Complete hepatic venous isolation and extracorporeal chemofiltration as treatment for human hepatocellular carcinoma: a phase I study

Isolated Hepatic Perfusion With Melphalan for Patients With Isolated Uveal Melanoma Liver Metastases: A Multicenter, Randomized, Open-Label, Phase III Trial (the SCANDIUM Trial)

PURPOSE

About half of patients with metastatic uveal melanoma present with isolated liver metastasis, in whom the median survival is 6-12 months. The few systemic treatment options available only moderately prolong survival. Isolated hepatic perfusion (IHP) with melphalan is a regional treatment option, but prospective efficacy and safety data are lacking.

METHODS

In this multicenter, randomized, open-label, phase III trial, patients with previously untreated isolated liver metastases from uveal melanoma were randomly assigned to receive a one-time treatment with IHP with melphalan or best alternative care (control group). The primary end point was overall survival at 24 months. Here, we report the secondary outcomes of response according to RECIST 1.1 criteria, progression-free survival (PFS), hepatic PFS (hPFS), and safety.

RESULTS

Ninety-three patients were randomly assigned, and 87 patients were assigned to either IHP (n = 43) or a control group receiving the investigator's choice of treatment (n = 44). In the control group, 49% received chemotherapy, 39% immune checkpoint inhibitors, and 9% locoregional treatment other than IHP. In an intention-to-treat analysis, the overall response rates (ORRs) were 40% versus 4.5% in the IHP and control groups, respectively (P < .0001). The median PFS was 7.4 months versus 3.3 months (P < .0001), with a hazard ratio of 0.21 (95% CI, 0.12 to 0.36), and the median hPFS was 9.1 months versus 3.3 months (P < .0001), both favoring the IHP arm. There were 11 treatment-related serious adverse events in the IHP group compared with seven in the control group. There was one treatment-related death in the IHP group.

CONCLUSION

IHP treatment resulted in superior ORR, hPFS, and PFS compared with best alternative care in previously untreated patients with isolated liver metastases from primary uveal melanoma.

Analysis of patient’s X-ray exposure in hepatic chemosaturation procedures: a single center experience

Background

Hepatic chemosaturation is a technique in which a high dose of the chemotherapeutic agent melphalan is administered directly into the liver while limiting systemic side effects. We reviewed our institutional experience regarding patient’s X-ray exposure caused by the procedure.

Methods

Fifty-five procedures, performed between 2016 and 2020 in 18 patients by three interventional radiologists (radiologist), were analyzed regarding the patient’s exposure to radiation. Dose-area-product (DAP) and fluoroscopy time (FT) were correlated with the experience of the radiologist and whether the preprocedural evaluation (CS-EVA) and the procedure were performed by the same radiologist. Additionally, the impact of previous liver surgery on DAP/FT was analyzed.

Results

Experienced radiologist require less DAP/FT (50 ± 18 Gy*cm²/13.2 ± 3.84 min vs. 69 ± 20 Gy*cm²/15.77 ± 7.82 min; p < 0.001). Chemosaturations performed by the same radiologist who performed CS-EVA required less DAP/FT (41 ± 12 Gy*cm²/11.46 ± 4.41 min vs. 62 ± 11 Gy*cm²/15.55 ± 7.91 min; p < 0.001). Chemosaturations in patients with prior liver surgery with involvement of the inferior cava vein required significantly higher DAP/FT (153 ± 27 Gy*cm²/25.43 ± 4.57 min vs. 56 ± 25 Gy*cm²/14.44 ± 7.55 min; p < 0.001).

Conclusion

There is a significant learning curve regarding the procedure of hepatic chemosaturation. Due to dose reduction the evaluation and chemosaturation therapy should be performed by the same radiologist. Procedures in patients with previous liver surgery require higher DAP/FT.

Initiation of Chemosaturation With Percutaneous Hepatic Perfusion Program in Interventional Radiology Department

Objectives Chemosaturation with percutaneous hepatic perfusion (PHP) is a relatively new minimally-invasive liver-directed therapy, which aims to deliver high-dose chemotherapy into the liver with low systemic side effects. Initial studies showed promising results, especially in the treatment of metastatic uveal melanoma. But unfamiliarity of the interventional radiologists prevents its widespread implantation in clinical routine. This study aimed to outline how to initiate a PHP program and report initial results. Methods We retrospectively reviewed all patients who underwent chemosaturation with PHP in our institution between March 2016 and February 2017 and their follow-up results till October 2018. Patient demographics, procedural characteristics, clinical and imaging results, and complications were evaluated. Additionally, modifications regarding infrastructure and procedure techniques were described. Results A total of three patients (two females and one male) with a mean age of 59 underwent six PHP procedures. The primary disease was colorectal carcinoma in one patient and uveal melanoma in two patients. The technical success rate was 100% and the mean melphalan dose was 190.8 mg. No procedural death was observed. Patients were hospitalized for a mean of 3.3 days after procedures. Grade 3 and 4 complications were seen after 50% and 33.3% of procedures, respectively. Two patients showed partial response and the other patient showed stable disease after procedures. Mean hepatic progression-free survival was 10.8 months. Overall survival from the first procedure was 14.8 months in our cohort. Conclusion Our results show that chemosaturation with PHP offers a promising minimally invasive treatment option in patients with unresectable liver metastases. The technical challenges of PHP can be easily handled by an experienced interventional radiology (IR) team. It is a relatively safe procedure and its toxicities are usually hematological and can be manageable with close surveillance and appropriate medical therapies.

