt N, Picciolo C, Lapinski RH, Ghidini A. Prognostic factors for successful expectant management of ectopic pregnancy. Fertil Steril 1995;63:469-472.

19. Barnhart K, Esposito M, Coutifaris C. An update on the medical treatment of ectopic pregnancy. Obstet Gynecol Clin North Am 2000;27:653-667, viii.

20. Mol BW, Hajenius PJ, Engelsbel S, et al. Treatment of tubal pregnancy in the Netherlands: an economic comparison of systemic methotrexate administration and laparoscopic salpingostomy. Am J Obstet Gynecol 1999;181:945-951.

21. Saraj AJ, Wilcox JG, Najmabadi, Stein SM, Johnson MB, Paulson RJ. Resolution of hormonal markers of ectopic gestation: a randomized trial comparing single-dose intramuscular methotrexate with salpingostomy. Obstet Gynecol 1998;92:989-994.

22. Lipscomb GH, Givens VM, Meyer NL, Bran D. Comparison of multidose and single-dose methotrexate protocols for the treatment of ectopic pregnancy. Am J Obstet Gynecol 2005;192:1844-1847.

23. Sowter MC, Farquhar CM. Ectopic pregnancy: an update. Curr Opin Obstet Gynecol 2004;16:289-293.

24. Gazvani MR, Baruah DN, Alfirevic Z, Emery SJ. Mifepristone in combination with methotrexate for the medical treatment of tubal pregnancy: a randomized, controlled trial. Hum Reprod 1998;13:1987-1990.

25. Rozenberg P, Chevret S, Camus E, et al. Medical treatment of ectopic pregnancies: a randomized clinical trial comparing methotrexate-mifepristone and methotrexate-placebo. Hum Reprod 2003;18:1802-1808.

26. Pansky M, Golan A, Bukovsky I, Caspi E. Nonsurgical management of tubal pregnancy. Necessity in view of the changing clinical appearance. Am J Obstet Gynecol 1991;164:888-895.

Medical management an option for about 25% of patients

Methotrexate depletes tetrahydrofolate cofactors required for DNA and RNA synthesis and cell replication, and thereby inhibits the rapidly growing trophoblasts in patients with ectopic pregnancy.

Methotrexate may be used for primary treatment of ectopic pregnancy, for persistent ectopic pregnancy following tubal sparing surgery, as prophylaxis to reduce persistent ectopic pregnancy following salpingostomy, and in cornual and cervical pregnancies.^11,13,19

Who qualifies. Patients eligible for methotrexate administration are those without hemodynamic instability or evidence of tubal rupture (clinical or ultrasound), desiring future fertility, having a gestational sac <3.5 cm, a β-hCG level less than 5000 mIU/mL, no fetal cardiac motion on ultrasound, and the ability and willingness to comply with post-treatment monitoring.^10,14

Systemic methotrexate successfully resolves ectopic pregnancy in 90% of patients. Subsequent tubal patency rates approximate 80% and pregnancy rates 60% with recurrent ectopic pregnancy rates 8%.^10,13,15,16 The cost of treatment for systemic methotrexate was $5721 per patient compared with $4066 for salpingostomy.²⁰ Hematologic, liver, and renal functions should be assessed before treatment.

FAST TRACK

Patients eligible for methotrexate:

no rupture
hemodynamically stable
gestational sac<3.5 cm
β-hCG <5000 mIU/mL
no fetal cardiac sounds on US

Following methotrexate administration, some patients experience a transient increase in abdominal pain, vaginal bleeding, and rising β-hCG. Exclude a ruptured ectopic pregnancy in patients with worsening pain. Pelvic examinations, sexual intercourse, and TVUS should be avoided or minimized during treatment.¹⁰

Two regimens are used for the systemic administration of methotrexate (TABLE 2).

