Adjuvant radiotherapy and concomitant 5-fluorouracil by protracted venous infusion for resected pancreatic cancer

Purpose: To assess the toxicity and clinical benefit from adjuvant chemoradiotherapy consisting of protracted venous infusion 5-fluorouracil (5-FU) and concomitant radiotherapy in patients with resected pancreatic cancer.

Methods and Materials: Between 1994 and 1999, 52 patients who underwent pancreaticoduodenectomy received adjuvant chemoradiotherapy. The tumor bed and regional nodes received a dose of 45 Gy in fractions of 1.8 Gy followed by boost to the tumor bed if the surgical margins were involved (total dose, 54 Gy). The patients also received concomitant 5-FU by protracted venous infusion (200–250 mg/m²/day, 7 days/week) during the entire radiotherapy course.

Results: Fifty-two patients (30 men, 22 women) were enrolled and treated on this protocol. The median age was 63 years (range, 38–78 years), and the median Karnofsky Performance Status was 80 (range, 70–100). Thirty-five percent had involved surgical margins and 59% had involved lymph nodes. All patients completed therapy, and there were no Grade IV/V toxicities observed. With median follow-up of 24 months (range, 3–52 months) for surviving patients, the median survival is 32 months, and 2-year and 3-year survivals are 62%, and 39%, respectively.

Conclusion: Radiotherapy with concomitant 5-FU by protracted venous infusion as adjuvant treatment for resected pancreatic cancer is well tolerated. This approach allows for greater dose intensity with reduced toxicity. The median survival of this cohort of patients compares favorably with our earlier experience and other published series.     

Postoperative adjuvant chemoradiation in completely resected locally advanced gastric cancer

BACKGROUND: The 5-year survival of patients with completely resected node-positive gastric cancer ranges from 15% to 25%. We explored the feasibility of a chemoradiation regime consisting of concomitant hyperfractionated radiotherapy and 5-fluorouracil protracted venous infusion (5-FU PVI). MATERIALS AND METHODS: Forty patients received a total or partial gastrectomy operation and D2 nodal resection for Stage III gastric cancer; they were then irradiated by linac with 6-15-MV photons. The target included the gastric bed, the anastomosis, stumps, and regional nodes. A total dose of 55 Gy was given in 50 fractions using 1.1 Gy b.i.d. All patients received a concomitant 200 mg/m2/day 5-FU PVI. Patients were examined during the follow-up period as programmed. Toxicity was recorded according to RTOG criteria. RESULTS: After a median follow-up of 75.6 months (range: 22-136 months), 24 (60%) patients had died, and 16 (40%) were alive and free of disease. The 5-year actuarial incidence of relapse was 39%, 22%, and 2% for distant metastases, out-field peritoneal seeding, and in-field local regional recurrences, respectively. The 5-year actuarial cause-specific survival was 43%. Three patients survived more than 11 years. Acute > or = Grade 3 toxicity consisted of hematologic (22.5%) and gastrointestinal toxicity (nausea and vomiting 22.5%, diarrhea 2.8%, and abdominal pain 2.6%). No late toxicity was observed. CONCLUSION: This regime of concomitant 5-FU PVI and hyperfractionated radiotherapy was well tolerated and resulted in successful locoregional control and satisfactory survival.     

Phase I study of 5-fluorouracil administered by protracted venous infusion, leucovorin, and pelvic radiation therapy.

BACKGROUND: This study was designed to assess the toxicity of pelvic radiation therapy, 5-fluorouracil (5-FU) administered by protracted venous infusion, and leucovorin. METHODS: Pelvic radiation therapy consisted of 50.4-54 gray (Gy) administered in 28-30 fractions. Systemic treatment consisted of leucovorin (10 mg daily) administered orally and protracted venous infusion of 5-FU. The initial daily 5-FU dose was 150 mg/m(2). Dose escalations were planned in increments of 25 mg/m(2). RESULTS: Forty eligible patients were registered, of whom 37 were evaluable for chemoradiotherapy-related toxicity. Grade 3 or 4 toxicity secondary to radiation therapy, protracted venous infusion of 5-FU, and leucovorin occurred in 2 of 17 patients at a daily 5-FU dose of 150 mg/m(2), in 5 of 10 patients at a daily 5-FU dose of 175 mg/m(2), and in 5 of 10 patients at a daily 5-FU dose of 200 mg/m(2). Diarrhea was dose-limiting in 7 of 8 patients with Grade 4 toxicity. Venous thrombosis, a treatment-related complication not directly related to chemotherapy or radiation therapy, occurred in 5 of the 40 patients entered into this study. Four thromboses occurred at the site of a central catheter. No thrombotic complications occurred in the last 7 patients, who were given warfarin orally (1 mg daily) during treatment. CONCLUSIONS: Toxicity due to radiation therapy, protracted venous infusion of 5-FU, and leucovorin when 5-FU is given daily at a dose of 150 mg/m(2) is similar to that observed in current chemoradiotherapy regimens for patients with rectal carcinoma. This regimen will be considered as a possible investigational treatment arm of a future trial of adjuvant therapy for rectal carcinoma patients.     