A New Option for the Treatment of Intrahepatic Cholangiocarcinoma: Percutaneous Hepatic Perfusion with CHEMOSAT Delivery System

Liver metastases are a major management problem; since they occur in tumors of different origin, they are often multiple, difficult to visualize and can lie dormant for many years. Patients with liver metastases usually die of their disease, mostly due to liver failure, since systemic treatments are unable to eradicate micro-metastasis, and interventional loco-regional procedures cannot treat all existing ones. Cholangiocarcinoma (CCA) is the second most common primary liver tumor, showing a poor overall prognosis. When resection is not possible, treatment options include tumor-focused or local ablative therapy, organ-focused or regional therapy and systemic therapy. We reviewed available loco-regional therapeutic options, with particular focus on the CHEMOSAT® Melphalan/Hepatic Delivery System (CS-HDS), which is uniquely positioned to perform a percutaneous hepatic perfusion (PHP), in order to treat the entire liver as a standalone or as complementary therapy. This system isolates the liver circulation, delivers a high concentration of chemotherapy (melphalan), filters most chemotherapy out of the blood and is a repeatable procedure. Most CS-HDS benefits are demonstrated in liver-predominant diseases, like liver metastasis from uveal melanoma (UM), hepatocarcinoma (HCC) and CCA. More than 650 procedures have been performed in Europe to date, mostly to treat liver metastases from UM. In CCA, experience is still limited, but retrospective analyses have been reported, while phase II and III studies are closed, waiting for results or ongoing.

Computational modeling of drug transport and mixing in the chemofilter device: enhancing the removal of chemotherapeutics from circulation

Intra-arterial chemotherapy (IAC) is the preferred treatment for non-resectable hepatocellular carcinoma. A large fraction of IAC drugs, e.g., Doxorubicin, pass into systemic circulation, causing cardiac toxicity and reducing effectiveness of the procedure. These excessive drugs can be captured by the Chemofilter-a 3D-printable, catheter-based device deployed in a vein downstream of the liver during IAC. In this study, alternative configurations of the Chemofilter device were compared by evaluating their hemodynamic and filtration performance through multiphysics computational fluid dynamics simulations. Two designs were evaluated, a honeycomb-like structure of parallel hexagonal channels (honeycomb Chemofilter) and a cubic lattice of struts (strutted Chemofilter). The computationally optimized Chemofilter design contains three honeycomb stages, each perforated and twisted, which improved Doxorubicin adsorption by 44.6% compared to a straight channel design. The multiphysics simulations predicted an overall 66.8% decrease in concentration with a 2.9 mm-Hg pressure drop across the optimized device compared to a 50% concentration decrease observed during in-vivo experiments conducted with the strutted Chemofilter. The Doxorubicin transport simulations demonstrated the effectiveness of the Chemofilter in removing excessive drugs from circulation while minimizing pressure drop and eliminating flow stagnation regions prone to thrombosis. These results demonstrate the value of the multiphysics modeling approach in device optimization and experimental burden reduction.

3D Printed Absorber for Capturing Chemotherapy Drugs before They Spread through the Body

Despite efforts to develop increasingly targeted and personalized cancer therapeutics, dosing of drugs in cancer chemotherapy is limited by systemic toxic side effects. We have designed, built, and deployed porous absorbers for capturing chemotherapy drugs from the bloodstream after these drugs have had their effect on a tumor, but before they are released into the body where they can cause hazardous side effects. The support structure of the absorbers was built using 3D printing technology. This structure was coated with a nanostructured block copolymer with outer blocks that anchor the polymer chains to the 3D printed support structure and a middle block that has an affinity for the drug. The middle block is polystyrenesulfonate which binds to doxorubicin, a widely used and effective chemotherapy drug with significant toxic side effects. The absorbers are designed for deployment during chemotherapy using minimally invasive image-guided endovascular surgical procedures. We show that the introduction of the absorbers into the blood of swine models enables the capture of 64 ± 6% of the administered drug (doxorubicin) without any immediate adverse effects. Problems related to blood clots, vein wall dissection, and other biocompatibility issues were not observed. This development represents a significant step forward in minimizing toxic side effects of chemotherapy.

Optimization of an endovascular magnetic filter for maximized capture of magnetic nanoparticles

To computationally optimize the design of an endovascular magnetic filtration device that binds iron oxide nanoparticles and to validate simulations with experimental results of prototype devices in physiologic flow testing. Three-dimensional computational models of different endovascular magnetic filter devices assessed magnetic particle capture. We simulated a series of cylindrical neodymium N52 magnets and capture of 1500 iron oxide nanoparticles infused in a simulated 14 mm-diameter vessel. Device parameters varied included: magnetization orientation (across the diameter, "D", along the length, "L", of the filter), magnet outer diameter (3, 4, 5 mm), magnet length (5, 10 mm), and spacing between magnets (1, 3 mm). Top designs were tested in vitro using ⁸⁹Zr-radiolabeled iron oxide nanoparticles and gamma counting both in continuous and multiple pass flow model. Computationally, "D" magnetized devices had greater capture than "L" magnetized devices. Increasing outer diameter of magnets increased particle capture as follows: "D" designs, 3 mm: 12.8-13.6 %, 4 mm: 16.6-17.6 %, 5 mm: 21.8-24.6 %; "L" designs, 3 mm: 5.6-10 %, 4 mm: 9.4-15.8 %, 5 mm: 14.8-21.2 %. In vitro, while there was significant capture by all device designs, with most capturing 87-93 % within the first two minutes, compared to control non-magnetic devices, there was no significant difference in particle capture with the parameters varied. The computational study predicts that endovascular magnetic filters demonstrate maximum particle capture with "D" magnetization. In vitro flow testing demonstrated no difference in capture with varied parameters. Clinically, "D" magnetized devices would be most practical, sized as large as possible without causing intravascular flow obstruction.

