Clinical Trial Details
— Status: Not yet recruiting
Administrative data
NCT number |
NCT02487134 |
Other study ID # |
PrevMesh |
Secondary ID |
|
Status |
Not yet recruiting |
Phase |
N/A
|
First received |
|
Last updated |
|
Start date |
January 1, 2025 |
Est. completion date |
June 30, 2026 |
Study information
Verified date |
April 2024 |
Source |
Karolinska Institutet |
Contact |
Gabriel Sandblom, Ass Prof |
Phone |
+46704158218 |
Email |
gabriel.sandblom[@]ki.se |
Is FDA regulated |
No |
Health authority |
|
Study type |
Interventional
|
Clinical Trial Summary
Patients with at least two risk factors for incisional hernia undergoing abdominal surgery
are eligible for inclusion. After accepting informed consent, patients are randomized into
either closing the abdominal wall in a regular way with fascial sutures, or closing with
fascial sutures together with placing a TIGR mesh as described. All patients are then
monitored for signs of infection, wound rupture, incisional hernias, subcutaneous seroma as
well as postoperative symptoms. All patients will be followed for at least 5 years. One year
postoperatively, a computer scan is performed to detect asymptomatic incisional hernias.
Description:
Purpose and aims
Wound dehiscence (WD), i.e. the rupturing of the wound along sutures, and incisional hernias
(IH), i.e. protrusion of the peritoneum with its contents through the incompletely healed
abdominal wall, are common and potentially serious complications after abdominal surgery.
Various medical reports indicate that 10-35% of all laparotomy patients suffer from wound
complications, leading to extended hospital stay and severe patient morbidity. One approach
to mitigate this problem is to use prophylactic surgical mesh at surgery in order to
reinforce the suture line. Conventional surgical meshes commonly composed of polypropylene
have been successfully demonstrated to reduce the incidence of IH by approximately 70%.
However, a synthetic polypropylene mesh is a permanent implant, which may cause chronic
inflammation, seroma, pain and infection. Furthermore, if additional surgery is necessary,
the implanted polypropylene mesh complicates the procedure.
A solution to the problem of suture reinforcement is the use of a resorbable (biologically
degradable) non-permanent mesh that provides structural support during the healing phase,
while gradually being absorbed. The TIGR Matrix Surgical Mesh is a completely synthetic
resorbable mesh that has the desired properties for use in non-permanent wound reinforcement.
The patented TIGR mesh is a weave of two different types of fibers, one fast and one slowly
resorb able. This allows for resorbtion to take place in two distinct stages. The fast fiber
is a copolymer of glycotide, lactide and trimethylene carbonate, while the slow fiber is a
copolymer of lactide and trimethylene carbonate. The two-stage resorbtion of the matrix
provides for initial high strength wound support, with gradual loss of mechanical strength as
the fibers are degraded. The fast fibers lose mechanical strength after two weeks, with full
resorbtion in approximately four months; the slow fibers lose mechanical strength after 9
months, with full resorbtion following 3 years.
The TIGR® Matrix Surgical Mesh has been evaluated in animal models and has been included in
clinical studies for abdominal wall repair and breast surgery. A pilot study with the use of
the TIGR® mesh has successfully demonstrated its safety in prevention of IH.
In order to extend the clinical use of the TIGR mesh for prophylactic management of WD and
IH, we intend to carry out a multicenter randomized clinical study to further evaluate the
safety and effectiveness of the TIGR® mesh in patients with increased risk of developing
post-surgical wound complications. The intended study will have the impact of widespread
prophylactic use of the TIGR mesh in surgery worldwide, resulting in significantly decreased
hospital costs and improved quality of life for patients.
Table 1. Risk factors for incisional hernia
- Reoperation
- Age over 80 years
- Generalised malignant decease (presence of distant metastases at the time of surgery)
- COPD (Chronic obstructive pulmonary disease). Grade III-IV according to the GOLD
classification (FEV1 < 50% of the expected)
- Serum Albumin level <20 g/l
- Sepsis. Infection in combination with two or more of the following: abnormal body
temperature, heart rate, respiratory rate or blood gas, and white blood cell count.