Eastern Cooperative Oncology Group Phase I trial of protracted venous infusion fluorouracil plus weekly gemcitabine with concurrent radiation therapy in patients with locally advanced pancreas cancer: a regimen with unexpected early toxicity.

PURPOSE: We performed a phase I trial of protracted venous infusion (PVI) fluorouracil (5-FU) plus weekly gemcitabine with concurrent radiation therapy in patients with locally advanced pancreas cancer to determine the maximum-tolerated dose of gemcitabine that could be safely administered. We also sought to identify the toxicities associated with this treatment protocol. PATIENTS AND METHODS: Seven patients with locally advanced pancreas cancer were treated with planned doses of radiation (59.4 Gy) and PVI of 5-FU (200 mg/m(2)/d) with gemcitabine doses of 50 to 100 mg/m(2)/wk. RESULTS: Two of three patients at the 100-mg/m(2)/wk dose level experienced dose-limiting toxicity (DLT), as did three of four at the 50-mg/m(2)/wk dose level. One patient experienced a mucocutaneous reaction described as a Stevens-Johnson syndrome that was attributed to chemotherapy. Three patients developed gastric or duodenal ulcers with severe bleeding requiring transfusion. One patient developed severe thrombocytopenia lasting longer than 4 weeks. Three of the five episodes of DLT developed at radiation doses < or = 36 Gy. CONCLUSION: Based on this experience, we cannot recommend further investigation of regimens incorporating gemcitabine into regimens of radiation with PVI 5-FU. The mechanism of this synergistic toxicity remains to be determined.     

INT 0123 (Radiation Therapy Oncology Group 94-05) phase III trial of combined-modality therapy for esophageal cancer: high-dose versus standard-dose radiation therapy.

PURPOSE: To compare the local/regional control, survival, and toxicity of combined-modality therapy using high-dose (64.8 Gy) versus standard-dose (50.4 Gy) radiation therapy for the treatment of patients with esophageal cancer. PATIENTS AND METHODS: A total of 236 patients with clinical stage T1 to T4, N0/1, M0 squamous cell carcinoma or adenocarcinoma selected for a nonsurgical approach, after stratification by weight loss, primary tumor size, and histology, were randomized to receive combined-modality therapy consisting of four monthly cycles of fluorouracil (5-FU) (1,000 mg/m(2)/24 hours for 4 days) and cisplatin (75 mg/m(2) bolus day 1) with concurrent 64.8 Gy versus the same chemotherapy schedule but with concurrent 50.4 Gy. The trial was stopped after an interim analysis. The median follow-up was 16.4 months for all patients and 29.5 months for patients still alive. RESULTS: For the 218 eligible patients, there was no significant difference in median survival (13.0 v 18.1 months), 2-year survival (31% v 40%), or local/regional failure and local/regional persistence of disease (56% v 52%) between the high-dose and standard-dose arms. Although 11 treatment-related deaths occurred in the high-dose arm compared with two in the standard-dose arm, seven of the 11 deaths occurred in patients who had received 50.4 Gy or less. CONCLUSION: The higher radiation dose did not increase survival or local/regional control. Although there was a higher treatment-related mortality rate in the patients assigned to the high-dose radiation arm, it did not seem to be related to the higher radiation dose. The standard radiation dose for patients treated with concurrent 5-FU and cisplatin chemotherapy is 50.4 Gy.     

Protracted venous infusion 5-fluorouracil with concomitant radiotherapy compared with bolus 5-fluorouracil for unresectable pancreatic cancer

Radiation therapy (RT) with concurrent 5-fluorouracil (5-FU) administered by protracted venous infusion (PVI) replaced our prior institutional protocol of RT with bolus administration of 5-FU as standard therapy for unresectable pancreatic cancer in 1994. In this article, we compare the treatment intensity, toxicity, and outcome for patients with unresectable pancreatic cancer treated on these sequential protocols. Fifty-four patients, 27 on each protocol, with biopsy-confirmed pancreatic cancer received chemoradiotherapy. The radiotherapy field included the gross tumor volume and regional lymph nodes to a dose of 45 Gy, followed by "boost" to the gross tumor volume to 54 Gy to 60 Gy. From 1987 to 1994, patients received concurrent 5-FU administered by bolus injection, at a dose of 500 mg/m2 on days 1 to 3 and days 29 to 31 of RT. After December 1994, 5-FU was administered by PVI (200-250 mg/m2) beginning on day 1 and continuing until the completion of RT. The chemotherapy treatment intensity was increased in the group receiving 5-FU by PVI, as evidenced by an increased average weekly and cumulative dose of 5-FU (p < 0.01). The radiotherapy treatment intensity was equivalent between the two groups. The incidence of objectively quantified toxicity was not statistically different between treatment groups. Overall survival remained poor in both treatment groups. With a median follow-up of 18 months (range: 3-30 months) for surviving patients, the 6-month, 1-year, and 2-year survivals for the PVI 5-FU-treated group versus the bolus 5-FU-treated group were 56% versus 52%, 34% versus 18%, and 22% versus 13%, respectively (p = 0.9). Radiotherapy with concomitant 5-FU by PVI results in a greater weekly and total dose of chemotherapy. The method of 5-FU administration (bolus versus PVI) did not change the RT treatment intensity, experienced toxicity, or overall survival.     

