Obstet Gynecol Sci Search

CLOSE


Obstet Gynecol Sci > Volume 60(3); 2017 > Article
Sills, Li, Wood, and Jones: Analysis of surgeries performed after hysteroscopic sterilization as tabulated from 3,803 Essure patient experiences

Abstract

Objective

Although previous research has suggested that risk for reoperation among hysteroscopic sterilization (HS) patients is more than ten times higher than for patients undergoing standard laparoscopic tubal ligation, little has been reported about these subsequent procedures.

Methods

This descriptive cohort study used a confidential online questionnaire to gather data from women (n=3,803) who volunteered information on HS followed by device removal surgery performed due to new symptoms developing after Essure placement.

Results

In this sample, mean age was 35.6 years and women undergoing hysterectomy after HS comprised 64.9% (n=2,468). Median interval between HS and hysterectomy was 3.7 (interquartile range, 3.9) years and mean age at hysterectomy was 36.3 years. Some patients (n=1,035) sought removal of HS devices and fallopian tubes only, while other miscellaneous gynecological procedures were also occasionally performed for Essure-associated symptoms. When data from all patients who had any post-Essure surgery besides hysterectomy were aggregated (e.g., device removal + “other” cases, n=1,335) and compared to those cases undergoing hysterectomy, mean age was significantly lower than for the hysterectomy group (34.4 vs. 36.3 years, respectively; P<0.01); uterus-conserving surgeries were also typically performed significantly earlier than hysterectomy (P<0.01).

Conclusion

This investigation is the first to characterize specific gynecological operations after Essure, and suggests that the predominant surgical answer to HS complaints is hysterectomy for many women. Dissatisfaction with HS may represent an important indication for hysterectomy and additional study is needed to quantify this phenomenon.

Introduction

Hysteroscopic sterilization (HS) first appeared on the US market in 2002 when the Essure device (Bayer Corp., Whippany, NJ, USA) gained approval by the US Food and Drug Administration. It remains the only available hysteroscopic contraceptive method in the US. The procedure does not require general anesthesia, involves no incision, and may be completed in as a little as ten minutes [1,2]. As background, HS involves placing a pair of small, flexible inserts consisting of nickel-titanium and polyethylene terephthalate (PET) fibers through the fallopian tubal ostia via a transcervical approach. The devices trigger an intraluminal inflammatory reaction resulting in tubal fibrosis and eventual occlusion. While HS has enjoyed considerable popularity, various complications have been described in the medical literature [3,4,5] and reported to health regulators [6]. Fortunately, removal of HS devices has been shown to resolve symptoms for many patients [7,8]. While there is no consensus on a preferred method to remove Essure implants, hysterectomy has emerged as one way surgeons can manage Essure complications [5,8,9,10]. The relation between Essure and subsequent operation (including hysterectomy) has not been closely studied, however.
After cesarean delivery, hysterectomy is the most frequently performed surgery for women in the US [11] and accurate data regarding indications for this operation informs a crucial part of monitoring health outcomes. Most estimates of national hysterectomy activity cannot offer a comprehensive assessment because registries are generally restricted to surgeries performed in formal hospital settings [12]. Likewise, a major data gap also exists with respect to HS because there is no national registry for this procedure and many patients obtain Essure in doctor's offices or ambulatory surgery centers. Statistical impairments thus exist both for HS and hysterectomy, as reliance on standard hospital reports necessarily fails to capture the full picture for either of these events.
Researchers interested in hysterectomy have attempted to tackle this problem by adjusting their study design to follow insurance payments instead of hospital-level data [11]. Unfortunately, such an approach is unlikely to sharpen our understanding of HS, since although this elective sterilization technique is often done on an out-patient basis, it is not uniformly covered by insurance plans in the US [13,14,15]. Of note, not even the device manufacturer knows how many women have had the HS procedure (in the US or elsewhere) and only data on the approximate number of Essure kits sold has been provided to regulators [16]. Thus, measuring any overlap between HS and hysterectomy—both gynecological interventions with substantial lifestyle implications—is an extremely difficult task.
Against this background, ours is the first investigation to present patient-level data to describe which operations are performed as a consequence of HS-associated symptoms. We were also interested in gathering basic information on patient age both at time of their elective sterilization with Essure, and at time of their subsequent surgery.

