Suzette Walker

Escalated Focal Liver Radiation and Concurrent Hepatic Artery Fluorodeoxyuridine for Unresectable Intrahepatic Malignancies

PURPOSE To evaluate the response, time to progression, survival, and impact of radiation (RT) dose on survival in patients with intrahepatic malignancies treated on a phase I trial of escalated focal liver RT. PATIENTS AND METHODS From April 1996 to January 1998, 43 patients with unresectable intrahepatic hepatobiliary cancer (HB; 27 patients) and colorectal liver metastases (LM; 16 patients) were treated with high-dose conformal RT. The median tumor size was 10 x 10 x 8 cm. The median RT dose was 58.5 Gy (range, 28.5 to 90 Gy), 1.5 Gy twice daily, with concurrent continuous-infusion hepatic arterial fluorodeoxyuridine (0.2 mg/kg/d) during the first 4 weeks of RT. RESULTS The response rate in 25 assessable patients was 68% (16 partial and one complete response). With a median potential follow-up period of 26.5 months, the median times to progression for all tumors, LM, and HB were 6, 8, and 3 months, respectively. The median survival times of all patients, patients with LM, and patients with HB were 16, 18, and 11 months, respectively. On multivariate analyses, escalated RT dose was independently associated with improved progression-free and overall survival. The median survival of patients treated with 70 Gy or more has not yet been reached (16.4+ months), compared with 11.6 months in patients treated with lower RT doses (P =.0003). CONCLUSION The excellent response rate, prolonged intrahepatic control, and improved survival in patients treated with RT doses of 70 Gy or more motivate continuation of dose-escalation studies for patients with intrahepatic malignancies.

Phase II Trial of High-Dose Conformal Radiation Therapy With Concurrent Hepatic Artery Floxuridine for Unresectable Intrahepatic Malignancies

PURPOSE A phase II trial was conducted to determine if high-dose radiation with concurrent hepatic arterial floxuridine would improve survival in patients with unresectable intrahepatic malignancies. PATIENTS AND METHODS Three-dimensional conformal high-dose radiation therapy was delivered concurrently with hepatic arterial floxuridine in 128 patients. The radiation dose was based on a normal-tissue complication probability model and subjected the patient to an estimated maximum risk of radiation-induced liver disease of 10% to 15%. The study design provided more than 80% power to detect a two-fold increase in median survival compared with historical controls at a 5% significance level. RESULTS The median radiation dose delivered was 60.75 Gy (1.5-Gy fractions bid). At a median follow-up time of 16 months (26 months in patients who were alive) the median survival was 15.8 months (95% CI, 12.6 to 18.3 months), significantly longer than in the historical control. The actuarial 3-year survival was 17%. The total dose was the only significant predictor of survival. Primary hepatobiliary tumors had a significantly greater tendency to remain confined to the liver than did colorectal cancer metastases. Overall toxicity was acceptable, with 27 patients (21%) and 11 patients (9%) developing grade 3 and 4 toxicity, respectively, and one treatment-related death. CONCLUSION The results suggest that, compared with historical controls, high-dose focal liver irradiation with hepatic artery floxuridine prolongs survival in patients with unresectable chemotherapy-refractory metastatic colorectal cancer and primary hepatobiliary tumors. This provides a rationale for intensification of local therapy for unresectable hepatobiliary cancers and integration of this regimen with newer systemic therapy for patients with colorectal cancer.

Regional chemotherapy of colorectal cancer metastatic to the liver.

Ninety‐three patients with biopsy‐proven colorectal cancer metastatic to the liver were treated with hepatic arterial infusion of 5‐fluorodeoxyuridine (FUDR). There were 52 men and 41 women (median age, 60 years). Forty‐two patients (45%) had failed prior systemic chemotherapy. Catheters were operatively placed and multiple catheters were used if dictated by hepatic arterial anatomy in order to obtain perfusion of the entire liver. The drug was delivered by a totally implanted INFUSAID model 400 pump and patients received cyclic therapy consisting of 2 weeks of 0.3 mg/kg/d FUDR alternating with 2 weeks of saline. Patients with extrahepatic tumor or patients whose hepatic tumor failed to respond to FUDR were given a 30 minute intraarterial infusion of mitomycin C, 15 mg/m2, every 6 to 8 weeks in addition to FUDR. Fifty of the 93 evaluable patients presented with metastatic tumor confined to the liver. Of these 50 patients, 83% demonstrated a significant reduction in tumor size with a median duration of response of 13 months and a median survival of 25 months from diagnosis of liver metastases. Twenty‐four of these 50 patients remain alive. Forty‐three patients presented with extrahepatic metastases in addition to their liver tumor, and 74% had a response with a median duration of 6 months and a median survival of 14 months. Only six patients of those presenting with extrahepatic tumor remain alive. None of the 93 patients died solely of uncontrolled liver tumor, and only 9 died as a result of uncontrolled liver metastases and disseminated extrahepatic tumor. The duration of survival for both groups was determined by the uncontrolled progression of extrahepatic tumor. In patients with metastatic colorectal cancer involving only the liver, hepatic arterial FUDR alone and with the addition of mitomycin C provided excellent control of hepatic tumor. Survival appeared to be prolonged in this uncontrolled study. Cancer 53:1336‐1343, 1984.

