Second malignancies in young children with primary brain tumors following treatment with prolonged postoperative chemotherapy and delayed irradiation: a Pediatric Oncology Group study

Clinical Characteristics, Treatment, and Survival Outcome of Ependymoma in Infants

BACKGROUND

Treatment modalities of ependymoma in infants remain controversial. Postoperative adjuvant radiotherapy could prolong overall survival but has the potential to affect nervous system development in infants. The role of adjuvant chemotherapy in prolonging overall survival for infants with ependymoma is still unclear. Therefore we designed this study to explore the effect of treatment modalities on survival time of infants with ependymoma.

METHODS

We studied 72 infants with ependymoma from the Surveillance, Epidemiology, and End Results database in this retrospective analysis. Univariate and multivariate Cox proportional hazard models were adopted to determine hazard ratios and compare overall survival.

RESULTS

Among 72 infants with ependymoma, 35 were male (48.6%) and 37 were female (51.4%). The 5-year overall survival of all patients was 67%. Forty-six infants (63.9%) received gross total resection, 20 (27.8%) received subtotal resection, and 6 (8.3%) did not receive surgical resection or only autopsy. Twenty-one infants (29.2%) received radiotherapy, and 45 (62.5%) received chemotherapy. Multivariate analysis revealed that patients accepted surgical resection (No vs. gross total resection, P < 0.001; No vs. subtotal resection, P = 0.026) and chemotherapy (No vs. Yes, P = 0.024) are the independent prognostic factors for overall survival.

CONCLUSIONS

Treatment modality is associated with survival time in infants with ependymoma. The extent of resection and chemotherapy were independent prognostic factors for infants with ependymoma.

Medulloblastoma and esthesioneuroblastoma in a pediatric patient: a co-incidence or result of common genetic anomaly

INTRODUCTION

Medulloblastoma is the commonest embryonal brain tumor in children. Their association with other neuroepithelial brain tumors is less known. Here we discuss a pediatric patient who developed esthesioneuroblastoma 2 years after treatment of medulloblastoma.

MATERIALS AND METHODS

A 12-year-old male presented with features of raised intracranial hypertension, and radiology showed posterior fossa midline lesion. The tumor was excised, and biopsy revealed medulloblastoma (non-WNT non-SHH type). He received chemoradiation. Two years later he presented with loss of vision, and radiology revealed a sinonasal mass with subfrontal extension. Subtotal resection was done, and biopsy showed blue round cell tumor in favor of esthesioneuroblastoma.

RESULT

Parents refused further treatment and the patient died 8months after the second surgery.

CONCLUSION

Mixed embryonal and neuroepithelial brain tumors are rare. These may have a common genetic abnormality. They have an aggressive course and bear a poor prognosis.

Second Malignant Neoplasms in Children and Adolescents Treated for Blood Malignancies and Solid Tumors: A Single-Center Experience of 15 Years

Context: The occurrence of second malignancies is not rare in children treated for primary tumors. Objectives: The aim of this study was to investigate the occurrence and the outcomes of second malignancies in children and adolescents from a large tertiary pediatric hematology-oncology center. Materials and Methods: A retrospective study was performed looking into the characteristics and outcomes of second malignant neoplasms in children and adolescents treated for primary malignancies in a single center over a 15-year period. Results: Among 270 children and adolescents treated for hematological malignancies and solid tumors from 2000 to 2015, five cases of second malignancy were diagnosed including cancer of the parotid gland, renal cell carcinoma, Hodgkin’s lymphoma, thyroid carcinoma, and transitional liver cell carcinoma in patients previously treated for acute myeloid leukemia, glioblastoma multiforme, B-acute lymphoblastic leukemia, Langerhans cell histiocytosis, and medulloblastoma, respectively. Primary malignancies were treated with chemotherapy in all cases and four out of five patients had also received radiotherapy. Mean age at diagnosis of second malignancy was 10 years and 4 months. Overall survival after diagnosis of second malignancy was 80% at 12 months and 75% at 5 years. Conclusions: Close surveillance and long-term follow-up are mandatory for the identification of late effects in children treated for malignancy.

Neurological Complications of Childhood Cancer

Though the treatment of pediatric cancers has come a long way, acute and chronic effects of cancer are still affecting the life of many children. These effects may be caused not only by the malignancy itself but also by the interventions used for the purpose of treatment. This article focuses primarily on the indirect effects of pediatric cancers and their treatment on the central and peripheral nervous system. Chemotherapy, radiation, and stem cell transplantation cause an immune-compromised state and place the patient at risk of infection, the leading cause of mortality in pediatric cancer. The underlying cancer and the treatments also cause neurovascular changes that may lead to neurological sequelae immediately or many years in the future. Chemotherapy and radiation have both immediate and long-term neurotoxic effects on the central and peripheral nervous system. Cancers may also trigger an immune response that damages nervous system components, leading to altered mental status, seizures, abnormal movements, and even psychosis. Knowledge of these effects can help the practitioner be more vigilant for the signs and symptoms of potential neurological complications during the management of pediatric cancers.