The single-dose regimen uses an intramuscular (IM) injection dose of 50 mg/m² of methotrexate without leucovorin. It has an overall success rate of 87%. β-hCG levels are measured on days 4 and 7, and the medication is repeated if no drop is noticed.¹³ β-hCG levels are then repeated weekly until undetectable (usually 4 weeks). Serum progesterone levels drop significantly faster than β-hCG following methotrexate administration, and levels <1.5 ng/mL predict ectopic pregnancy resolution more accurately than β-hCG levels.²¹ Repeat dosing is needed in up to 14% of women.

In the multidose regimen, IM injections of 1 mg/kg of methotrexate are given followed by leucovorin (0.1 mg/kg) after 24 hours. β-hCG levels are checked every other day until there is a 15% or more drop on 2 consecutive days, or 4 doses of methotrexate are administered.¹ β-hCG levels are then repeated weekly until undetectable. About half of the women receiving the multidose regimen require 4 or more doses (6.8% require >4 doses). On the other hand, 10% of women treated with this regimen require only 1 dose. Multidose methotrexate has also been used as first-line therapy in cervical, interstitial, ovarian, and abdominal gestation, but with substantially lower success.¹⁹

Single-dose vs multidose regimens. Although there are no direct comparison trials, a meta-analysis combining the results of 26 studies with 1067 women treated with a single-dose regimen and 267 women treated with a multidose regimen found that the multidose regimen was slightly more effective.¹⁶ The success rate for women with multidose treatment was 92.7% (95% confidence interval [CI], 89–96) vs a single-dose treatment success rate of 88.1% (95% CI, 86–90).

Women treated with single-dose regimens had fewer side effects (31.3% vs 41.2%). However, in both regimens, women who experienced adverse side effects were less likely to have failed treatment (single dose, odds ratio [OR]=0.27; multidose, OR=0.72). Another systematic review including 19 studies with 393 women treated with single-dose methotrexate and 338 women treated with multidose methotrexate had similar outcome findings; the multidose regimen was slightly more effective (93% vs 87%).¹³

A recent retrospective study comparing the multidose and single-dose regimens in 643 patients with ectopic pregnancy (single dose, n=555; multidose, n=97) from a single database also showed slightly better success with the multidose regimen (95% vs 90%, P=.18).²² Therefore, the multidose regimen may be preferred but a randomized controlled trial comparing the 2 regimens is needed.

In clinically stable women, the serum β-hCG level at presentation is probably the most important single factor determining failure of single-dose methotrexate; patients with low β-hCG levels (1000–2000 mIU/mL) have a high (~98%) response rate.²³

Add mifepristone? Mifepristone 600 mg orally added to methotrexate increases successful resolution of unruptured ectopic pregnancy, decreases resolution time, and reduces the need for a second injection or laparotomy, without worsening side effects.²⁴ A recent randomized controlled trial, however, showed that this combination had little advantage over methotrexate alone, and concluded that adding mifepristone be limited to patients with serum progesterone ≥10 ng/mL.²⁵

FAST TRACK

Consider mifepristone only when serum progesterone is ≥10 ng/mL

Direct injection. When fetal cardiac activity is present, injection of 20% potassium chloride (KCl) 0.5 mL into the gestational sac under ultrasound guidance results in asystole and a slow resolution of ectopic pregnancy. Because KCl does not affect the trophoblast, trophoblastic tissue may continue to proliferate leading to tubal rupture.²⁶ Hyperosmolar glucose 1 to 3 mL injected laparoscopically or under ultrasound guidance into the gestational sac maintains tubal patency, has few side effects, but its initial high success rates in resolving ectopic pregnancy (94% to 100%) has not been duplicated.^11,13 Another option is prostaglandin F-2 alpha, which when injected into the Fallopian tube causes contractions and vasoconstriction, resulting in a resolution of ectopic pregnancy in 92% of patients.¹³ However, serious side effects have been reported, including severe abdominal discomfort, vomiting, and pulmonary edema.