Edward G. Shaw

A multi-institutional experience with stereotactic radiosurgery for solitary brain metastasis

PURPOSE A multi-institutional experience in radiosurgery for solitary brain metastases was combined to identify factors associated with safety, efficacy, tumor control, and survival. MATERIALS AND METHODS A review of 116 patients with solitary brain metastases who underwent gamma knife stereotactic radiosurgery at five institutions was performed. The median follow-up was 7 months following radiosurgery and 12 months following diagnosis. Minimum tumor doses varied from 8-30 Gy (mean, 17.5 Gy). Forty-five patients failed prior radiotherapy and 71 had no prior brain irradiation. Fifty-one patients had radiosurgery alone and 65 underwent combined radiosurgery with fractionated large-field radiotherapy (mean dose, 33.8 Gy). RESULTS Median survival was 11 months after radiosurgery and 20 months after diagnosis. Follow-up documented local tumor control in 99 patients (85%), tumor recurrence in 17 (15%), and documented radiation necrosis in one (1%). The 2-year actuarial tumor control rate was 67 +/- 8%. Tumor histology affected survival (better for breast cancer, p = .004) and local control (better for melanoma and renal cell, p = .0003) in multivariate analyses. Combined fractionated radiotherapy and radiosurgery improved local control (p = 0.111), but not survival in multivariate testing. CONCLUSION Radiosurgery is effective in controlling solitary brain metastases with low morbidity. Further study is needed to better define optimum treatment parameters for radiosurgery.

Radiation therapy oncology group : radiosurgery quality assurance guidelines

A multidisciplinary Radiation Therapy Oncology Group (RTOG) task force has developed quality assurance guidelines for radiosurgery. The purpose of the guidelines are fourfold: (1) To ensure that participating institutions have the proper equipment and appropriate technique(s) to administer radiosurgery; (2) to outline a standard data set for each treated patient to assess protocol compliance; (3) to define minor and major deviations in protocol treatment; and (4) to set forth clinical data necessary to determine treatment efficacy, including failure patterns, and treatment toxicity. These guidelines are being implemented into active and developing radiosurgery protocols.

Meningeal hemangiopericytoma: histopathological features, treatment, and long-term follow-up of 44 cases.

Forty-four cases of meningeal hemangiopericytoma that were treated between 1938 and 1987 are reviewed. Fifty-five percent of these tumors occurred in men. The average age of the patients at diagnosis was 42 years. The average duration of preoperative symptoms was 11 months. Symptoms were related to tumor location, which was similar to that of meningioma. The operative mortality was 9% overall, and has been zero since 1974 (18 patients). The average time before the first recurrence was 47 months, with the recurrence rates at 1, 5, and 10 years after surgery being 15, 65, and 76%, respectively. Ten patients have developed extraneural metastasis, mostly to lung and bone, at an average of 99 months after the first operation. The 10- and 15-year rates of metastasis were 33 and 64%, respectively. The average survival period has been 84 months, with survival rates at 5, 10, and 15 years after surgery of 67, 40, and 23%, respectively. The histological diagnosis of the tumor was not related to survival or recurrence and did not change with recurrence. Tentorial and posterior fossa tumors tended to be more lethal. Total tumor resection favorably affected recurrence and survival, as opposed to subtotal resection. Metastasis adversely affected survival, and was followed by death at an average of 24 months after its diagnosis. Radiation therapy after the first operation extended the average time before first recurrence from 34 to 75 months, and extended survival from 62 to 92 months.

Primarily Resected Meningiomas: Outcome and Prognostic Factors in 581 Mayo Clinic Patients, 1978 Through 1988

