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Outcome of a patient with Herlyn-Werner-Wunderlich syndrome treated with Balloon septostomy – pre- and postsurgical ultrasound findings


Authors: Erik Dosedla 1;  Zuzana Ballová 1;  Petra Gašparová 1;  M. Sitáš 1;  P. Calda 2
Authors‘ workplace: Department of Gynaecology and Obstetrics, Faculty of Medicine, Pavol Jozef Safarik University in Kosice, Hospital AGEL Košice-Šaca Inc., Košice-Šaca, Slovak Republic 1;  Department of Gynaecology and Obstetrics, First Faculty of Medicine, Charles University and General Teaching Hospital, Prague, Czech Republic 2
Published in: Ceska Gynekol 2023; 88(6): 450-453
Category: Case Report

Overview

Herlyn-Werner-Wunderlich syndrome is an unusual congenital anomaly defined by a triad of congenital defects of the female urogenital tract – homolateral renal agenesis, uterus duplex and obstructed hemi-hematometrocolpos whose etiology remains still unclear. Pelvic pain, dysmenorrhea and palpable mass due to the hematocolpos or hematometra are the most common clinical symptoms. Endometriosis is considered to be a prevalent finding in these young patients possibly explaining the pathophysiological mechanism of endometriosis as the result of retrograde menstruation. Early diagnosis and subsequent treatment are important to prevent the development of severe complications. In general, clinical and reproductive outcomes after drainage of the hematometrocolpos are reported to be satisfactory. A 13-year-old patient presented with pelvic pain and was diagnosed with OHVIRA syndrome treated with Balloon septostomy.

Keywords:

Herlyn-Werner-Wunderlich syndrome – hemi-hematocolpos – Mullerian anomaly – Wolffian anomaly – obstructive genital abnormality

Introduction

Herlyn-Werner-Wunderlich syndrome, sometimes referred to as the acronym OHVIRA (Obstructed Hemivagina and Ipsilateral Renal Anomaly) syndrome, is a rare congenital anomaly of the Mullerian (paramesonephric) and Wolffian (mesonephric) ducts. The anomaly is defined by a triad of congenital defects of female urogenital tract – homolateral renal agenesis, uterus duplex and obstructed hemi-hematometrocolpos [1,2].

This anomaly was first described as an anatomical disorder in 1922, but the designation of this syndrome is based on two articles, in the first of which Herlyn and Werner described ipsilateral kidney aplasia, uterus didelphys and Gartner duct cyst, and in the second article Wunderlich reported a rare anatomical anomaly of the absence of the right kidney and a bicornuate uterus and a unilateral blind hematocervix [3–5].

The incidence varies from 0.1–3.8% [6]. To date, etiology of Mullerian duct anomalies remains uncertain, because it is a heterogeneous complex characterized by a variety of clinical forms with the absence of genotype-phenotype correlation [7].

Generally, clinical and reproductive outcomes after drainage of the hematometrocolpos are reported to be good [2].

1. Pre-surgery imaging. A) A schematic picture showing uterus didelphys with obstructed left hemihematocolpos represents transabdominal coronal view (B) of uterus didelphys with hematometra (red dotted lines) in combination with blood fi lled left hemivagina (orange dotted line). C) Transabdominal 3D ultrasound virtual contrast imaging of the uterus in coronal view shows left hemicervix communicating with dilated left blind ending hemivagina (yellow dotted line).
Pre-surgery imaging. A) A schematic picture showing uterus didelphys with obstructed left hemihematocolpos represents transabdominal coronal view (B) of uterus didelphys with hematometra (red dotted lines) in combination with blood fi lled left hemivagina (orange dotted line). C) Transabdominal 3D ultrasound virtual contrast imaging of the uterus in coronal view shows left hemicervix communicating with dilated left blind ending hemivagina (yellow dotted line).
Obr. 1. Predoperačné zobrazenie. A) Schematický obrázok znázorňujúci uterus didelphys s obštrukciou ľavého hemihematokolposu v porovnaní s transabdominálnym zobrazením (B) uterus didelphys v koronárnom reze s hematometrou (červená bodkovaná čiara) v kombinácii s krvou naplnenou hemivaginou (oranžová bodkovaná čiara). C) Transabdominálne 3D virtuálne kontrastné zobrazenie maternice v koronárnom reze zobrazujúce ľavý hemicervix komunikujúci s dilatovanou ľavou, slepo zakončenou hemivaginou (žltá bodkovaná čiara).

