Radioiodinated (I-125) monoclonal antibody 425 in the treatment of high grade glioma patients: ten-year synopsis of a novel treatment

The present report is the follow-up of patients enrolled in a phase II clinical trial using I-MAb 425 as an adjuvant treatment for high grade gliomas. Patient median survivals support published data from an earlier preliminary report. From January 29, 1987 to January 25, 1997, 180 patients diagnosed with astrocytoma with anaplastic foci (AAF) and glioblastoma multiforme (GBM) were treated as outpatients with an average of three weekly intravenous or intraarterial injections of radiolabeled MAb 425. The mean dose was 140 mCi (5.2 GBq). Only one patient who received a single dose of more than 60 mCi (2.2 GBq) experienced acute toxicity. Patients received prior surgery and radiation therapy, with and without chemotherapy. Overall median survival for patients with GBM and AAF was 13.4 and 50.9 months, respectively, with Karnofsky Performance Status (KPS) ranging from 40 to 100 and age ranging from 11 to 75 years. Prognostic factors (KPS and age) correlated positively with increased survival, with KPS the most important determinant of median survival. Data analysis was performed on patients followed 5 years or longer. We conclude that the administration of I-MAb 425 with intensive medical management demonstrates a significant increase in median survival and should be considered a therapeutic regimen for the management of patients with high grade gliomas.     

Radioimmunotherapy as a novel treatment regimen: 125I-labeled monoclonal antibody 425 in the treatment of high-grade brain gliomas

A Phase I/II clinical trial was undertaken between January 29, 1987 and January 25, 1997 to assess the efficacy of (125)I-labeled monoclonal antibody 425 ((125)I-MAb 425) in controlling high-grade brain gliomas. A total of 180 patients diagnosed with glioblastoma multiforme (GBM) and astrocytoma with anaplastic foci (AAF) were administered (125)I-MAb 425 as an adjuvant treatment. All underwent initial surgery followed by postoperative external beam radiation therapy and a cumulative dose of 140 mCi of (125)I-MAb 425. Biodistribution of radioactivity after antibody administration showed increased uptake in brain tumor cells due to enhanced expression of epidermal growth factor receptors. A longer half-life of (125)I-MAb 425 in brain tumor cells compared to blood was observed. All patients were followed up for at least 5 years. Overall actuarial survival range for GBM and AAF patients showed 4-150 and 4-270 months, respectively. GBM and AAF patients under age 40 years with a Karnofsky performance status >70 had an actuarial median survival of 22.5 and 65 months, respectively. This adjuvant therapy demonstrates a significant increase in median survival and should be considered in the management of high-grade brain gliomas.     

Therapy for patients with high grade astrocytoma using intraarterial chemotherapy and radiation therapy

BACKGROUND: High grade astrocytomas account for approximately 40% of all primary brain tumors. The median survival is approximately 8-10 months for patients with glioblastoma multiforme and 36 months for patients with anaplastic astrocytoma. The results of systemic chemotherapy in the treatment of brain tumors have been reported to be less than satisfactory, mainly because of the blood-brain barrier impermeability for chemotherapeutic drugs. Intraarterial chemotherapy has been an attractive alternative with which to overcome this problem. METHODS: Eighty-three patients with high grade astrocytoma (glioblastoma multiforme [63 patients] and anaplastic astrocytoma--[20 patients]) were treated with intraarterial (intracarotid and/or intravertebral) chemotherapy and radiation therapy between 1987 and 1997. Patients received cisplatin, 60 mg/m2, and etoposide, 40 mg/m2. Radiation therapy was delivered either after completion of the chemotherapy or concomitantly with the chemotherapy. RESULTS: Thirty-four of 71 evaluable patients with high grade astrocytoma (48%) responded to the chemotherapy. The median survival for patients with glioblastoma multiforme who received chemotherapy prior to radiation therapy was 20 months versus 7 months for those patients who underwent concomitant chemotherapy/radiation therapy. Patients with anaplastic astrocytoma who received chemotherapy prior to radiation therapy had a median survival of 45 months compared with 12 months for patients who received concomitant chemotherapy/ radiation therapy. The toxicity profile has been reported to be mild and well tolerated. CONCLUSIONS: Intraarterial chemotherapy for patients with glioblastoma multiforme, delivered prior to radiation therapy, appears to result in a median survival three times longer than that achieved with concomitant chemotherapy/radiation therapy. In addition, patients appear to survive substantially longer than they do after radiation therapy with the addition of systemic chemotherapy. Side effects are reported to be acceptable.     

