Open Radical Cholecystectomy with Partial Hepatectomy for Gallbladder Cancer
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Table of Contents
Gallbladder cancer (GBCA) is a relatively uncommon disease with dismal prognosis. As the symptoms associated with GBCA are vague and non-specific, most patients present when the disease is at an advanced stage and the majority are diagnosed when the disease is beyond the possibility of resection. On the other hand, GBCA can be discovered incidentally and appropriate oncologic surgery provides a great chance of cure for patients with GBCA. We present a case of incidentally-diagnosed GBCA and describe the surgical management for operable GBCA with a focus on the operative technique and perioperative management. A 60-year-old male presented with incidentally-discovered GBCA during a follow-up imaging study for his previously treated bladder cancer. The patient had been asymptomatic, and CT showed a growing mass in the gallbladder without evidence of metastatic disease. GBCA was suspected, and resection was recommended. He underwent extended cholecystectomy including cholecystectomy en bloc with partial hepatectomy at segment IVb and 5 and portal lymphadenectomy. His postoperative course was uneventful, and histologic examination confirmed the diagnosis of GBCA, pT3N1M0, stage IIIB.
The patient is a 60-year-old male who presented with a gallbladder mass. The mass was discovered during regular follow-up for recently treated bladder cancer. He underwent total cystectomy with ileal conduit following neoadjuvant chemotherapy two years prior and had been followed by serial CT scan every 6 months. The most recent CT showed a gallbladder mass, which had been growing compared with the prior scan 6 months before. Thus, gallbladder cancer was suspected, and resection was recommended.
The patient was asymptomatic and did not have any specific findings on physical exam. His abdomen was soft and flat with well healed scar at the lower midline and ileal conduit at the right lower quadrant.
CT showed a 2-cm mass at the fundus gallbladder, consistent with GBCA. It was contrast-enhanced, and there was no definitive sign of liver invasion, lymphadenopathy, or distant metastasis. MRI ruled out liver metastasis.
For patients with suspected GBCA, like the patient shown here, surgical resection should be considered when the staging work-up does not detect the evidence of metastatic disease. Unlike other types of gastrointestinal cancer that can be accessible endoscopically, histologic confirmation by biopsy is usually unavailable, and thus thorough explanation to the patient about the possibility that the suspected lesions may turn out to be benign in the histopathologic examination after radical operation is critical. The standard oncologic resection includes cholecystectomy en bloc with partial liver resection (around the gallbladder fossa) and portal lymphadenectomy. The resection of common bile duct is necessary only when it is involved by the tumors by preoperative imaging studies or the cystic duct stump margin is proved positive for cancer by intraoperative frozen section. Laparoscopic cholecystectomy should be avoided when cancer is highly suspected preoperatively because of the risk of violation of the plane between the tumor and the liver, and the risk of port site seeding. On the other hand, if the preoperative diagnosis is unclear, initial laparoscopic cholecystectomy is a reasonable option for diagnostic purpose. When the diagnosis of GBCA is histologically confirmed, additional partial liver resection and lymphadenectomy (either open or laparoscopically depending on the surgeon’s skill and expertise) should be completed simultaneous to cholecystectomy or as a separate staged operation later.
Our patient had a gallbladder mass that kept growing in the past several months, and gallbladder cancer was highly suspected. As there was no metastatic disease detected on the preoperative imaging studies including CT and MRI, resection was planned without confirming histological diagnosis.
When the patient has elevated tumor marker CA19-9, staging laparoscopy has been shown to have a high yield to identify the occult metastatic disease and to allow the patients to avoid non-beneficial laparotomy.3 The serum CA19-9 level for our patient was within normal range and staging laparoscopy was not performed.
The goal of oncologic surgery is to remove all cancer cells potentially spread in the regional area, and thus definitive resection for GBCA should include not only gallbladder, but also part of the liver bed around the gallbladder fossa (segment 4b and 5 at least) and all regional lymph nodes around the hepatoduodenal ligament and retropancreatic area (#8, 12, 13 lymph node stations). Bile duct resection was not performed for this patient as the tumor was located away from the neck and the cystic duct margin was proved negative for cancer.