Tolerance of pelvic normal tissues to hyperfractionated radiation therapy: results of Protocol 83-08 of the Radiation Therapy Oncology Group

A prospective, centrally randomized Phase I/II trial of hyperfractionation in definitive radiation therapy for locally advanced squamous and transitional cell carcinoma of the bladder was conducted by the Radiation Therapy Oncology Group (RTOG) from April 1983 through June 1986. Patients with T3-4 and T2 N+ (AJC) histologically-confirmed cancer of the bladder received twice daily radiation therapy with 1.2 Gy per fraction and a minimum of 4 hr between fractions. All patients received a whole pelvic total dose of 50.4 Gy: Total doses to reduced volumes were 60.0 Gy, 64.8 Gy, or 69.6 Gy. Of 54 patients entered, 50 were eligible. An unbalanced treatment assignment was used: Nine patients received 60.0 Gy, 15 patients received 64.8 Gy and 26 received 69.6 Gy. Performance status (Karnofsky) was 90-100 in 72% of patients and 92% had transitional carcinoma. Eighty percent of tumors were T3 or T4. Observation of at least 18 months was available for 26 patients. Grade 3 acute reactions (within 90 days) were reported in eight patients (one at 60.0 Gy, three at 64.8 Gy and four at 69.6 Gy). Five patients experienced a total of seven major late effects--four Grade 3 and three Grade 4. The cumulative probability of Grade 3 and 4 late complications of treatment for the 46 patients at risk for late complications was 5% +/- 3% at 6 months, 7% +/- 4% at 12 months, and 10% +/- 5% at 18 and 24 months. The cumulative probability of Grade 3 or 4 late complications for patients who received a total dose of 69.6 Gy was 5% +/- 4% at 6 and 12 months and 11% +/- 8% at 18 and 24 months. Only one patient who experienced major late effects was also reported to have major acute reactions. Comparisons of survival of patients treated in the current study with those who received 60 Gy in 30 fractions in 6 weeks in RTOG Protocol 71-04, did not suggest any deleterious effects from hyperfractionated radiation therapy to the pelvis. The normal pelvic tissues tolerated hyperfractionated radiation therapy sufficiently well to justify exploring it, alone and with brachytherapy, in other pelvic tumors.     

Mature results of a pilot study of pelvic radiotherapy with concurrent continuous infusion intra-arterial 5-FU for stage IIIB-IVA squamous cell carcinoma of the cervix.

PURPOSE: To evaluate the long-term results of continuous infusion intra-arterial 5-fluorouracil (CI IA 5-FU) given with concurrent pelvic radiotherapy (RT) for FIGO stage IIIB-IVA carcinoma of the cervix. METHODS AND MATERIALS: Between 1965 and 1974, 27 patients with extensive FIGO Stage IIIB (22 patients) or Stage IVA (5 patients) squamous cell carcinoma of the cervix were treated with CI IA 5-FU and RT. Twenty-one patients (78%) had bilateral pelvic wall involvement, 25 (93%) had massive tumors (> or =8 cm in diameter), 7 (27%) had involvement of the lower one-third of the vagina, and 15 (56%) presented with hydronephrosis. All patients underwent routine clinical staging, transperitoneal para-aortic lymph node dissection, and bilateral hypogastric artery catheter placement. 5-FU was continuously infused at a dose rate of 10 mg/kg/day on Days 1-15 of RT. The median dose of 5-FU was 376 mg/m2/day (range 270-692). All patients received concurrent pelvic RT to a median dose of 50 Gy at 2.0 Gy per fraction. Only 4 patients received intracavitary RT. The median follow-up of surviving patients was 190 months. RESULTS: The overall 5-year survival rate was 37%. For the 22 patients with FIGO Stage IIIB disease, the 5-year survival rate was 41%. The survival rate for 18 patients treated with only external beam radiation and chemotherapy for Stage IIIB disease was 33%. Four of 10 patients treated with only 50 Gy of external beam radiation and CI IA 5-FU were long-term survivors. Acute complications, including hematologic toxicity and skin reactions, were severe, with 1 death from neutropenic sepsis. Severe late complications were only observed in patients treated with > or =60 Gy of external beam radiation. CONCLUSIONS: While this series is small, the fact that 4 patients with massive Stage IIIB tumors survived after a total radiation dose of only 50 Gy suggests that RT with CI IA 5-FU deserves further study. Modifications in dose, technique, and route of administration should reduce toxicity, and the addition of intracavitary RT should improve the local effectiveness of combined treatment.     