Materials and methods

A questionnaire was developed specifically for women who had HS followed by device removal surgery performed later specifically for new symptoms developing subsequent to Essure placement. Queries did not collect any personally identifiable information, were structured to permit numerical or text responses (Table 1), and then configured for an internet interface. For this study, any removal of the uterine corpus and fallopian tubes (with or without oophorectomy) as a method to manage post-HS symptoms was classified as hysterectomy. “Device removal only” surgery was defined as laparotomy or laparoscopy performed to excise Essure devices without hysterectomy, such as by salpingectomy. In the absence of a nationwide HS patient registry or unique International Classification of Diseases (ICD)-9/10 codes which could be used to filter for specific conditions associated with Essure, intake for this study was open to patient volunteers registered with an online education and advocacy group (“Essure Problems”, n=29,923). This represents the world's largest internet resource for Essure patients (https://www.facebook.com/groups/Essureproblems/). The research questionnaire was posted in English and remained active from July 2014 to February 2016. Incomplete questionnaires were excluded and responses were electronically tracked to block duplicate submissions from the same individual (via birth month/year entry and IP address tracking). An independent institutional review board considered the study prior to questionnaire launch and the protocol was judged as “no risk to human subjects” and exempted from review as the study involved no direct patient contact and data were processed in an anonymous, non-identifiable manner.
To validate self-reports, a review was performed on a subset of respondents (n=297) to confirm 1) that HS had been performed and document the date of the Essure procedure, and 2) that a formal operative note agreed with the subsequent (post-HS) procedure described by the patient. Subset analysis was completed by matching pathology reports/operative notes with corresponding survey responses, and all documents were immediately redacted after collation to protect patient confidentiality. Only investigators had access to running totals of the questionnaire during the study, and none of the investigators were physicians involved in Essure placement or device removal for any study participant. Although subjects were required to register via computer to access the questionnaire site, there was no cost to do so and respondents received nothing of value in exchange for their responses.
Patient data were analyzed with Python ver. 2.7.11 and the SciPy ver. 0.17.1 package (Enthought, Austin, TX, USA). For normally distributed data (i.e., patient age), mean and standard deviation were used to describe data location and dispersion. The Welch two sample t-test was used for comparisons of normally distributed sample means. For non-normal data (i.e., HS to subsequent surgery interval), median and interquartile range (IQR) were calculated. The Mann-Whitney U-test was applied for comparisons of two sample locations from non-normal data. For percent comparisons from one sample, the Student's t-test was used. By default, confidence level was set at 95% for all analysis.

Results

For this investigation, 3,803 voluntary patient reports were obtained from women who had undergone HS and had at least one other subsequent operation attributed to problems with the Essure device. Mean±standard deviation (SD) age for the overall study population was 35.6±6.3 years. The earliest HS event in this sample occurred in November 2002 and the most recent HS was December 2015. Among HS patients in this group, mean±SD age at time of the Essure procedure was 31.7±6 years. Clinical and demographic characteristics of the study population are summarized in Table 2. With regard to gynecological procedures performed after HS (Fig. 1), women having hysterectomy after Essure placement comprised 64.9% of patients in this series (n=2,468). For these patients, the median interval between HS and hysterectomy was 3.7 (IQR, 3.9) years and mean age at time of hysterectomy was 36.3±6.3 years (Fig. 2).
Other patients sought non-hysterectomy removal of HS devices (e.g., bilateral salpingectomy). For these women (n=1,035), mean interval between the Essure procedure and device removal was 3.1 (IQR, 4.0) years and mean patient age at time of device removal was 34.5±6.2 years.
Our analysis also identified a subset of women who underwent “other procedures” after Essure. For these patients (n=300), neither salpingectomy nor hysterectomy was performed after HS but instead dilation & curettage (n=229), endometrial ablation (n=202), hysteroscopy only (n=30), or diagnostic laparoscopy (n=16) was completed either alone or in combination. For patients in this group, mean interval between the Essure procedure and subsequent procedure(s) was 3.0 (IQR, 3.8) years. Age at time of second surgery was 34.1±6.0 years in this group.
As summarized in Fig. 3, when all data from patients who had any post-Essure surgery besides hysterectomy were aggregated (e.g., device removal plus all “other” cases, n=1,335) and compared to those cases undergoing hysterectomy, mean±SD age was substantially lower than the group undergoing hysterectomy (34.4±6.2 vs. 36.3±6.3 years, respectively; P<0.01). Moreover, examination of the interval to surgery following HS found that hysterectomies were performed a median of 3.7 years after Essure, while uterus-conserving surgeries were typically performed significantly earlier (Fig. 4).
Because patient birthdate and the timing of HS and subsequent surgery were both tabulated, it was also possible to calculate patient age at time of Essure procedure as a function of which surgery type occurred later. From this, we found that patients who eventually underwent hysterectomy were significantly older for their Essure procedure compared to patients who had device removal only or other post-HS procedures (Table 2).