Case report

A 13-year-old female was presented to our department complaining of pelvic pain, 4-month history of dysmenorrhea and finding a hemorrhagic cyst on the left ovary. Her family history was insignificant. She was treated for epilepsy from the age of 6. Exposure to drugs, cigarettes and alcohol was negative. Her menarche was 4 months ago, with a regular but painful period. At the gynecological pelvic examination there was palpable painful resistance on the left vaginal wall. Speculum examination revealed swelling in the left vaginal vault. Upon the patient’s admission, an ultrasound examination was performed using an ultrasound system Voluson E 10 (GE Medical Systems Milwaukee, WI) equipped with a convex 4–8 MHz abdominal transducer (RAB 4–8L) and 5–9 MHz endocavity volume probe (RIC 5–9D). It revealed absence of the left kidney. Transvaginal ultrasonography revealed uterus didelphys with a single vagina and laterally, close to the left side of the vagina, a unilocular 104 × 58 mm cystic lesion with homogeneous ground glass echogenicity (Fig. 1). The cystic lesion was suspicious for hemi-hematocolpos, communicating with the left uterine cavity (dilatation 13 mm). Both ovaries were visualized and appeared normal. Due to the above mentioned ultrasound diagnosis, we assumed Herlyn-Werner--Wunderlich syndrome.

Under general anesthesia in a gynecological position, we performed a speculum examination during which the single vagina with one uterine cervix and livid bulging of the left lateral vaginal vault (hemivagina) was visualized. The right cervix was not seen, but was palpable in the sacral position on the right side of the vagina. Due to findings, we decided to create a permanent communication between the left hemi-hematocolpos and the normal vagina in order to ensure adequate drainage of the left uterus in the future. Left vaginal wall in place of the greatest bulging was grasped with Allis forceps and an opening with scissors was made (septostomy). After the incision was enlarged (Hegar dilator 5), sounding of the cervical canal and cavity of the left uterus was performed – directed obliquely to the left (ultrasound guided). The menstruation blood was aspirated by a vacuum. Using a hamornic scalpel, the opening was enlarged and the communication between the two vaginas was made. The edges of the opening were covered with a Surgicel absorbable hemostat and attached with four polyglactin 910, braided, 2-0 stitches. The 20 G Foley catheter was inserted into the left hemicolpos to maintain drainage and communication continuity.

Transvaginal ultrasound on the 1st day after surgery showed the following: the uterus was doubled, the uterus on the right was 73 × 27 mm, endometrium was 2 mm, the left uterus was 71 × 24 mm, endometrium was 1.7 mm, the right uterus connected to the right vagina, and the uterus on the left opened into the blind-ending vagina, which was atretic in the distal third of the blind-ending vagina. Inside of the left hemivagina was a balloon of the Foley catheter that properly drained the entire hematometrocolpos area (Fig. 2). The catheter was removed from the hemi-hematocolpos on the second postoperative day. The patient was discharged on the 3rd postoperative day. After surgery, she had normal regular menstrual periods.

2. Post-surgery imaging. Transabdominal virtual contrast imaging OmniView image showing uterus with two horns (red dashed line), two normal non-dilated cavities (pink dashed lines), and a Foley balloon (yellow dotted line) inserted in an empty hemivagina.
Post-surgery imaging. Transabdominal virtual contrast imaging OmniView image showing uterus with two horns (red dashed line), two normal non-dilated cavities (pink dashed lines), and a Foley balloon (yellow dotted line) inserted in an empty hemivagina.
Obr. 2. Pooperačné zobrazenie. Transabdominálne virtuálne kontrastné zobrazenie OmniView maternice s dvoma rohmi (červená prerušovaná čiara), dvoma normálnymi nedilatovanými dutinami (ružová prerušovaná čiara) a Foleyovým balónikom (žltá prerušovaná čiara) inzerovaným do prázdnej hemivaginy.

Discussion

The pathogenesis of OHVIRA or HWW syndrome has been related to impaired development of both paramesonephric (Mullerian) and mesonephric (Wolffian) ducts [7,8].