Hyperfractionated radiation therapy for locoregionally advanced nasopharyngeal cancer

OBJECTIVE: The purpose of this study is to clarify the efficacy and toxicity of hyperfractionated radiation therapy (RT) for patients with nasopharyngeal cancer (NPC). METHODS: Twenty-two patients with NPC treated at our hospital between April 1994 and December 2002 were the subjects of this study. They received hyperfractionated RT with a fraction size of 1.2 Gy, with a median tumor dose of 72 Gy (range 64.8-80.4). During this study period, our institutional strategy for locoregionally advanced NPC included neoadjuvant or concurrent chemotherapy combined with hyperfractionated RT, and 17 patients received some forms of cisplatin-containing chemotherapy. RESULTS: With a median follow-up of 59 months, the estimated 5-year disease-free survival rate and overall survival rate were 72.7 and 85.2%, respectively. Acute hematological toxicities were acceptable and manageable. However, >50% of patients required nutritional support, and experienced severe pharyngitis, skin reaction and body weight loss. With regard to late sequelae, one patient developed grade 3 osteomyelitis, and one patient each developed grade 4 passage disturbance and laryngeal edema. No patients experienced any grades of optic nerve injury or temporal lobe necrosis. CONCLUSIONS: Hyperfractionated RT using 1.2 Gy per fraction, for a total dose of 72 Gy, produces a comparable treatment outcome. Although deleterious neurological sequelae were not observed in this study, caution should be exercised regarding other late sequelae, such as osteomyelitis and passage disturbance.     

A phase II study of weekly 24-hour infusion with high-dose fluorouracil with leucovorin in colorectal carcinoma

Twenty-two patients with advanced colorectal carcinoma were enrolled in this study. Ten patients had received prior chemotherapy that included the combination of fluorouracil (5-FU) and leucovorin (LV). All patients required subcutaneous port insertion and portable external infusion pumps to allow outpatient treatment. 5-FU (2,600 mg/m2) was administered concurrently with LV (500 mg/m2) over 24 hours of continuous infusion. The mean steady-state plasma concentration of 5-FU was 10 mumol/L (range, 7 to 14 mumol/L). The 5-FU dose was based on our previous phase I study, in which maximum-tolerated dose (MTD) of 5-FU was determined to be 2,600 mg/m2 in combination with a fixed dose of LV at 500 mg/m2. The treatment was repeated weekly. Twenty-two patients received a total of 560 courses of treatment. Eleven instances of grade 2-3 toxicity were observed: diarrhea (five), stomatitis (three), hand/foot syndrome (three). The overall objective response was 45% (10 of 22) and among previously untreated patients was 58%. Three of the responders achieved complete response (CR), with lung and liver as the metastatic sites. The median duration of survival for the previously untreated patients was not reached at 22 months, and was 10 months for the previously treated patients. These results suggest that short-term infusional therapy of 5-FU and LV in patients with advanced metastatic colorectal cancer generates acceptable toxicity, with equivalent or superior survivability in previously treated and untreated patients versus alternative methods of administration of the two agents.     

Phase II trial of continuous infusion carboplatin, 5-fluorouracil,and radiotherapy for localized cancer of the esophagus

The aim of this study was to determine the toxicity, response rate, failure-free survival, and overall survival in a treatment program comprising continuous infusion carboplatin, short in-fusion 5-fluorouracil (5-FU) and radiotherapy for localized carcinoma of the thoracic esophagus. To be eligible, patients were required to have Karnofsky performance status greater than or equal to 60, adequate organ function, and have received no prior therapy. Planned radiation dose was 50 Gy in 25 fractions over 5 weeks. 5-FU was to be administered commencing days 1 and 29 of radiotherapy, and given at a dose of 1 g/m2/d for 4 days as a continuous infusion. Carboplatin was to commence on day 1 of radiotherapy and be given throughout the period of radiation as a continuous infusion. The starting dose of carboplatin was 28 mg/m2/d. The protocol specified a 25% dose reduction of carboplatin if more than two of the first six patients experienced dose-limiting toxicity (DLT). DLT was defined as grade IV neutropenia lasting more than 7 days, grade IV thrombocytopenia, or any grade IV nonhematologic toxicity. All 23 patients in the study received protocol radio-therapy, except one who was given an extra 10 Gy. Seven patients received carboplatin at 28 mg/m2/d and 16 received 21 mg/m2/d. Hematologic DLTs were experienced by all of the seven patients receiving the higher dose. No patients in the low-dose group experienced hematologic DLTs, and only 2 of 16 ceased chemotherapy early because of myelosuppression. Three patients in the low-dose group experienced grade IV esophagitis but were able to complete protocol radiotherapy. Apart from esophagitis, nonhematologic toxicity was generally moderate or mild. Six patients had thrombosis complicating the central venous catheters. Endoscopy was performed in 21 patients (91%), with an overall complete response rate of 65% (CI: 43-84%) for the whole group or 71% (CI: 48-89%) for the endoscopically evaluated group. Estimated median failure-free survival time was 8.9 months (CI: 7.1-12.9), and estimated median overall survival time was 21.4 months (CI: 9.6 -35.4). Carboplatin at 21 mg/m2/d as a continuous infusion may be given safely in combination with short infusional 5-FU and radiotherapy for localized carcinoma of the esophagus. This combination has resulted in response data comparable to that of larger studies of cisplatin-containing regimens and warrants further study, ideally in a phase III randomized controlled trial.     

