Introduction

Trocar site hernia (TSH) is an uncommon complication after laparoscopic surgery, but it may potentially require surgical intervention. The available data have shown the importance of prediction and prevention; the optimal surgical approach for TSH remains unclear, and its long-term outcome is scarcely available. Here, we present a case of a lateral TSH after laparoscopic incisional hernia repair, which was successfully repaired using the onlay technique with a self-gripping mesh.

Case presentation

A 74-year-old woman presented with an abdominal incisional hernia at the midline after an open cholecystectomy. She underwent laparoscopic surgery for incisional hernia with intraperitoneal onlay mesh repair. Fascial closure was performed for trocar sites. After 12 months, she noticed a painful bulge in the left upper quadrant suggestive of TSH. At the time of diagnosis, her body mass index was 32 kg/m2. TSH repair was performed under general anesthesia. A 3 × 3 cm defect was identified, and the hernial content was found to be the omentum. Defect closure was performed using interrupted sutures followed by placement of a self-gripping mesh (11 × 11 cm in size, obtaining a 4-cm overlap for the defect). The operative time was 80 minutes. The postoperative course was uneventful except for a spontaneously resolved seroma. Computed tomography scan at the 1-year follow-up and physical examination at the 2-year visit showed no recurrence.

Conclusion

Our proposed onlay repair using self-gripping mesh may be considered as the treatment of choice for cases of lateral TSH after laparoscopic incisional hernia repair.

Trocar site hernia (TSH) is an uncommon complication after laparoscopic surgery but potentially requires emergent surgery because of hernial incarceration through small fascial defects.1,2  The incidence of TSH is generally 0 to 5.2%.1,38  whereas a wide variety of incidences (0.7%–22%) has also been reported in patients who underwent laparoscopic ventral hernia repair.3,9,10  The risk factors of TSH included higher body mass index, female sex, older age, wound infection, longer operative time, trocar location, larger trocar or mesh size, lack of fascial closure, and stretching of the trocar site during surgery.2,46,8,9  Preventive measures against TSH are represented by fascial closure for trocar sites ≥10 mm,35,8,1012  whereas some specific devices reportedly have been effective.1315  Although the available data have shown the importance of prediction and prevention, the optimal surgical approach for TSH remains unclear, and its long-term outcome is scarcely available.2 

Here, we present a case of lateral TSH after laparoscopic incisional hernia repair, which was successfully repaired using the onlay technique using a self-gripping mesh.

History of illness

Written informed consent was obtained from the patient for publication of this case report and accompanying images. A 74-year-old woman presented with an abdominal incisional hernia at the midline after open cholecystectomy. She underwent laparoscopic incisional hernia repair with a three-port setting (12 mm at the Palmer point,16  12-mm trocar in the left lateral, and 5 mm in the left lower quadrant). A 12-mm trocar was inserted using the open Hassan technique. A 25 × 20 cm multifilament polyester mesh (Symbotex composite mesh, Medtronic Plc, Dublin, Ireland) was placed for the defect. Fascial closure with purse-string suture was performed for the 12-mm trocar sites using absorbable material (2-0 Vicryl, Ethicon Inc, Cincinnati, Ohio). There were no postoperative complications. After 12 months, she noticed a painful bulge in the left upper quadrant. Physical examination suggested TSH at the Palmer point and computed tomography (CT) confirmed the diagnosis (Fig. 1). Thus, the location of TSH was categorized as L1 according to the classification of the European Hernia Society.17  Because of persistent pain and anxiety associated with the risk of incarceration, we decided to perform an elective surgery for TSH repair. At the time of TSH diagnosis, she was 150 cm in height and 72 kg in weight, with a body mass index of 32 kg/m2.