Treatment of malignant gliomas with surgery,intraarterial chemotherapy with ACNU and radiation therapy

Summary Forty-five patients with malignant gliomas were treated after aggressive surgical resection with alternating intravenous carmustine and cisplatin both during and after radiation therapy. Thirty-three patients were considered evaluable for responses, 17 had glioblastoma multiforme (GBM),14 had anaplastic astrocytoma (AA) and 2 had anaplastic oligodendroglioma (AO). The median age of the evaluable patients was 47 years. The median time to tumor progression was 34.5 weeks, and the median survival for the entire group was 76 weeks. Early progression occurred more frequently in patients with glioblastoma than in those with AA or AO. Seventeen patients (55%) were alive at 18 months (6 GBM, 9 AA, 2 AO). Toxicity was mainly hematologic, otic and tolerable. The results suggest that further trial is warranted to assess the efficacy of alternating carmustine and cisplatin in conjunction with radiation therapy postoperatively in patients with malignant gliomas.     

Phase II study of 6-thioguanine, procarbazine, dibromodulcitol, lomustine, and vincristine chemotherapy with radiotherapy for treating malignant glioma in children

We conducted a single-arm phase II study to evaluate the efficacy and safety of radiotherapy combined with 6-thioguanine, procarbazine, dibromodulcitol, lomustine, and vincristine (TPDCV) chemotherapy for treating malignant astrocytoma in children and anaplastic ependymoma in patients of all ages. Between 1984 and 1992, 42 patients who had malignant astrocytomas (glioblastomas multiforme, anaplastic astrocytomas, or mixed anaplastic oligoastrocytomas) were treated with TPDCV chemotherapy and radiation therapy. Of these patients, 40 were younger than 18 years, but 2 were older (22 and 23 years) when treated. Cranial radiation averaged 58 Gy. TPDCV chemotherapy was given for 1 year or until progression. Between 1989 and 1991, 17 patients with malignant ependymoma were treated with TPDCV chemotherapy and craniospinal radiation. Radiation was given at an average dose of 54 Gy to the tumor, 28 Gy to the whole brain, and 31 Gy to the spinal axis. TPDCV chemotherapy was given for 1 year or until tumor progressed. Of the patients with glioblastoma multiforme, 13 of 17 died; the median time to progression was 49 weeks, and median survival was 85 weeks. The four patients surviving at this writing were followed a median 537 weeks (range 364-635 weeks). Of the patients with nonglioblastoma malignant astrocytoma, 14 of 25 died; the median time to progression was 224 weeks. Median survival was not reached in this group. The median follow-up for those surviving was 494 weeks. For the patients with ependymoma, 11 of 17 died with a median time to progression of 141 weeks. The median follow-up for the eight who survive was 469 weeks. Nine patients died with a median survival of 183 weeks. The combination of TPDCV and radiotherapy has activity against childhood anaplastic astrocytoma, glioblastoma multiforme, and anaplastic ependymoma. The results of this study for children with glioblastoma were comparable to results in the literature, while the results for children with anaplastic astrocytoma appeared better than most reports. The combination of TPDCV chemotherapy and radiation therapy for anaplastic ependymomas appears to be active and at least as good as published reports using radiation therapy alone.     

Interstitial brachytherapy for newly diagnosed patients with malignant gliomas: the UCSF experience.

Although interstitial brachytherapy appears to be effective in treating recurrent malignant gliomas, it has been studied less extensively in patients with newly diagnosed tumors. To examine the effect of this treatment when used at the time of primary diagnosis, we retrospectively reviewed the records of 88 patients who received temporary interstitial implants of 125I for newly diagnosed malignant gliomas. This brachytherapy was preceded by a course of external radiation therapy and followed, in some cases, by chemotherapy. The median duration of survival after the beginning of external radiation therapy was 87 weeks in patients with glioblastoma multiforme and 160 weeks in those with anaplastic gliomas. In 46% of patients with glioblastoma multiforme and 56% of those with anaplastic gliomas, a second operation was necessary to remove symptomatic radiation necrosis, recurrent tumor, or both. Our results support the conclusion that interstitial brachytherapy used at the primary diagnosis lengthens survival in selected patients with glioblastoma multiforme. However, the toxicity is significant in terms of the need for surgical resection of symptomatic necrosis. In patients with anaplastic gliomas, the toxicity associated with the treatment probably outweighs its advantages.     