Phase I and pharmacologic study of 72-hour infused 5-fluorouracil and hyperfractionated cyclical radiation

We have studied 21 patients infused for 72 hours with 5-Fluorouracil (5-FU) at progressive doses combined with hyperfractionated radiation. The schedule was chosen as being one capable of inducing 5-FU radiosensitization (RS). All patients were started at a daily 5-FU dose of 40 mg/kg/24 hours; doses were then escalated with each subsequent treatment cycle to limiting toxicity or until taken off study. Patients received between one and six infusion cycles. Every treatment cycle included coincident hyperfractionated radiation to various body areas including the abdomen, chest, and head and neck region. Radiation fractionation was invariant; 1,000 rad were delivered in four equal fractions. Two fractions of 250 rad each were given on days 1 and 2 of each three day 5-FU cycle, i.e. at approximately 0, 8, 24, and 32 hours into the drug infusion. Patients were followed for toxicity; serum 5-FU concentrations were determined using a high pressure liquid chromatographic assay. 5-FU clearances were calculated from the mean serum drug levels and the infused drug dose. The toxicity spectrum was not found to be significantly different from infused drug alone in this dose range save when the head and neck region received coincident irradiation. In that region the two anticipated toxicities combined in what appears to be a synergistic fashion to enhance mucositis. Most toxicities including gastrointestinal and bone marrow appeared dependent on the mean serum 5-FU level as did mucositis itself. 5-FU clearance was found to be non-linear in this dose region but did not appear influenced by radiation to any part of the body. This study shows that 72-hour infused 5-FU can be combined with external beam radiation and will produce reasonably predictable toxicity patterns which depend on the region of the body being irradiated. 5-FU toxicity correlates with mean serum drug level which is itself dependent on 5-FU clearance. Minor variations in 5-FU clearance therefore probably contribute to the natural range found in the dose-response relationship for infused 5-FU toxicities. Future studies should integrate this understanding of 5-FU pharmacokinetics into treatment regimens. The combination of infused 5-FU and coincident radiation appears useful in treating several tumor types, particularly squamous and squamous-like cancers. However, further scheduling and radiation fractionation studies are desirable to optimize 5-FU RS in man and to quantify late effects.     

Hyperfractionated radiotherapy and concomitant cisplatin for locally advanced laryngeal and hypopharyngeal carcinomas: final results of a single institutional program

SUMMARY: ABSTRACT The purpose of this study was to achieve locoregional control of locally advanced laryngeal carcinoma, survival, and organ preservation using split hyperfractionated accelerated radiation therapy and cisplatin concomitantly. This study was a phase II trial of chemoradiotherapy with split hyperfractionated accelerated radiation therapy, 1.6 Gy per fraction given twice per day to a total dose of 64 to 67.2 Gy for a total of 6 weeks with a 2-week gap, and cisplatin 20 mg/m2, days 1 to 5, in continuous perfusion, concomitantly. Seventy-three patients were treated (stage IV, 64%). At a median follow-up of 55 months for living patients, median survival was 44 months, and 5-year overall survival and disease-free survival were 42% and 39%, respectively. Toxicities included mucositis (grade III, 40%; grade IV, 28%), epithelitis (grade III, 28%). Of the 73 patients, 32 (44%) have continued with their larynx free of disease. Split hyperfractionated accelerated radiation therapy and concomitant cisplatin has been demonstrated to be an active treatment for locally advanced laryngeal carcinomas, but more active combinations of chemotherapy and radiotherapy, without increase of toxicity, are necessary to increase the rate of locoregional control, organ preservation, and survival.     

Phase I trial of radiation dose escalation with concurrent weekly full-dose gemcitabine in patients with advanced pancreatic cancer.

