Dr. Narotam Dewan.
Most
of the serious complications are likely to land up for
compensation through the court of law or otherwise.
Absolute Contraindications:
Inability to tolerate general anesthesia, portal hypertension,
uncontrolled coagulopathy, general peritonitis, or suspected
gallbladder carcinoma.
Well Prepared-Half Done:
Success lies in treating a patient and not merely gall stones.
Meticulous preoperative workup saves the day. Diseases like acid
peptic disease, hiatus hernia, hepatitis, pancreatitis, kidney
stones, ca. billiary system, basal pneumonia,
IHD etc. can present like cholecystitis while actually
the gall stones are silent. Diseases like HT,
LVF, DM, asthma, CRF, deranged
LFT, Ac. MI and choledocholithiasis
are often associated.
Choledocholithiasis:
high index of suspicion finds it in about 5% of patients.
MRCP often resolves the matter when
US fails. ERCP
is invasive but, provide simultaneous clearance of the ducts.
Early LC decreases the possibility of another stone entering
CBD. Although laparoscopic techniques
for CBD clearance are now available,
most surgeons are not proficient in the procedure. Lap.
Choledocholithotomy in selected cases is good for the patient
since it achieve both objectives in one sitting; under one
anesthesia and the complications of ERCP
are avoided.
Gall Stone Pancreatitis:
since the risk of recurrent disease is about 30% (in 6 wks) if
the patient is discharged without LC, in patients with mild
edematous disease with rapid resolution of symptoms LC must
precede discharge. In a controlled clinical trial by Kelly,
billary surgery during the initial 48 hours in patients with
sever pancreatitis was followed by 82% morbidity and 47%
mortality. On deferring the surgery until pancreatitis had
subsided, morbidity fell to 17.8% and mortality to 11.8%.
Acute Cholecystitis:
It is difficult to exert adequate traction on friable and
edematous organ. At least 30% of patients present in acute stage
and 20% out of these present with GB mass. It becomes a
significant risk factor if TLC is
above 20,000/mm3, GB wall on US is more than 3mm
thick or patient is above 65 yrs of age. We have to be alert to
the possibility of gangrenous cholecystitis, perforation,
cholangitis or associated pancreatitis. Decision to convert must
be made prior to a complication. Free perforation with bile
peritonitis, s/a perforation with pericholecystic abscess or
presence of gas due to clostridial infection in the elderly,
diabetic of immunocompromised patients mandate the choice of
open procedure. Patients with significant cholangitis can be
candidates for emergency billiary decompression by endoscopy of
surgery and cholecystectomy should wait.
Obese Patient:
Thick abdominal wall makes trocar placement difficult and risky,
and ample intra-abdominal fat impair visualization.
Modifications include angling of ports toward the operative
field to improve instrument mobility.
Pregnancy:
Approximately 0.2% pregnant mothers require intra-abdominal
surgery during the period. The surgeon must consider the
gestational age of the fetus for timing of surgery. A common
error is to pursue ‘conservative management in these patients.
Intervention should be avoided during the first trimester due to
the risk of teratogenicity and spontaneous abortion. The third
trimester is also perilous because of pre-term labor, premature
delivery, limited exposure offered by the gravid uterus, and
potential injury to the enlarged uterus upon entering the
abdomen. For these reasons, we should delay the surgery until
the second trimester or until the delivery of the baby.
Pneumoperitoneum, which is necessary for laparoscopic surgery,
may cause fetal tachycardia, fetal hypertension, or maternal
and/or fetal acidosis. Despite these observations, the overall
risk to mother and fetus in the second trimester is relatively
low. Certain precautions including fetal and uterine monitoring,
deep venous thrombosis prophylaxis, low pneumoperitoneum
pressures should be observed.
Previous Abdominal Surgery:
Approximately 20% of patients have undergone previous abdominal
surgery. Intra-abdominal adhesions or scarring from the prior
procedure may interfere with entry into the abdomen and the
performance of the cholecystectomy. Laparoscopic adhesionolysis
is often necessary to allow adequate access to the operative
field. Central transverse and midline incisions pose more
problems as opposed to peripheral ones. With the correct
technique, the closed method of insertion is safe for patients
with peripheral scars, but the open technique is preferred for
central incisions. If a closed peritoneum is created in a
previously operated abdomen, the Veress needle insertion should
be far removed from the scar. The most popular measure used to
ensure that the Veress needle is placed in free intraperitoneal
space is the saline drop test.
