Ventral Hernia Clinical Trial
Official title:
LAPAROSCOPIC VENTRAL HERNIA REPAIR BY LIGHTWEIGHT POLYPROPYLENE MESH. A PROSPECTIVE ITALIAN MULTICENTRIC RANDOMIZED STUDY COMPARING TWO FIXATION DEVICES: TITANIUM SPIRAL TACKS vs ABSORBABLE TACKS
Background: Laparoscopic repair of ventral hernias has gained popularity, since many studies
and a recent meta-analysis have reported encouraging results and recurrence rates similar to
open repair. The choice of the mesh and fixation methods is of paramount importance during
laparoscopic approach, and nowadays, lightweight macropore meshes specifically designed for
laparoscopic approach represent the first choice in several studies, due to the
biomechanical properties and the optimal integration into the abdominal wall. No data with
statistical relevance exist on the choice of fixation methods.
Primary end point of the present Italian multicentric prospective randomized trial is to
evaluate the safety and effectiveness of two different tacks to fix the lightweight
polypropylene mesh (Physiomesh™) during laparoscopic incisional hernia repair: metallic
spiral tacks (Protack™) vs absorbable "U" shaped tacks (Securestrap™)
Design of the Study: 200 patients with ventral hernia will be randomized into two groups:
Group A patients will be submitted to laparoscopic repair by Physiomesh fixed by Protack;
Group B patients will be submitted to laparoscopic repair by Physiomesh fixed by
Securestrap.
Blind randomization will be guaranteed by an on-line software with specific key access for
every surgical unit participating in the study. Patients demographics and characteristics,
preoperative studies, intraoperative and postoperative results and complications, as well as
scheduled follow-up will be recorded and uploaded to the database. Data represented by
continuous variables will be expressed as arithmetic mean +/- standard deviation. Other data
will be expressed as geometric mean +/- 95% confidence interval. Data representing low
incidence events will be expressed as number and percentage of occurrence for each group.
Statistical significance for all analyses will be indicated by a p value of 0.05 or less.
BACKGROUND During the past 50 years, incisional and ventral hernia repair surgery has
evolved from direct suture repair to the use of synthetic mesh in order to obtain a
tension-free repair (1-3). Finally the tension-free concepts have been applied to
laparoscopic surgery. Laparoscopic repair of ventra/incisional hernias has gained increasing
popularity, since many studies and a recent meta-analysis and consensus conferences have
reported encouraging results, in terms of wound infection, hospital stay and post-operative
pain with recurrence rate comparable with open approach (1-7).
Patient selection (age, sex, comorbidities, obesity, hernia site and size, eventual
recurrence and type of previous abdominal surgery), choice of the mesh (bio-materials, size
and shape) and fixation methods (titanium tacks, absorbable tacks, fibrin glue) are
considered crucial issues in preventing recurrence and complications as well as patients
compliance and acceptance (4-5, 8-9). The choice of the mesh to implant is of paramount
importance, in open as well as in laparoscopic approaches. During the last decade, many
meshes and fixation devices have been proposed and tested as a tool to enhance primary and
incisional/ventral hernias repair (10-11). Light-weight meshes have been proposed in order
to reduce the mesh and/or mesh fixation related complications (12). Decreasing the density
of non-absorbable material a reduced "foreign-body response" has been postulated, resulting
in improved abdominal wall compliance, less mess shrinkage, thus allowing a better
integration in host tissues (13-14).
The "lightweight approach" is also based on the results of studies concerning the abdominal
wall biomechanics (15-16) suggesting the characteristics of the "ideal mesh" (elasticity,
tensile strength and pressure resistance) similar to the normal abdominal wall. The ideal
mesh, should be elastic enough to comply with the movements and elongation of the different
areas of the abdominal wall, yet rigid enough to avoid the herniation of the mesh itself,
and strong to resist in its position, without degradation, deformation (shrinkage) or
creation of defects, life-long.
Among the great amount of meshes and materials utilized for laparoscopic repair, macropore
lightweight polypropylene has been demonstrated to be more efficient than other materials
(including heavy weight polypropylene) in terms of inflammatory response and mesh
integration on host tissues (17-21). The other crucial issue inlaparoscopic repair is the
choice of the mesh fixation method: the most commonly used include metal spiral tacks set in
a double crown configuration (22-26). Absorbable tacks have been recently introduced (27) in
order to improve biocompatibility, reduce the risk of endoperitoneal adhesions due to the
presence of metallic tacks, and reduce mid- and long-term postoperative pain. The rationale
of the use of absorbable tacks in laparoscopic incisional/ventral hernia repairusing
lightweight macropore polypropylene meshes is in the biochemical and biomechanical mesh
features, since these meshes become well integrated into the abdominal wall and do not need
permanent fixation devices. To date, only two retrospective studies dealing with the
clinical use of absorbable tacks with lightweight macropore polypropylene mesh have been
published (28-29). The authors report similar results comparing absorbable vs non absorbable
tacks in terms of intraoperative and early post-operative results (29). These studies have
the pitfalls to be retrospective evaluation on a small series of patients, so the reported
results still need to be validated by larger series and prospective study.