In vitro clearance of doxorubicin with a DNA-based filtration device designed for intravascular use with intra-arterial chemotherapy

To report a novel method using immobilized DNA within mesh to sequester drugs that have intrinsic DNA binding characteristics directly from flowing blood. DNA binding experiments were carried out in vitro with doxorubicin in saline (PBS solution), porcine serum, and porcine blood. Genomic DNA was used to identify the concentration of DNA that shows optimum binding clearance of doxorubicin from solution. Doxorubicin binding kinetics by DNA enclosed within porous mesh bags was evaluated. Flow model simulating blood flow in the inferior vena cava was used to determine in vitro binding kinetics between doxorubicin and DNA. The kinetics of doxorubicin binding to free DNA is dose-dependent and rapid, with 82-96 % decrease in drug concentration from physiologic solutions within 1 min of reaction time. DNA demonstrates faster binding kinetics by doxorubicin as compared to polystyrene resins that use an ion exchange mechanism. DNA contained within mesh yields an approximately 70 % decrease in doxorubicin concentration from solution within 5 min. In the IVC flow model, there is a 70 % drop in doxorubicin concentration at 60 min. A DNA-containing ChemoFilter device can rapidly clear clinical doses of doxorubicin from a flow model in simple and complex physiological solutions, thereby suggesting a novel approach to reduce the toxicity of DNA-binding drugs.

In Vitro Capture of Small Ferrous Particles with a Magnetic Filtration Device Designed for Intravascular Use with Intraarterial Chemotherapy: Proof-of-Concept Study

PURPOSE

To establish that a magnetic device designed for intravascular use can bind small iron particles in physiologic flow models.

MATERIALS AND METHODS

Uncoated iron oxide particles 50-100 nm and 1-5 µm in size were tested in a water flow chamber over a period of 10 minutes without a magnet (ie, control) and with large and small prototype magnets. These same particles and 1-µm carboxylic acid-coated iron oxide beads were likewise tested in a serum flow chamber model without a magnet (ie, control) and with the small prototype magnet.

RESULTS

Particles were successfully captured from solution. Particle concentrations in solution decreased in all experiments (P < .05 vs matched control runs). At 10 minutes, concentrations were 98% (50-100-nm particles in water with a large magnet), 97% (50-100-nm particles in water with a small magnet), 99% (1-5-µm particles in water with a large magnet), 99% (1-5-µm particles in water with a small magnet), 95% (50-100-nm particles in serum with a small magnet), 92% (1-5-µm particles in serum with a small magnet), and 75% (1-µm coated beads in serum with a small magnet) lower compared with matched control runs.

CONCLUSIONS

This study demonstrates the concept of magnetic capture of small iron oxide particles in physiologic flow models by using a small wire-mounted magnetic filter designed for intravascular use.

Long-Term Follow-Up Evaluation of 68 Patients with Uveal Melanoma Liver Metastases Treated with Isolated Hepatic Perfusion

BACKGROUND

This report describes the outcomes and long-term follow-up data from all isolated hepatic perfusions (IHPs) performed at a single institution in Sweden between the years 1989 and 2013 for patients with isolated uveal melanoma metastases.

METHODS

A total of 68 patients (median age, 61 years) were treated consecutively at Sahlgrenska University Hospital. Of the 68 patients, 67 % had fewer than 10 tumors. The median diameter of the largest lesion was 2.5 cm. The patients underwent IHP with either melphalan alone or the addition of either tumor necrosis factor-alpha or cisplatin. The response was assessed after 8-12 weeks by computed tomography or magnetic resonance imaging.

RESULTS

The overall response rate was 67 and 20 % of the patients had a complete response. The median times to local and systemic progression were respectively 10 and 14 months. The prognostic factors for time to local recurrence were response and number of tumors. The median survival time was 22 months. The prognostic factors for survival were response, largest tumor diameter, and number of tumors. Five patients (7 %) died within 30 days, and six patients (9 %) experienced major complications (Clavien-Dindo 3/4).

CONCLUSIONS

Isolated hepatic perfusion is a treatment option with high response rates and tolerable mortality and morbidity. Whether IHP has a survival benefit compared with other treatment options currently is being investigated in a randomized trial.

Development and Validation of Endovascular Chemotherapy Filter Device for Removing High-Dose Doxorubicin: Preclinical Study

To develop a novel endovascular chemotherapy filter (CF) able to remove excess drug from the blood during intra-arterial chemotherapy delivery (IAC), thus preventing systemic toxicities and thereby enabling higher dose IAC. A flow circuit containing 2.5 mL of ion-exchange resin was constructed. Phosphate-buffered saline (PBS) containing 50 mg doxorubicin (Dox) was placed in the flow model with the hypothesis that doxorubicin would bind rapidly to resin. To simulate IAC, 50 mg of doxorubicin was infused over 10 min into the flow model containing resin. Similar testing was repeated with porcine serum. Doxorubicin concentrations were measured over 60 min and compared to controls (without resin). Single-pass experiments were also performed. Based on these experiments, an 18F CF was constructed with resin in its tip. In a pilot porcine study, the device was deployed under fluoroscopy. A control hepatic doxorubicin IAC model (no CF placed) was developed in another animal. A second CF device was created with a resin membrane and tested in the infrarenal inferior vena cava (IVC) of a swine. In the PBS model, resin bound 76% of doxorubicin in 10 min, and 92% in 30 min (P < 0.001). During IAC simulation, 64% of doxorubicin bound in 10 min and 96% in 60 min (P < 0.001). On average, 51% of doxorubicin concentration was reduced during each pass in single pass studies. In porcine serum, 52% of doxorubicin bound in 10 min, and 80% in 30 min (P < 0.05). CF device placement and administration of IAC were successful in three animals. No clot was present on the resin within the CF following the in vivo study. The infrarenal IVC swine study demonstrated promising results with up to 85% reduction in peak concentration by the CF device. An endovascular CF device was developed and shown feasible in vitro. An in vivo model was established with promising results supporting high-capacity rapid doxorubicin filtration from the blood that can be further evaluated in future studies.