OBJECTIVE To establish prognostic factors for recurrence and outcome of surgical treatment, with or without postoperative radiation therapy, in patients with meningiomas. MATERIAL AND METHODS From 1978 through 1988, 581 patients underwent initial resection of a previously untreated primary meningioma at Mayo Clinic Rochester. In this study cohort, the outcome and prognostic factors associated with radiographic progression-free survival were analyzed. RESULTS Gross total resection (GTR) of the meningioma was accomplished in 80% of patients; the other 20% underwent less than GTR. Perioperative mortality within 10 days was 1.6%. Overall survival was significantly decreased from that for an age- and sex-matched cohort from the US white population. Progression-free survival at 5 and 10 years was 88% and 75%, respectively, in patients who underwent GTR and 61% and 39%, respectively, in those who underwent less than GTR. Multivariate analysis showed that age younger than 40 years, male sex, less than GTR, optic nerve involvement, and 4 or more mitotic figures per 10 high-power fields were associated with decreased progression-free survival. The 581 patients had 106 first recurrences. A trend toward improved progression-free survival was noted after first recurrence when irradiation with or without operation was used in comparison with only surgical treatment (P = 0.058). CONCLUSION With only operative treatment of meningioma, the 10-year recurrence rate was 25% in patients who had GTR and 61% in those who had less than GTR. These results emphasize the need for long-term follow-up and for consideration of adjuvant radiation therapy. Patients treated at the time of recurrence seem to benefit from radiation therapy with or without surgical resection. Factors associated with recurrence were (1) less than GTR, (2) involvement of the anterior visual pathway, (3) age younger than 40 years, and (4) increased mitotic index.

Radiosurgery for the treatment of previously irradiated recurrent primary brain tumors and brain metastases: initial report of radiation therapy oncology group protocol (90-05).

PURPOSE To determine the maximum acutely tolerable dose of single fraction radiosurgery in patients with recurrent previously irradiated primary brain tumors or brain metastases. METHODS AND MATERIALS Between August 1990 and September 1993, 102 analyzable patients were entered on Radiation Therapy Oncology Group (RTOG) protocol 90-05, 38 of whom had recurrent primary brain tumors (median prior dose 60 Gy), and 64 of whom had recurrent brain metastases (median prior dose 30 Gy) < or = 40 mm in maximum diameter. Unacceptable toxicity was defined as irreversible Grade 3, any Grade 4, or Grade 5 central nervous system (CNS) toxicity according to the RTOG CNS criteria, occurring in > 20% of patients per treatment arm within 3 months of radiosurgery. RESULTS Patients were initially entered onto one of three treatment arms according to the maximum diameter of the recurrent lesion. Twelve to 22 patients were entered on each arm. The dose levels were: arm 1, < or = 20 mm, 18 Gy; arm 2, 21-30 mm, 15 Gy; and arm 3, 31-40 mm, 12 Gy. Subsequently, doses were escalated as follows: arm 4, < or = 20mm, 21 Gy; arm 5, 21-30 mm 18 Gy; and arm 6, 31-40 mm, 15 Gy. Unacceptable acute toxicity secondary to cerebral edema occurred in 0, 7 and 5% of patients on Arms 1, 2 and 3, respectively, and in no patients on arms 4, 5, or 6. Multivariate analysis revealed that tumor volume > or = 8200 mm(3) and a ratio of maximum dose to prescription dose (MD/PD) > or = 2 were significantly associated unacceptable toxicity. Of 15 patients with both tumor volume > or = 8200 mm(3) and MD/PD > or = 2, unacceptable toxicity occurred in 2 of 4 treated with a single isocenter and 1 of 11 treated with multiple isocenters. Subsequently, operation for symptomatic radionecrosis was required in 6% of patients. CONCLUSION We found that the incidence of acute toxicity was acceptable at 0-7% in patients with recurrent, previously irradiated primary brain tumors or brain metastases < or = 40 mm in maximum diameter treated according to the protocol described.

Postoperative radiotherapy of intracranial ependymoma in pediatric and adult patients

