Vascular surgery in liver resection

Diaphragmatic and pericardial reconstruction using a Gore-Tex® patch in a patient with an invasive liver malignancy

The Gore-Tex® polytetrafluoroethylene patch is one of the most used prostheses for diaphragm, vessel, and pericardial reconstruction. It is strong, flexible, and relatively inexpensive and can be fitted to match the size of the resected area. In addition, it can be used to reconstruct the pericardium and diaphragm following resection to treat diffuse malignant pleural mesothelioma or repair large hiatal hernias. However, the use of polytetrafluoroethylene for hepatocellular carcinoma with diaphragmatic and pericardial invasion has not yet been reported. We report the case of a 72-year-old man with hepatocellular carcinoma with diaphragmatic and pericardial invasion. Subsequently, laparotomic liver subsegmentectomy of segment 3 and resection of the diaphragm and pericardium were performed. The defects were successfully reconstructed using the polytetrafluoroethylene patch, without postoperative complications. This is the first report describing a case of invasive liver malignancy that required simultaneous diaphragmatic and pericardial reconstruction using a polytetrafluoroethylene patch, indicating that the polytetrafluoroethylene patch could effectively and directly treat invasive liver malignancies.

Extent of resection and underlying liver disease influence the accuracy of the preoperative risk assessment with the American College of Surgeons Risk Calculator

BACKGROUND

Liver surgery is associated with a significant risk of postoperative complications, depending on the extent of liver resection and the underlying liver disease. Therefore, adequate patient selection is crucial. This study aimed to assess the accuracy of the American College of Surgeons Risk Calculator (ACS-RC) by considering liver parenchyma quality and the type of liver resection.

METHODS

Patients who underwent open or minimally invasive liver resection for benign or malignant indications between January 2019 and March 2023 at the University Hospital Basel were included. Brier score and feature importance analysis were performed to investigate the accuracy of the ACS-RC.

RESULTS

A total of 376 patients were included in the study, 214 (57%) who underwent partial hepatectomy, 89 (24%) who underwent hemihepatectomy, and 73 (19%) who underwent trisegmentectomy. Most patients had underlying liver diseases, with 143 (38%) patients having fibrosis, 75 patients (20%) having steatosis, and 61 patients (16%) having cirrhosis. The ACS-RC adequately predicted surgical site infection (Brier score of 0.035), urinary tract infection (Brier score of 0.038), and death (Brier score of 0.046), and moderate accuracy was achieved for serious complications (Brier score of 0.216) and overall complications (Brier score of 0.180). Compared with the overall cohort, the prediction was limited in patients with cirrhosis, fibrosis, and steatosis and in those who underwent hemihepatectomy and trisegmentectomy. The inclusion of liver parenchyma quality improved the prediction accuracy.

CONCLUSION

The ACS-RC is a reliable tool for estimating 30-day postoperative morbidity, particularly for patients with healthy liver parenchyma undergoing partial liver resection. However, accurate perioperative risk prediction should be adjusted for underlying liver disease and extended liver resections.

A contemporary view on vascular resections and reconstruction during hepatectomies

Oncological hepatic surgery carries the possibility to perform vascular reconstructions for advanced tumours with vessel invasion since surgery often represents the only potentially curative approach for these tumours. An extended review was conducted in an attempt to understand and clarify the latest trends in hepatectomies with vascular resections. We searched bibliographic databases including PubMed, Scopus, references from bibliographies and Cochrane Library. Information and outcomes from worldwide clinical trials were collected from qualified institutions performing hepatectomies with vascular resection and reconstruction. Careful patient selection and thorough preoperative imaging remain crucial for correct and safe surgical planning. A literature analysis shows that vascular resections carry different indications in different diseases. Despite significant advances made in imaging techniques and technical skills, reports of hepatectomies with vascular resections are still associated with high postoperative morbidity and mortality. The trend of complex liver resection with vascular resection is constantly on the increase, but more profound knowledge as well as further trials are required. Recent technological developments in multiple fields could surely provide novel approaches and enhance a new era of digital imaging and intelligent hepatic surgery.

Implementation of a living donor liver transplantation program in the Republic of Uzbekistan: a report of the first 40 cases

Background

Living donor liver transplantation (LDLT) is an effective treatment for patients with end-stage liver disease. This study was performed to evaluate the outcomes of the initial series of LDLT procedures performed in the Republic of Uzbekistan and to demonstrate that liver transplantation is viable under the conditions in this country.

Methods

Between October 2021 and December 2023, we performed 40 LDLTs. We evaluated both immediate and long-term outcomes.

