Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT05951374 |
Other study ID # |
AswanUH6 |
Secondary ID |
|
Status |
Completed |
Phase |
|
First received |
|
Last updated |
|
Start date |
December 1, 2019 |
Est. completion date |
March 30, 2023 |
Study information
Verified date |
July 2023 |
Source |
Aswan University Hospital |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Observational
|
Clinical Trial Summary
Laparoscopic cholecystectomy has an increased incidence of extrahepatic biliary injury or
bleeding. The common hepatic duct is on the medial border of the Calot triangle and at risk
of injury. So, The investigators describe a new safety triangle with a more critical view of
safety that is far from dangerous.
Retrospectively, from December 2019 until March 2023, the investigators will review the
medical records for patients who underwent laparoscopic cholecystectomy.
The patients underwent cholecystectomy using a new technique in approaches to critical safety
with recorded video and available follow up data were included.
The patients who had intraoperatively extensive gallbladder adhesion that interfere with the
dissection in this area, improper visualization of the cystic duct, patients whose did not
operate by this new technique and patients whose have not video record of laparoscopic
cholecystectomy will excluded from the study.
Description:
Operative procedure:
This technique was different from the ordinary laparoscopic cholecystectomy in the following
steps: with the aid of electrocautery Hook, the dissection started first with the peritoneum,
which covered both sides of the Hartman pouch, the proximal third of the gallbladder (the
area of the gallbladder at its neck), and the proximal part of the cystic duct (the end of
the cystic duct which was attached to the gallbladder neck).
With using a grasper for manipulating the Hartman pouch for better dissection of the
gallbladder bed. Then gently dissecting the gallbladder from its bed to skeletonize it away
from the cystic plate and porta hepatis. The small branches of cystic artery that were
dipping in the GB wall were cauterized one by one. This step involved scarification of the
cystic artery, and its branches, which necessitated the use of bipolar diathermy.
Now, after dissection of the proximal part of the gallbladder from its bed and scarification
of the cystic artery and its branches, the traction applied to the Hartman pouch created an
angle between the skeletonized cystic duct and the skeletonized posterior surface of the GB.
Also, this traction creates a dynamic triangle visualized from both the left and right sides
according to the traction applied to the Hartman pouch to the right or left and the direction
of the angled scope of the camera lens.
From the left-side view, when right traction is applied to the Hartman pouch, it is bound
laterally by the skeletonized proximal part of the cystic duct. Superiorly, it is bound by
the posterior surface of the proximal part of the skeletonized gallbladder. It was bounded
medially by an imaginary line between a point at the junction of the cystic duct with the CBD
and a point at the anterior end of the dissected cystic plate (the Madany triangle).
From the right-side view, when left traction was applied on the Hartman pouch, the triangle
was bounded by the proximal part of the dissected cystic duct medially. It was bound
superiorly by the posterior surface of the proximal third of the skeletonized gallbladder.
Laterally, it was bounded by an imaginary line between a point at the junction of the cystic
duct with the CBD and another point located at the anterior end of the dissected cystic
plate.
A Vicryl (2-0) ligature or a titanium clip was applied to the cystic duct immediately distal
to the Hartman pouch after gentle milking of the cystic duct to exclude the presence of
stones inside. The GB was removed from the peritoneal cavity with the use of a bag.