Treatment of primary hepatobiliary cancers with conformal radiation therapy and regional chemotherapy.

PURPOSE To develop more effective regional therapy for patients with unresectable primary hepatobiliary cancer using concurrent conformal radiation therapy and intraarterial hepatic (IAH) fluorodeoxyuridine (FdUrd). PATIENTS AND METHODS Twenty-six patients with unresectable, nonmetastatic primary hepatobiliary cancer were treated with concurrent IAH FdUrd (0.2 mg/kg/d) and conformal hepatic radiation therapy (1.5 to 1.65 Gy per fraction twice per day). The total dose of radiation administered to the tumor depended on the fraction of normal liver excluded from the high-dose volume. All patients were assessed for toxicity, hepatobiliary relapse, and survival; 17 patients were assessable for response (eight had cholangiocarcinoma not assessable by computed tomographic [CT] scan and one progressed distantly during treatment). The median potential follow-up duration was 27 months. RESULTS Whole-liver radiation was administered to six patients with diffuse hepatocellular carcinoma (HCC). Eleven patients with localized HCC and nine with cholangiocarcinoma received focal radiation to a dose of 48 to 72.6 Gy. An objective response for assessable patients was observed in 11 of 11 patients treated with focal radiation, but only one of six patients treated with whole-liver radiation. Whole-liver radiation accounted for five of seven patients with > or = grade 3 toxicity and four of six local treatment failures. Two patients had nonfatal radiation hepatitis. The median survival duration for patients with localized hepatobiliary cancer was 19 months, while patients with diffuse HCC had a median survival duration of 4 months. The rate of actuarial freedom from hepatobiliary progression in patients with localized disease was 72% at 24 months. CONCLUSION These findings suggest that three-dimensional planned focal liver radiation and IAH FdUrd can produce a high, durable response rate and an encouraging median survival duration in patients with nondiffuse, unresectable primary hepatobiliary cancer.

Treatment of intrahepatic cancers with radiation doses based on a normal tissue complication probability model.

PURPOSE To attempt to safely escalate the dose of radiation for patients with intrahepatic cancer, we designed a protocol in which each patient received the maximum possible dose while being subjected to a 10% risk of radiation-induced liver disease (RILD, or radiation hepatitis) based on a normal tissue complication probability (NTCP) model. We had two hypotheses: H1; with this approach, we could safely deliver higher doses of radiation than we would have prescribed based on our previous protocol, and H2; the model would predict the observed complication probability (10%). PATIENTS AND METHODS Patients with either primary hepatobiliary cancer or colorectal cancer metastatic to the liver and normal liver function were eligible. We used an NTCP model with parameters calculated from our previous patient data to prescribe a dose that subjected each patient to a 10% complication risk within the model. Treatment was delivered with concurrent hepatic arterial fluorodeoxyuridine (HA FUdR). Patients were evaluated for RILD 2 and 4 months after the completion of treatment. RESULTS Twenty-one patients completed treatment and were followed up for at least 3 months. The mean dose delivered by the current protocol was 56.6 +/- 2.31 Gy (range, 40.5 to 81 Gy). This dose was significantly greater than the dose that would have been prescribed by the previous protocol (46.0 +/- 1.65 Gy; range, 33 to 66 Gy; P < .01). These data are consistent with H1. One of 21 patients developed RILD. The complication rate of 4.8% (95% confidence interval, 0% to 23.8%) did not differ significantly from the predicted 8.8% NTCP (based on dose delivered) and excluded a 25% true incidence rate (P < .05). This finding supports H2. CONCLUSION Our results suggest that an NTCP model can be used prospectively to safely deliver far greater doses of radiation for patients with intrahepatic cancer than with previous approaches. Although the observed complication probability is within the confidence intervals of our model, it is possible that this model overestimates the risk of complication and that further dose escalation will be possible. Additional follow-up and accrual will be required to determine if these higher doses produce further improvements in response and survival.