During normal embryogenesis, by the eighth week of gestation, the Mullerian ducts migrate to the midline and fuse to form the uterus, cervix and upper vagina. The cranial end of the fused ducts forms the future uterus and cervix; the caudal end approaches the posterior wall of the urogenital sinus to form the Mullerian tubercle, which will form the upper two-thirds of the vagina. The Wolffian ducts induce the normal development of Mullerian ducts in addition to giving origin to the kidneys [9]. This explains why renal tract anomalies are associated with MDA in approximately one third of cases. Abnormal development of the Wolffian ducts leads to unilateral renal agenesis and imperforate hemivagina, which is associated with OHVIRA syndrome. On the side where the Wolffian duct is absent, the Mullerian duct is displaced laterally and cannot fuse with the contralateral duct, resulting in uterus didelphys with fully developed uterine bodies and two cervices. However, the displaced Mullerian duct that cannot come into contact with the urogenital sinus leads to an imperforate or obstructed hemivagina [10].

HWWS covers all three main types of genitourinary malformations. European Society of Human Reproduction and Embryology (ESHRE) and the European Society for Gynecological Endoscopy (ESGE) traditionally classifies the congenital anomalies of the HWWS as U3c (bicorporal uterus, bicorporal septate), C2 (double ‘‘normal’’ cervix), and V2 (longitudinal obstructing vaginal septum). However, Chinese classification of the HWWS based on morphological features of the vaginal septum, first reported by Bian et al. in a Chinese-written manuscript, classify the vaginal septum into three types:

  • type I, with an imperforate vaginal septum;
  • type II, with a perforate vaginal septum;
  • type III, with an imperforate vaginal septum and a cervical fistula.

This classification is not widely used in English-written literature. Based on the newest study of HWWS patients from Zhu et al. in 2022, HWWS can be classified into two new types. The classification includes two main classes with subtypes.

Classification 1 contains a completely obstructed hemivagina with blind hemivagina (type 1.1) or cervicovaginal atresia without communicating uteri (type 1.2). Classification 2 comprises of an incompletely obstructed hemivagina either with partial reabsorption of the vaginal septum (type 2.1) or with communicating uteri (type 2.2) [11].

The most common clinical findings in HWWS are pelvic pain, dysmenorrhea and palpable mass due to the hematocolpos or hematometra. Pelvic pain is generally intermittent and worsens during menses. Primary amenorrhea, dyspareunia, urinary retention, spontaneous rupture of the hematocolpos, infertility, and obstetric complications are less common manifestations. Most patients present with non-specific post-pubertal symptoms, generally from 2 to 12 months after menarche. The manifestations are more painful when there is complete obstruction. If there is no complete obstruction, symptoms may be delayed or be mild. Pelvic endometriosis and pelvic infection are common complications [6,9,12]. Tong et al. reported that 18 out of 94 patients with HWWS in their study were diagnosed with pelvic endometriosis. The occurrence of pelvic endometriosis was significantly higher in patients that had HWWS with complete hemivaginal obstruction than in those with incomplete obstructions [6]. In the case of HWWS, the pathophysiological mechanism of endometriosis is retrograde menstruation [11]. Moreover, out of these 18 patients, 14 had ovarian endometrial cysts ipsilateral to the vaginal septum and 4 had bilateral ovarian endometrial cysts. The principal findings of their study are that pelvic endometriosis in adolescents should be highly suspected with an obstructive genital abnormality, and thus there could exist a close relationship between pelvic endometriosis and HWWS. Therefore, early diagnosis and subsequent treatment is very important to prevent the development of severe endometriosis in young women [6,12].

 

Conclusion

Like our case, patients with pelvic pain, dysmenorrhea and palpable mass are sent to the hospital for surgical treatment of an apparent hemorrhagic ovarian cyst; however, in the case of a preoperative misdiagnosis, the improper surgical procedure can cause significant bleeding from the uterus, while such cases often end in a hysterectomy, and this damages the reproductive health of the woman. Sometimes thinking out of the box is appropriate. It is recommended to implement procedures and treatment strategies from different specialties.

 

ORCID authors

E. Dosedla 0000-0001-8319-9008

Z. Ballová 0000-0002-0605-948X

P. Gašparová 0000-0002-6354-6911

M. Sitáš 0000-0002-7273-1051

P. Calda 0000-0002-2903-5026

 

Submitted/Doručené: 20. 6. 2023
Accepted/Prijaté: 17. 8. 2023

Assoc. Prof. Erik Dosedla, MD, PhD
Department of Gynaecology and Obstetrics
Faculty of Medicine
Pavol Jozef Safarik University
Hospital AGEL Košice-Šaca Inc.
Lúčna 57
040 15 Košice-Šaca
Slovak Republic
erik.dosedla@nke.agel.sk


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Labels
Paediatric gynaecology Gynaecology and obstetrics Reproduction medicine

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Czech Gynaecology

Issue 6

2023 Issue 6

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