Discussion

There appears to be no clear consensus on how best to manage Essure patients who subsequently develop symptoms associated with HS [17]. While the notion that Essure patients might require further surgery is not entirely new, at least for the population of Essure patients sampled here the reliance on hysterectomy was higher than expected. For example, a mixed-model accounting cluster analysis evaluated 30-day and 1-year outcomes after >8,000 Essure procedures in New York State and found the risk of undergoing reoperation was more than 10 times higher for HS patients compared to patients undergoing standard laparoscopic tubal ligation [18]. Our work refines this observation by contributing a more detailed understanding of surgeries performed on Essure patients, as well as when they occur.
As HS coils are intended to be permanent contraceptive implants, it is not surprising that familiarity with their surgical excision remains limited [5,8,19]. It is encouraging that satisfactory relief of Essure-associated symptoms has been reported as soon as two weeks following removal [20]. The current study captures more than a decade of HS experience, and is the first to show that the predominant surgical answer to Essure complications appears to be hysterectomy for many women. Moreover, the finding that hysterectomy occurs for Essure patients at about age 36 represents an original contribution to the contraceptive literature.
Why might HS be perceived as superior to traditional bilateral tubal ligation? A 2009 decision tree analysis to estimate procedure costs is sometimes cited to support the position that HS brings a cost advantage over standard tubal sterilization [21]. Such a model now seems problematic as it incorrectly assumed that patient satisfaction would be similar between the two comparator groups. Because few patients in HS premarketing studies were followed for more than 12 months [22], how many might seek additional surgery to “undo” Essure after the first year of use could not have been known previously. Although it is not surprising that such extra surgery brings additional expense, some research has shown that a priori costs for HS are already higher than for laparoscopic tubal ligation despite shorter operative time and less frequent use of general anesthesia [18]. Controversy also exists concerning the effectiveness of HS as a method of reliable birth control [23,24]. This raises the question of device failure with profound economic and social implications of its own [25]. While none of this information was available for consideration when Essure was initially approved by the US Food and Drug Administration in 2002, awareness of such factors now could explain the level of patient interest in surgical device removal.
Likewise, hysterectomy may be perceived (either by physicians, patients, or both) as superior to other less invasive surgical approaches for Essure abatement—a related topic requiring cross-disciplinary study. For example, it is possible that the lack of a current procedural terminology code specific to surgical Essure removal favors hysterectomy, a surgery for which multiple current procedural terminology codes exist. Despite the known higher cost, intraoperative blood loss, overall complication rate and increased recovery time associated with hysterectomy, this surgery could nevertheless be preferred over less aggressive operations for which insurance companies might reject or delay the claim (i.e., no timely disbursement).
This study has several limitations which should be recognized. Interpreting HS data continues to frustrate regulators, patients, and advocacy groups; this lack of comprehensive reporting on Essure was equally vexing for our research. There is no agreement on the exact Essure complication rate, and until the regulatory climate changes to enable acquisition of HS data with greater precision, internet-based assessment tools (like the one we used) may supply the best available evidence on HS. Accordingly, we did not attempt to calculate reoperation rates from these data, but rather sought to enumerate which surgeries were performed among women in a self-selected group. Although it would have been ideal to have data provided by institutional sources, because authentication was achieved by a representative subsample audit the reliability of our information can be considered robust. Similar patient-completed surveys have been used in previous pelvic surgery contexts with good results [26,27]. There is also the matter of linking HS to whatever operation which followed, and determining what factors (physician and/or patient) resulted in particular post-HS interventions. We were unable to evaluate the presentation of patients directly, therefore any clinical factors influencing selection of certain surgeries after HS cannot be known (e.g., data on body mass index, smoking status, medical history, or other comorbidities were not available for review). Like much of the Essure phenomenon, however, this is an underdeveloped area of inquiry awaiting additional research for clarification. The lack of established clinical guidelines for Essure removal appears to permit a considerable range of surgical approaches in routine practice.
For many women, their contraceptive journey with Essure is believed to be low risk and uneventful. But the allure of “non-incisional” permanent contraception as promised by HS would be substantially diminished if major surgery were required later [9,10]. Given the paucity of meaningful longitudinal data on HS patients, the hysterectomy rate following Essure remains undefined. Yet should this birth control choice even occasionally result in hysterectomy, caution is appropriate and the issue should receive close scrutiny. If the number of HS kits have been sold worldwide is 750,000 [22], then determining how these devices contribute to overall hysterectomy utilization represents a relevant topic in the domain of international women's health. Consideration should therefore be given to establishing an Essure patient registry, or, alternatively, creating specific ICD-10 codes for patients who present with HS-associated symptoms. These would be appropriate and cost-effective interventions to enable proper surveillance on this topic.