Because of its propensity to spread to regional lymph nodes at an early stage and high rate of locoregional recurrence, adjuvant chemotherapy and/or chemoradiotherapy seems a rational therapeutic option for patients with GBCA. However, the rarity of gallbladder cancer and further limitation of patients who can undergo complete resection makes the randomized trial difficult to conduct and data to support its efficacy remains limited. While there is no conclusive evidence for the efficacy of adjuvant chemotherapy to date, chemotherapeutic regimen with combination of gemcitabine and cisplatin is often used for selected patients with high risk of recurrence (such as patients with N1 disease) as this regimen was shown to improve the survival of patients with unresectable metastatic biliary cancers including GBCA.4
The histological examination for resected specimen for our patient confirmed the diagnosis of GBCA, 5.5 cm, mixture of poorly differentiated adenocarcinoma and neuroendocrine carcinoma, pT3, pN1 (1/14), stage II. Our patient elected not to receive adjuvant chemotherapy because of its histologic type.
As symptoms associated with GBCA are in general vague and non-specific, most patients with GBCA presents when the disease is at an advanced stage and the majority of patients are diagnosed when the disease is beyond the borders of resection.5, 6 In fact, while obstructive jaundice is one of the most common symptoms associated with gallbladder cancer, it is well recognized as predictor of worse outcomes regardless of the types of treatment received.6 On the other hand, for most of patients with “incidental” GBCA, which is discovered by imaging study for unrelated disease, or cholecystectomy for suspected benign biliary symptoms, appropriate oncologic resection has a much greater impact on their long-term outcomes and radical surgery should not be discouraged for patients with locoregional disease without distant spread. Tumors beyond T2 (tumor invading to the muscular layer) are not cured by simple cholecystectomy; 30% of patients staged T2 based on the primary cholecystectomy specimen (incidental diagnosis) were reported to have residual liver disease after reoperation with definitive resections and one-third of them were found to have metastasis in the regional lymph nodes resected.2, 7
The extent of liver resection required depends on the extent of direct liver invasion and involvement of major hepatic vessels. While the wedge resection of gallbladder fossa should suffice to achieve negative margin for the tumor at the fundus with minimal liver invasion, when the right portal pedicle is involved by the tumor at the neck of gallbladder, right hemihepatectomy or even extended right hepatectomy may be necessary. When major liver resection is deemed necessary, preoperative portal vein embolization to increase the future remnant liver volume is often useful to decrease the risk of postoperative liver failure.8
Although the therapeutic role for regional lymphadenectomy is not yet established, systematic lymphadenectomy and histological evaluation are critical to provide accurate N staging. The study demonstrated that the outcomes for patients with N0 disease based on total lymph node count less than 6 was significantly worse than the outcome for those with N0 disease based on total lymph node count 6 or greater.2 Thus, it is recommended in current AJCC staging system that a minimum of 6 lymph nodes should be removed and examined histologically for accurate N staging. The optimal extent of lymphadenectomy has not been well defined, it is the author’s practice to remove the lymph nodes in the hepatoduodenal ligaments (#12), around the common hepatic artery (#8), and at the retropancreatic area (#13). The outcomes for patients with lymphadenopathy beyond this area, for example around the celiac artery or the aorta has been reported dismal. Radical resection will be unlikely beneficial for such patients and should not be performed.
The direct invasion to adjacent organs including duodenum, colon, and pancreas is not uncommon for advanced GBCA, and it is not considered as an absolute contraindication for resection. While some authors reported prolonged survival after en bloc organ resection,9, 10 such operations are often associated with higher risk of morbidity and mortality, and the application for aggressive radical operative for far advanced GBCA should be carefully considered individually.
Nothing to disclose.
The patient referred to in this video article has given their informed consent to be filmed and is aware that information and images will be published online.
