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Brain tumor radiosurgery: current status and strategies to enhance the effect of radiosurgery
Niranjan, A; Lunsford, L D; Gobbel, G T; Kondziolka, D; Maitz, A; Flickinger, J C
PMID: 11210177
ISSN: 1433-7398
CID: 188642
Gamma knife radiosurgery for brainstem arteriovenous malformations: preliminary results
Massager, N; Regis, J; Kondziolka, D; Njee, T; Levivier, M
OBJECT: This study was undertaken to assess the efficacy and safety of gamma knife radiosurgery (GKS) for the treatment of arteriovenous malformations (AVMs) located within the brainstem. METHODS: The results of GKS performed in 87 patients with brainstem AVMs at two centers with experienced physicians are reviewed. The mean patient age was 37 years and the population included 19 children. The male/female ratio was 56:31. The malformation was located in the upper brainstem in 52 patients. Seventy-four percent of the patients had suffered a hemorrhage before GKS. For 70% of the patients no other treatment had been proposed before GKS. The mean AVM volume was 1.3 cm3. The lesions were treated with one to eight isocenters, with a margin dose ranging between 11.5 Gy and 30 Gy. The mean clinical follow-up period was 3.2 years. Ninety-five percent of the patients improved or remained neurologically stable. Rebleeding occurred in three patients at 3, 6, and 16 months, respectively, after GKS. Two patients in whom rebleeding occured recovered, and one died. The AVM obliteration rate was 63% at 2 years and 73% at 3 years after GKS. A second GKS was performed in six patients in whom only partial obliteration was demonstrated on angiography 3 years after the first procedure. CONCLUSIONS: Gamma knife radiosurgery may be a valuable first-choice therapy for the treatment of AVMs located within the brainstem.
PMID: 11143224
ISSN: 0022-3085
CID: 188682
Case problems conference: Cushing's disease and parasellar aneurysm [Case Report]
Kasowski, H J; de Lotbiniere, A; Awad, I A; Hunt Batjer, H; Chandler, J P; Ciric, I S; Getch, C C; Kassam, A; Kondziolka, D; Laws, E R Jr; Witham, T
PMID: 11126913
ISSN: 0148-396x
CID: 188692
Subnecrotic stereotactic radiosurgery controlling epilepsy produced by kainic acid injection in rats
Maesawa, S; Kondziolka, D; Dixon, C E; Balzer, J; Fellows, W; Lunsford, L D
OBJECT: Any analysis of the potential role of stereotactic radiosurgery for epilepsy requires the experimental study of its potential antiepileptogenic, behavioral, and histological effects. The authors hypothesized that radiosurgery performed using subnecrotic tissue doses would reduce or abolish epilepsy without causing demonstrable behavioral side effects. The kainic acid model in rats was chosen to test this hypothesis. METHODS: Chronic epilepsy was successfully created by stereotactic injection of kainic acid (8 microg) into the rat hippocampus. Epileptic rats were divided into three groups: high-dose radiosurgery (60 Gy, 16 animals), low-dose (30 Gy, 15 animals), and controls. After chronic epilepsy was confirmed by observation of the seizure pattern and by using electroencephalography (EEG), radiosurgery was performed on Day 10 postinjection. Serial seizure and behavior observation was supplemented by weekly EEG sessions performed for the next 11 weeks. To detect behavioral deficits, the Morris water maze test was performed during Week 12 to study spatial learning and memory. Tasks involved a hidden platform, a visible platform, and a probe trial. After radiosurgery, the incidence of observed and EEG-defined seizures was markedly reduced in rats from either radiosurgically treated group. A significant reduction was noted after high-dose (60 Gy) radiosurgery in Weeks 5 to 9 (p < 0.003). After low-dose (30 Gy) radiosurgery, a significant reduction was found after 7 to 9 weeks (p < 0.04). During the task involving the hidden platform, kainic acid-injected rats displayed significantly prolonged latencies compared with those of control animals (p < 0.05). Hippocampal radiosurgery did not worsen this performance. The probe trial showed that kainic acid-injected rats that did not undergo radiosurgery spent significantly less time than control rats in the target quadrant (p = 0.03). Rats that had undergone radiosurgery displayed no difference compared with control rats and demonstrated better performance than rats that received kainic acid alone (p = 0.04). Radiosurgery caused no adverse histological effects. CONCLUSIONS: In a rat model, radiosurgery performed with subnecrotic tissue doses controlled epilepsy without causing subsequent behavioral impairment.