Isolated hepatic perfusion as a treatment for uveal melanoma liver metastases (the SCANDIUM trial): study protocol for a randomized controlled trial

BACKGROUND

Uveal melanoma is the most common primary intraocular malignancy in adults. Despite successful control of the primary tumor, metastatic disease will ultimately develop in approximately 50% of patients, with the liver being the most common site for metastases. The median survival for patients with liver metastases is between 6 and 12 months, and no treatment has in randomized trials ever been shown to prolong survival. A previous phase II trial using isolated hepatic perfusion (IHP) has suggested a 14-month increase in overall survival compared with a historic control group consisting of the longest surviving patients in Sweden during the same time period (26 versus 12 months).

METHODS/DESIGN

This is the protocol for a multicenter phase III trial randomizing patients with isolated liver metastases of uveal melanoma to IHP or best alternative care (BAC). Inclusion criteria include liver metastases (verified by biopsy) and no evidence of extra-hepatic tumor manifestations by positron emission tomography-computed tomography (PET-CT). The primary endpoint is overall survival at 24 months, with secondary endpoints including response rate, progression-free survival, and quality of life. The planned sample size is 78 patients throughout five years.

DISCUSSION

Patients with isolated liver metastases of uveal melanoma origin have a short expected survival and no standard treatment option exists. This is the first randomized clinical trial to evaluate IHP as a treatment option with overall survival being the primary endpoint.

TRIAL REGISTRATION

ClinicalTrials.gov registration number: NCT01785316 (registered 1 February 2013). EudraCT registration number: 2013-000564-29.

Isolated hepatic perfusion for patients with liver metastases

Up to 80% of colorectal, melanoma, and neuroendocrine liver metastases are unresectable due to excessive tumor burden. Isolated hepatic perfusion (IHP) administers intensive therapy to the liver while limiting systemic toxicity and thus may have an important role in the management of unresectable liver metastases. This review s describes the development of IHP, initial clinical results, open and percutaneous IHP techniques, and contemporary long-term treatment outcomes. IHP with melphalan or tumor necrosis factor α (TNFα) has been shown to achieve hepatic response rates of greater than 50% with progression-free survival of greater than 12 months among patients with refractory ocular melanoma liver metastases. The only series describing outcomes of IHP for neuroendocrine liver metastases notes an overall response rate of 50% and a median actuarial overall survival of 48 months after IHP treatment with melphalan or TNFα. The majority of studies that have evaluated IHP have been performed in patients with colorectal cancer liver metastases (CRCLM). In aggregate, survival results from retrospective studies and phase I/II clinical trials suggest that IHP demonstrated no significant survival benefit compared with systemic chemotherapy alone as first-line therapy. In contrast, IHP does improve outcomes relative to that provided by second-line chemotherapy for CRCLM, with overall response rates of 60% and median duration of liver response of 12 months. Continued evaluation of IHP for unresectable liver metastases is necessary to establish its role in multidisciplinary treatment approaches.

Progression of cutaneous melanoma: implications for treatment

The survival rates of melanoma, like any type of cancer, become worse with advancing stage. Spectrum theory is most consistent with the progression of melanoma from the primary site to the in-transit locations, regional or sentinel lymph nodes and beyond to the distant sites. Therefore, early diagnosis and surgical treatment before its spread is the most effective treatment. Recently, new approaches have revolutionized the diagnosis and treatment of melanoma. Genomic profiling and sequencing will form the basis for molecular taxonomy for more accurate subgrouping of melanoma patients in the future. New insights of molecular mechanisms of metastasis are summarized in this review article. Sentinel lymph node biopsy has become a standard of care for staging primary melanoma without the need for a more morbid complete regional lymph node dissection. With recent developments in molecular biology and genomics, novel molecular targeted therapy is being developed through clinical trials.

Minimally invasive intra-arterial regional therapy for metastatic melanoma: isolated limb infusion and percutaneous hepatic perfusion

INTRODUCTION

In-transit melanoma or melanoma presenting as unresectable liver metastases are clinical situations with limited therapeutic options. Regional intra-arterial therapies provide efficacious treatment alternatives for these patients. Through surgical techniques of vascular isolation, regional therapies deliver high-dose chemotherapy to tumor cells while minimizing systemic exposure. However, percutaneous techniques such as isolated limb infusion (ILI) and percutaneous hepatic perfusion (PHP) have been developed, which provide a minimally invasive means of obtaining vascular isolation of target organs.

AREAS COVERED

Areas covered in this review include the techniques of ILI and PHP, the chemotherapeutic agents utilized during these regional therapies and the clinical responses seen after ILI and PHP. The pharmacokinetics of regional chemotherapy utilized during ILI and PHP is also reviewed with an additional focus on novel ways to optimize drug delivery to improve response rates and attempts to define the potential systemic manifestations of regional therapeutics.

EXPERT OPINION

Unresectable hepatic and limb in-transit metastases from melanoma are very difficult to treat. Systemic chemotherapy has largely been ineffective. Both the minimally invasive, percutaneous techniques of ILI and PHP are excellent methods used to deliver extremely high-dose chemotherapy regionally to patients harboring metastatic melanoma confined to an extremity or liver, respectively. Studies, from prospectively maintained databases as well as Phase II and III trials, have shown the great efficacy of these techniques.