Acknowledgements

The authors are grateful to Angie Firmalino, Amanda Dykeman, Angela Desa, Carrie Hirmer, Kim Myers, Kim Hudak, Melanie Goshgarian, Cecilia Bogle, Janie Garcia, Penny Burau, Sarah Carlin, Lisa Saenz, Debra Logan, Janet Gutierrez, Becky Miller, Claudia E. Castellanos, Renee H. Brown, and Elena Marie Mendez for their assistance with questionnaire development and collating survey data.

Notes

Conflict of interest: No potential conflict of interest relevant to this article was reported.

References

1. Mino M, Arjona JE, Cordon J, Pelegrin B, Povedano B, Chacon E. Success rate and patient satisfaction with the Essure sterilisation in an outpatient setting: a prospective study of 857 women. BJOG 2007;114:763-766. PMID: 17516970.
crossref pmid
2. Thiel JA, Carson GD. Cost-effectiveness analysis comparing the essure tubal sterilization procedure and laparoscopic tubal sterilization. J Obstet Gynaecol Can 2008;30:581-585. PMID: 18644179.
crossref pmid
3. Levie MD, Chudnoff SG. Office hysteroscopic sterilization compared with laparoscopic sterilization: a critical cost analysis. J Minim Invasive Gynecol 2005;12:318-322. PMID: 16036190.
crossref pmid
4. Rezai S, LaBine M, Gomez Roberts HA, Lora Alcantara I, Henderson CE, Elmadjian M, et al. Essure microinsert abdominal migration after hysteroscopic tubal sterilization of an appropriately placed essure device: dual case reports and review of the literature. Case Rep Obstet Gynecol 2015;2015:402197PMID: 26664781.
crossref pmid pmc
5. Sills ES, Dalton MM. Referrals for complications following hysteroscopic sterilisation: characteristics associated with symptomatic patients after the Essure procedure. Eur J Contracept Reprod Health Care 2016;21:227-233. PMID: 27020693.
crossref pmid
6. US Food and Drug Administration. MAUDE adverse event report: Bayer Pharma AG Essure insert, tubal occlusion [Internet]. Silver Spring (MD): US Food and Drug Administration; 2015. cited 2016 Jun 28. Available from: https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfmaude/detail.cfm?mdrfoi__id=4531887.

7. Scarabin C, Dhainaut C. The ESTHYME study. Women's satisfaction after hysteroscopic sterilization (Essure micro-insert). A retrospective multicenter survey. Gynecol Obstet Fertil 2007;35:1123-1128. PMID: 18198498.
crossref pmid
8. Brito LG, Cohen SL, Goggins ER, Wang KC, Einarsson JI. Essure surgical removal and subsequent symptom resolution: case series and follow-up survey. J Minim Invasive Gynecol 2015;22:910-913. PMID: 25843521.
crossref pmid
9. Rudulph HW. The controversial birth control you've never heard of [Internet]. New York (NY): Cosmopolitan; 2014. cited 2016 Jun 28. Available from: http://www.cosmopolitan.com/lifestyle/news/a18925/essure-birth-control-controversy.