Myelodysplastic Syndrome Occurring in a Patient with Gorlin Syndrome

We report a case of myelodysplastic syndrome (MDS) occurring in an African American boy with Gorlin syndrome with a novel PTCH1 mutation. Before developing MDS, the patient had been treated with chemotherapy and radiation for a medulloblastoma. He received a bone marrow transplant for the MDS and eventually died of treatment complications. Secondary hematologic malignancies are a known complication of certain chemotherapeutics, although whether a patient with Gorlin syndrome has a greater propensity for the development of such malignancies is unclear.

Short-term mortality following surgical procedures for the diagnosis of pediatric brain tumors: outcome analysis in 5533 children from SEER, 2004-2011

OBJECT Thirty-day mortality is increasingly a reference metric regarding surgical outcomes. Recent data estimate a 30-day mortality rate of 1.4-2.7% after craniotomy for tumors in children. No detailed analysis of short-term mortality following a diagnostic neurosurgical procedure (e.g., resection or tissue biopsy) for tumor in the US pediatric population has been conducted. METHODS The Surveillance, Epidemiology and End Results (SEER) data sets identified patients ≤ 21 years who underwent a diagnostic neurosurgical procedure for primary intracranial tumor from 2004 to 2011. One- and two-month mortality was estimated. Standard statistical methods estimated associations between independent variables and mortality. RESULTS A total of 5533 patients met criteria for inclusion. Death occurred within the calendar month of surgery in 64 patients (1.16%) and by the conclusion of the calendar month following surgery in 95 patients (1.72%). Within the first calendar month, patients < 1 year of age (n = 318) had a risk of death of 5.66%, while those from 1 to 21 years (n = 5215) had a risk of 0.88% (p < 0.0001). By the end of the calendar month following surgery, patients < 1 year (n = 318) had a risk of death of 7.23%, while those from 1 to 21 years (n = 5215) had a risk of 1.38% (p < 0.0001). Children < 1 year at diagnosis were more likely to harbor a high-grade lesion than older children (OR 1.9, 95% CI 1.5-2.4). CONCLUSIONS In the SEER data sets, the risk of death within 30 days of a diagnostic neurosurgical procedure for a primary pediatric brain tumor is between 1.16% and 1.72%, consistent with contemporary data from European populations. The risk of mortality in infants is considerably higher, between 5.66% and 7.23%, and they harbor more aggressive lesions.

A prognostic cytogenetic scoring system to guide the adjuvant management of patients with atypical meningioma

BACKGROUND

The appropriate use of adjuvant therapy in patients with gross totally resected atypical meningioma requires an accurate assessment of recurrence risk. We sought to determine whether cytogenetic/genetic characterization may facilitate better estimation of the probability of recurrence.

METHODS

We first analyzed our clinical database, including high-resolution DNA copy number data, to identify 11 common copy number aberrations in a pilot cohort of meningiomas of all grades. We summed these aberrations to devise a cytogenetic abnormality score (CAS) and determined the CAS from archived tissue of a separate cohort of 32 patients with gross totally resected atypical meningioma managed with surgery alone. Propensity score adjusted Cox regression was used to determine whether the CAS was predictive of recurrence.

RESULTS

An association between higher CAS and higher grade was noted in our pilot cohort with heterogeneity among atypical tumors. Among the 32 patients who underwent gross total resection of an atypical meningioma, the CAS was not significantly associated with age, gender, performance status, or tumor size/location but was associated with the risk of recurrence on univariable analysis (hazard ratio per aberration = 1.52; 95% CI = 1.08-2.14; P = .02). After adjustment, the impact of the dichotomized number of copy aberrations remained significantly associated with recurrence risk (hazard ratio = 4.47; 95% CI = 1.01-19.87; P = .05).

CONCLUSIONS

The number of copy number aberrations is strongly associated with recurrence risk in patients with atypical meningioma following gross total resection and may inform the appropriate use of adjuvant radiation therapy in these patients or be useful for stratification in clinical trials.

