As survival rates have risen for children with malignant primary brain tumors, so has the concern that many survivors have significant permanent cognitive deficits. Cranial irradiation (CRT) has been implicated as the major cause for cognitive dysfunction. To clarify the etiology, incidence, and severity of intellectual compromise in children with brain tumors after CRT, a prospective study was undertaken comparing the neuropsychological outcome in 18 consecutive children with malignant brain tumors treated with CRT to outcome in 14 children harboring brain tumors in similar sites in the nervous system who had not received CRT. Children with cortical or subcortical brain tumors were not eligible for study. Neuropsychological testing was performed after surgery prior to radiotherapy, after radiotherapy, and at 1- and 2-year intervals thereafter. Children who had received CRT had a mean full-scale intelligence quotient (FSIQ) of 105 at diagnosis which fell to 91 by Year 2. Similar declines were noted in their performance intelligence quotient (IQ) and verbal IQ. After CRT, patients demonstrated a statistically significant decline from baseline in FSIQ (p less than 0.02) and verbal IQ (p less than 0.04). Children who had not received CRT did not demonstrate a fall in any cognitive parameter over time. The decline between baseline testing and testing performed at Year 2 in patients who had CRT was inversely correlated with age (p less than 0.02), as younger children demonstrated the greatest loss of intelligence. Children less than 7 years of age at diagnosis had a mean decline in FSIQ of 25 points 2 years posttreatment. No other clinical parameter correlated with the overall IQ or decline in IQ. After CRT, children demonstrated a wide range of dysfunction including deficits in fine motor, visual-motor, and visual-spatial skills and memory difficulties. After CRT, children with brain tumors also demonstrated a fall in a wide range of achievement scores and an increased need, over time, for special help in school. The 2-year results of this study suggest that children with brain tumors treated with CRT are cognitively impaired and that these deficits worsen over time. The younger the child is at the time of treatment, the greater is the likelihood and severity of damage. These children, although not retarded, have a multitude of neurocognitive deficits which detrimentally affects school performance. New treatment strategies are needed for children with malignant brain tumors.
Chiasmatic/hypothalamic gliomas (CHG) of childhood may cause progressive neurological and visual deterioration. Radiotherapy results in at least transient stabilization of tumor growth in most patients but may also have adverse long-term effects, especially in young children. Since 1977, children with progressive CHG under 5 years of age at diagnosis have been treated with combination chemotherapy (actinomycin D and vincristine) without radiotherapy. Twenty-four patients, a median of 1.6 years of age at diagnosis, have been treated and followed for a median of 4.3 years (range, 0.3-10 years). All patients are alive. Nine have developed radiographic or clinical progression, occurring a median of 3 years (range, 2-6.5 years) after initiation of treatment. Fifteen of 24 (62.5%) have remained free of progressive disease and have received no other therapy. Tumor shrinkage was documented in 9 of 24 patients but did not clearly relate to long-term outcome. Full-scale intelligence quotient (IQ) obtained a median of 3.5 years after diagnosis in patients who received only chemotherapy was a mean of 103 (range 84-133). We conclude that chemotherapy can significantly delay the need for radiotherapy in children with CHG and such a delay may be beneficial regarding long-term outcome.
The outcome in 53 children following severe head injury is presented. All children were graded using the Glasgow Coma Scale; 90% made a good recovery or were moderately disabled, and 8% died or were left vegetative. All patients were treated with controlled ventilation and steroids; mannitol, and, if necessary, Nembutal (pentobarbital) were used to maintain the intracranial pressure below 20 torr. With this regimen, only one death occurred due to uncontrollable intracranial hypertension. All patients with a coma scale of 5 or greater recovered well. The worst prognostic sign was the presence of flaccidity: 33% of these patients died or were vegetative. Five of seven patients who were decerebrate or flaccid with bilateral fixed pupils and absent caloric responses made a good recovery or were moderately disabled. The relatively low incidence of mass lesions (23%) and high incidence of diffuse cerebral swelling (34%) suggest a different pathophysiological response of the child's brain to injury, which may play a role in the improved survival of children following severe head injury when compared to adults.