VP-16, vincristine and procarbazine with radiation therapy for treatment of malignant brain tumors

Summary Twelve patients aged 34 to 65 with malignant gliomas were treated with VP-16, Procarbazine, Vincristine and concurrent radiation therapy. There were 9 patients with glioblastoma multiforme and 3 with anaplastic astrocytoma. All patients had a subtotal resection or biopsy as the initial procedure.Six patients (1 anaplastic astrocytoma) have developed progressive disease. Mean time to tumor progression was 46 weeks. This combined modality treatment program was associated with reversible hematologic toxicity which was severe in 2 patients. These data compare favorably to data obtained from similiar patients treated with radiation therapy and BCNU.     

Recurrent malignant glioma in adults

Opinion statement Meaningful palliation is possible for selected patients with recurrent malignant glioma (glioblastoma multiforme, anaplastic astrocytoma, anaplastic oligodendroglioma, or anaplastic mixed oligoastrocytoma) using aggressive treatment. Although long-term disease-free survival occurs in fewer than 10% of patients, most who achieve such survival have been treated for multiple recurrences. Surgical resection with the placement of lomustine-releasing wafers is the only therapy proven in randomized trials to be beneficial for recurrent malignant gliomas. Reoperation is indicated when local mass effect limits the quality of life. Reoperation may make other treatments more effective by removing treatment-resistant hypoxic cells and thereby prolonging high-quality survival. Combination chemotherapy (including procarbazine and a nitrosourea) provides dramatic benefit for many recurrent anaplastic or aggressively behaving oligodendrogliomas and anaplastic mixed oligoastrocytomas. For other recurrent malignant gliomas, single-agent cytotoxic chemotherapy (eg, intravenous lomustine or platinums, oral carmustine, temozolomide, or procarbazine) appears to provide equivalent results and better quality of life at a lower cost than do the combinations of cytotoxic drugs. A randomized phase II trial demonstrates that temozolomide provides longer progression-free survival and better quality of life than standard-dose procarbazine in patients with recurrent glioblastoma multiforme. Because benefits of available cytotoxic chemotherapy for anaplastic astrocytoma and glioblastoma are small, participation in clinical trials is appropriate for most patients. Reirradiation (using stereotactic or three-dimensional conformal techniques with or without concomitant cytotoxic chemotherapy) as radiation sensitization can prolong high-quality survival in selected patients. Specific examples include radiosurgery with the gamma knife or with linear accelerators, intracavitary radiation with the newly US Food and Drug Administration-approved GliaSite (Proxima Therapeutics, Alpharetta, GA) radiation therapy system, low dose rate permanent-seed brachytherapy, and high dose rate stereotactic brachytherapy. Dexamethasone (used for the shortest time in the lowest effective doses) can provide symptomatic benefits. Osmotic diuretics such as mannitol reduce cytotoxic edema more rapidly.     

Postoperative radiotherapy of primary spinal cord tumors

During the 30 year period from 1957 to 1986, 42 patients with primary tumors arising from the spinal cord or cauda equina received postoperative irradiation at the University of California, San Francisco. Twenty-one patients had ependymomas: 18 were localized to one site, and 3 diffusely involved the cord. There were 12 patients with low grade astrocytomas and 3 with highly anaplastic astrocytoma or glioblastoma multiforme. All astrocytomas were localized at presentation. In 6 cases tissue was insufficient to permit a histologic diagnosis. Thirty-nine patients (93%) received total radiation doses ranging between 45.0-54.7 Gy using standard fractionation. The 10-year actuarial disease-specific survival rate for patients with localized ependymoma was 93%; 33% of these tumors recurred locally. The corresponding rate for diffuse ependymomas was 50%; the spinal disease was controlled in all 3 patients, but one developed a cerebral metastasis despite prophylactic cranial irradiation. Low-grade astrocytoma patients had a 10-year actuarial disease-specific survival rate of 91%, with 33% of these tumors recurring locally. No patient with highly anaplastic astrocytoma or glioblastoma multiforme survived longer than 8 months; all of these tumors recurred locally, and two of the three also developed diffuse craniospinal axis metastases. Local recurrence for ependymoma was delayed as long as 12 years following treatment, while all but one astrocytoma failure occurred within 3 years of treatment. No significant dose-response relationship with respect to local control was noted for either localized ependymomas or low grade astrocytomas. One patient developed radiation myelitis after receiving 50.4 Gy with standard fractionation. These results indicate that patients who undergo postoperative irradiation for low grade spinal astrocytomas and localized spinal ependymomas achieve excellent survival. However, despite treatment with total radiation doses taken to the practical limit of spinal cord tolerance, local failure remains common.     