10. Klimas L. Hundreds of women forced to have hysterectomies after reaction to permanent birth control implant [Internet]. [place unknown]: The Blaze; 2013. cited 2016 Jun 28. Available from: http://www.theblaze.com/stories/2013/11/13/hundreds-of-women-forced-to-have-hysterectomies-after-reaction-to-permanent-birth-control-implant.

11. Doll KM, Dusetzina SB, Robinson W. Trends in inpatient and outpatient hysterectomy and oophorectomy rates among commercially insured women in the United States, 2000-2014. JAMA Surg 2016;151:876-877. PMID: 27168235.
crossref pmid pmc
12. Whiteman MK, Hillis SD, Jamieson DJ, Morrow B, Podgornik MN, Brett KM, et al. Inpatient hysterectomy surveillance in the United States, 2000-2004. Am J Obstet Gynecol 2008;198:34PMID: 17981254.
crossref
13. Anderson TL, Yunker AC, Scheib SA, Callahan TL. Hysteroscopic sterilization success in outpatient vs office setting is not affected by patient or procedural characteristics. J Minim Invasive Gynecol 2013;20:858-863. PMID: 23891205.
crossref pmid
14. Howard DL, Wall J, Strickland JL. What are the factors predictive of hysterosalpingogram compliance after female sterilization by the Essure procedure in a publicly insured population? Matern Child Health J 2013;17:1760-1767. PMID: 23212398.
crossref pmid
15. Sills ES, Li X, Jones CA, Wood SH. Contraceptive failure after hysteroscopic sterilization: analysis of clinical and demographic data from 103 unplanned pregnancies. Obstet Gynecol Sci 2015;58:487-493. PMID: 26623413.
crossref pmid pmc
16. US Food and Drug Administration. FDA review document: review of the Essure system for hysteroscopic sterilization [Internet]. Silver Spring (MD): US Food and Drug Administration; 2015. cited 2015 Jun 28. http://www.fda.gov/downloads/AdvisoryCommittees/CommitteesMeetingMaterials/MedicalDevices/MedicalDevicesAdvisoryCommittee/ObstetricsandGynecologyDevices/UCM463486.pdf.

17. Adelman MR, Dassel MW, Sharp HT. Management of complications encountered with Essure hysteroscopic sterilization: a systematic review. J Minim Invasive Gynecol 2014;21:733-743. PMID: 24768959.
crossref pmid
18. Mao J, Pfeifer S, Schlegel P, Sedrakyan A. Safety and efficacy of hysteroscopic sterilization compared with laparoscopic sterilization: an observational cohort study. BMJ 2015;351:h5162PMID: 26462857.
crossref pmid pmc
19. Albright CM, Frishman GN, Bhagavath B. Surgical aspects of removal of Essure microinsert. Contraception 2013;88:334-336. PMID: 23290426.
crossref pmid
20. Lannon BM, Lee SY. Techniques for removal of the Essure hysteroscopic tubal occlusion device. Fertil Steril 2007;88:497.
crossref pmc
21. Kraemer DF, Yen PY, Nichols M. An economic comparison of female sterilization of hysteroscopic tubal occlusion with laparoscopic bilateral tubal ligation. Contraception 2009;80:254-260. PMID: 19698817.
crossref pmid
22. Dhruva SS, Ross JS, Gariepy AM. Revisiting Essure: toward safe and effective sterilization. N Engl J Med 2015;373:e17PMID: 26397951.
crossref pmid
23. la Chapelle CF, Veersema S, Brolmann HA, Jansen FW. Effectiveness and feasibility of hysteroscopic sterilization techniques: a systematic review and meta-analysis. Fertil Steril 2015;103:1516-1525. PMID: 25910565.
crossref pmid
24. Hoyos LR, Leon-Peters J, Berman JM, Hertz M. Pregnancy following hysteroscopic sterilization at an Urban Abortion Clinic. A case series: are we looking in the wrong places? Contraception 2016;94:78-80. PMID: 27000998.
crossref pmid
25. Sills ES, Fernandez LP, Jones CA. What is the economic cost of unplanned pregnancy following hysteroscopic sterilization in the US? A new national estimate based on Essure procedure prevalence, failure rates, and workforce productivity. World Health Popul 2016;17:31-38. PMID: 28332975.
crossref pmid
26. Kulseng-Hanssen S, Borstad E. The development of a questionnaire to measure the severity of symptoms and the quality of life before and after surgery for stress incontinence. BJOG 2003;110:983-988. PMID: 14592582.
crossref pmid
27. Larochelle A, Podoba J, Ouellet S, Fraser WD. Accuracy of recall in quality-of-life assessment among women operated on for stress urinary incontinence. Int Urogynecol J Pelvic Floor Dysfunct 2009;20:1233-1241. PMID: 19513575.
crossref pmid
Fig. 1