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Cite this article
Shoichi Irie, Mamiko Miyashita, Yu Takahashi, MD, Hiromichi Ito, MD. Open radical cholecystectomy with partial hepatectomy for gallbladder cancer. J Med Insight. 2024;2024(279). https://doi.org/10.24296/jomi/279Procedure Outline
Table of Contents
- 1. Introduction
- 2. Incision and Access to the Abdominal Cavity Incision Peritoneal Washing Cytology Incision Extension Xiphoid Process Removal Round Ligament Isolation and Ligation Wound Protection and Gallbladder Exposure
- 3. Evaluation of Tumor Extent
- 4. Kocher Maneuver
- 5. Lymphadenectomy
- 6. Partial Hepatectomy (Segments IVb and V Hepatic Resection)
- 7. Closure
- 8. Post-op Remarks
- Incision
- Peritoneal Washing Cytology
- Incision Extension
- Xiphoid Process Removal
- Round Ligament Isolation and Ligation
- Continue Incision Extension
- Wound Protection and Gallbladder Exposure
- Liver Ultrasonography
- Rule Out Peritoneal Carcinomatosis
- Para-Aortic Lymphadenectomy
- Level 8 Common Hepatic Artery Lymphadenectomy (Part 1)
- Level 13 Retropancreatic Lymphadenectomy
- Portal Vein Dissection
- Level 8 Common Hepatic Artery Lymphadenectomy (Part 2 - Left)
- Level 8 Common Hepatic Artery Lymphadenectomy (Part 2 - Right)
- Cystic Duct Isolation
- Cystic Duct Division
- Level 12b Hepatoduodenal Ligament (Along the Common Bile Duct) Lymphadenectomy and Common Bile Duct Dissection
- Cystic Artery Identification, Isolation, and Ligation
- Hilar Dissection
- Review of Progress and Anatomy
- Right Liver Mobilization
- US-Guided Liver Resection Line Marking
- Liver Parenchyma Division
- Surgical Specimen Examination
- Hemostasis
- Drain 1 Placement
- Transverse Incision Closure
- Drain 2 Placement
- Midline Incision Closure
- Skin Closure
Transcription
CHAPTER 1
I'm Hiromichi Ito, I'm head attending surgeon of hepatobiliary service at Cancer Institute Hospital in Tokyo, Japan. Cancer Institute Hospital is the oldest, private cancer center in Japan, and in the country, we ranked number 1 as the highest volume center for the gastric cancer- colon cancer, and hepatobiliary cancer. As attending surgeon, I routinely doing to the many liver resections for the colorectal mets as well as primary liver cancer. And also, as a- as a common disease in Japan, we do have the many- the biliary cancer and gallbladder cancer as today's case. Today we are going to see the case with gallbladder cancer. The patient is a 60-year-old gentleman who had bladder cancer 1.5 years ago, and it was treated by radical cystectomy with an iliac conduit following the neoadjuvant chemotherapy. Fortunately, this disease was diagnosed at an early stage, and he has been following up with imaging, expectantly. And recently, he was pointed out as a- some gallbladder mass on the routine CT scan, and referred to the hepatobiliary service. So retrospectively, we are going back to the CT scan 9 months ago. There was a- they started to show a small nodules in the gallbladder wall, and over the 9-month period of time, it keeps growing. And certainly, the gallbladder cancer was suspected, and further work-up was done. Further work-ups included the EOB MRI to rule out the intrahepatic metastasis, and a PET scan- most are negative for the distal metastasis. And- his tumor markers were CEA and CA 19-9 were both normal range, and, therefore, we recommend to the radical cholecystectomy including to the removal of the gallbladder, as well as the liver bed, and lymphadenectomy around the porta hepatis, and you can still show the case today. So the key steps of the procedure- so first we make the small midline incisions and explore for the peritoneal space to rule out contraindications for the resections. We look for the peritoneal seedings, and we palpate the liver to look for the occult liver metastasis undetected on the perioperative imaging studies. And after we confirmed there is no contraindications, the incision was extended. I use- I prefer to use a reverse-L incision to provide the best exposure in the right upper quadrant organs. And we place on the liver retractor that maximizes the exposure around the liver, which was underlying the organs and the ribcage. After the incisions and the retractors were placed, we do the full exploration of the peritoneal space again. We have to carefully rule out for the peritoneal seedings, or liver metastasis. To rule out the liver metastasis, we perform the intraoperative ultrasound with IV contrast Sonazoid, and that can detect very small regions- less than 5 mm, and fortunately in this case, it was all negative. And then, we do the Kocherizations, mobilize for the duodenum and the head of the pancreas, and expose to the IVC. This procedure was done for 2 reasons. The one is it provides us access to the retropancreatic lymph node- number 14 lymph node stations. And also, it provides us the opportunity for the lymph node sampling in the para-aortic lymph node station. The para-aortic lymph node metastasis to the para-aortic lymph node station is considered as N1 disease. Therefore, it's a contraindication for the definitive resections. So always we routinely sample the- lymph node, and send it to the frozen section. In case this lymph node proved positive for cancer, we abort the resection, and just close, and put the patient on systemic chemotherapy. In this case, we sent 1 big lymph node, and it was reported as negative for cancers, and we decided to go to the resection. And following that, we do the portal lymphadenectomy. It can be started