Malignant astrocytic gliomas in children

Between 1957 and 1980, 54 children less than 20 years of age with a diagnosis of glioblastoma multiforme or malignant astrocytoma were treated. All patients had a minimum follow-up period of 5 years. Twenty-seven patients had glioblastoma multiforme and 27 had malignant astrocytoma. The median age was 8 years for glioblastoma multiforme patients and 10 years for malignant astrocytoma patients. All patients received radiation therapy, but two died of postoperative complications and did not complete the treatment. The Kernohan Grading System was more useful in distinguishing glioblastoma multiforme and malignant astrocytoma in terms of prognosis than was the Nelson criterion of tumor necrosis. Glioblastoma multiforme (IV) patients had survivals of 44% at 1 year, 26% at 2 years, 4% at 5 years, and 0% at 10 years. Malignant astrocytoma (III) patients had 74% survival at 1 year, 56% at 2 years, 36% at 5 years, and 32% at 10 years, (all P less than 0.05). The tumor dose and tumor location affected survival significantly. Patients with hemispheric malignant astrocytoma who received 54-60 Gy had a 60% 5-year survival rate compared to 14% for doses of 35-50 Gy. Glioblastoma multiforme patients with noncentral tumors had a 9% 5- year survival with 54-60 Gy versus 0% with 35-50 Gy. Cerebral and cerebellar hemispheric tumors did better than central tumors. There were no 5-year survivors among patients with central tumors. Noncentral tumors, on the other hand, resulted in a 44% 5-year survival for malignant astrocytoma and 5% for glioblastoma multiforme. Radiation therapy was well tolerated during the acute period. Only one patient developed a late neurologic deficit attributable to therapy. The patient had hearing loss after two courses of 50 Gy each to a temporal lobe tumor. However, six of the 11 patients who survived for 5 years or longer had intellectual, emotional, or endocrine dysfunction.     

Combination chemotherapy with carmustine and cisplatin before,during, and after radiotherapy for adult malignant gliomas

Summary Twenty-two patients, aged 16 to 67, who had malignant gliomas after surgical resection were treated with carmustine and cisplatin intravenous infusion before, during, and after radiotherapy. All patients had subtotal or total resection, or biopsy as the initial procedure. Twenty-one patients who had at least 2 cycles of chemotherapy and finished the whole course of radiotherapy were considered to be evaluable for responses. Among them, 5 had glioblastoma multiforme, 16 had anaplastic astrocytoma. The median time to tumor progression was 35 weeks (range 12–130 weeks) and median survival time was 66 weeks (range 10–156 weeks). Early progression occurred more frequently in patients with biopsy only and subtotal resection, and in patients with glioblastoma than in those with anaplastic astrocytoma. This combined modality treatment program was associated with reversible hematologic toxicity which was severe in 2 patients, and with ototoxicity in 1 patient, nephrotoxicity in 2 patients. Combination of carmustine and cisplatin with cranial irradiation for malignant gliomas is moderately toxic and appears to offer no obvious survival advantage compared with radiation therapy plus BCNU alone.     

Promising survival for patients with newly diagnosed glioblastoma multiforme treated with concomitant radiation plus temozolomide followed by adjuvant temozolomide.