Long-term results of hepatic artery fluorodeoxyuridine and conformal radiation therapy for primary hepatobiliary cancers

PURPOSE We have previously shown that conformal radiation therapy (RT) combined with hepatic artery (HA) fluorodeoxyuridine (FdUrd) had encouraging hepatic control and survival rates for patients with nondiffuse primary hepatobiliary malignancies. With longer follow-up, we were particularly interested if long-term hepatic control and disease-free survival could be achieved, and if late hepatic complications due to radiation therapy were observed. METHODS AND MATERIALS Patients with unresectable primary hepatobiliary cancer were treated with concurrent HA FdUrd (0.2 mg/kg/day) and conformal RT (1.5-1.65 Gy per fraction, twice a day), directed only to the liver abnormalities. Three-dimensional treatment planning was used to define both the target and normal liver volumes. The total dose of radiation (48 or 66 Gy) was determined by the fractional volume of normal liver excluded from the high dose volume. Patients were followed routinely for response, patterns of failure, long-term toxicity, and survival. The median potential follow-up was 54 months. RESULTS A total of 22 patients (11 with hepatocellular carcinoma and 11 with cholangiocarcinoma) were treated. There were 10 objective responses in the 11 evaluable patients. The overall freedom from hepatic progression at more than 2 years was about 50%. The median survival was 16 months with an actuarial 4-year survival of about 20%. Gastrointestinal bleeding was the most common long-term toxicity. Late hepatic toxicity was not observed; in fact, hypertrophy of the untreated liver was seen. CONCLUSIONS Combined conformal RT and HA FdUrd can produce long-term freedom from hepatic progression and survival in patients with unresectable, nondiffuse primary hepatobiliary malignancies. There were no long-term liver complications observed.

THE TREATMENT OF COLORECTAL LIVER METASTASES WITH CONFORMAL RADIATION THERAPY AND REGIONAL CHEMOTHERAPY

PURPOSE Whole-liver radiation, with or without chemotherapy, has been of modest benefit in the treatment of unresectable hepatic metastases from colorectal cancer. A Phase I/II study combining escalating doses of conformally planned radiation therapy (RT) with intraarterial hepatic (IAH) fluorodeoxyuridine (FdUrd) was performed. METHODS AND MATERIALS Twenty-two patients with unresectable hepatic metastases from colorectal cancer, 14 of whom had progressed after previous chemotherapy (2 with prior IAH FdUrd), were treated with concurrent IAH FdUrd (0.2 mg/kg/day) and conformal hepatic radiation therapy (1.5-1.65 Gy/fraction twice a day). The total dose of radiation given to the tumor (48-72.6 Gy) depended on the fraction of normal liver excluded from the high-dose volume. All patients were assessed for response, toxicity, hepatobiliary relapse, and survival. Median potential follow-up was 42 months. RESULTS Eleven of 22 patients demonstrated an objective response, with the remainder showing stable disease. Actuarial freedom from hepatic progression was 25% at 1 years. The most common acute toxicity was mild to moderate nausea and transient liver function test abnormalities. There were three patients with gastrointestinal bleeding (none requiring surgical intervention) after the completion of treatment. Overall median survival was 20 months. The presence of extrahepatic disease was associated with decreased survival (p < 0.01). CONCLUSIONS Combined conformal radiation therapy and IAH FdUrd can produce an objective response in 50% of patients with hepatic metastases from colorectal cancer. However, response was not durable, and hepatic progression was frequent. Improvements in hepatic tumor control for patients with metastatic colorectal cancer may require higher doses of conformal radiation and/or improved radiosensitization. In an effort to increase radiosensitization, we have recently initiated a clinical trial combining IAH bromode-oxyuridine, a thymidine analog radiosensitizer, with conformal high dose radiation therapy.

A Phase I trial of hepatic arterial bromodeoxyuridine and conformal radiation therapy for patients with primary hepatobiliary cancers or colorectal liver metastases