In 33 patients undergoing operation and postoperative irradiation for intracranial ependymomas between January 1963 and December 1983, the tumor was grade 1 or 2 in 26 (79%) patients and grade 3 or 4 in 7 (21%). Operation consisted of only biopsy in 1 (3%), subtotal removal of tumor in 28 (85%), and gross total resection in 4 (12%). All patients received brain irradiation with a median dose of 4800 cGy. Seventeen (52%) patients also received spinal axis irradiation (median dose, 3000 cGy) which included 5 with high-grade tumors and 12 with low-grade infratentorial tumors. The relapse-free and overall survival rates at 5 years were 61% and 62%, respectively. Prognostic factors analyzed for statistically significant survival differences included age, sex, hydrocephalus, site, grade, extent of operation, extent of brain field, spinal axis irradiation, and brain dose. Grade was the only significant factor found: the 5-year survival of patients with low-grade ependymomas, 71%, was significantly better (p less than 0.04) than that of patients with high-grade ependymomas, 29%. Among the 31 patients evaluable for patterns of failure, treatment failed in 12 (39%) (10 only in the brain, 1 in the brain and spinal cord, and 1 only in the spine). All but one of the brain failures were at the site of the original primary lesion. Treatment failed in 4 of the 6 (67%) patients with high-grade tumor but in only 8 of the 25 (32%) with low grade tumor. Among the 7 low-grade infratentorial ependymomas treated with brain irradiation only, there was 1 treatment failure (in the spine; salvaged with further irradiation). Among the 12 patients with low-grade infratentorial tumors who received spinal axis irradiation, treatment failed in 1 (8%) (in the spine and also in the brain; patient subsequently died of disease). Nineteen (58%) patients remain alive; all but 2 of the patients who had recurrence died of their disease. This retrospective study suggests that: (a) patients with high-grade tumors have significantly poorer survival compared with those with low-grade tumors; (b) the main cause of death in ependymoma patients is intracranial failure at the primary site; and (c) craniospinal axis irradiation may not be necessary for patients with low-grade infratentorial ependymoma (localized irradiation alone may be adequate).

Peripheral nerve and ureteral tolerance to intraoperative radiation therapy: clinical and dose-response analysis

Between April 1981 and July 1984, 51 patients received intraoperative radiation therapy (IORT) as a component of therapy for the management of primary or recurrent pelvic malignancies which were initially unresectable for cure. For these patients, curative surgical alternatives did not exist, or would have involved extensive procedures such as pelvic exenteration, distal sacrectomy, hemipelvectomy, or hemicorporectomy. The primary disease was colorectal in 38 patients. Treatment consisted of external beam radiation (range 3000 to 6890 cGy, median 5040 cGy), surgical debulking when feasible, and an intraoperative electron beam boost to the gross or microscopic residual disease (dose range 1000 to 2500 cGy, median 1750 cGy) utilizing 9-18 MeV electrons. The most common IORT associated toxicities were peripheral neuropathy and ureteral obstruction. None were life-threatening or fatal in severity. Of the 50 patients evaluable for neurotoxicity analysis, 16 (32%) developed peripheral neuropathy consisting of pain in 16 patients, numbness and tingling in 11, and weakness in 8. The pain, numbness and tingling resolved in about 40% of patients, while weakness resolved in only 1 of 8. Sixteen ureters were initially unobstructed by tumor at the time of IORT. Of these, 10 (63%) subsequently showed evidence of obstruction and hydronephrosis. The development of neurotoxicity was more common at IORT doses of 1500 cGy or more versus 1000 cGy. Ureteral obstruction with hydronephrosis occurred more frequently at IORT doses of 1250 cGy or more compared to 1000 cGy. There was no relationship between the likelihood of developing complications and the total external beam dose. The observed dependence of human nerve toxicity primarily on the IORT dose is consistent with data generated from animal experiments.

MIXED OLIGOASTROCYTOMAS: A SURVIVAL AND PROGNOSTIC FACTOR ANALYSIS

Seventy-one patients with supratentorial mixed oligoastrocytomas underwent surgery only (5 patients) or surgery with postoperative radiation therapy (66 patients) between 1960 and 1982. The median survival for these 71 patients was 5.8 years and the 5-, 10-, and 15-year survival rates were 55, 29, and 17%, respectively--values significantly different from those of an age- and sex-matched normal reference population. Uni- and multivariate survival analyses were applied to 14 possible prognostic factors, including the following: patient factors--age, sex, and seizures; tumor factors--site, size, side, computed tomographic enhancement, and calcification; pathological factors--tumor grade and dominant cellular component; and treatment factors--extent of surgical resection, lobectomy, and radiation dose and field. Of these factors, tumor grade, as determined by the Kernohan method, was the most strongly associated with survival. The 60 patients with Grades 1 and 2 tumors had a median survival of approximately 6.3 years and 5- and 10-year survival rates of 58% and 32%, respectively, compared with 2.8 years (36 and 9%, respectively) for the 11 patients with Grades 3 and 4 tumors. Age < 37 years, gross total resection, partial brain radiation, and radiation dose > or = 5000 cGy were other factors significantly associated with improved survival in both uni- and multivariate models. Three of five patients not receiving postoperative radiation therapy experienced tumor recurrence and died. Seven of eight patients from whom tissue was obtained at the time of tumor progression demonstrated anaplastic transformation.(ABSTRACT TRUNCATED AT 250 WORDS)