Results

Thrombosis of the hepatic artery developed in one case (2.5%). Arterial anastomotic stenoses were diagnosed in three cases (7.5%) and were successfully treated with endovascular balloon vasodilation. Splenic artery steal syndrome arose in three patients (7.5%) and was managed with endovascular embolization of the splenic artery. One patient (2.5%) developed portal vein thrombosis. Portal vein stenosis occurred in two patients (5%) at 10 months posttransplantation and was addressed with endovascular balloon angioplasty, yielding good clinical outcomes. Biliary complications were observed in 45% of the cases, with bile leakages accounting for 89% of these issues and strictures of the biliary anastomoses for 11%. The in-hospital mortality rate was 12.5%.

Conclusions

Our research findings and analysis of complications align with the international literature, and the results are deemed acceptable during this implementation phase of the liver transplantation program. Accordingly, liver transplantation is feasible in the Republic of Uzbekistan; however, improvements in surgical and therapeutic methods are necessary to minimize the development of both early and late postoperative complications.

Design and preliminary validation of a high-fidelity vascular simulator for robot-assisted manipulation

The number of robot-assisted minimally invasive surgeries is increasing annually, together with the need for dedicated and effective training. Surgeons need to learn how to address the novel control modalities of surgical instruments and the loss of haptic feedback, which is a common feature of most surgical robots. High-fidelity physical simulation has proved to be a valid training tool, and it might help in fulfilling these learning needs. In this regard, a high-fidelity sensorized simulator of vascular structures was designed, fabricated and preliminarily validated. The main objective of the simulator is to train novices in robotic surgery to correctly perform vascular resection procedures without applying excessive strain to tissues. The vessel simulator was integrated with soft strain sensors to quantify and objectively assess manipulation skills and to provide real-time feedback to the trainee during a training session. Additionally, a portable and user-friendly training task board was produced to replicate anatomical constraints. The simulator was characterized in terms of its mechanical properties, demonstrating its realism with respect to human tissues. Its face, content and construct validity, together with its usability, were assessed by implementing a training scenario with 13 clinicians, and the results were generally positive.

Resection of Colorectal Liver Metastases with Major Vessel Involvement

BACKGROUND

Treatment of CRLM with major vessel involvement is still challenging and valid data on outcomes are still rare. We analyzed our experience of hepatectomies with resection and reconstruction of major hepatic vessels with regard to operative and perioperative details, histopathological findings and oncological outcome.

METHODS

Data of 32 hepatectomies with major hepatic vessel resections and reconstructions were included. Results were correlated with perioperative and oncological outcome.

RESULTS

Out of 1236 surgical resections due to CRLM, we performed 35 major hepatic vessel resections and reconstructions in 32 cases (2.6%) during the study period from January 2008 to March 2023. The vena cava inferior (VCI) was resected and reconstructed in 19, the portal vein (PV) in 6 and a hepatic vein (HV) in 10 cases. Histopathological examination confirmed a vascular infiltration in 6/32 patients (VCI 3/17, HV 2/10 and PV 1/6). There were 27 R0 and 5 R1 resections. All R1 situations affected the parenchymal margin. Vascular wall margins were R0. Ninety-day mortality was 0. The median overall survival (OS) for the patient group with vascular infiltration (V1) was 21 months and for the V0 group 33.3 months.

CONCLUSION

Liver resections with vascular resection and reconstruction are rare and histological vessel infiltration occurs seldom. In cases with presumed vascular wall infiltration, liver resection combined with major vessel resection and reconstruction can be performed with low morbidity and mortality. We prefer a parenchymal sparing liver resection with vascular resection and reconstruction to achieve negative resection margins, but in technically difficult cases with higher risk for postoperative complications, tumor detachment from vessels without resection is a most reasonable surgical alternative.

Computed Tomography Evaluation of Frozen or Glycerinated Bradypus variegatus Cadavers: A Comprehensive View with Emphasis on Anatomical Aspects

Bradypus variegatus has unique anatomical characteristics, and many of its vascular and digestive tract aspects have yet to be clearly understood. This lack of information makes clinical diagnoses and surgical procedures difficult. The aim of this study was to evaluate the anatomical aspects of frozen and glycerinated corpses of B. variegatus using computed tomography (CT), emphasizing vascular and digestive contrast studies. Nine corpses that died during routine hospital were examined via CT in the supine position with scanning in the craniocaudal direction. In frozen cadavers, the contrast was injected into a cephalic vein after thawing and, subsequently, was administered orally. In addition to bone structures, CT allowed the identification of organs, soft tissues, and vascular structures in specimens. Visualization of soft tissues was better after contrast been administered intravenously and orally, even without active vascularization. Furthermore, the surfaces of the organs were highlighted by the glycerination method. With this technique, it was possible to describe part of the vascularization of the brachial, cervical, thoracic, and abdominal regions, in addition to highlighting the esophagus and part of the stomach. CT can be another tool for the evaluation of B. variegatus cadavers by anatomists or pathologists, contributing to the identification of anatomical structures.