PURPOSE: Temozolomide is a novel oral alkylating agent with demonstrated efficacy as second-line therapy for patients with recurrent anaplastic astrocytoma and glioblastoma multiforme (GBM). This phase II study was performed to determine the safety, tolerability, and efficacy of concomitant radiation plus temozolomide therapy followed by adjuvant temozolomide therapy in patients with newly diagnosed GBM. PATIENTS AND METHODS: Sixty-four patients were enrolled onto this open-label, phase II trial. Temozolomide (75 mg/m(2)/d x 7 d/wk for 6 weeks) was administered orally concomitant with fractionated radiotherapy (60 Gy total dose: 2 Gy x 5 d/wk for 6 weeks) followed by temozolomide monotherapy (200 mg/m(2)/d x 5 days, every 28 days for six cycles). The primary end points were safety and tolerability, and the secondary end point was overall survival. RESULTS: Concomitant radiation plus temozolomide therapy was safe and well tolerated. Nonhematologic toxicities were rare and mild to moderate in severity. During the concomitant treatment phase, grade 3 or 4 neutropenia, thrombocytopenia, or both were observed in 6% of patients, including two severe infections with Pneumocystis carinii. During adjuvant temozolomide, 2% and 6% of cycles were associated with grade 3 and 4 neutropenia or thrombocytopenia, respectively. Median survival was 16 months, and the 1- and 2-year survival rates were 58% and 31%, respectively. Patients younger than 50 years old and patients who underwent debulking surgery had the best survival outcome. CONCLUSION: Continuous daily temozolomide and concomitant radiation is safe. This regimen of concomitant chemoradiotherapy followed by adjuvant chemotherapy may prolong the survival of patients with glioblastoma. Further investigation is warranted, and a randomized trial is ongoing.     

Phase I single-dose study of intracavitary-administered Nimotuzumab labeled with 188 Re in adult recurrent high-grade glioma

Radioimmunotherapy (RIT) may improve the management of malignant gliomas. A Phase I clinical trial was performed to evaluate, for the first time, the toxicity and clinical effect of an intracavitary administration of a single dose of Nimotuzumab (h-R3) labeled wit (188)Re. Nimotuzumab is a humanized monoclonal antibody directed against epidermal growth factor receptors. Three patients with anaplastic astrocytoma (AA) and 8 with glioblastoma multiforme (GBM) were intended to be treated with 3 mg of mAb labelled with 10 or 15 mCi of (188)Re. In patients treated with 10 mCi (n=6) transitory worsening of pre-existing neurological symptoms were observed. Two patients treated with 15 mCi (n=4) developed early severe neurological symptoms and one also developed late severe toxicity (radionecrosis). In the group treated with 10 mCi, 1 GBM patient died in progression 6 months after the treatment, 2 patients (1 GBM and 1 AA) developed stable disease during 3 months. One GBM patient had partial response for more than 1 year and 2 patients (1 GBM and 1 AA) were asymptomatic and in complete response after 3 years of treatment. Maximal tolerated dose of the radioimmunoconjugate (188)Re-Nimotuzumab was 3 mg of the h-R3 labelled with 10 mCi of (188)Re. The radioimmunoconjugate showed a high retention in the surgical created resection cavity and the brain adjacent tissues with a mean value of 85.5 % of the injected dose one hour post-administration. This radioimmunoconjugate may be relatively safe and a promising therapeutic approach for treating high grade gliomas.     

A therapeutic trial of radiation therapy with Vincristine,etoposide, and Procarbazine (VVP) in high grade intracranial gliomas

This study is a combined modality Phase II therapeutic trial to determine the efficacy of the novel combination of VP-16, Vincristine and Procarbazine in addition to postoperative radiation therapy in patients with high grade intracranial gliomas. Thirty three patients (median age 51 years) were entered (27 with glioblastoma multiforme, 6 with anaplastic astrocytoma). Toxicity was manageable with no lethal toxicities. Five of seven life threatening toxicities were hematologic. Median overall survival was 14.2 months. These data suggest this regimen is effective treatment for patients with high grade gliomas.     

Phase 2 study of T138067-sodium in patients with malignant glioma: Trial of the National Cancer Institute of Canada Clinical Trials Group

We studied the activity of T138067-sodium in patients with malignant gliomas. T138067-sodium is a unique new chemotherapy agent that inhibits microtubule formation by binding irreversibly and specifically to beta(1), beta(2)and beta(4) isotypes of 3-tubulin, causing cell arrest at G(2)/M and inducing apoptosis. Patients with recurrent anaplastic astrocytoma or glioblastoma multiforme were treated intravenously with 330 mg/m(2) of T138067-sodium weekly. Treatment was continued until the patient experienced either unacceptable toxicity or progressive disease. Patients had to have histologically proven glioma, have bidimensionally measurable disease at least 1 cm x 1 cm, and have received no more than one prior adjuvant chemotherapy. No chemotherapy or radiotherapy for recurrent disease was permitted. Nineteen patients entered the trial. One patient was found to be ineligible. There were two patients with anaplastic astrocytoma and 16 with glioblastoma multiforme. Only two patients had received prior adjuvant chemotherapy. The first seven patients had full pharmacokinetic sampling. No dose-limiting toxicity was seen, and pharmacokinetic results were consistent with those from nonglioma patients. The most common drug-related effects were fatigue (33%), nausea (28%), neutropenia (28%), and anorexia (17%). No patients stopped the study because of toxicity. No responses were seen in the 15 eligible patients who completed at least one cycle. Three patients had stable disease with a median duration of 2.6 months. Our results suggest that given in this dose and schedule T138067-sodium does not have activity in this population of anaplastic astrocytoma and glioblastoma multiforme.     

