Tumors of the liver are frequently seen in dogs, with the most common being the hepatocellular carcinoma. Affected dogs present for non-specific clinical signs and the tumors can become very large before being discovered. Massive liver tumors are defined as large tumors that are confined to one lobe of the liver.(1) (Fig. 1)
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| Fig. 1: Large hepatocellular carcinoma of the liver in a dog |
Prior to availability of surgical stapling devices such as the Thoracoabdominal Stapler (TA), liver lobectomy was tedious, risky, and associated with significant blood loss. The stapling device has made removal of even very large hepatic tumors safer and much faster resulting is less morbidity and mortality. (Fig. 2)
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| Fig. 2: Large liver mass in a dog being removed using an older version of the thoracoabdominal stapling device |
Dogs with liver tumors present with non-specific signs such as lethargy,
anorexia, and weight loss. A large cranial abdominal mass is usually palpable
on physical examination. Diagnostic imaging is indicated including plain film
abdominal radiographs (Fig. 3), abdominal ultrasound, and thoracic radiographs to look
for metastatic lesions.
CT scan can also be performed (Fig. 4), however it may not provide
more significant information than radiographs and ultrasound.
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| Fig. 3: Plain film abdominal radiograph of a liver tumor in a 12 year old Labrador retriever (arrow) (photo courtesy of Dr. Laura Lemmons) |
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| Fig. 4: CT scan of a 10 year old golden doodle with a large right sided liver mass.(arrow) The mass was surgically removed and histopathology revealed a hepatic adenoma. |
Preoperative Care
Appropriate preoperative diagnostics are necessary to rule out metabolic diseases and metastasis of primary liver tumors. Preoperative hemograms and coagulation status should be assessed since many liver and biliary diseases can cause deficiency of clotting factors. Serum proteins should also be evaluated. The patient's fluid and electrolyte status should be considered and abnormalities corrected before surgery. Significant blood loss can occur during or after partial hepatectomy which may require blood tranfusion.
Applied Anatomy
The liver is divided into 6 lobes, the caudate, right lateral, right medial, quadrate, left lateral, and left medial.
The liver has a dual blood supply, receiving circulation
from both the portal vein and the hepatic arteries. Major hepatic portal vein branches are the right lateral
trunk, right medial branch, and left lateral trunk supplying the left lobes. The liver portal vasculature can also be classified as right divisional (caudate and right lateral), central divisional (right medial and quadrate), and left divisional (left medial and left lateral). Six to eight major hepatic veins drain
into the caudal vena cava. The
liver is attached to other structures in the abdomen via the triangular
ligaments and the hepatogastric and hepatoduodenal ligaments.
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| Fig. 5: Normal gross anatomy of the canine liver lobes. |
Surgical Approaches
The liver is best approached via a ventral midline celiotomy. Although rarely done, a right or left
paracostal incision can be combined with the midline approach for large liver
masses or other conditions that require greater exposure. Caudal ventral midline sternotomy can
be combined with the midline abdominal incision if necessary for cranially
located masses.
Partial
hepatectomy
Liver lobectomy using surgical staples is the procedure of choice for
most surgeons. Complete or partial lobectomy can be performed. Omental
adhesions to the mass will require hemostasis and sharp dissection to release
them from the tumor. The Ligasure or electrocautery device is useful for
hemostasis. After exposing the mass, incise triangular ligaments as needed to
mobilize the liver lobe. Be cautious working around the hepatoduodenal ligament
since the hepatic arteries and common bile duct are in the region. Caudal
traction on the liver lobe is necessary to accurately place the stapler
proximal to the tumor. (Figs. 6,7)
Large hemostatic clips may be needed to control
occasional arterial bleeders that were not adequately compressed by the staples.
The Ligasure device can also be used to control liver bleeding.
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| Fig. 6: Surgical removal of a large hepatocellular carcinoma in a dog using the Thoracoabdominal stapler. |
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| Fig. 7: Liver mass in same dog as in Fig. 3; histopathology of the mass revealed an hepatic adenoma. |
The liver has a remarkable ability to regenerate. Up to 60-70% of the
liver tissue mass can be removed without impacting liver function.
Postoperative Care and Complications
Liver surgery patients should be closely monitored and supported after
liver surgery. Postoperative
hemorrhage is possible and should be monitored via the patient's color, heart
rate, peripheral PCV (measured several hours after surgery), and evidence of
bleeding from the incision or blood in the abdominal cavity. Routine postoperative supportive care
with intravenous fluids and analgesics is administered. In the absence of
complications, most dogs can be discharged from the hospital the day after
surgery.
Prognosis
The prognosis for dogs after removal of massive liver tumors, even hepatocellular carcinoma if completely excised, is very good. In one study of 42 dogs, mortality rate was only 4.8% and median postoperative survival was greater than 1460 days.(1) In contrast, dogs treated without surgery had a median survival was 270 days.
The prognosis for dogs after removal of massive liver tumors, even hepatocellular carcinoma if completely excised, is very good. In one study of 42 dogs, mortality rate was only 4.8% and median postoperative survival was greater than 1460 days.(1) In contrast, dogs treated without surgery had a median survival was 270 days.
References
1. Julius M. Liptak, BVSc, MvetClinStud; William S. Dernell, DVM, MS, DACVS; Eric Monnet, DVM, PhD, DACVS; Barbara E. Powers, DVM, PhD, DACVP; Annette M. Bachand, PhD; Juanita G. Kenney; Stephen J. Withrow, DVM, DACVS, DACVIM. Massive hepatocellular carcinoma in dogs:48
cases (1992–2002) JAVMA, Vol 225, No. 8, October 15, 2004