Hodgkin's lymphoma in an adolescent previously treated with surgical resection of third ventricular juvenile pilocytic astrocytoma

We present a case of a 19-year-old man with cervical lymphadenopathy diagnosed with classical Hodgkin's lymphoma 9 years after gross total resection of a third ventricular juvenile pilocytic astrocytoma (JPA). Chemotherapy or radiation therapy was not a part of his initial JPA treatment. Owing to his two primary neoplasms, genetic testing was performed, which revealed heterozygous polymorphisms of unknown significance for CDH1 and p53, and negative BRAF mutation analysis. Our case reports development of classical Hodgkin's lymphoma after JPA in the absence of antecedent radiation and/or chemotherapy, and identifiable genetic predisposition.

Neurosurgical treatment of brain tumors in the first 6 months of life: long-term follow-up of a single consecutive institutional series of 30 patients

OBJECT

The aim of this study is to delineate the long-term results for patients going through surgery for pediatric brain tumors in the first 6 months of life.

METHODS

Thirty consecutive children (1-182 days old) who underwent primary resection for a brain tumor during the years 1973-2012 were included in this retrospective study on surgical morbidity, mortality rate, academic achievement, and/or work participation. Gross motor function and activities of daily life were scored according to the Barthel index.

RESULTS

Of the 30 patients, 11 children had surgery in the first 3 months of life (1 to 88 days) and 19 were aged 3 to 6 months (94-182 days) at the time of surgery. The male/female ratio was 1.0 (15/15). No patients were lost to follow-up. Two patients died in the postoperative period (30 days). Another eight patients died during the follow-up. Twenty patients are alive, with follow-up times from 2 to 38 years, median 13 years. Among the 28 children who survived the primary resection, eight underwent repeat surgery from 6 months to 5 years after the first operation. Two children were operated three times, and one of these also a fourth time. Gross total resection (GTR) was achieved in 20 of the primary resections, subtotal resection (STR) in 6, and in the last 4, only a biopsy or a partial resection was performed. Nine children received adjuvant chemotherapy and three of these also radiotherapy (in the years 1979-1987). Among the 20 survivors, the Barthel index is normal (100) in 18 patients, 40 in one, and 20 in the last one. Eight tumors were located to the posterior fossa, and 22 were supratentorial. Eighteen tumors were histologically low-grade (WHO grade I-II), most of these were plexus papillomas (7) or astrocytomas (7), and 12 were high-grade (WHO grade III-IV); PNET/medulloblastomas (6), ependymoma (2), glioblastoma (2), teratoma, and plexus carcinoma.

CONCLUSION

Infants with brain tumors may clearly benefit from surgical resection with favorable results even for prolonged periods of time. Ten children died, two of them with prolonged survival for 9 and 29 years. Among the 20 survivors, a stable very long-term result appears obtainable in 18 also when it comes to quality of life. Four of the survivors have been treated for highly malignant tumors with a follow-up of 5, 11, 14, and 26 years. One of our infant patients treated for GBM in 1982, lived for 29 years, however, with a progressive decline in the quality of life probably due to postoperative whole-brain radiation.

miR-let-7f-1 regulates SPARC mediated cisplatin resistance in medulloblastoma cells

Our previous studies indicate that Secreted Protein Acidic and Rich in Cysteine (SPARC) expression suppressed medulloblastoma tumor growth in vitro and in vivo. Here we sought to determine the effect of SPARC expression in medulloblastoma cells to chemotherapeutic agents. In this study, we show that SPARC expression induces cisplatin resistance in medulloblastoma cells. We also demonstrate that the autophagy was involved in SPARC expression mediated resistance to cisplatin. Suppression of autophagy by either autophagy inhibitor, 3-methyladenosine (3MA) or Atg5 siRNA enhanced cisplatin sensitivity in SPARC expressed cells. Further, SPARC expression suppressed miR-let-7f-1 expression which resulted in disrupted repression of High Mobility Group Box 1 (HMGB1), a critical regulator of autophagy. We also show that HMGB1 is a direct target of miR-let-7f-1 and forced expression of HMGB1 cDNA enhanced cisplatin sensitivity in SPARC expressed cells. In summary, our results suggest that SPARC modulates cisplatin resistance by modulating the Let-7f-1 miRNA/HMGB1 axis in medulloblastoma cells.

Second brain tumors following central nervous system radiotherapy in childhood

OBJECTIVE

The second tumour (ST) occurrence is a relatively uncommon late complication of radiotherapy but represents one of the most significant issues, especially in childhood oncology. We describe our experience with patients who developed second brain neoplasm following cranial irradiation in childhood.