[Vascular reconstruction and transplantation technologies in liver surgery (part II)]

OBJECTIVE

To systematize tactical and technical aspects of liver resections with reconstruction of afferent and efferent blood supply and/or inferior vena cava; to study postoperative outcomes in patients with focal liver lesions using transplantation technologies.

MATERIAL AND METHODS

We enrolled 413 patients with parasitic lesions, primary and secondary liver tumors involving great vessels (portal vein, hepatic artery, hepatic veins, inferior vena cava, right atrium). All ones underwent liver resections with vascular resection and reconstruction, as well as liver autotransplantation in vivo, ante situ (ex situ in vivo), extracorporeal liver resections with autotransplantation (ex vivo).

RESULTS

We obtained satisfactory immediate results after liver resections using transplantation technologies.

CONCLUSION

Transplantation technologies in liver surgery can significantly increase resectability of tumors and survival of patients. Transplantation technologies are an important new surgical strategy and necessary option in modern hepatic surgery.

Ex vivo liver resection and auto-transplantation as an alternative to treat liver malignancies: Progress and challenges

Hepatectomy is still the major curative treatment for patients with liver malignancies. However, it is still a big challenge to remove the tumors in the central posterior area, especially if their location involves the retrohepatic inferior vena cava (RHIVC) and hepatic veins. Ex vivo liver resection and auto-transplantation (ELRA), a hybrid technique of the traditional liver resection and transplantation, has brought new hope to these patients and therefore becomes a valid alternative to liver transplantation. Due to its technical difficulty, ELRA is still concentrated in a few hepatobiliary centers that have experienced surgeons in both liver resection and liver transplantation. The efficacy and safety of this technique has already been demonstrated in the treatment of benign liver diseases, especially in the advanced alveolar echinococcosis. Recently, the application of ELRA for liver malignances has gained more attention. However, standardization of clinical practice norms and international consensus are still lacking. The prognostic impact in these oncologic patients also needs further evaluation. In this review, we summarized the principles and recent progresses on ELRA.

Effects of different preservation methods of human iliac veins

With the progress of vascular anastomosis technology, the radical resection surgery of cancer combining with vascular resection and reconstruction has been focused by surgeon. As a natural substitute material for blood vessel, vascular allografts have good vascular compliance and histocompatibility. Generally, the donated veins could not be used immediately, and need to be well preserved. So, it is greatly significant to do research in the preservation effects of different preservation methods on veins. In this study, the effects of different preservative methods of human iliac veins were compared and analyzed in terms of cell viability, vascular wall structure and tension resistance. The donated human iliac veins were randomly divided into three groups: Cold Storage Group (4 °C) (CSG), Frozen Storage Group (-186 °C) (FSG)and Fresh Control Group (FCG). Six detection time-points of preservation for 1, 3, 5, 7, 14, 28 days were set respectively. There are ten samples in each group and each time-point separately. Survival and apoptosis of vascular cell were evaluated by MTT assay and Tunel fluorescence staining. Tensile test was used to evaluate mechanical properties of vessels. The changes of vascular endothelial cells, smooth muscle cells, collagen fibers and elastic fibers were evaluated by HE staining, Masson staining and EVG staining. Furthermore, the changes of organelles were observed by transmission electron microscope. With the extension of preservation period, the vascular cell viability and tension resistance of two groups decreased, and the apoptotic cells increased gradually. The apoptosis index of CSG was higher than FSG at each time point (P < 0.05). In terms of cell viability, CSG was higher within 3 days (P < 0.05), both groups were same between 3 and 14 days, and then CSG lower than FSG after 14 days (P < 0.05). In terms of tension resistance, CSG was stronger than FSG (P < 0.05) in first 7 days, both groups were same in 2nd week, and then CSG was weaker in 4th week (P < 0.05). In terms of vascular wall structure, in CSG, vascular endothelial cells were damaged and shed, smooth muscle cells were edema after 14 days, but the cell membrane and intercellular connection were still intact. In 4th week, endothelial cells were completely damaged and shed, the boundary of smooth muscle cell membrane was unclear, intercellular connection was damaged. Moreover, organelles were destroyed and disappeared, perinuclear condensation of chromatin was observed, and some cells had incomplete nuclear membrane or nuclear fragmentation; However, there were no obvious changes in the FSG within 28 days. Finally, local exfoliation and destruction of endothelial cells and edema-like changes of organelles were observed; the collagen fibers and elastic fibers of blood vessels in the two groups had no obvious damage and change within 28 days. For excised human iliac vein, cold and frozen storage can effectively preserve the cell viability, wall structure and tension resistance of blood vessels. With the extension of preservation time, the related performance of vessels declined in varying degrees. Within first week, the effect of cold storage is better than frozen storage, but frozen storage is significantly better than cold storage after 2 weeks.