- BMI 35-45 (for patients with BMI>45, no additional risk factors are required for
inclusion)
- Hemoglobin <80 g/l
- Diabetes with secondary complications (angiopathia, nephropathia or neuropathia) and
insulin treatment
- Steroid treatment (with at least 1 mg betamethasone daily or equivalent) for 7 days
preoperatively
- Smoking (at least 10 cigarettes a day for one year)
- Chemotherapy (last administration within 2 weeks prior to surgery
- Radiation therapy of the abdominal wall
Project description
Population Patients with at least two risk factors (Table 1) for incisional hernia undergoing
laparotomy
Intervention Reinforcement of the suture line with TIGR® Matrix Surgical Mesh in order to
prevent incisional hernia and wound dehiscence
Control Abdominal closure with PDS 2/0, with a wound to suture ratio of 1:4, without mesh
reinforcement.
Outcome Primary outcome: postoperative incisional hernia, diagnosed at clinical controls 1,2
and 5 years postoperatively or at computer tomography 1 years postoperatively.
Design (according to the CONSORT checklist)
3a Trial design Single-blind randomised controlled trial
4b Study settings Ten surgical units participating in the study.
5 Interventions Patients randomized to suture line reinforcement undergo the abdominal
surgery as planned. After closing the aponeurosis with PDS 2/0, a 7 cm wide TIGR® Matrix
Surgical Mesh is applied on the aponeurosis for patients randomised to suture line
reinforcement. The mesh is sutured to the aponeurosis with continuous PDS 2/0, with a wound
to suture ratio of 1:4.
6a Outcomes Primary outcome
• Incisional hernia
Secondary outcomes:
- Time to discharge
- Postoperative wound dehiscence
- Postoperative seroma
- Postoperative infection
- Incisional hernia (including date confirmed)
- Health-related quality of life assessed with Ventral Hernia Pain Questionnaire (VHPQ) 7a
Sample size Patients with at least two risk factors are expected to have a risk of at
least 10 % to develop an incisional hernia after one year if no prophylactic mesh is
used.7 If a prophylactic mesh reduces this risk to 1.5% one year after surgery, 90
patients in each group with complete data are required to achieve a chance of 80% to
detect a difference at the p<0.05 level. In order to compensate for drop-outs and death
before end of follow-up, a total of 100 patients would be required in each group.
8a Randomisation: sequence generation The random allocation sequence will be generated
by computer. No blocking will be done.
9 Randomisation: allocation concealment mechanism The surgeon responsible for the
procedure will be informed about the allocation, but not the personnel responsible for
the postoperative care of the patient. The intervention, i.e. the application of the
mesh, will be performed during the procedure and documented separately.
10 Randomisation: implementation The patients will be performed about the study prior to
the procedure by the surgeon responsible for the procedure.
11a Blinding The patient, the crew responsible for postoperative care and the surgeon
who does the follow-up are blinded to the allocation.
12a Statistical methods The risk of postoperative wound dehiscence within thirty days
after surgery will be analysed with chi-two test. The risk of incisional hernia will be
tested with Kaplan-Meier statistics.
12b Additional analyses Subgroup analyses will be performed for patients who undergo
abdominal surgery through other approaches than midline incision and based on the risk
factors listed in Table 1.
Significance If the study shows a significant reduction in the incidence of WD and IH without
a substantial increase in the risk of would complications, it may have a very great impact on
how wound closure is practiced. Applying an onlay mesh requires little efforts in terms of
technical skills and time and the mesh can be produced at very low cost if the market becomes
large enough. If the risk of developing IH and WD can be reduced with resorbable mesh to the
same extent as with a permanent mesh,1 health care costs may be reduced substantially8 and
health-related quality of life improved for a large group.