PURPOSE: The primary objective of this phase I trial was to determine the maximum-tolerated dose of radiation that could be delivered to the primary tumor concurrent with full-dose gemcitabine in patients with advanced pancreatic cancer. PATIENTS AND METHODS: Thirty seven patients with unresectable (n = 34) or incompletely resected pancreatic cancer (n = 3) were treated. Gemcitabine was administered as a 30-minute intravenous infusion at a dose of 1,000 mg/m(2) on days 1, 8, and 15 of a 28-day cycle. Radiation therapy was initiated on day 1 and directed at the primary tumor alone, without prophylactic nodal coverage. The starting radiation dose was 24 Gy in 1.6-Gy fractions. Escalation was achieved by increasing the fraction size in increments of 0.2 Gy, keeping the duration of radiation constant at 3 weeks. A second cycle of gemcitabine alone was intended after a 1-week rest. RESULTS: Two of six assessable patients experienced dose-limiting toxicity at the final planned dose level of the trial (42 Gy in 2.8-Gy fractions), one with grade 4 vomiting and one with gastric/duodenal ulceration. Two additional patients at this dose level experienced late gastrointestinal toxicity that required surgical management. CONCLUSION: The final dose investigated (42 Gy) is not recommended for further study considering the occurrence of both acute and late toxicity. However, a phase II trial of this novel gemcitabine-based chemoradiotherapy approach, at a radiation dose of 36 Gy in 2.4-Gy fractions, is recommended on the basis of tolerance, patterns of failure, and survival data.     

Phase I/II trial of hyperfractionated accelerated chemoradiotherapy for unresectable advanced pancreatic cancer

BACKGROUND: We conducted a Phase I/II study to evaluate the local efficacy and toxicity of hyperfractionated accelerated radiotherapy (HART) combined with 5-fluorouracil (5-FU) and cisplatin (CDDP) in patients with unresectable advanced pancreatic cancer. METHODS: Thirty-five patients (15 with Stage 4A and 20 with Stage 4B disease according to TNM classification) were enrolled between August 1997 and August 2001 into this Phase I/II trial. All patients received concurrent HART (1.5 Gy twice daily separated by 6 h for 5 days per week), 5-FU (375 mg/m(2) given as continuous intravenous infusion), and CDDP (2 mg/m(2) given as 30-min infusion just before each fraction of irradiation). In the Phase I trial, the total dose of radiation was escalated from 27 to 45 Gy. RESULTS: Twenty-one patients were enrolled in the Phase I study and six patients were given the final planned dose (45 Gy) which did not exceed the maximum tolerated dose. Eleven patients (52.4%) suffered from Grade 3 or worse neutropenia. Vomiting and mucositis were observed in 21 (100%) and 12 (57.1%) patients, respectively. An additional 14 patients were entered in the Phase II trial and received a total dose of 45 Gy, which is recommended in Phase I trial. Concerning the local tumor control of 20 patients with the recommended regimen, 7 patients (35%) achieved partial response, 10 (50%) remained stable and local progressive disease occurred in 3 (15%). The median survival time and the overall 1-year survival rate were 11.2 months and 40.0%, respectively, in 20 patients who received the recommended regimen. In Stage 4A patients, they were 13.0 months and 70.0%, respectively. The trend of toxicities in patients with the recommended regimen was almost the same as that observed in the Phase I study. CONCLUSION: The chosen combined modality treatment was well tolerated, and showed an expected local efficacy for the treatment of unresectable advanced pancreatic cancer.     

Addition of oxaliplatin to continuous fluorouracil, l-folinic acid, and concomitant radiotherapy in rectal cancer: the Lyon R 97-03 phase I trial.

PURPOSE: Oxaliplatin could increase the efficacy of fluorouracil (5-FU)/folinic acid chemoradiotherapy in rectal cancer. We tested three dose levels to identify a feasible oxaliplatin dose for combination therapy. PATIENTS AND METHODS: Between February 1998 and April 2000, we included 17 rectal adenocarcinoma patients in a single-center phase I study. Patients had T4 rectal carcinoma, T1-T3 disease with colostomy refusal, or potentially operable T2/T3 M1 requiring local treatment. Pelvic radiotherapy was 45 Gy over 5 weeks, 1.8 Gy/fraction, with concomitant chemotherapy weeks 1 and 5. Chemotherapy was oxaliplatin 80, 100, or 130 mg/m2 2-hour infusion on day 1 followed by L-folinic acid 100 mg/m2/d intravenous bolus, and 5-FU 350 mg/m2/d continuous infusion on days 1 to 5 (FolfoR1). Six patients refusing surgery received additional contact radiotherapy +/- brachytherapy. Dose escalation proceeded if less than two of six patients had dose-limiting toxicity (DLT) at a given dose-level. RESULTS: All except two patients completed treatment; patients at level 1 (prolonged grade 1 thrombocytopenia) and level 3 (prolonged cold-related dysesthesia) had no second chemotherapy course. Median follow-up is 14 months (range, 2 to 28 months). One elderly patient at dose level 1 had DLT asthenia, severe diarrhea and vomiting, and more than 10% weight loss. There were no other DLTs and no severe rectitis or gastrointestinal toxicity. There were objective responses at all doses and no progressions. Eight patients underwent radical surgery after chemoradiotherapy. Two had complete pathologic responses. CONCLUSION: FolfoR1 seems feasible and effective. Dose escalation did not increase toxicity. Although the MTD was not reached in this study, we recommend oxaliplatin 130 mg/m2 for phase II studies because it is the dose determined from studies in metastatic patients with no toxicity when given concurrently with radiation.     