Surgical approach to achieve R0 resections in primary and metastatic liver tumors: a literature review

Background and Objective

Primary and metastatic liver tumors are a significant cause of mortality worldwide. Regardless of the etiology of the tumor, macro- and microscopically clear margins (R0) while preserving adequate function of the remaining organ are the main goals after liver resections. However, technically challenging procedures are required to achieve R0 resection. Currently, there is no consensus of which should be the ideal minimal safety margin for liver tumor resections, with contrasting reports in regards of safety, tumor recurrence and overall outcomes following R0. Therefore, we aim to review current worldwide surgical practices to achieve R0 resections for primary and metastatic liver tumors in challenging surgical techniques and their reported outcomes.

Methods

PubMed database, Google Scholar, and OVID Medline were searched for peer-reviewed original articles related to surgical techniques performed to achieve R0 resections in the setting of primary and/or metastatic liver tumors. An up-to-date review of English-language articles published between 2015 to July 2022 was performed.

Key Content and Findings

Primary and metastatic liver tumors can be effectively treated using hepatic resection. Current literature highlights that tumors involving major vascular structures are not uncommon. Surgical advances have allowed for vascular control techniques, as well as vascular resections to be performed in a feasible and safe manner to achieve R0 resections. Complex resections combining surgical techniques can be performed in certain population after a detailed evaluation. Liver transplantation (LT) have been used with varying degrees of success for treatment of patients with hepatocellular carcinoma, cholangiocarcinoma (CCA), colorectal liver metastases (CRLM), non-resectable CRLM and metastatic neuroendocrine tumors.

Conclusions

Safety and feasibility of R0 resections have been reported for multiple techniques. Technical complexity should not be a limitation to achieve or pursue R0 tumor resection. However, there has to be a balance between patient risk/benefit in attempting R0 resections. Adequate training of surgeons on implementation of complex techniques, as well as transplant oncology techniques applied to hepato-pancreato-biliary (HPB) surgery represents as a promising path to improve short and long-term outcomes for liver-related oncology patients.

[Vascular reconstructions and transplant technologies in liver surgery (part I)]

OBJECTIVE

To systematize technical aspects of liver resections with reconstruction of afferent and efferent liver blood supply and/or inferior vena cava, as well as to analyze the results of surgical treatment in patients with focal liver lesions.

MATERIAL AND METHODS

The study included 413 patients with parasitic lesions, primary and secondary liver tumors with great vessel invasion (portal vein, hepatic artery, hepatic veins, inferior vena cava, right atrium). These features excluded radical liver resections without vascular resection and reconstruction, as well as liver autotransplantation in vivo, liver autotransplantation ante situ (ex situ in vivo), extracorporeal liver resections with autotransplantation (ex vivo).

RESULTS

Surgical interventions were systematized depending of surgical tactics and techniques, technical complexity, type and number of reconstructed vessels, the use of total vascular isolation and cold preservation techniques, resection and reconstruction of great vessels. Thus, 4 gradations were allocated (Grade I-IV). The definition of transplantation technologies in liver surgery was proposed.

CONCLUSION

Transplantation technologies in liver surgery include liver resections supplemented with vascular reconstruction of afferent and efferent liver blood supply, inferior vena cava including total vascular isolation of liver under normo- or hypothermia. These measures can significantly extend the possibilities of resection.

[Transplantation technologies in pediatric liver resections]

Liver resections with transplantation technologies have been recognized as safe procedures for the last decades. These procedures may be the only curative option or alternative to liver transplantation in some cases. Moreover, these surgeries can also provide parenchyma-sparing liver resection. Nevertheless, higher postoperative morbidity and mortality compared to traditional hepatectomy require careful research of indications for liver resections with transplantation technologies, the role of vascular liver exclusion, methods of vascular reconstructions with or without anticoagulation. These challenges are more important for pediatric surgery due to few literature data on this issue. This review is devoted to liver resections with transplantation technologies.