Phase I trial results of iodine-131-labeled antitenascin monoclonal antibody 81C6 treatment of patients with newly diagnosed malignant gliomas.

PURPOSE: To determine the maximum-tolerated dose (MTD) of iodine-131 ((131)I)-labeled 81C6 antitenascin monoclonal antibody (mAb) administered clinically into surgically created resection cavities (SCRCs) in malignant glioma patients and to identify any objective responses with this treatment. PATIENTS AND METHODS: In this phase I trial, newly diagnosed patients with malignant gliomas with no prior external-beam therapy or chemotherapy were treated with a single injection of (131)I-labeled 81C6 through a Rickham reservoir into the resection cavity. The initial dose was 20 mCi and escalation was in 20-mCi increments. Patients were observed for toxicity and response until death or for a minimum of 1 year after treatment. RESULTS: We treated 42 patients with (131)I-labeled 81C6 mAb in administered doses up to 180 mCi. Dose-limiting toxicity was observed at doses greater than 120 mCi and consisted of delayed neurotoxicity. None of the patients developed major hematologic toxicity. Median survival for patients with glioblastoma multiforme and for all patients was 69 and 79 weeks, respectively. CONCLUSION: The MTD for administration of (131)I-labeled 81C6 into the SCRC of newly diagnosed patients with no prior radiation therapy or chemotherapy was 120 mCi. Dose-limiting toxicity was delayed neurologic toxicity. We are encouraged by the survival and toxicity and by the low 2.5% prevalence of debulking surgery for symptomatic radiation necrosis.     

Effect of disease burden on health-related quality of life in patients with malignant gliomas

The burden imposed by disease recurrence in patients with high-grade gliomas is not well documented. We studied the frequency of self-report symptoms and the effects on health-related quality of life in patients who had recurrent glioblastoma multiforme or anaplastic astrocytoma and who had a Karnofsky performance score > or = 70. Patients completed the European Organization for Research and Treatment of Cancer Quality of Life Questionnaire-Core 30 Items (QLQ-C30) and the Brain Cancer Module (BCM20) before initiation of treatment for first recurrence of disease. Six symptoms (fatigue, uncertainty about the future, motor difficulties, drowsiness, communication difficulties, and headache) were reported with a frequency > 50% by both groups of patients. An additional two symptoms (visual problems and pain) were also reported with frequencies of > 50% by patients with recurrent glioblastoma multiforme. Most of the symptoms were likely due to recurrence, but previous radiation therapy and on-going corticosteroid treatment may have also been casual factors for fatigue, whereas uncertainty about the future and pain were probably nonspecific for brain cancer. Problems with motor functioning, vision, leg strength, and pain were reported more frequently by patients with recurrent glioblastoma multiforme than by those with recurrent anaplastic astrocytoma. Scores on health-related quality-of-life functioning scales were similar in the two groups. Finally, the scores for patients who had recurrent high-grade gliomas and a Karnofsky performance score > or = 70 were compared with the reported health-related quality of life scores of patients with other cancers. Their scores were similar to those of patients with metastatic cancers and worse than those of patients with localized cancers.     

Temozolomide for malignant primary spinal cord glioma: an experience of six cases and a literature review