METHODS

We identified nine patients who received radiotherapy owing to central nervous system tumour in childhood and subsequently developed the second brain tumour. The full clinical and radiological documentation and histopathological reports were reviewed. Risk factors such as age at irradiation, latency period to ST diagnosis, radiotherapy doses and volumes and other therapy methods were evaluated. We correlated the ST location with the three levels of irradiation dose (high, >40 Gy; medium, 25-40 Gy; and low <25 Gy).

RESULTS

Five meningiomas and four gliomas occurred as the ST after the mean time of 11.7 years after radiotherapy. The average age of children during irradiation was 4.6 years. The shorter latency time to the ST induction was found in children treated with chemotherapy (9 years vs 17.2 years). Seven STs developed in the area of high and moderate dose (>25 Gy), only two low-grade gliomas appeared in the low-dose region.

CONCLUSION

Our data suggest that the STs usually develop in the brain tissues that received doses >25 Gy in patients irradiated at a young age.

ADVANCES IN KNOWLEDGE

The low-dose volume seems not to be so significant for second brain neoplasm induction. Therefore, the modern intensity-modulated radiotherapy technique could be safely applied in paediatric patients.

[Endocrinological outcome in children and adolescents survivors of central nervous system tumours after a 5 year follow-up]

INTRODUCTION

Given the successful increase in survival rates with the current treatments for central nervous system tumours (CNST), survivors are at high risk for late adverse effects.

PURPOSE

To evaluate the endocrine sequelae in children with CNST according to the type of tumour and treatment received.

PATIENTS AND METHODS

A retrospective review of the clinical features, auxology, hormone determinations and imaging findings of 38 patients (36.8% females, 63.2% males) with CNST, with a minimum of 5 years follow-up, was performed.

RESULTS

The mean age at diagnosis was 5.34 ± 3.07 years, with 76.3% of the patients having at least one hormone deficiency, of which growth hormone (GH) (73.7% of all patients) was the most prevalent, followed by thyrotropin (TSH) (68.4%), corticotropin (31.6%), antidiuretic hormone (28.9%), and gonadotropin (LH/FSH) (21.1%) deficiency. Precocious puberty was found in 21.1% of patients. After 5 years of follow-up, 28.9% were obese. Craniopharyngioma had more hormone deficiencies, obesity and recurrence rates. The most frequently administered treatment was surgery + chemotherapy + radiotherapy, in 47.4% of the patients. Mean final height (20 patients) was -1.2 1.6 SDS, with a mean difference of -0.53 SDS regarding their target height.

CONCLUSIONS

1) The type of tumour and treatment received influence the endocrinological sequelae. 2) The most frequent hormone deficiencies in all types of CNST, regardless of the treatment received, were GH and TSH. 3) Early diagnosis and prompt intervention of endocrine dysfunction can reduce the morbidity and improve quality of life over the long term.

Natural history and role of radiation in patients with supratentorial and infratentorial WHO grade II ependymomas: results from a population-based study

Patients with World Health Organization (WHO) grade II supratentorial ependymomas are commonly observed after gross total resection (GTR), although supporting data are limited. We sought to characterize the natural history of such tumors. We used the Surveillance, Epidemiology, and End Results program to identify 112 patients ages 0-77 diagnosed with WHO grade II ependymomas between 1988 and 2007, of whom 63 (56 %) and 49 (44 %) had supratentorial and infratentorial primaries, respectively. Inclusion criteria were strict to ensure patient homogeneity. Of 33 patients with supratentorial tumors after GTR, 18 (55 %) received adjuvant radiation therapy and 15 (45 %) did not. Ependymoma-specific mortality (ESM) was the primary endpoint. With a median follow up of 4.5 years, only 1 of 33 patients with supratentorial ependymoma died of their disease after GTR; the 5-year estimate of ESM in this population was 3.3 % (95 % CI 0.2-14.8 %). Among patients with infratentorial ependymomas after GTR, the 5-year estimate of ESM was 8.7 % (95 % CI 1.4-24.6 %). In patients with subtotally resected tumors, 5-year estimates of ESM in patients with supratentorial and infratentorial primaries were 20.1 % (95 % CI 8.0-36.2 %) and 12.3 % (95 % CI 2.9-28.8 %), respectively. Among the whole cohort, on both univariable and multivariable regression, extent of resection was predictive of ESM, while tumor location and use of radiation were not. After GTR, patients with WHO grade II supratentorial ependymomas have a very favorable natural history with low associated cancer-specific mortality. Observation, with radiation reserved as a salvage option, may be a reasonable postoperative strategy in this population.

Brain tumors of infancy--an institutional experience and review of the literature

INTRODUCTION

Brain tumors in infants are rare and form a distinct subgroup of pediatric brain tumors. These tumors differ from tumors in older children with respect to histology and management and tend to have a poorer outcome.