with the excision of the retropancreatic lymph node or suprapancreatic lymph node, namely the common hepatic artery lymph node, number 8 lymph node station. We did start with the number 8 lymph node station dissections, and at that point, the key of this step is to retracting the pancreas gently towards to the leg, and that allows to the exposure of the common hepatic artery. In this case, the common hepatic artery was running very behind of the pancreas, and exposure was not easy, and we could not tape over these arteries. However, the lymph node above the common hepatic artery can be excised and completely removed. without taping to the common hepatic artery itself. And then we are doing the ligate and divide of the supraduodenal vessels, and expose to the common bile duct, and GDA, and hepatic arteries. Once the artery is identified and taped, the surrounding lymphatic tissues and connective tissues are excised sharply, and vessels and bile duct were skeletonized. And portal vein is underlying these structures, and covered by lots of lymph nodes- number 12 lymph node station, so these lymph nodes are also excised, dissected off from the portal vein, and the portal vein is also circumferentially skeletonized, and the taping is always helpful for this part of the procedure. And the dissection is from the lower to the higher levels, and continue. And once we encounter for the cystic duct, the cystic duct was isolated, and ligated, and divided. And at this point, the cystic duct margin was sent to the frozen section to confirm that the cancer is not invading to this area. If the- frozen section reported as positive for cancers, the operative plan was changed for the en-bloc resection of the common bile duct as well. Fortunately, in this case, the cystic duct margin was negative, so we can preserve for the entire length of the common bile duct. So the lymph node dissection is continued, and the left and right hepatic artery was completely skeletonized. The anatomy of the hepatic arteries need to be crystal clear on the perioperative CT scans because there is a lot of anomalies, and- if you don't know for the anomalous arterial anatomy, so like replacing the hepatic arteries behind of the portal veins, you are injured of these structures that's causing to the disastrous consequences. And- once the right hepatic artery and the bile duct was dissected off to the liver hilum, then the attention was moved to the liver. The radical cholecystectomy includes the partial resection of segment IV and segment V as a part of the procedure, and you can remove the liver as a wedge resection or anatomical segmental resections. In this case, I do the segmental resection because there was a gross infiltration of the tumor into the liver, and I don't like to leave any positive margins there. But current researchers say there is no difference for the extended liver resection vs the wedge resection of the gallbladder fossa. For the liver resections, we do the Pringle maneuver, we clamp for the hepatic artery, separately, and portal vein clamped for 15 minutes, and 5 minutes released. The liver parenchyma was transected using the Pean clamp crush technique. We crush the parenchyma with a clamp, which allows the underlying vessels exposed, and the small vessels can be ligated with a LigaSure, and Glissonean pedicles, including the bile duct, we prefer to ligate with Vicryl sutures. We divided segment IVB Glissonean pedicle first, and the dissection line down onto the hilar plate. The hilar plate was exposed widely, and that allowed for the identification of the Glissonean pedicles to the segment V. So the segment V is isolated, and doubly ligated, and divided. Then you can see the demarcation lines between segment V and VI, which is the line for the right dissections. Dissection was continued from the right side and connected to the dissection plane, and then the specimen was taken. After the specimen was taken, we placed the hemorrhage very carefully from the liver bed, and also the bile leak- as we expose to the hilar plate and bile duct, pretty wide range, it is a high risk for the bile leak as a- possible complication, so we do very carefully look at the bile leak, and if we found it, we can fix it with 6-0 PDS sutures. In this case, fortunately there was no sign of a bile leak. And then we leave 2 drains, one is a Winslow, for the risk of the pancreatic leak because we removed the number 14 lymph node and number 8 lymph nodes that sometimes torn the pancreatic capsule, so we always leave the drains in the Winslow- foramen of Winslow. And also, we leave the one drain in the liver resection surface. And we are not routinely place on the drains on the liver resection surface, but in this case, because of the wide exposure of the bile duct on the surface, we leave it. The peritoneal space was irrigated with 5 L of fluid, and then we closed routinely. Sometimes we do the gallbladder mass as suspect of the cancer, but this is- you know, a spectrum of disease, and some more looks like the benign disease, some is very clear malignancy. For the malignancy, we do- our approach is like this, we start with the completion of the lymphadenectomies, and we do the major segmental anatomical resections, and on the other hand, if the cancer is not so highly suspected, we do the cholecystectomy first with some small amount of the- the liver was included, and once we confirmed the diagnosis, we proceed for the rest of the procedure, namely the lymphadenectomy along the porta hepatis.