Injuries to Major Vessels:
These are rare but serious, life-threatening complications. the
distal abdominal aorta and vena cava, as well as the large
pelvic vessels, are especially susceptible to injury when the
Veress needle and trocars are inserted into the abdomen. Aorta
and iliac vessels were perforated in up to 0.6% of the cases,
10% of them serious. Some fatalities were reported.
Difficulties in Dissection of GB and Calot’s triangle:
GB wall thickness, presence of adhesions, contracted GB,
impaction of gallstones at the neck of GB, liver size and GB
size are significant predictors of overall difficulty. Extensive
edema in the region of calot’s triangle and excessive
friability can be dealt with by cholecystostomy leaving
cholecystectomy for future when the things cool down.
Intraoperative Cholangiography:
Is mandatory when anatomical structures are not clearly
distinguishable during surgery. It gives us billiary road map.
Bile
Duct Injuries:
Occur in about 0.7% of patients. Iatrogenic common bile duct
injury is the worst complication of laparoscopic cholecystectomy.
Many of these injuries occur in the hands of experienced
surgeons during an easy cholecystectomy. Increased awareness of
the problem and its consequences among the surgeons can keep one
alert. Most of cases get involved in malpractice litigation. In
majority of cases, litigation is resolved in favor of plaintiffs
by settlement or verdicts.
Anatomically, the most common variation is in the junction
between the CD and
CHD. CD may join CHD at a very
high point of may be closely adherent to the
CHD running with it in a common sheath to join it very
low. At times CD is very short. The
surgeon the can easily mistake CBD for
a long CD and can ligate and remove the CBD
along with the GB. Other types of injuries include-
transactions, excisions, lacerations, clip impingements, burns,
bile leaks, and cystic duct leak. Most of these injuries are not
detected at the initial surgery. The average delay in diagnosis
is 6 days. Complications are worse in patients with delayed
diagnosis. Prominent abdominal pain and tenderness dose not
develop in majority of patients with abdominal bile collections.
Surgeons must watch for the clinical manifestations of bile
ascites after laparoscopic cholecystectomy. This diagnosis
should be suspected whenever persistent bloating and anorexia
last for more than a few days; failure to recover as smoothly as
expected is the most common early symptom of bile ascites. A
primary surgeon has less successful outcomes from repairs than
referral surgeons (27% versus 79%). Serious illness like
septicemia and multiorgan failure are associated with a longer
period of undrained bile.
Dense fibrosis in the area of calot’s triangle should lead to
a change in technique. Fundus first dissection of GB can be done
slowly by staying close to the GB. In unprecedented difficulty
at the neck of the GB partial cholecystectomy can be done.
Excessive traction on the GB should be avoided because it can
cause tenting of the CBD-CHD junction
and put these at risk of ligation or excision.
Mirzzi Syndrome:
A nightmare for the surgeon. There is jaundice caused by
impacted GB stone leading to extrinsic compression or to
inflammatory stricture of the CHD. The
stone can be located in the cystic duct itself, in a cystic duct
remnant or in the gallbladder neck. The stone can cause erosion
of the bile ducts and may enter the periductal tissues and the
lumen of the common HEPATIC duct,
thereby creating a tissue cavity and provoking regional
inflammatory changes. Sonography usually reveals the impacted
stone in the cystic duct, signs of dilatation of the billiary
duct system including the CHD, abrupt
narrowing of the CHD at the level of
the stone and normal caliber of the CBD
below the stone. Cholangiography demonstrates the
narrowing of the distal CHD and, in
some instances, the dilatation of the proximal billiary duct
system. The features may be indistinguishable from those of
cholangiocarcinoma. The removal of the GB results in an opening
into the CHD or inadvertent removal of
a portion of CHD.
Faced with
unforeseeable factors, conversion of LC into an open procedure
is never-never a failure. A sound judgment it keeps the surgeon
free to perform more and still more laparoscopic
cholecystectomies.
Dr. Narotam
Dewan, MS, Consultant Laparoscopic & General Surgeon, Dewan
Hospital, Ludhiana.Formerly—*Resident surgeon,
GOMCO Patiala; *Sr. resident surgeon,
CMCH, Ludhiana.; *Consultant surgeon,
SJH, New Delhi & Central Hospital, Al-Khoms,
Libya; and *Sr. Lecturer, DMCH,
Ludhiana.