Intraoperative and conformal external-beam radiation therapy with protracted 5-fluorouracil infusion in patients with locally advanced pancreatic carcinoma

BACKGROUND: Chemoradiotherapy is widely used for patients with locally advanced pancreatic carcinoma. The purpose of this study was to clarify the efficacy and feasibility of chemoradiotherapy with more intensive radiotherapy in these patients, using a combination of intraoperative radiotherapy (IORT), conformal external-beam radiaotherapy (EBRT), and protracted 5-fluorouracil (5-FU). METHODS: Thirty patients with unresectable locally advanced pancreatic carcinoma were enrolled in this Phase II study. The treatment consisted of IORT (25 grays [Gy]), followed by EBRT (40 Gy in 20 fractions, 5 times per week), and concurrent protracted 5-FU infusion (200 mg/m(2)), beginning 2-4 weeks after IORT. The authors evaluated the efficacy and adverse effects of this treatment by following up patients for 12.0-28.1 months. Survival from the date of IORT was calculated using the Kaplan-Meier method. RESULTS: In 11 of the 30 patients, metastatic spread was detected in the abdominal cavity at laparotomy. The full EBRT dose was administered in 28 of the 30 patients. Of the remaining 2 patients, EBRT was terminated at 8 Gy due to progression of brain metastasis and another patient did not receive EBRT or chemotherapy due to massive ascites after IORT. The overall response rate for primary pancreatic tumor on dynamic computed tomography scan was 23.3% (7 partial responses). Grade 3 or 4 toxicity (according to the National Cancer Institute Common Toxicity Criteria) was observed in 15 of the 28 patients who received the full irradiation dose (53.6%). These included anorexia, nausea, emesis, fatigue, leukopenia, and/or elevation of transaminase levels. There were no directly treatment-related deaths, but 1 patient died of hepatic failure related to late effects of irradiation after 25.6 months. The median survival time of the 30 patients was 7.8 months and the 2-year survival rate was 8.1%. The median survival time of the 19 patients without metastatic spread in the abdominal cavity was 12.9 months and that of the 11 patients with metastatic spread was 5.8 months. CONCLUSIONS: The present regimen of chemoradiotherapy is not superior to conventional chemoradiotherapy (EBRT and 5-FU) for patients with locally advanced pancreatic carcinoma.     

Phase I study of UFT plus leucovorin with radiotherapy in patients with inextirpable non-rectal gastrointestinal cancer.

BACKGROUND AND PURPOSE: Chemoradiotherapy is increasingly used in the primary management of patients with loco-regionally advanced gastrointestinal (GI) cancer. Oral chemotherapy with uracil and tegafur (UFT) plus leucovorin (LV) may represent a convenient way of delivering protracted infusion of fluorouracil. Our goal was to evaluate the safety of UFT plus LV combined with radiation and determine the maximum-tolerated dose (MTD) and a recommended dose for further testing. PATIENTS AND METHODS: Patients with inextirpable GI cancer received escalating doses of UFT (starting at 300 mg/m(2)/d with 50 mg/m(2)/d increments between consecutive cohorts) and fixed doses of LV (90 mg/d). UFT and LV were given 5 days per week concurrently with radiation to 50 Gy (2 Gy/fraction). RESULTS: Twenty-five patients were treated, and 22 received the planned treatment. Three patients were withdrawn from treatment, two due to disease-progression and one due to toxicity. The MTD of UFT with radiation was 400 mg/m(2)/d with 90 mg/d of LV. Diarrhoea was the main dose limiting toxicity (DLT). Since some toxicity (3/12 DLTs) was seen in the expanded cohort at the level below, but none (0/9 DLT) at the starting level, the recommended dose chosen for further testing is 300-350 mg/m(2)/d depending upon the size of the target volume. CONCLUSION: Concomitant chemoradiation with oral UFT plus LV is feasible and well tolerated and should be further investigated since tumour responses were frequently seen.     