Distribution of procedures performed after hysteroscopic sterilization between 2002 and 2015 as determined from patient self-reports (n=3,803). In this sample, hysterectomy was performed significantly more often than any other operation subsequent to HS (P<0.01, by Student's t-test).

ogs-60-296-g001.jpg
Fig. 2

Age distribution of patients who uhynstderoescrowpice stnertili zahtioyns wtiethr Eesscurteo (nm=2,y46 8). after hysteroscopic sterilization with Essure (n=2,468).

ogs-60-296-g002.jpg
Fig. 3

Age distribution of patients who underwent device removal surgery (non-hysterectomy) after hysteroscopic sterilization with Essure (n=1,335).

ogs-60-296-g003.jpg
Fig. 4

Kernal density estimation of inter-surgery intervals for hysteroscopic sterilization (HS) patients (n=3,803) who underwent additional surgery after Essure classified as hysterectomy (solid line) vs. non-hysterectomy (dashed line); P<0.01 by Mann-Whitney U-test.

ogs-60-296-g004.jpg
Table 1

Query summary for anonymous questionnaire accessed by hysteroscopic sterilization patients (n=3,803) who underwent additional surgery after the Essure procedure

All data were accessioned between July 2014 to December 2015 via secure online questionnaire; representative sub-sample random audit (n=297) validated patient self-reports with concordance at 100%.

Item Response field
Please provide your birth information Month/year
What is your preferred email address? Text@text
When did you undergo the Essure procedure? Month/year
Did you experience problems after Essure for which you requested and obtained additional surgery? Yes/no
When did you undergo additional surgery? Month/year
What type of surgery did you have after Essure? Device removal only
Hysterectomy (with or without removing your ovaries)
Other. Please describe [text]
Can you provide an operative note and pathology report to document your clinical case, if requested? Yes/no
Table 2

Summary of clinical and demographic data obtained from 3,803 HS patients classified by additional surgery type after the Essure procedure

All data reported as mean (standard deviation) except for inter-surgery interval, which is reported as median (interquartile range). Oophorectomy was not specified in the hysterectomy category. Device removal included bilateral salpingectomy (partial or complete) and linear salpingotomy/foreign body removal. Other procedures included dilation and curettage, endometrial ablation (method not defined), hysteroscopy only, and diagnostic laparoscopy.

HS, hysteroscopic sterilization.

a)Inter-group comparisons between hysterectomy vs. device removal + other, post-HS procedures by Mann-Whitney U-test.

Parameter (yr) Hysterectomy Device removal only + all other post-HS procedures P-valuea)
Patient age at HS 32.1 (6.0) 30.9 (5.9) <0.01
Patient age at post-HS surgery 36.3 (6.3) 34.4 (6.2) <0.01
Interval between HS and next surgery for Essure-associated symptoms 3.7 (3.9) 3.1 (3.9) <0.01
TOOLS
Share :
Facebook Twitter Linked In Google+ Line it
METRICS Graph View
  • 4 Crossref
  • 5   Scopus
  • 3,564 View
  • 32 Download
Related articles in Obstet Gynecol Sci


ABOUT
ARTICLE & TOPICS
Article category

Browse all articles >

Topics

Browse all articles >

BROWSE ARTICLES
POLICY
FOR CONTRIBUTORS
Editorial Office
4th Floor, 36 Gangnam-daero 132-gil, Gangnam-gu, Seoul 06044, Korea.
Tel: +82-2-2266-7238    Fax: +82-2-3445-2440    E-mail: journal@ogscience.org                

Copyright © 2024 by Korean Society of Obstetrics and Gynecology.

Developed in M2PI

Close layer
prev next