Gamma knife for glioma: Selection factors and survival

PURPOSE To determine factors associated with survival differences in patients treated with radiosurgery for glioma. METHODS AND MATERIALS We analyzed 189 patients treated with Gamma Knife radiosurgery for primary or recurrent glioma World Health Organization (WHO) Grades 1-4. RESULTS CONCLUSION The median minimum tumor dose was 16 Gy (8-30 Gy) and the median tumor volume was 5.9 cc (1.3-52 cc). Brachytherapy selection criteria were satisfied in 65% of patients. Median follow-up of all surviving patients was 65 weeks after radiosurgery. For primary glioblastoma patients, median survival from the date of pathologic diagnosis was 86 weeks if brachytherapy criteria were satisfied and 40 weeks if they were not (p = 0.01), indicating that selection factors strongly influence survival. Multivariate analysis showed that increased survival was associated with five variables: lower pathologic grade, younger age, increased Karnofsky performance status (KPS), smaller tumor volume, and unifocal tumor. Survival was not found to be significantly related to radiosurgical technical parameters (dose, number of isocenters, prescription isodose percent, inhomogeneity) or extent of preradiosurgery surgery. We developed a hazard ratio model that is independent of the technical details of radiosurgery and applied it to reported radiosurgery and brachytherapy series, demonstrating a significant correlation between survival and hazard ratio. CONCLUSIONS Survival after radiosurgery for glioma is strongly related to five selection variables. Much of the variation in survival reported in previous series can be attributed to differences in distributions of these variables. These variables should be considered in selecting patients for radiosurgery and in the design of future studies.

Analysis of outcome in patients reirradiated for brain metastases

PURPOSE Patients with newly diagnosed brain metastases generally benefit from whole brain radiation therapy (WBRT). However, the role of reirradiation for patients who develop progressive brain metastases has been controversial. This retrospective study examines our experience with reirradiation of patients for progressive brain metastases after an initial+ course of WBRT. METHODS AND MATERIALS From 1975-1993, 2658 patients received WBRT for brain metastases at our institution. Eighty-six patients were subsequently reirradiated for progressive brain metastases. The median age of these patients was 58 (range: 31-81). The most common primary sites were breast and lung. Fifty patients had metastatic disease at other sites. Most patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 2 (40 patients) or 3 (38 patients). The median dose of the first course of irradiation was 30 Gy (range: 1.5-50.6 Gy). The median dose of the second course of irradiation was 20 Gy (range: 8.0-30.6 Gy). RESULTS Twenty-three patients (27%) had resolution of neurologic symptoms, 37 patients (43%) had partial improvement of neurologic symptoms, and 25 patients (29%) had either no change or worsened after reirradiation. The median survival following reirradiation was 4 months (range: 0.25-72 months). The majority of patients had no significant toxicity secondary to reirradiation. Five patients had radiographic abnormalities of their brain consistent with radiation-related changes. One patient had symptoms of dementia that was thought to be caused by radiotherapy. Various potential prognostic factors were evaluated for possible associations with survival, including age, sex, primary site, ECOG performance status, RTOG neurologic functional class, absence of extracranial metastases, and dose of irradiation. Absence of extracranial metastasis, solitary brain metastasis, and retreatment dose > 20 Gy were associated with improved survival in univariate analysis (p=0.025, 0.033, and 0.061, respectively). The absence of extracranial disease was the only significant factor in multivariate analysis (p=0.05). CONCLUSION The majority of patients in our series had favorable symptomatic responses. Clinically significant complications were minimal. Reirradiation should be offered to patients who develop progressive brain metastases.