Malignant primary spinal cord gliomas (PSCGs) are rare, and the optimal treatment for these lesions remains controversial. We report herein treatment outcomes of six malignant PSCGs managed with temozolomide (TMZ)-based multidisciplinary treatment. TMZ was administered concomitantly with fractionated radiotherapy for two newly diagnosed primary spinal cord glioblastoma multiforme (GBM), followed by adjuvant chemotherapy with TMZ. For one anaplastic astrocytoma (AA) and one anaplastic ependymoma (AEPN), TMZ was given as adjuvant therapy at first recurrence. One malignantly transformed ependymoma (EPN) and one malignantly transformed diffuse astrocytoma (DA) were treated with TMZ after radiotherapy at second recurrence. Two patients with newly diagnosed GBM died, 12 and 16 months, respectively, after being treated with TMZ, during and after radiation therapy. One patient with AA and one with malignantly transformed EPN showed good response to salvage therapy with TMZ and had stable disease 21 and 20 months, respectively, after TMZ treatment. One patient with recurrent AEPN and one with malignantly transformed DA died from uncontrolled progression of the lesions despite TMZ chemotherapy. Three patients developed grade 1 or 2 neutropenia, anemia, and infection. Nonhematologic toxicities occurred in all patients; however, they were below grade 3 in severity. TMZ treatment may have a positive effect on control of malignant PSCGs and survival for some patients. Specifically, treatment with TMZ during and after radiation therapy might provide survival benefit to patients with primary spinal cord GBM. A multicenter cooperative investigation for a large-scale study on malignant PSCGs may be required.     

Effects of hypoxia on drug resistance phenotype and genotype in human glioma cell lines

Summary Because the percentage of dividing cells in malignant glioma is small, cell cycle specific drugs such as VP16 are most effective if given continuously over prolonged periods. In this study, we chose a dose of 50 mg/day to minimize therapy interruptions for myelosuppresion. VP16 was given until the neutrophil count dropped to < 1.0 × 10⁹/L or the platelets fell to < 75 × 10⁹/L and resumed when the counts rose to normal levels. We treated 46 patients with supratentorial malignant glioma (15 anaplastic astrocytoma, 21 glioblastoma multiforme, 9 anaplastic oligodendroglioma, l undifferentiated primary malignant brain tumor) at the time of tumor progression. All had KPS 70 at study entry. All patients had prior RT,13 with adjuvant nitrosourea. Twenty-four had prior nitrosourea chemotherapy for tumor progression, 7 had no prior chemotherapy. We treated 20 patients with VP16 at first progression and 26 at second or later progression. All patients had CT or MR scans and clinical evaluation every 8 weeks. Median time to tumor progression (TTP) was 8.8 weeks for all evaluable patients, 8.6 weeks for those treated at first progression and 8.4 weeks for those treated at second progression, 9.1 weeks for anaplastic astrocytoma, 7.5 weeks for glioblastoma multiforme and 17.1 weeks for anaplastic oligodendroglioma. There were 8 responses and 11 patients with stable disease for at least 8 weeks (R + SD = 42%). Prolonged low-dose oral VP15 is well tolerated, with minimal myelosuppression. Prolonged low-dose oral VP16 is modestly effective treatment for patients with recurrent malignant glioma and is more effective for anaplastic astrocytoma and anaplastic oligodendroglioma than glioblastoma multiforme.     

A phase II study of extended low-dose temozolomide in recurrent malignant gliomas.

Temozolomide is an effective agent in the treatment of recurrent malignant gliomas. The standard dosage is 150-200 mg/m2 per day for 5 days in a 28-day cycle. A prior phase I study established a chronic daily temozolomide dose that significantly increased the total dose administered and suggested a superior response rate. In a prospective phase II trial, we treated 35 patients with recurrent malignant gliomas with temozolomide 75 mg/m2 per day for 42 consecutive days in a 70-day cycle. Median age was 55 years (range, 27-73 years) and median Karnofsky performance score was 70 (range, 60-90). Twenty-eight (79%) patients had glioblastoma multiforme, 3 (9%) anaplastic astrocytoma, 2 (6%) anaplastic oligodendroglioma, and 2 (6%) anaplastic oligoastrocytoma. All but one had prior radiotherapy, and 27 had prior chemotherapy. There were 2 partial (anaplastic astrocytoma) and 3 minor (glioblastoma multiforme) radiographic responses; 17 patients had progressive disease at the end of the first cycle. In 55 cycles of temozolomide, there were 8 episodes of asymptomatic drug-related grade 3 toxicity: 6 lymphopenia, 1 neutropenia, and 1 thrombocytopenia. Median progression-free survival and overall survival were 2.5 and 8.7 months (2.3 and 7.7 months in glioblastoma multiforme patients). At 6 months, progression-free survival and overall survival rates were 27% and 67% (19% and 60% in glioblastoma multiforme). Quality of life scores did not change significantly during treatment. We conclude that the extended low-dose schedule of temozolomide is well tolerated in heavily pre-treated patients; however, our results do not support an improved rate of response or survival.