A randomized phase III study of radiotherapy alone or with 5-fluorouracil and mitomycin-C in patients with locally advanced adenocarcinoma of the pancreas: Eastern Cooperative Oncology Group study E8282

PURPOSE: The median survival time of patients with locally advanced adenocarcinoma of the pancreas is 8-10 months. Radiation therapy has been used to improve local control and palliate symptoms. This randomized study was undertaken to determine whether the addition of 5-fluorouracil (5-FU) and mitomycin-C (MMC) to radiation therapy improves outcome in this patient population. Patients and METHODS: One hundred fourteen patients were randomized to receive 59.4 Gy external beam radiotherapy in 1.8 Gy fractions alone or in combination with 5-FU (1,000 mg/m2/day for 4 days by continuous infusion Days 2-5 and 28-31) and MMC (10 mg/m2 on Day 2). RESULTS: One hundred four patients were evaluable for efficacy. Hematologic and nonhematologic toxicities were more common in the combination arm. The response rates were 6% in the radiation therapy arm and 9% in the combination arm. There were no differences in median disease-free survival time (DFS) or overall survival time (OS) between the combination and radiation therapy alone arms: 5.1 vs. 5.0 months, respectively, for DFS (p = 0.19) and 8.4 vs. 7.1 months, respectively, for OS (p = 0.16). CONCLUSION: The addition of 5-FU and MMC to radiotherapy increased toxicity without improving DFS or OS in patients with locally advanced pancreatic cancer. Alternative drugs for radiosensitization may improve outcome.     

Phase I dose escalating trial of hyperfractionated pre-operative chemoradiation for locally advanced rectal cancer

Purpose: To determine the acute toxicity, post-operative complications, pathologic response and extent of downstaging to high dose pre-operative radiation using a hyperfractionated radiation boost and concurrent chemotherapy in a prospective Phase I trial.Materials & Methods: To be eligible for this study, patients had to have adenocarcinoma of the rectum less than 12 cm from the anal verge with either Stage T4 or T3 but greater than 4 cm or greater than 40% of the bowel circumference. All patients received 45 Gy pelvic radiation (1.8 Gy per fraction). Subsequent radiation was given to the region of the gross tumor with a 2 cm margin. This “boost” treatment was given at 1.2 Gy twice daily to a total dose of 54.6 Gy for Level I, 57 Gy for Level II, and 61.8 Gy for Level III. 5-FU was given at 1g/m² over 24 hours for a four day infusion during the first and sixth weeks of radiation, with the second course concurrent with the hyperfractionated radiation. Surgical resection was carried out 4–6 weeks following completion of chemoradiation (in curative cases) and additional adjuvant chemotherapy consisting of 5-FU and Leucovorin was given for an additional 4 monthly cycles Days 1 through 5 beginning four weeks post surgery.Results: Twenty-seven patients, age 40–82 (median 61), completed the initial course of chemoradiation and are included in the analysis of toxicity. The median follow-up is 27 months (range 8–68). Eleven patients were treated to a dose of 54.6 Gy, nine patients to 57 Gy, and seven patients to 61.8 Gy. Twenty-one patients had T3 tumors, and six patients T4 tumors. Grade III acute toxicity from chemoradiation included proctitis (5 patients), dermatitis (9), diarrhea (five), leukopenia (1), cardiac (1). Grade IV toxicities included one patient with diarrhea (on dose Level I) and one patient (on dose Level III) with cardiac toxicity (unrelated to radiation). Surgical resection consisted of abdominal perineal resection in 16 and low anterior resection in 7. Four patients did not undergo a curative resection; three initially presented with metastases and one developed metastasis during the pre-operative regimen. Post-operative complications included pelvic or perineal abscess in two (on dose Levels I & II), and delayed wound healing in two (one of whom, on dose Level III, developed perineal wound dehiscence requiring surgical reconstruction). Of the 23 patients who had a curative resection, four manifested pathologic complete responses (17.4%). Thirteen of 23 patients (57%) had evidence of pathologic downstaging and only 1/23 patients (on dose Level I) had a positive resection margin. Of these 23 patients (with a minimum follow-up of 8 months), the patient with positive margins was the only one who developed a local failure (Fisher’s Exact p = .04). The 3-year actuarial OS, DFS and LC rates are 82%, 72% and 96%, respectively. Twelve of 13 patients (92% at 3 years) ≥ 61 years vs. 5/10 patients (45% at 3 years) < 61 years remained disease-free (log-rank p = 0.017).Conclusion: This regimen of high dose pre-operative chemoradiation employing a hyperfractionated radiation boost is feasible and tolerable and results in significant downstaging in locally advanced rectal cancer. The vast majority of patients (96%) achieved negative margins, which appears to be a prerequisite for local control (p = 0.04). Older age (≥61 years) was a significant predictor for improved DFS. This regimen (at dose Level III, 61.8 Gy) is currently being tested in a Phase II setting.