Surgical technique

Under general anesthesia, surgery was performed in the supine position. A 4-cm transverse skin incision was made at the TSH site, and the subcutaneous tissue was dissected. A 3 × 3 cm defect was identified, and the hernia sac was circumferentially exposed (Fig. 2a). The hernia sac was opened, and adhesiolysis was performed. The hernial content was found to be the omentum (Fig. 2b). The hernia sac was ligated and the defect was closed by interrupted sutures using nonabsorbable suture (1-nylon) with tissue bits of 1 cm and intersuture spacing of 5 mm (Fig. 2, c and d). Subsequently, a self-gripping mesh (Progrip, Medtronic) was trimmed to 11 × 11 cm in size, obtaining a 4-cm overlap for the defect. The mesh was placed over the closed defect and secured to the fascia in 4 quadrants using absorbable sutures (3-0 Maxon, Medtronic; Fig. 2e). The estimated blood loss was 10 mL, and the operative time was 80 minutes.

Postoperative course and follow-up

The immediate postoperative course was uneventful, and the patient was discharged on the fourth day after the surgery. She received daily oral analgesics for 2 weeks. There was no wound infection or septic complications. She developed a radiographically confirmed seroma with minimal feeling of bulge, which spontaneously resolved within 3 months. CT was performed 1 year after the TSH repair and there was no hernia recurrence, seroma, or hematoma (Fig. 3). At the 2-year visit after TSH repair, no hernia recurrence was found on physical examination.

In this report, TSH repair of the lateral side was successfully performed by the onlay technique using a self-gripping mesh, and there was no hernia recurrence at midterm follow-up. As shown in the literature,46,8,9  this case had multiple risks of TSH at the time of laparoscopic incisional hernia repair, such as higher body mass index, female sex, older age, larger trocar, and larger mesh size. Most TSH occurs at the umbilical site,4,5,12  whereas TSH can be found at the lateral side in patients who underwent laparoscopic ventral hernia repair.2,3,9  This patient developed TSH in the left upper quadrant (Palmer point16 ), and the trocar size was 12 mm. Although the patient's characteristics and operative settings were unavoidable at the time of laparoscopic surgery, attempts to prevent TSH may be considered in terms of the following points.

First, the method of trocar insertion and closure can be modified. The trocar was inserted under direct vision and closed by purse-string suture using absorbable material. Sikar et al3  showed that trocar insertion with sharp dissection and closure with continuous suture significantly decreased TSH occurrence on the lateral side, compared with blunt dissection and z-shaped closure (18.2% versus 0.8%). Therefore, continuous suture would be preferable to purse-string sutures. Second, a prophylactic mesh may be used at the time of laparoscopic surgery for high-risk patients. Armañanzas et al15  showed that the prophylactic mesh for fascial closure of the umbilical trocar site significantly reduced the incidence of TSH (4.4%) compared with suture alone (31.9%), up to 1-year follow-up. In that study, high-risk patients were defined as those 65 years and older, with diabetes mellitus, chronic pulmonary disease, and obesity (body mass index ≥30 kg/m2). As the European Hernia Society guideline commented,11  larger studies are needed to apply this technique with stronger recommendations. Third, the use of new devices may be considered for fascial closure. In general, the fascial defect of trocar sites ≥10 mm is closed either manually or using fascial closure (suture passing) devices.35,8,1012  Recently, a randomized controlled trial showed that a novel anchor-based system (neoClose device, Neosurgical, Newton, Massachusetts) decreased closure time, pain, and needle depth compared with standard suture passer.13  In that study, there was no TSH at the 1-year follow-up in either the new device group or the control group. A larger cohort with long-term follow-up is necessary to elucidate its significance in reducing the incidence of TSH.

In this case, we selected the onlay technique for TSH repair. The main reasons for selecting this technique were the obesity of the patient and TSH secondary to laparoscopic incisional hernia repair. Given the higher incidence of TSH after laparoscopic ventral hernia repair,3,9,10  we excluded laparoscopic repair, considering the potential risk of TSH at new trocar sites. For the anterior approach, sublay repair would be optional. Nevertheless, the nonmidline location of TSH (L1) made it difficult to decide whether the onlay or sublay approach was suitable in this case. Onlay technique is supposed to be easier and quicker to perform, whereas hernia recurrence and surgical site infection favor the sublay technique.18  The sublay technique can be performed for lateral incisional hernia19 ; however, dissection through several muscle layers may be complex in cases of previous infection and adhesions.18 