Percutaneous hepatic perfusion in patients with metastatic liver cancer: anesthetic, hemodynamic, and metabolic considerations

BACKGROUND

Percutaneous hepatic perfusion (PHP), a regional cancer therapy, entails insertion of percutaneous catheters to isolate hepatic vasculature and enable simultaneous hepatic venous hemofiltration of high-dose chemotherapy. PHP has been shown to be safe and to benefit some patients with liver metastases.

METHODS

We examined hemodynamic and metabolic changes as well as anesthetic implications during PHP in patients with metastatic liver cancer enrolled in clinical trials of escalating doses of melphalan between 2001 and 2006.

RESULTS

Fifty-one patients underwent 136 PHPs with general anesthesia. Diagnoses included neuroendocrine tumors, melanoma, and metastatic carcinomas. Based upon available data derived from all procedures, incorporating multiple procedures per patient, after occlusion of the inferior vena cava and during hepatic perfusion, there were decreases in mean arterial (-15.4 +/- 1 and -7.4 +/- 1 mmHg, respectively) and central venous pressure (-5.4 +/- 0.3 and -5.6 +/- 0.3 mmHg) and increases in heart rate (11 +/- 1 and 13.4 +/- 0.9 bpm) (all p < 0.0001) which resolved with completion of the procedure. During vascular isolation, patients received norepinephrine (13% of procedures), phenylephrine (70%), or both agents (11%). During hepatic perfusion with melphalan, compared to baseline, there were decreases in pH (-0.09 +/- 0.01) and bicarbonate (-3.3 +/- 0.6 mmol/L) (both p < 0.0001) and, upon completion of procedure, increases (2.6 +/- 0.4 mmol/L) in bicarbonate, compared to values during hepatic perfusion (p < 0.0001).

CONCLUSIONS

PHP therapy can be associated with transient but significant hemodynamic and metabolic perturbations. In order to assure patient comfort and facilitate timely diagnosis and treatment of associated hemodynamic and metabolic changes, we favor administration of general anesthesia, rather than sedation, for patients undergoing PHP.

Regional treatment options for patients with ocular melanoma metastatic to the liver

Ocular melanoma is the most common primary ocular malignancy and has a significant predilection for metastasis to the liver. More than 40% of patients have hepatic metastases present at initial diagnosis, and the liver becomes involved in up to 95% of individuals who develop metastatic disease. The median survival of patients after diagnosis of liver metastasis ranges from 2 to 7 months. Metastatic disease localized to the liver has proven to be resistant to most available chemotherapy and immunotherapy regimens. Recognition of the grave prognosis associated with liver metastasis from ocular melanoma has led to the evaluation of new regional treatment modalities primarily designed to control tumor progression in the liver, including hepatic arterial chemotherapy, hepatic artery chemoembolization, regional immunotherapy, isolated hepatic perfusion, and percutaneous hepatic perfusion. This article reviews the efficacy, outcomes, and morbidities of the multiple locoregional therapies available today.

Isolated liver perfusion for non-resectable liver tumours: a review

Many treatments have been proposed for non-resectable primary or secondary hepatic cancer but the results have generally been disappointing. Isolated Hepatic Perfusion (IHP) was first attempted four decades ago but it gained acceptance only recently, after spectacular tumour responses were obtained by isolated limb perfusion with melphalan and tumour necrosis factor (TNF) for melanomas and sarcomas. Surgical isolation of the liver is a technically demanding operation that allows the safe administration of high doses of chemotherapeutics and TNF. Percutaneous techniques using balloon occlusion catheters are simpler but result in higher leakage rates from the perfusion circuit into the systemic circulation. Several phase I-II trials indicate that IHP can yield high tumour response rates, even when there is resistance to systemic chemotherapy. However, no significant advantage in overall survival has been demonstrated so far. IHP offers unique pharmacokinetic advantages for locoregional chemotherapy and biotherapy. It might also allow gene therapy with limited systemic exposure and toxicity. At present, IHP nevertheless remains an experimental treatment modality which should therefore be used in controlled trials only.

Hepatocellular carcinoma in children: results of the first prospective study of the International Society of Pediatric Oncology group

PURPOSE

To improve survival and reduce operative morbidity and mortality in children with primary epithelial liver tumors by using preoperative chemotherapy, as well as to collect information on the epidemiology, natural history, and prognostic factors.

PATIENTS AND METHODS

Forty children with hepatocellular carcinoma (HCC) were registered onto the Group for Epithelial Liver Tumors International Society of Pediatric Oncology's first study from January 1990 to February 1994. The outcome could be analyzed in 39 of those patients. Disease was often advanced at the time of diagnosis; metastases were identified in 31% of the children and extrahepatic tumor extension, vascular invasion, or both in 39%. Multifocal tumors were common (56%). Thirty-three percent of tumors were associated with hepatic cirrhosis. All but two patients received preoperative chemotherapy (cisplatin and doxorubicin).

RESULTS

Partial response was observed in 18 (49%) of 37 patients; there was no response or progression in the remainder. Complete tumor resection was achieved in 14 patients (36%). Twenty patients (51%) never became operable. Overall survival at 5 years was 28%, and event-free survival was 17%. Most deaths resulted from tumor progression (26 of 28). Presence of metastases and pretreatment extent of disease system grouping at diagnosis had an adverse influence on overall survival in multivariate analysis.

CONCLUSION

Survival for pediatric HCC patients is significantly inferior to that for children with hepatoblastoma. Complete tumor excision remains the only realistic chance of cure, although it is often prevented by advanced disease. The presence of metastases is the most potent predictor of poor prognosis. A prospective worldwide cooperation in the field of pediatric HCC should be encouraged to look for novel therapeutic concepts.