Between 1975 and 1989, 45 children with newly diagnosed intracranial ependymomas were treated at the authors’ institution. Patients were managed with aggressive surgical resection, followed by postoperative CT or MRI scans to evaluate the extent of resection. Most patients received involved-field radiation therapy, however 10 were treated with craniospinal axis irradiation for disseminated disease, or malignant histology. Beginning in 1983, all patients were also treated with adjuvant chemotherapy with 1-(2-chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU), vincristine, and cisplatinum. Four patients died in the immediate postoperative period for an operative mortality of 8.8%. The 5-year progression-free survival for the remaining 41 patients was 36%. Tumor location had little effect on survival, as the 5-year PFS for supratentorial tumors was 26%, compared with 40% for the posterior fossa lesions (ns). Neither histologic degree of malignancy, nor use of adjuvant chemotherapy impacted on survival. The extent of surgical resection, as determined by operative reports and postoperative imaging studies, was a major determinant of outcome , as patients with total or near-total resections experienced a 5-year PFS of 60%, compared with 21% for children with partial resection or biopsy (p < 0.01). It is concluded that the use of adjuvant chemotherapy with CCNU, vincristine , and cisplatinum does not improve progression-free survival in childhood ependymoma, and that the extent of surgical resection is a major determinant of outcome in this disesase.
Although leptomeningeal spread (LMS) of primary CNS tumors in children has been well documented in the literature, it has rarely been reported in children with low-grade gliomas. Between 1975 and 1985, 6 of 162 children (3.7%) with low-grade gliomas treated at Children's Hospital of Philadelphia had LMS. LMS was present at diagnosis of the original tumor in one patient, was the first sign of relapse in one patient, occurred simultaneously with local relapse in two patients, and after local relapse in two patients. Pathology of the original tumor was low-grade astrocytoma in five and low-grade oligodendroglioma in one. Primary tumor site was cervical cord in three, chiasm in one, frontal lobe in one, and cerebellum in one. All of the children with LMS had undergone surgical treatment at the time of diagnosis of the primary tumor; four had total resections at some point in their course. Three of the six patients died; three are still alive after treatment with radiation therapy and/or chemotherapy. The longest survival to date has been 3 1/2 years after diagnosis of LMS. We compared clinical characteristics of these six patients with 131 children with low-grade tumors without dissemination treated at our institution during the same time period. LMS, although relatively infrequent, does occur in children with low-grade gliomas, especially spinal cord tumors. LMS may occur at any time during illness and diagnosis may be difficult unless LMS is suspected. Treatment, at times, results in clinical improvement and considerable disease control.
We have prepared karyotypes from 22 primitive neuroectodermal tumors (PNETs) from pediatric patients ranging in age from 10 months to 16 years. Twenty-one cases were newly diagnosed, primary, posterior fossa tumors. One case was a recurrent tumor in a patient previously treated with radiation. Cytogenetic results were obtained from direct preparations and/or short-term (1-10 day) culture. Three tumors had apparently normal karyotypes. Nineteen tumors demonstrated numerical and/or structural abnormalities. The most frequent structural chromosomal changes were deletions and nonreciprocal translocations. Four tumors contained double minutes. Several chromosomes appear to be nonrandomly involved in PNETs. These include chromosomes 5, 6, 11, 16, 17, and a sex chromosome. The most consistent change, however, was an i(17q), present in one-third (8/22) of the cases. Strikingly, in three of these eight tumors, the i(17q) was the only structural abnormality observed. An i(17q) is not specific for pediatric PNETs, as it is also seen in leukemias and other solid tumors. However, in PNETs it may be a primary change related to tumor development and/or progression. Clinically, there was no correlation of the cytogenetic findings with histologic features of the tumors, size of the tumor, extent of metastasis, or surgical resection.
Cognitive function and school achievement were studied prospectively over 3 to 4 years in 19 children treated for brain tumors with whole-brain radiotherapy; 14 of 19 also received adjuvant chemotherapy. For the group as a whole, mean IQ fell from a baseline of 104 to 92 at follow-up (p < 0.01). Age was inversely correlated with change in IQ over time (r = 0.71; p < 0.001). Children younger than 7 years at diagnosis had a mean IQ loss of 27 points, while children over 7 years at diagnosis showed no significant decrease in IQ. Decline in IQ occurred between baseline and year 2 of follow-up; none could be documented between years 2 and 4. All children younger than 7 years at diagnosis were receiving special education at follow-up; 50% of the children over 7 years at diagnosis were receiving supplemental educational services.
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