In addition, we used a commercially available self-gripping mesh along with the onlay technique. Self-gripping mesh allows enhanced tissue adhesion, minimal suture fixation, minimal mesh fixation time, reduced risk of migration, and decreased chronic pain.20  Hopson and Miller21  demonstrated that onlay repair using self-gripping mesh was a viable treatment for large ventral hernia, with no recurrence at 2 years. Moreover, we previously reported the effectiveness of a self-gripping mesh with an anterior component separation technique in a case series.22  Therefore, we applied a self-gripping mesh with the onlay technique in this case. The surgical procedure was technically simple and did not cause any major postoperative complications, except for seroma.

However, the long-term outcomes of this technique remain unknown. Kwon et al2  reported a 29.4% recurrence rate after TSH repair, and the mean duration between TSH repair and hernia recurrence was 32 months (range, 20–49 months). In that study, mesh reinforcement was applied to 58.8% of the patients at TSH repair, suggesting that mesh did not efficiently preclude hernia recurrence. We will continue to follow up with the patient to assess long-term complications, durability of the mesh, and hernia recurrence. In conclusion, our proposed onlay repair using self-gripping mesh may be considered as the treatment of choice for a case of lateral TSH after laparoscopic incisional hernia repair.

The authors declare that there is no conflict of interest. This case report received no specific funding in any form.

1. 
Helgstrand
 
F,
Rosenberg
 
J,
Kehlet
 
H,
Bisgaard
 
T.
Low risk of trocar site hernia repair 12 years after primary laparoscopic surgery.
Surg Endosc
2011
;
25
(11)
:
3678
3682
2. 
Kwon
 
YH,
Choe
 
EK,
Ryoo
 
SB,
Kim
 
JK,
Park
 
KJ.
Long-term surgical outcome of trocar site hernia repair.
Am Surg
2017
;
83
(2)
:
176
182
3. 
Sikar
 
HE,
Çetin
 
K,
Eyvaz
 
K,
Altin
 
Ö,
Kaya
 
S,
Gökçeimam
 
M
et al.
Lateral sided trocar site hernia following laparoscopic hernia repair: results of a long-term follow-up.
Hernia
2019
;
23
(1)
:
101
106
4. 
Swank
 
HA,
Mulder
 
IM,
la Chapelle
 
CF,
Reitsma
 
JB,
Lange
 
JF,
Bemelman
 
WA.
Systematic review of trocar-site hernia.
Br J Surg
2012
;
99
(3)
:
315
323
5. 
Helgstrand
 
F,
Rosenberg
 
J,
Bisgaard
 
T.
Trocar site hernia after laparoscopic surgery: a qualitative systematic review.
Hernia
2011
;
15
(2)
:
113
121
6. 
Nofal
 
MN,
Yousef
 
AJ,
Hamdan
 
FF,
Oudat
 
AH.
Characteristics of trocar site hernia after laparoscopic cholecystectomy.
Sci Rep
2020
;
10
(1)
:
2868
7. 
Zhu
 
YP,
Liang
 
S,
Zhu
 
L,
Sun
 
ZJ,
Lang
 
JH.
Trocar-site hernia after gynecological laparoscopic surgery: a 20-year, single-center experience.
Chin Med J (Engl)
2019
;
132
(22)
:
2677
2683
8. 
Tonouchi
 
H,
Ohmori
 
Y,
Kobayashi
 
M,
Kusunoki
 
M.
Trocar site hernia.
Arch Surg
2004
;
139
(11)
:
1248
1256
9. 
Boldó
 
E,
Perez de Lucia
 
G,
Aracil
 
JP,
Martin
 
F,
Escrig
 
J,
Martinez
 
D
et al.
Trocar site hernia after laparoscopic ventral hernia repair.
Surg Endosc
2007
;
21
(5)
:
798
800
10. 
Liot
 