CHAPTER 2
So we start from the small incisions to decide resectability. Cytology- peritoneal cytology, okay? So we put the catheter in the Douglas pouch, and we wash the- peritoneal fluid, and we send it to cytology to rule out the carcinomatosis. And also, I check the occult liver metastasis from the small incision, and we don't have one, then we extend the incision. Knife, please. Okay. So we are taking the xiphoid process off to facilitate the exposure of the right upper quadrant. Okay, go ahead, please. So we take the 1 cm xiphoid process, that significantly facilitates the exposure on this area, so we always- routinely remove the xiphoid process. Okay, let's take the round ligament. So we take the round ligament as long as possible to use as a handle for the liver retractions, and always we ligate both sides of the round ligament because possible bleeding. All right, let's move on to the side. Exactly. So to divide the muscle, I use the LigaSure that facilitates the bloodless- incisions of the muscles. So we approximate the peritoneum to the muscles, that is- helping to- the good exposures. And also it is helpful to- when we close the fascia, identification will be much easier. So we protect the wound with the towels, and then place on the retractors. Okay.
CHAPTER 3
So the tumor is extending towards this length- it's pretty big. Well, actually we have some small nodule in the surface, could be the peritoneal seeding, we need to excise and biopsy before we commit to the resection. We can do that later. All right, meanwhile we can do the- ultrasound. Middle hepatic vein. So the tumor is here, extending down to this level, we can feel that hard nodule here as well- could be the lymph node. And exposing to the serosa. So most likely, it's more than T3. And because we do find further nodules in the liver surface, we have to rule out the metastasis, and if it turns out to be metastasis, we need to abort the resections. It doesn't look like cancer, so we'll see how the frozen section say. Let's take a look at this. So we explore the peritoneal space to rule out the carcinomatosis. So he has ileostomies, so we can't go too far. But I don't see any obvious nodules, so it might be okay. Okay. All right, let's move on to the- Kocher's maneuver.
CHAPTER 4
And we can take down to the hepatic flexure. Okay, we can see the IVC now. So we have good news, cytology was negative for cancer. So I need to see more, so I think take these off. So this is the aorta. So the purpose of the Kocher's maneuver is to gain access to the retropancreatic lymph nodes as well as- we can do the- sampling of the para-aortic lymph nodes for the staging purpose. If the para-aortic lymph node was positive for cancer, we may abort the definitive resections.