PMID: 11117846
ISSN: 0022-3085
CID: 188702
Gamma knife radiosurgery for vestibular schwannomas
Kondziolka, D; Lunsford, L D; Flickinger, J C
Radiosurgery is a surgical procedure associated with minimal functional morbidity and allows patients to return rapidly to their previous level of activity. Most tumors regress in volume with extended follow-up, and the rare occurrence of tumor growth after radiosurgery seems to occur early. Similarly, cranial neuropathy or other neurologic symptoms after irradiation occur within the first few years and are usually mild and transient. Current results indicate a low rate of cranial neuropathy (lower than with any other technique). Useful hearing preservation in patients with NF2 seems to be an attainable goal with more sophisticated radiosurgery techniques. We anticipate the increased use of stereotactic radiosurgery for patients with vestibular schwannomas as more and more smaller sized tumors are identified.
PMID: 11082175
ISSN: 1042-3680
CID: 188712
Radiosurgery for childhood intracranial arteriovenous malformations
Levy, E I; Niranjan, A; Thompson, T P; Scarrow, A M; Kondziolka, D; Flickinger, J C; Lunsford, L D
OBJECTIVE: The optimal management of intracranial arteriovenous malformations (AVMs) in children remains controversial. Children with intracranial AVMs present a special challenge in therapeutic decision-making because of the early recognition of their future life-long risks of hemorrhage if they are treated conservatively. The goals of radiosurgery are to achieve complete AVM obliteration and to preserve neurological function. We present long-term outcomes for a series of children treated using radiosurgery. METHODS: The findings for 53 consecutive children who underwent at least 36 months of imaging follow-up monitoring after radiosurgery were reviewed. The median age at the time of treatment was 12 years (range, 2-17 yr). Thirty-one children (58%) presented after their first intracranial hemorrhaging episodes, two (4%) after their second hemorrhaging episodes, and one (2%) after five hemorrhaging episodes. Nineteen children (36%) presented with unruptured AVMs, and a total of 25 children (47%) exhibited neurological deficits. AVMs were graded as Spetzler-Martin Grade I (2%), Grade II (23%), Grade III (36%), Grade IV (9%), or Grade VI (30%). The median AVM volume was 1.7 ml (range, 0.11-10.2 ml). The median marginal dose was 20 Gy (range, 15-25 Gy). RESULTS: Results were stratified according to AVM volumes (Group 1, < or =3 ml; Group 2, >3 ml to < or =10 ml; Group 3, >10 ml). Twenty-eight patients (80%) in Group 1 and 11 (64.7%) in Group 2 achieved complete obliteration. The only patient in Group 3 did not achieve obliteration. Complications included brainstem edema (n = 1) and transient pulmonary edema (n = 1). Four patients experienced hemorrhaging episodes, 30, 40, 84, and 96 months after radiosurgery. Multivariate logistic regression analysis demonstrated that only volume was significantly correlated with obliteration rates (P = 0.0109). CONCLUSION: Radiosurgery is safe and efficacious for selected children with AVMs. The obliteration rates and the attendant low morbidity rates suggest a primary role for stereotactic radiosurgery for pediatric AVMs.
PMID: 11014422
ISSN: 0148-396x
CID: 188722
The role of stereotactic cyst aspiration for glial and metastatic brain tumors
Niranjan, A; Witham, T; Kondziolka, D; Lunsford, L D
OBJECTIVE: To evaluate the role of stereotactic cyst aspiration in the context of multimodality management of cystic glial and metastatic tumors, we retrospectively reviewed our experience with 38 patients during a 10-year interval. METHODS: All 38 patients had one or more computed tomography or magnetic resonance imaging guided stereotactic cyst aspirations. Twenty-seven patients had glial neoplasms and 11 had metastatic brain tumors. Twenty-two patients underwent cyst aspiration as the initial treatment modality while 15 patients had cyst aspiration following previous treatments. RESULTS: In the immediate postoperative period, 19 of the 27 (70%) patients with gliomas and nine of the 11 (82%) patients with metastatic tumors experienced symptomatic improvement. No procedure-related morbidity was encountered. Twelve patients (31.5%) eventually required a catheter-reservoir system. Thirty-seven percent of patients with cystic glial neoplasms and 18% of patients with metastatic tumors had delayed cytoreductive surgery by craniotomy subsequent to stereotactic cyst aspiration. Reduction in tumor volume following aspiration facilitated Gamma knife radiosurgery in seven patients. CONCLUSION: Single stereotactic aspiration is a low risk procedure that provides immediate relief of symptoms in patients with cystic brain tumors. It appears to be valuable together with the use of other therapeutic strategies.