Transarterial perfusion of liver metastases

Progressive growth of unresectable metastatic or primary malignancies confined to the liver is a significant clinical problem. Approximately 25% of patients with colorectal cancer will develop metastatic disease exclusively or largely confined to liver, the vast majority of which are not amenable to surgical resection. Despite aggressive systemic or regional chemotherapy, survival is only 12 to 18 months. More than 80% of patients with ocular melanoma develop liver metastases as the first site of recurrent disease, and death from hepatic disease progression typically occurs 2 to 7 months after diagnosis. In addition, the liver is also the preferred site of metastatic disease for gastrointestinal or pancreatic neuroendocrine tumors. A number of physiological and anatomic features of the liver make it an ideal organ for regionally directed therapy to allow dose intensification to the cancer-burdened area while reducing or eliminating unnecessary systemic toxicity. To that end, complete vascular isolation and perfusion of the liver using a recirculating extracorporeal circuit, also called isolated hepatic perfusion (IHP), has been under clinical evaluation at our institution and others. In this article, we review the current results with IHP and its potential utility in the treatment of patients with unresectable hepatic malignancies.

Isolation perfusion of the liver

Thousands of patients die annually from unresectable metastatic or primary hepatic cancers confined to liver. Isolated hepatic perfusion (IHP) is a regional treatment strategy in which the vascular supply to the liver is isolated and perfused with a therapeutic regimen using an extracorporeal circuit consisting of a reservoir, heat exchanger, and oxygenator. Drug doses that would cause severe toxicities if delivered systemically can be confined to the liver by isolated hepatic perfusion, resulting in the ability to intensify treatment to the cancer-burdened region of the body. Agents and mechanisms commonly used in IHP include melphaIan, hyperthermia, and tumor necrosis factor. IHP appears to be efficacious for patients with advanced disease, as reflected by large tumor size, high number of lesions, or significant overall tumor burden in the liver. In addition, responses are observed for patients whose cancer is refractory to systemic and hepatic arterial infusion chemotherapy. Recent clinical trials have demonstrated that IHP has anti-tumor efficacy against primary hepatic neoplasms and metastases from various primary tumors, such as colorectal carcinoma, ocular melanoma, and neuroendocrine tumors. Current studies demonstrate that combining hepatic arterial infusion with floxuridine after IHP for patients with colorectal cancer metastases is associated with significant and durable response rates. Continued clinical evaluation is warranted for the use of IHP in the treatment of unresectable liver metastases.

Increased local cytostatic drug exposure by isolated hepatic perfusion: a phase I clinical and pharmacologic evaluation of treatment with high dose melphalan in patients with colorectal cancer confined to the liver

A phase I dose-escalation study was performed to determine whether isolated hepatic perfusion (IHP) with melphalan (L-PAM) allows exposure of the liver to much higher drug concentrations than clinically achievable after systemic administration and leads to higher tumour concentrations of L-PAM. Twenty-four patients with colorectal cancer confined to the liver were treated with L-PAM dosages escalating from 0.5 to 4.0 mg kg(-1). During all IHP procedures, leakage of perfusate was monitored. Duration of IHP was aimed at 60 min, but was shortened in eight cases as a result of leakage from the isolated circuit. From these, three patients developed WHO grade 3-4 leukopenia and two patients died due to sepsis. A reversible elevation of liver enzymes and bilirubin was seen in the majority of patients. Only one patient was treated with 4.0 mg kg(-1) L-PAM, who died 8 days after IHP as a result of multiple-organ failure. A statistically significant correlation was found between the dose of L-PAM, peak L-PAM concentrations in perfusate (R = 0.86, P< or =0.001), perfusate area under the concentration-time curve (AUC; R = 0.82, P<0.001), tumour tissue concentrations of L-PAM (R = 0.83, P = 0.011) and patient survival (R = 0.52, P = 0.02). The peak L-PAM concentration and AUC of L-PAM in perfusate at dose level 3.0 mg kg(-1) (n = 5) were respectively 35- and 13-fold higher than in the systemic circulation, and respectively 30- and 5-fold higher than reported for high dose oral L-PAM (80-157 mg m(-2)) and autologous bone marrow transplantation. Median survival after IHP (n = 21) was 19 months and the overall response rate was 29% (17 assessable patients; one complete and four partial remissions). Thus, the maximally tolerated dose of L-PAM delivered via IHP is approximately 3.0 mg kg(-1), leading to high L-PAM concentrations at the target side. Because of the complexity of this treatment modality, IHP has at present no place in routine clinical practice.

Isolated hypoxic hepatic perfusion with tumor necrosis factor-alpha, melphalan, and mitomycin C using balloon catheter techniques: a pharmacokinetic study in pigs

OBJECTIVE

To validate the methodology of isolated hypoxic hepatic perfusion (IHHP) using balloon catheter techniques and to gain insight into the distribution of tumor necrosis factor-alpha (TNF), melphalan, and mitomycin C (MMC) through the regional and systemic blood compartments when applying these techniques.

SUMMARY BACKGROUND DATA

There is no standard treatment for unresectable liver tumors. Clinical results of isolated limb perfusion with high-dose TNF and melphalan for the treatment of melanoma and sarcoma have been promising, and attempts have been made to extrapolate this success to the isolated liver perfusion setting. The magnitude and toxicity of the surgical procedure, however, have limited clinical applicability.