CHAPTER 5
So now, we start sampling of the number 16 para-aortic lymph node here. So the peritoneal nodule was negative for cancer, so I assume we are okay to proceed with the resections. Right angle. Thank you. Suction. Number 16 lymph nodes. So we completed the para-aortic lymph node sampling, and usually we wait for the frozen sections. So we open the lesser sac. This is omentum. So we do retract the caudate process of the liver, that allows good exposure of the pancreas and... So we are dissecting this part. So the assistant retracts the- pancreas, pull down. And we incise the peritoneum over the pancreas, which gains the space- access to the space between the lymph node and the common hepatic artery. So we think this is the right gastric artery. We can sacrifice later, but at this point, I- taped, and decide... Because the identification of the common hepatic turned out to be challenging, because of an enlarged lymph node, we approach for the right side of the porta hepatis, and find out the GDA, and then find for the common hepatic artery. So supraduodenal vessels- ligating and divided. Right angle. Okay, so the para-aortic lymph node was reported negative for cancer, so I think it's a green sign to proceed for the resection. We already had the middle of the lymphadenectomy, number 8 is relatively difficult because it's enlarged, and densely adhered- adherent to the common hepatic arteries, and we didn't see the common hepatic artery yet, completely. So I think the common hepatic artery is here. Take a look- this is the common. So let's go to the 13. So because number 8 lymph node is relatively inflammatory and bloody, so we started with the 13 first, and then we do- take care of the number 8 lymph node later. So number 13 lymph node is retropancreatic lymph node. So after the- the view of the extended Kocher maneuver. So we excise for the peritoneum, a little bit. And expose the surface of the pancreas. Very meticulous dissection is necessary. If you injure the pancreas, that- causing to the pancreatic leak, postoperatively. So we tape the common- common bile duct. And after this, we see the portal vein, here. So we do the surface of the portal vein skeletonized now, and peel off all the lymphatic tissues and nerves- by sharp dissection. Right angle. Right angle. So we ligate the small branch along the portal vein to avoid the bleeding. So we circumferentially dissected the portal vein. And we are taping to facilitate the retraction. Okay, so the right side, the portal- lymph node was dissected off from the portal vein and the bile duct, so we can connect the number 8 lymph node from the left side dissections, so we are going back to the number 8 lymph node dissections. So we tape the left hepatic artery. And after that, we hope we can find the right hepatic artery. Right angle. So now we see the more anatomical structures. This is likely the right hepatic artery. And this is the GDA. Right angle. Right angle. So we are almost done for the lymphadenectomy, and then we isolate the cystic duct. And confirm the negative margins- on the cystic duct margins. Right angle. Thank you. Right angle. So this is the cystic duct, and we divide the line here, in its root, and we confirmed of the cystic duct margin negative. If positive, we need to remove the entire common bile duct. So at this point, we divide it, and send the bile duct margin in the frozen sections. We doubly ligate. So we divide the cystic duct. So the anterior tissues was flipped out to the left side. Right angle. Right angle. Right angle. Right angle. So now, we are dissecting the back side of the common bile duct. It's the right hepatic artery is running behind the common bile duct, and we dissected that space. Could be the cystic artery. Okay, so the number 18, number 12 is a- the lymph nodes are all en bloced and swiped towards the specimen, and only connection here, we can divide. Now it was reported- the bile duct margin- cystic duct margin was negative for cancer, so that meaning, we don't need to excise the common bile duct. Looks like the cystic duct is here. Right angle, please. So this is the cystic arteries. Ligated... Let's do one more- we do double ligate. So, okay- another 4, please. Okay, so the lymphadenectomy will be almost done, we're- once- the artery and the bile duct is- completely free from the cystic plate, we can move on to the hepatectomy. Okay, so- I think that we are- completed the- hilar dissection, so- 5-0 Proline. So this is the completion of the lymphadenectomy. We do see the common hepatic artery, right gastric arteries, and GDA, left and right hepatic artery, and the stump of the cystic artery. And the bile duct- extrahepatic bile duct is entirely skeletonized and likely the- left and right bifurcation is around here. And the portal vein is also from behind - this is circumferencially, skeletonized. And number- 13 lymph node- retropancreatic lymph node was also removed en bloc. So this is the completion of the lymphadenectomy. And then we move on to the partial hepatectomy part. And this is all the lymph node dissected, and it's attached to the specimen side.