PURPOSE We have previously found that conformal radiation therapy (RT) and hepatic arterial fluorodeoxyuridine was associated with durable responses and long-term survival for patients treated for nondiffuse primary hepatobiliary tumors and colorectal liver metastases. Further improvements in hepatic control may result from the addition of selective radiosensitization using bromodeoxyuridine (BrdU) infused through the hepatic artery (HA) concurrently with RT. This is a Phase I study of escalating doses of HA BrdU combined with our standard hepatic RT. METHODS AND MATERIALS Patients with unresectable primary hepatobiliary cancer or colorectal liver metastases were treated with concurrent HA BrdU and conformal RT (1.5 Gy per fraction, twice a day). Three-dimensional treatment planning was used to define both the target and normal liver volumes. The total dose of RT (24, 48, or 66 Gy) was determined by the fractional volume of normal liver excluded from the high dose volume. HA BrdU was escalated in standard Phase I fashion with at least three patients receiving each combination of RT dose and BrdU dose. The starting dose of HA BrdU was 10 mg/kg/day, with two potential escalations to a maximum of 25 mg/kg/day (the maximum tolerable dose of HA BrdU when given alone on this same schedule). Grade > or = 3 toxicity was considered dose limiting. Patients receiving 24 Gy had one cycle of HA BrdU, while those receiving either 48 or 66 Gy had two cycles. Patients were followed for toxicity, complications, and response (when evaluable). RESULTS A total of 41 patients (18 with colorectal liver metastases, 16 with cholangiocarcinoma and 7 with hepatoma) were treated. Five patients were removed from the protocol (three had HA catheter complications, one developed atrial fibrillation, and one was removed due to recurrent Grade 4 toxicity), although all five are included for toxicity purposes. Dose-limiting toxicity was primarily thrombocytopenia and there was no obvious relationship with the RT dose. Only 2 of 17 cycles given at 25 mg/kg/day had Grade > or = 3 toxicity. Complications developed in four patients, including one patient with radiation-induced liver disease. Response rates were not improved compared to our previous experience. CONCLUSIONS The appropriate dose of HA BrdU for Phase II evaluation is 25 mg/kg/day. Neither the hepatic parenchyma nor the gastrointestinal mucosa appeared to be sensitized by this method of BrdU administration. It is anticipated that these, or still newer methods of therapy, can improve treatment results in the near future.

Improved regional selectivity of hepatic arterial mitomycin by starch microspheres

Biodegradable starch microspheres, 40 μm in diameter, were administered through hepatic arterial catheters in 16 subjects with primary and metastatic liver tumors. These microspheres temporarily obstruct blood flow at the precapillary arteriole (microcirculation) level. Our study was undertaken to determine whether such occlusion would enhance hepatic deposition of, and thereby decrease systemic exposure to, simultaneously administered hepatic arterial mitomycin C (mito). When mito (10 mg/m2 over 1 min) was given with 90 × 106 microspheres (10 subjects), there was a 17% to 70% reduction in systemic mito exposure. When mito (10 mg/m2 over 1 min) was given with 36 × 106 microspheres (six subjects), there was a 15% to 60% reduction in systemic exposure, which may correlate with dose‐dependent shunting (8% to 29%) through the liver to the lung (and hence to the systemic circulation), attributed to the starch microspheres. No life‐threatening myelosuppression was noted; hepatic toxicity consisted of transient pain and elevation of liver enzymes.

Constant intraperitoneal 5-fluorouracil infusion through a totally implanted system.

Five‐day continuous intraperitoneal (ip) infusions of 5‐fluorouracil (FU) were injected into five patients as part of a phase 1 clinical pharmacology study. They received 20 courses through a totally implanted catheter/injection port system. Six courses are evaluable for kinetic parameters and all courses are evaluable for toxicity. In each course a 2 to 3 log FU concentration differential in favor of the peritoneal cavity was achieved and maintained. Steady‐state venous plasma FU concentrations averaged 0.34 µM, whereas steady‐state ip FU concentrations averaged 697 µM. Mean total body clearance (TBC) in these patients was 18.4 l/min and mean permeability‐area (PA) product for diffusion from the peritoneum was 13.7 ml/min. Mean TBC of 20 l/min with ip FU infusion was observed in one patient who also received a 24‐hr IV FU infusion for comparison. The TBC during the later infusion was 5.9 l/min. In this patient, calculations indicate 75% extraction of drug during the passage from the peritoneum to the systemic circulation, presumably representing in large part hepatic extraction of FU taken into the portal venous circulation. Ip constant infusion and bolus kinetics were compared in one patient. TBC for the ip bolus was 14.3 l/min, which was approximately half of the TBC of 29.5 l/min determined during the 5‐day constant ip infusion. Thus constant ip infusion of FU (1 gm/day) can provide an improved regional advantage over bolus ip FU because of an increased TBC. Toxicity was acceptable in all courses. Dose limiting toxicity was regional, namely moderate chemical peritonitis seen in two of the five patients on repeated courses. There was no myelosuppression, alopecia, nausea, or vomiting. There were no infectious complications. The only patient with measurable disease had an objective response in hepatic metastases from gastric cancer. The implanted device was well tolerated and facilitated peritoneal fluid sampling.