METHODS

Pigs underwent IHHP with TNF, melphalan, and MMC using balloon catheters or served as controls, receiving equivalent dosages of these agents intravenously. After a 20-minute perfusion, a washout procedure was performed for 10 minutes, after which isolation was terminated. Throughout the procedure and afterward, blood samples were obtained from the hepatic and systemic blood compartments and concentrations of perfused agents were determined.

RESULTS

During perfusion, locoregional plasma drug concentrations were 20- to 40-fold higher than systemic concentrations. Compared with systemic concentrations after intravenous administration, regional concentrations during IHHP were up to 10-fold higher. Regional MMC and melphalan levels steadily declined during perfusion, indicating rapid uptake by the liver tissue; minimal systemic concentrations indicated virtually no leakage to the systemic blood compartment. During isolation, concentrations of TNF in the perfusate declined only slightly, indicating limited uptake by the liver tissue; no leakage of TNF to the systemic circulation was observed. After termination of isolation, systemic TNF levels showed only a minor transient elevation, indicating that the washout procedure at the end of the perfusions was fully effective.

CONCLUSIONS

Complete isolation of the hepatic vascular bed can be accomplished when performing IHHP using this balloon catheter technique. Thus, as in extremities, an ideal leakage-free perfusion of the liver can now be performed, and repeated, without major surgery. The effective washout allows the addition of TNF in this setting.

Percutaneous isolated liver chemoperfusion for treatment of unresectable malignant liver tumors: technique, pharmacokinetics, clinical results

We have developed a single-catheter technique for percutaneous isolated liver chemoperfusion (PILP) with hepatic venous isolation and charcoal hemoperfusion (HVI-CHP) for the treatment of malignant liver tumors. We report here the surgical technique, pharmacokinetics, and effectiveness of PILP in multiple advanced liver tumors. Twenty-eight patients with hepatocellular carcinoma (HCC) and 18 with metastatic liver tumors underwent a total of 61 PILPs with HVI-CHP. HVI-CHP was accomplished mainly by the single-catheter technique using a novel four-lumen, two-balloon catheter; it was used to isolate and capture total hepatic venous outflow and, at the same time, to direct the filtered blood to the right atrium. Under HVI-CHP, either doxorubicin 960-150 mg/m2) or cisplatin (150-200 mg/m2) was infused via the hepatic artery. The PILP was completed successfully in all 61 trials. Two of forty-six patients died early; one of necrotizing pancreatitis and the other of hepatic arterial thrombosis. Both deaths were related directly to the hepatic arterial catheter. Excluding these two deaths, the treatments were well tolerated. The major side effects were mild to moderate chemical hepatitis and reversible myelosuppression. Of the 27 evaluable HCC patients, 17 (63%) had an objective tumor response (5 complete and 12 partial responses). In 15 patients with colorectal hepatic metastases (CHM), 7 had a sharp decrease in serum carcinoembryonic antigen (CEA) levels (to < 50% of their pretreatment levels) after treatment. However, a single PILP had limited efficacy in terms of the durability of remission (< or = 6 months in most CHM patients, as assessed by CEA levels). These results indicate that PILP with HVI-CHP has high efficacy in most patients with multiple advanced liver tumors. In addition, the results suggest a role of multiple treatment courses of PILP in the induction of long-term remission, especially for patients responsive to the first treatment.

Safe anesthetic management of patients undergoing a novel method of treating human hepatocellular cancer

STUDY OBJECTIVE

To evaluate the safety and efficacy of monitored anesthesia care (MAC) in patients who undergo a novel treatment for hepatocellular cancer in which procedure-related hemodynamic instability is problematic.

DESIGN

Nonrandomized open study.

SETTING

University cancer center operating room.

PATIENTS

Nine patients scheduled for hepatic arterial infusion of doxorubicin with complete hepatic venous isolation and extracorporeal chemofiltration (no more than 3 procedures per patient).

INTERVENTIONS

Hepatic venous isolation was achieved with a dual-balloon inferior vena cava catheter connected to an extracorporeal circuit containing chemofilters. Doxorubicin was infused through the hepatic artery and filtered from the venous blood, which was returned to the patient through an internal jugular venous catheter. Each patient received a bolus of propofol (200 micrograms/kg) and one of alfentanil (2 micrograms/kg) followed by simultaneous infusions of propofol and alfentanil for percutaneous placement of the catheters and operation of the extracorporeal circuit. Drug rates were varied to maintain a sedative-analgesic state of calm, comfort, minimal movement, and adequate respiratory function. Prior to circuit initiation, patients were preloaded with crystalloid. During circuit operation, hypotension was treated with intravenous (IV) phenylephrine and crystalloid.

MEASUREMENTS AND MAIN RESULTS

End-tidal CO2 (PETCO2), respiratory rate, oxygen saturation (SaO2), arterial blood pressure (BP), and heart rate (HR) were monitored. Systolic, diastolic, and mean arterial pressure (MAP), and HR were compared before, during, and after hepatic venous isolation and chemofiltration. Doses and infusion rates of propofol, alfentanil, and phenylephrine were recorded for each treatment. Hypotension occurred in 11 of 13 procedures when blood was directed through the chemofilters and was successfully treated with phenylephrine (dose range 40 to 5,733 micrograms) and crystalloid. Blood pressure returned to the baseline value on termination of the circuit. Throughout the sedation, patients were easily arousable, analgesia was adequate, and PETCO2 level of 38 +/- 4 mmHg and SaO2 greater than 94% were maintained. Mean doses and infusion rates of MAC drugs were, respectively: propofol, 261 +/- 88 mg and 23.7 +/- 3.6 micrograms/kg/min; alfentanil, 3,350 +/- 1,468 micrograms and 0.32 +/- 0.14 microgram/kg/min.

