Ovarian suspension loop: an assembled device for ovarian lifting and immobilization during laparoscopic cystectomy
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Video Article
P: 126-129
June 2022

Ovarian suspension loop: an assembled device for ovarian lifting and immobilization during laparoscopic cystectomy

J Turk Ger Gynecol Assoc 2022;23(2):126-129
1. Trauma and Injury Research Center, Iran University of Medical Sciences, Tehran, Iran
2. Department of Obstetrics and Gynecology, Bahonar Farhangian Hospital, Tehran, Iran
3. Department of Obstetrics and Gynecology, Good Samaritan Medical Center, Brockton, Massachusetts, United States of America
4. Department of Obstetrics and Gynecology, Bank-e-Melli Iran Hospital, Tehran, Iran
5. Division of Biomedical Engineering, College of Engineering, University of Saskatchewan, Saskatoon, Canada
6. Student Research Committee, Iran University of Medical Science, Tehran, Iran
7. Department of Obstetrics and Gynecology, University Hospital of Schleswig Holstein, Campus Kiel, Kiel, Germany
8. Ministry of Health and Medical Education, Tehran, Iran
No information available.
No information available
Received Date: 04.12.2021
Accepted Date: 20.03.2022
Publish Date: 01.06.2022
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ABSTRACT

The mobility and smooth surface of the ovaries can pose a challenge during laparoscopic cystectomy, with difficulties in manipulation and visualization. We describe assembling a device for ovarian lifting and immobilization that utilizes a nylon suture and a “scalp vein set” to create a loop. The loop can be passed into the pelvic cavity and then slid beneath the ovary, elevating and stabilizing it during surgery without the need to puncture the ovarian tissue or grabbing and damage the utero-ovarian infundibulopelvic ligaments. This device is inexpensive, and its components are easily accessible. This assembled device prevents repetitive falling of the ovary into the pelvic cavity, facilitates laparoscopic ovarian cystectomy, and saves operative time.

Keywords:
Ovary, adnexal cyst, ovarian cystectomy, adnexal mass, suspension loop, ovarian lifting

Introduction

It is widely recognized that laparoscopic surgery for gynecologic disorders confers many benefits (1), but sometimes there are difficulties in manipulating the ovaries during minimally invasive surgery (2), especially in robotic surgery (1). Problems arise from the fact that ovaries can be very mobile due to their slightly flexible attachments to the utero-ovarian and infundibulopelvic ligaments. Also, the convex and smooth surface of the ovary often makes them slippery, preventing them from being grasped easily with laparoscopic instruments. Meanwhile, gripping the utero-ovarian and infundibulopelvic ligaments with a grasper can cause damage to these relatively delicate structures. Therefore, laparoscopic handling of the ovaries can represent a challenge for many gynecologists. At times it can take an excessive amount of time during a laparoscopic cystectomy to keep the ovary relatively immobilized in order to open the cortex (2,3).

One approach utilized by some surgeons is to place a laparoscopic device, such as a grasper, under the ovary, in order to raise it and prevent it from falling back to the pelvic floor. Some surgeons grasp the utero-ovarian or infundibulopelvic ligament to lift or immobilize the ovary. However, if this is not done cautiously, the grasper can damage these structures. Furthermore, using an instrument in this manner occupies one of the ports (2,3). Ovarian suspension with adjustable sutures with penetration of the cyst or ovarian parenchyma is another solution that has been used (4,5).

Material and Methods

This study aims to describe assembling a device for ovarian lifting and immobilization that utilizes a nylon suture and a “scalp vein set” to create a loop that can be passed into the pelvic cavity. The only required equipment for assembling a loop is a nylon suture 0 or 1, and a “scalp vein set”; any size can be used. The scalp vein catheter tube diameter is smaller than the intravenous line tube and it is easier to pass through the port (Figure 1a). Dependent on the thickness of the abdominal wall, a length of about 25-35 centimeters (cm) of the nylon thread is cut. Also, depending on the length of the mesovarium, about 8-12 cm of the catheter tube of the scalp vein set is cut (Figure 1b). The nylon thread then passed through the catheter tube, and the two ends are tied to make a loop. The knot can be pushed into the catheter tube to be hidden (Figure 1c). The assembled device is now sent into the pelvic cavity through one of the laparoscopic ports (Figure 2a). The abdominopelvic wall is checked for a suitable location to insert a fascial closure device for suspending the ovary. The nylon-string end is then grasped and withdrawn by the fascial closure device and secured to the skin surface by a Kelly clamp (Figure 2b-d). The two ends of the catheter tube are held by two grasping forceps to slide the loop beneath the ovary and elevate it (Figure 2e,f). The tension on the string, and therefore the ovary, can be adjusted as needed. It is, of course, essential to avoid excessive traction of the adnexa so as not to interfere with the ovary’s blood supply. Later, the ovary is released after surgery accomplishment, and then one of two strands of the nylon thread is cut above the skin, and the other one pulls out. Then, the catheter tip is grasped and taken out from the port (Figure 3a,b). The video shows how the surgeon lifts and immobilizes the ovary during cystectomy surgery using an assembling device (Video 1).

Figure 1
Figure 2
Figure 3

Video file: Thirty one year-old female, gravida 1, para 1 with  previous history of cesarean section who was referred with the complaint of left lower pelvic pain for two months. Sonography revealed a 5-6 cm dermoid cyst in the left ovary. During laparoscopic cystectomy, the ovarian suspension loop effectively prevented repetitive falling of the ovary into the pelvic cavity and provided relative stability of the ovary during manipulation.

Conclusion

The ovarian suspension loop effectively prevents repetitive falling of the ovary into the pelvic cavity. It provides relative stability of the ovary during manipulation without any penetration of the cyst or ovarian parenchyma (Figure 4a,b). This device is inexpensive, and its components are easily accessible. By using this assembled device, laparoscopic ovarian cystectomy facilitates and saves operative time.

Figure 4

Video 1. This shows how the surgeon lifts and immobilizes the ovary during cystectomy surgery using an assembling device

https://www.doi.org/10.4274/jtgga.galenos.2022.2021.10-12.video1

References

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Lin P, Falcone T, Tulandi T. Excision of ovarian dermoid cyst by laparoscopy and by laparotomy. Am J Obstet Gynecol 1995; 173: 769-71.
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Fagotti A, Fanfani F, Rossitto C, Marocco F, Gallotta V, Romano F, et al. Laparoendoscopic single-site surgery for the treatment of benign adnexal disease: a prospective trial. Diagn Ther Endosc 2010; 2010: 108258.
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Garg P, Misra S, Thakur JD, Song J. Single incision laparoscopic surgery ovarian cystectomy in large benign ovarian cysts using conventional instruments. J Minim Access Surg 2011; 7: 232-5.
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Chen KH, Chen LR, Seow KM. Ovarian Suspension With Adjustable Sutures: An Easy and Helpful Technique for Facilitating Laparoendoscopic Single-Site Gynecologic Surgery. J Minim Invasive Gynecol 2015; 22: 767-75.