Left hepatectomy with suprahepatic inferior vena cava resection and reconstruction under veno-arterial extracorporeal membrane oxygenation for intrahepatic cholangiocarcinoma: a case report

Background

Curative surgery is the most effective treatment for intrahepatic cholangiocarcinoma (ICC). When an ICC involves the suprahepatic inferior vena cava (IVC), hepatectomy with suprahepatic IVC resection and reconstruction is challenging. For reconstruction of the suprahepatic IVC, total hepatic vascular exclusion (THVE), veno-venous bypass, and/or in situ hypothermic portal perfusion are required, but mortality and morbidity remain high.

Case presentation

We present a 73-year-old woman with mass-forming ICC which invaded the suprahepatic IVC and middle hepatic vein. Left hepatectomy, suprahepatic IVC resection, and reconstruction with an artificial graft were successfully performed during veno-arterial extracorporeal membrane oxygenation (V-A ECMO) to maintain blood pressure. While clamping the IVC diagonally, the right hepatic vein confluence could be preserved. No congestion in the right liver was seen; therefore, there was no requirement for the Pringle maneuver or THVE during reconstruction. No morbidity or mortality was seen after surgery.

Conclusions

Hepatectomy with suprahepatic IVC resection and reconstruction under V-A ECMO can be performed safely. When an ICC invades the suprahepatic IVC, V-A ECMO during resection and reconstruction of the suprahepatic IVC with an artificial graft is recommended as one of the options.

Three-dimensional modeling in complex liver surgery and liver transplantation

Liver resection and transplantation are the most effective therapies for many hepatobiliary tumors and diseases. However, these surgical procedures are challenging due to the anatomic complexity and many anatomical variations of the vascular and biliary structures. Three-dimensional (3D) printing models can clearly locate and describe blood vessels, bile ducts and tumors, calculate both liver and residual liver volumes, and finally predict the functional status of the liver after resection surgery. The 3D printing models may be particularly helpful in the preoperative evaluation and surgical planning of especially complex liver resection and transplantation, allowing to possibly increase resectability rates and reduce postoperative complications. With the continuous developments of imaging techniques, such models are expected to become widely applied in clinical practice.

From liver surgery to liver transplant surgery: new developments in autotransplantation

PURPOSE OF REVIEW

In spite of substantial technical improvements and conceptual revolutions in advanced liver surgery, there are still straitened circumstances that pose difficulties for in-situ liver resections. Ex-vivo liver resection and autotransplantation (ELRA) is a hybrid technique combining experiences from conventional liver surgery and liver transplantation. This technique is becoming more comprehensive and popular among leading centers recently.

RECENT FINDINGS

Short-term and long-term outcomes are now the focus of the technique after more than a decade of cumulative progress and technical evolution. As the 5-year survival nowadays reaches over 80%, this technique is believed to be beneficial for advanced tumors. In recent years, ELRA has been applied by more centers on larger scales, and the learning curve was set at 53 cases. Progresses in disease selection, surgical indications, individualized outflow reconstruction, or autograft implantation, management of co-morbidities (e.g., Budd-Chiari syndrome, caval and/or neighboring organ involvements, obstructive jaundice) propelled the development of the technique.

SUMMARY

This hybrid liver surgery will benefit for carefully selected patients presented with advanced benign diseases and well-differentiated malignancies.

Advances in the surgical treatment of liver cancer

Liver resection is the standard curative treatment for liver cancer. Advances in surgical techniques over the last 30 years, including the preoperative assessment of the future liver remnant, have improved the safety of liver resection. In addition, advances in nonsurgical multidisciplinary treatment have increased the opportunities for tumor downstaging. Consequently, the indications for resection of more advanced liver cancer have expanded. Laparoscopic and robot-assisted liver resections have also gradually become more widespread. These techniques should be performed in stages, depending on the difficulty of the procedure. Advances in preoperative simulation and intraoperative navigation technology may have also lowered the threshold for their performance and may have promoted their widespread use. New insights and experiences gained from laparoscopic surgery may be applicable in open surgery. Liver transplantation, which is usually indicated for patients with poor liver function, has also become safer with advances in perioperative management. The indications for liver transplantation in liver cancer are also expanding. Although the coronavirus disease 2019 pandemic has forced the postponement of liver resection and transplantation procedures, liver surgeons should appropriately tailor the surgical plan to the individual patient as part of multidisciplinary treatment. This review may provide an entry point for future clinical research by identifying currently unresolved issues regarding liver cancer, and particularly hepatocellular carcinoma.