CONCLUSIONS

Patients undergoing this novel cancer treatment are safely and effectively managed by MAC achieved with simultaneous infusions of alfentanil and propofol. Procedure-associated hypotension is easily treated with IV phenylephrine and crystalloid.

Single catheter technique of hepatic venous isolation and extracorporeal charcoal hemoperfusion for malignant liver tumors

BACKGROUND

A single catheter technique of hepatic venous isolation and charcoal hemoperfusion (HVI-CHP) using a 4-lumen/2-balloon (4L-2B) catheter was developed to perform high-dose intra-arterial chemotherapy of the liver. Herein we report the technique, safety, and pharmacokinetics of this system in comparison with the original double-balloon technique.

PATIENTS AND METHODS

Sixteen patients with malignant liver tumors were treated by hepatic arterial infusion (HAI) with adriamycin at a dose of 100 mg/m2 under HVI-CHP. Seven patients underwent HVI-CHP by the double-balloon technique (group A), in which filtered hepatic effluent and the rest of the inferior vena caval blood were separately drawn and returned to the left axillary vein. The other nine patients were treated by the single catheter technique (group B). In group B, hepatic effluent was isolated by balloon inflations and directed to filters through fenestrations of one major lumen of a 4L-2B catheter. The filtered blood was returned straight to the right atrium through the other major lumen of the catheter.

RESULTS

All patients in group A had a smooth stepwise induction of HVI-CHP, whereas one of nine patients in group B developed severe hypotension requiring interruption of HVI. The hepatic venous flow rate in group B during HVI-CHP was significantly higher than that in group A (P < 0.05). Systemic adriamycin exposure, as assessed by the area under the time concentration curve in systemic serum, was significantly higher in group A compared to that in group B (P < 0.01).

CONCLUSIONS

The single catheter technique is hemodynamically tolerable and feasible in the majority of patients with malignant liver tumors. In view of systemic drug exposure, the single catheter technique is superior to the original double-balloon technique.

Regional Transcatheter Therapy of Hepatic Neoplasms

BACKGROUND: Surgical resection of hepatocellular carcinomas and metastases to the liver cannot always be performed, and systemic therapies for these entities are of limited value. The techniques of chemoembolization and hepatic artery infusion have been used for patients who are not candidates for surgery. METHODS: Chemoembolization uses percutaneous intra-arterial infusion of chemotherapeutic agents and embolic material. This provides longer contact of the agents with the tumor cells and induces ischemia. Hepatic arterial chemoinfusion uses the knowledge that hepatic cancers are supplied predominantly by the hepatic artery. RESULTS: Chemoembolization using Lipiodol, doxorubicin, and Gelfoam has promoted necrosis of unresectable hepatocellular tumors and may have prolonged patient survival. Hepatic arterial infusion with fluorinated pyrimidines produces more objective responses than systemic chemotherapy but probably does not alter survival. CONCLUSIONS: The nonsurgical treatments of chemoembolization and hepatic arterial infusion of chemotherapy have expanded our armamentarium to manage many primary and metastatic tumors in the liver. Additional approaches are needed.

Hepatic arterial infusion of verapamil and doxorubicin with complete hepatic venous isolation and extracorporeal chemofiltration: pharmacological evaluation of reduction in systemic drug exposure and assessment of hepatic toxicity

Tumour resistance to chemotherapeutic drugs through expression of the multidrug resistance phenotype is a major impediment in the treatment of hepatic malignancies. We performed hepatic arterial infusion of verapamil (at a dose known to block P-glycoprotein activity) and doxorubicin combined with complete hepatic venous isolation and extracorporeal chemofiltration in non-tumour-bearing pigs with normal livers to evaluate the pharmacology and toxicology of this drug combination. The complete hepatic venous isolation-chemofiltration system significantly reduced system exposure to both verapamil and doxorubicin (P < 0.01). Hepatic arterial infusion of verapamil (2 mg/kg) alone did not result in hepatocellular toxicity. However, the combination of verapamil and doxorubicin (3 mg/kg or 5 mg/kg) produced significant elevations in liver enzymes (P < 0.01), and gross histological evidence of liver damage in 90% of the treated animals. The results of this study indicate that hepatic arterial infusion of verapamil and doxorubicin, in an attempt to improve treatment response in unresectable liver tumours expressing the multidrug resistance phenotype, may not be tolerated by patients with limited hepatic reserve.

Increased doxorubicin levels in hepatic tumors with reduced systemic drug exposure achieved with complete hepatic venous isolation and extracorporeal chemofiltration

We evaluated a novel system of complete hepatic venous isolation and chemofiltration (CHVI-CF) to reduce systemic drug exposure following regional hepatic infusion of doxorubicin. Rabbits bearing hepatic VX-2 tumors were given doxorubicin via either hepatic arterial infusion (HAI) or portal venous infusion (PVI). A dual-balloon vena cava catheter and extracorporeal chemofilter were used to capture and filter hepatic venous blood in experimental animals. Control animals received chemotherapy without hepatic venous isolation and chemofiltration. Following a 5-min HAI of doxorubicin (3 or 5 mg/kg), control and experimental animals had similar doxorubicin levels in their livers and VX-2 tumors, but experimental animals showed a significant reduction in doxorubicin levels in systemic plasma, heart, and kidney tissue as compared with control animals (P < 0.01). HAI produced a 4-fold increase in doxorubicin levels in VX-2 tumors as compared with the drug levels obtained using PVI (P < 0.01). A single HAI of 3 mg/kg doxorubicin in animals treated with CHVI-CF produced marked tumor necrosis at 7 and 14 days after treatment. By increasing the total body clearance of doxorubicin, this system will allow HAI of higher doses of drug in attempts to improve the antitumor response.