CHAPTER 6
Before we starting to the hepatectomy, we mobilize to the right lobe of liver a little bit. That facilitates the- enhances the safety of the liver resection. So now we are mobilizing to the right lobe of liver that allows us to elevate the liver higher up that decreases the blood loss during the parenchymal dissection- transection. I think that's enough mobilization, so we are not dissecting the- adrenal gland, and I think- just a little bit more. Okay, I think this is good enough. So this is IVA and IVB, and- the pedicle IVB needs to be removed, and IVA needs to be preserved, so this is IVA. And we make the lines between the IVA and IVB. And for the tumor infiltrations, is- this levels. so that should be enough markings. And we can mark with a... And we don't know the exact demarcation line yet, but in the end, we- after we ligate the- the- segment V- Glissonean pedicles, we can see the demarcation line between the segments VI and V, most likely- somewhere here. This is just to estimate. So this line is diving onto the hilar plate, and we can connect on- just above the hilar plate, on this line. Right angle. So now, we start the- transecting the liver parenchyma. So this is the pedicle IVA. So we- we'll have a 5-minute break, so 15 minutes for the- we clamp the in-flow, and we let the liver some bleeds- between, so every 15 minutes we open the clamp, and let the liver bleed. And then after 5 minutes, we declamp and start back again. So I think this is the middle hepatic vein branch. So this is one of the S5 branches. Okay, we ligate the segment V pedicle. So segment V should be ischemic right now. Now, actually, you can see the very nice demarcations, it's almost exactly how I marked it before. Okay. Now we can divide the liver from the segment V side. So this is the completion of the- extended cholecystectomy. This is the bile duct, completely skeletonized circumferencially. And right hepatic artery. Left hepatic artery and right gastric artery, branching off from the common hepatic artery running behind the pancreas. And all the soft tissues and lymph nodes are removed. And the portal vein is also circumferentially skeletonized. from the bottoms of the porta hepatis. And- for the liver resection side, segment IVB was removed, and the hilar plate is exposed. And this is the anterior Glissonean pedicles, and the posterior Glissonean pedicle is over here. And- segmental Glissonean V was ligated and divided at its root, so it's pretty much the anatomical segment V and IVB resections. And we do the- irrigate the abdomen, and place the drains, and close.
CHAPTER 7
All right, so we are closing, and placing on the drains, and we place the drain after we close the transverse incision first. So we place the drains under the foramen of Winslow. So the frozen section examination confirms our diagnosis of the gallbladder cancer. He has poorly differentiated adenocarcinoma. Thank you. Thank you very much.
CHAPTER 8
So, the case is done, and as you can see, the- we completed the- planned case as expected. And, however, on the first exploration, we found the tumor mass appear to be much bigger than expected, and grossly invading to the- to the liver, so I worry about for the peritoneal metastasis, but full exploration, including peritoneal washing cytology, were all negative, and only one nodule seen under the liver was excised, and proved negative for cancer. And also, we sampled the- routine staging, sample para-aortic lymph node as staging purpose, and it was proved as negative for cancer during the surgery, so I think it's a good indication for the- for the surgery. The surgery itself is going to be relatively smooth. Unlike the- common Japanese population, he's a little bit obese compared to the other type of- other patient with gallbladder cancers. So, lymph node dissections is a little bit more difficult than usual, but we completely skeletonized both hepatic arteries and the portal veins, and I don't believe there was residual tumor left behind. So the- postoperatively, the patient was placed on the intensive care unit for the overnight observations, and most of the patients can return to the surgical floor on the post-op day 1. Actually the post-op course is going- pretty well- the patient is doing pretty well after this big operation because we don't get touched with the bowel, and the patient can start the diet very smoothly. And drains was- we send the drain up to fluid every day, and check for the amylase and bilirubin levels, and on post-op day 3, if these levels are within normal limits, we remove the drains on day 4 or day 3. And after that, the patient can eat the diet, and the pain is under control, the patient is ready to go home. Unlike the insurance system in the United States, In Japanese insurance systems, most of the patients tend to stay much, much longer than the United States. But most of the patients are ready to go very short period of time. And regarding to the long-term outcomes for the gallbladder cancer, it depends on this patient's final stage. If the patient has lymph node metastases, that meaning to the stage 3 disease, the prognosis is very, very bad, and the likelihood of the recurrence is 70-80%, and we do recommend for the adjuvant treatment for this type of the patients. And on the other hand, if the lymph node was negative, stage 2 or stage- stage 1 or stage 2 disease, the outcome is pretty good- the 5-year survival in this hospital is greater than 75%, and most of the patients is doing well, and we don't recommend the adjuvant chemotherapy for this stage of the patient.