E,
Bréguet
 
R,
Piguet
 
V,
Ris
 
F,
Volonté
 
F,
Morel
 
P.
Evaluation of port site hernias, chronic pain and recurrence rates after laparoscopic ventral hernia repair: a monocentric long-term study.
Hernia
2017
;
21
(6)
:
917
923
11. 
Muysoms
 
FE,
Antoniou
 
SA,
Bury
 
K,
Campanelli
 
G,
Conze
 
J,
Cuccurullo
 
D
et al.
European Hernia Society guidelines on the closure of abdominal wall incisions.
Hernia
2015
;
19
(1)
:
1
24
12. 
Wells
 
A,
Germanos
 
GJ,
Salemi
 
JL,
Mikhail
 
E.
Laparoscopic surgeons' perspectives on risk factors for and prophylaxis of trocar site hernias: a multispecialty national survey.
JSLS
2019
;
23
(2)
:
e2019.00013
13. 
Iranmanesh
 
P,
Rivera
 
AR,
Bajwa
 
KS,
Alibhai
 
M,
Snyder
 
BE,
Wilson
 
TD
et al.
Trocar site closure with a novel anchor-based (neoClose(®)) system versus standard suture closure: a prospective randomized controlled trial.
Surg Endosc
2020
;
34
(3)
:
1270
1276
14. 
Moreno-Sanz
 
C,
Picazo-Yeste
 
JS,
Manzanera-Díaz
 
M,
Herrero-Bogajo
 
ML,
Cortina-Oliva
 
J,
Tadeo-Ruiz
 
G.
Prevention of trocar site hernias: description of the safe port plug technique and preliminary results.
Surg Innov
2008
;
15
(2)
:
100
104
15. 
Armañanzas
 
L,
Ruiz-Tovar
 
J,
Arroyo
 
A,
García-Peche
 
P,
Armañanzas
 
E,
Diez
 
M
et al.
Prophylactic mesh vs suture in the closure of the umbilical trocar site after laparoscopic cholecystectomy in high-risk patients for incisional hernia: a randomized clinical trial.
J Am Coll Surg
2014
;
218
(5)
:
960
968
16. 
Palmer
 
R.
Safety in laparoscopy.
J Reprod Med
1974
;
13
(1)
:
1
5
17. 
Muysoms
 
FE,
Miserez
 
M,
Berrevoet
 
F,
Campanelli
 
G,
Champault
 
GG,
Chelala
 
E
et al.
Classification of primary and incisional abdominal wall hernias.
Hernia
2009
;
13
(4)
:
407
414
18. 
Timmermans
 
L,
de Goede
 
B,
van Dijk
 
SM,
Kleinrensink
 
GJ,
Jeekel
 
J,
Lange
 
JF.
Meta-analysis of sublay versus onlay mesh repair in incisional hernia surgery.
Am J Surg
2014
;
207
(6)
:
980
988
19. 
Veyrie
 
N,
Poghosyan
 
T,
Corigliano
 
N,
Canard
 
G,
Servajean
 
S,
Bouillot
 
JL.
Lateral incisional hernia repair by the retromuscular approach with polyester standard mesh: topographic considerations and long-term follow-up of 61 consecutive patients.
World J Surg
2013
;
37
(3)
:
538
544
20. 
Kapischke
 
M,
Schulze
 
H,
Caliebe
 
A.
Self-fixating mesh for the Lichtenstein procedure–a prestudy.
Langenbecks Arch Surg
2010
;
395
(4)
:
317
322
21. 
Hopson
 
SB,
Miller
 
LE.
Open ventral hernia repair using ProGrip self-gripping mesh.
Int J Surg
2015
;
23
(pt A)
:
137
140
22. 
Fukuda
 
R,
Tsujinaka
 
S,
Maemoto
 
R,
Takenami
 
T,
Toyama
 
N,
Rikiyama
 
T.
The use of self-gripping mesh with anterior component separation technique in incisional hernia repair: a case series.
Int J Surg Case Rep
2019
;
60
:
148
151