THE PRIMARY END POINTS of this prospective multicentric randomized study are:
- compare mid and long-term results of the use of metallic tacks and absorbable tacks to
fix lightweight polypropylene mesh during laparoscopic incisional/ventral hernia
repair, in terms of hernia recurrence, in order to establish the safety and
effectiveness of absorbable tacks;
- compare intraoperative and early port-operative outcomes, in terms of surgical
complications, post-operative stay, return to normal life activities and pain
management.
METHODS/STUDY DESIGN The prospective randomized multicentric trial will involve 6 Surgical
Unit having large experience in laparoscopic incisional/ventral hernia repair and in the use
of lightweight polypropylene meshes and both metallic and absorbable tacks (out of the
learning curve).
The Referral Centre (General Surgery Unit, ICOT Hospital, Latina, Italy), will coordinate
the study and will be responsible of the data analysys and interim evaluation (12 months).
200 patients will be included in the study (see inclusion criteria on table 1), divided into
two groups based on an real-time randomization:
- Group A: patients candidate to laparoscopic incisional/ventral hernia repair by
lightweight polypropylrne mesh fixed by metallic tacks;
- Group B: patients candidate to laparoscopic incisional/ventral hernia repair by
lightweight polypropylene mesh fixed by absorbable tacks.
Blind Randomization will be guaranteed by a dedicated website having restricted access by a
password for each surgical unit participating in the study.
All patients will be evaluated by clinical examination, and abdominal CT scan or US scan, in
order to evaluate size and number of the defect(s).
All devices used in the study (meshes and tacks) will be:
- Physiomesh™ (Ethicon Endo-Surgery, Johnson & Johnson, Inc) a lightweight polypropylene
mesh with double face absorbable layer made to be placed on the peritoneal surface and
prevent adhesions with visceral structures;
- Protack™ (Covidien surgical, Mansfield MA, USA), permanent titanium spiral tacks;
- Securestrap™ (Ethicon Endo-Surgery, Johnson & Johnson, Inc), "U"-shaped absorbable
tacks made by polydioxanone, which are completely absorbed within 12-18 months after
implant.
All procedures will be carried out using the same surgical technique to implant and fix the
mesh (overlapping the defect for at least 3 cm on each side), with the tacks set in a double
crown configuration at the distance of 1,5 cm , no use of transfixed sutures or glue. After
surgery, compressive dressing will be placed for 4 weeks.
A record form (included at the bottom) will be filled for each patient, and sent to the
coordinating centre after the patient discharge.
Follow up schedule:
- 1 week (clinical evaluation)
- 4 weeks (clinical evaluation at dressing removal)
- 6 months (clinical evaluation or phone interview)
- 12 months (phone call and eventual clinical evaluation)
- 24 months after surgery (phone call and eventual clinical evaluation)
- 36 months after surgery (phone call and eventual clinical evaluation)
The following parameters will be evaluated:
- Patients characteristics (sex, age, comorbidities, personal therapy)
- Hernia features (location and size)
- Mesh size
- Type of tacks
- Number of tacks
- Operating time
- Post-operative course
- Post-operative complications (according to Clavien-Dindo classification)
- Acute Post-operative pain (using the Visual Numeric Scale for pain classification)
- Return to life activities
- Recurrence rates
- Chronic pain
Data represented by continuous variables (Age, operating time, etc.) will be expressed as
arithmetic mean +/- standard deviation. Because of its skewed nature, other data, such as
length of hospital stay, pain evaluated by Visual Numeric Scale, will be expressed as
geometric mean +/- 95% confidence interval (CI). Other data, such as wound infection, hernia
recurrence and other events having low incidence, will be expressed as number and percentage
of occurrence for each group.
Statistical significance for all analyses will be indicated by a p value of 0.05 or less.
Analysis will be performed by a dedicated software (SAS latest release for Windows).
Table 1: Inclusion criteria
Hernia site* M2 M3 M4 L2 L3 Hernia width* W1 W2 No previous vnetral/incisional hernia repair
(R0)* No incarcerated/strangulated hernia No contaminated field or bowel resection during
repair BMI < 35 Age between 18 and 75 years old No severe COPD No autoimmune disease under
corticosteroids treatment No cirrhosis Child B or C No uncontrolled diabetic (Glycated
Hemoglobin < 7)
*: According to: Muysoms FE, et al. Classification of primary and incisional abdominal wall
hernias: Hernia 2009; 13: 407-414
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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