PMID: 10975535
ISSN: 0317-1671
CID: 188732
Brain metastases in patients with no known primary tumor
Maesawa, S; Kondziolka, D; Thompson, T P; Flickinger, J C; Dade, L
BACKGROUND: The care of patients with a brain metastasis from unknown primary site is controversial. The authors reviewed the results of stereotactic radiosurgery in this group of patients to better define clinical expectations. METHODS: During an 11-year interval, radiosurgery was performed in 421 patients with brain metastases at the University of Pittsburgh. Fifteen patients had solitary or multiple (< or = 5) brain metastases without a detectable primary site at the time of initial presentation. In five patients, a histologic diagnosis of cancer was obtained from extracranial metastatic sites. In 10 patients, a diagnosis was obtained from the brain. A total of 31 tumors with a mean volume of 4.3 mL (range, 0. 05-18.6 mL) underwent radiosurgery with a mean marginal dose of 16.2 Gray (Gy) (range, 12-20 Gy). Fourteen patients (93.3%) also received whole brain fractionated radiation therapy. RESULTS: The median survival was 15 months after radiosurgery (range, 1-48 months) and 27 months after their initial diagnosis of cancer. In 4 patients (26. 7%), the primary tumor was discovered later (lung in 3 patients and liver in 1). Three of these four patients died due to progression of their primary tumor. Of the remaining 11 patients, 4 died of progression of extracranial metastases, 2 died of other systemic diseases, and 3 patients died because of progression of brain metastasis. Three patients (20%) were still living between 21-48 months after radiosurgery. The presence of active systemic disease and brain stem location both were associated with a poor outcome (P = 0.004 and 0.04). The actuarial imaging-defined local tumor control rate was 91.3 +/- 5.9% at 4 years. CONCLUSIONS: Radiosurgery was an effective strategy for patients with brain metastases from an unknown primary site. Disease progression outside of the brain was the usual cause for patient death.
PMID: 10964340
ISSN: 0008-543x
CID: 188742
Transplantation of cultured human neuronal cells for patients with stroke
Kondziolka, D; Wechsler, L; Goldstein, S; Meltzer, C; Thulborn, K R; Gebel, J; Jannetta, P; DeCesare, S; Elder, E M; McGrogan, M; Reitman, M A; Bynum, L
Transplantation of cultured neuronal cells is safe in animal models and improves motor and cognitive deficits in rats with stroke. The authors studied the safety and feasibility of human neuronal cellular transplantation in patients with basal ganglia stroke and fixed motor deficits, including 12 patients (aged 44 to 75 years) with an infarct 6 months to 6 years previously (stable for at least 2 months). Serial evaluations (12 to 18 months) showed no adverse cell-related serologic or imaging-defined effects. The total European Stroke Scale score improved in six patients (3 to 10 points), with a mean improvement 2.9 points in all patients (p = 0. 046). Six of 11 PET scans at 6 months showed improved fluorodeoxyglucose uptake at the implant site. Neuronal transplantation is feasible in patients with motor infarction.
PMID: 10953194
ISSN: 0028-3878
CID: 188752
Stereotactic radiosurgery for hemangioblastomas of the brain
Jawahar, A; Kondziolka, D; Garces, Y I; Flickinger, J C; Pollock, B E; Lunsford, L D
OBJECTIVE: To assess the effectiveness of stereotactic radiosurgery in achieving tumor control and improving survival in patients with hemangioblastoma, we evaluated results from patients who were managed at the University of Pittsburgh and the Mayo Clinic. PATIENTS AND METHODS: Twenty-seven patients with 29 hemangioblastomas had stereotactic radiosurgery over a 10 year interval. The mean patient age was 32 years (range, 14-75 years). The tumor volumes varied from 0.36 to 27 ml (mean, 3.2 ml), and the mean tumor margin dose was 16 Gy (range, 11.7-20). Clinical and neuroimaging follow-up was obtained for all patients between 0.5 and 9 years (mean, 4 years) after radiosurgery. RESULTS: At this assessment, 21 patients (79%) were alive and six (21%) had died. The median survival after radiosurgery was 6.5 years (actuarial 5 year survival = 75.1 +/- 11.5%). The median survival from the initial diagnosis was 15 years. Twenty two of 29 evaluable tumors were controlled locally. The two-year actuarial control rate was 84.5 +/- 7.1% and at five years, 75.2 +/- 8.9%. Multivariate testing of factors affecting good outcome indicated that smaller tumor volume and higher radiosurgical dose (> 18 Gy) were significant. CONCLUSION: For small to moderate size hemangioblastomas, multiple or recurrent tumors, and for patients who are not surgical candidates, radiosurgery is a safe and effective option to control disease and improve survival.
PMID: 10949438
ISSN: 0001-6268
CID: 188762