METHODS

We analyzed 31 consecutive cases of brain tumors in infancy managed in our institute in the last 15 years and reviewed the published literature since 1990.

RESULTS

Only 2 of these patients had congenital tumors. Choroid plexus tumors were the most common histological subtype, followed by medulloblastoma; 62% of patients underwent a gross total or near-total excision of the tumor with 1 perioperative mortality; 68% of patients had a good outcome.

CONCLUSION

Choroid plexus tumors were the most common histological type. Safe resection should be the goal of surgery. Surgeries for tumors in this age group were associated with lower rates of total excision and higher morbidity. Low-grade lesions as expected are associated with longer survival; however, long-term outcomes are far from satisfactory.

Clinical heterogeneity of desmoplastic infantile ganglioglioma: a case series and literature review

Desmoplastic infantile gangliogliomas (DIG) are intracranial tumors described in 1987 as benign lesions of infancy. A literature review and the clinical course of 3 patients reported herein suggest that the initial description should be amended. Nearly 23% of DIG cases occur in children older than 24 months. Approximately 40% of DIG cases require additional medical, radiation, and/or further surgical intervention, and 15% of infants and children develop leptomeningeal spread or die from DIG. Such adverse outcomes, combined with the recognition that DIG represents a heterogeneous disease, underscore the need for an expanded biological and molecular investigation.

Medulloblastoma/Primitive neuroectodermal tumor and germ cell tumors: the uncommon but potentially curable primary brain tumors

This article presents an overview of medulloblastomas, central nervous system primitive neuroectodermal tumors, and germ cell tumors for the practicing oncologist. Discussion includes the definition of these tumors, histopathologic findings, molecular and genetic characteristics, prognoses, and evolution of treatment.

Treatment-related myelodysplasia in patients with primary brain tumors

Treatment-related myelodysplastic syndrome (t-MDS) and treatment-related acute myelogenous leukemia (t-AML) represent rare secondary events in patients with primary tumors of the nervous system and predominantly affect those treated with alkylating agents or topoisomerase II inhibitors. Temozolomide has become the standard chemotherapeutic agent for malignant gliomas. The emergence of this alkylating agent with little acute toxicity or cumulative myelosuppression has led to off-label protracted chemotherapy for many patients with malignant and even low-grade infiltrative gliomas, raising concern for increased risk of t-MDS/t-AML in the few long-term survivors. On the basis of an extensive literature search, we provide a discussion of epidemiology, pathogenesis, clinical presentation, diagnosis, and therapy of these disorders. t-MDS/t-AML remain rare complications of chemotherapy in patients with primary brain tumors, and the vast majority of patients die of their primary neoplasm. Prospective randomized studies with long-term follow-up are required to accurately assess the risk of t-MDS/t-AML; however, unless survival in the most common gliomas substantially increases, t-MDS/t-AML incidence will likely remain low in this patient population.

Medulloblastoma in infants: the critical issues of the dilemma

Brain tumours have now become the leading cause of cancer death in children under the age of 18 [...]

Survival following treatment for intracranial ependymoma: a review

The actual definition of survival rates following treatment for intracranial ependymomas is substantially influenced by the strict interaction among different factors. Age, location, and grading, for example, act together, negatively influencing the prognosis of younger children also invariably influenced by the more demanding role of surgery and the still limited use, up to recently, of radiotherapy under 3 years of age. In the same direction, the worse prognosis in most series of infratentorial ependymomas if compared with their supratentorial counterpart should be cautiously considered, midline posterior fossa tumors having completely different implications from those originating or predominantly extending to the cerebellopontine angle, where the extent of surgery has more invariably to compare with patients' quality of life. New radiotherapic regimens and their applications in infancy are promisingly demonstrating an improvement of present prognostic criteria, with the limit of still insufficient information on their long-term secondary effects. Similarly, molecular biology research studies, though still in their preclinical stage, are prompting to change the concept of a substantially chemoresistant tumor helping to stratify these lesions with the final aim of targeted pharmacological therapies. In the present review paper, we investigated singularly the role that the more commonly considered prognostic factors have had in the literature on survival of children affected by intracranial ependymomas, trying to elucidate their cumulative effect on the actual knowledge of this issue.

Surgical considerations in fourth ventricular ependymoma with the transcerebellomedullary fissure approach in focus

INTRODUCTION

Within the existing consensus for the best management of pediatric infratentorial ependymomas (PIE), surgery is the most important stage, where complete removal should be the perfect aim, before complementing it with chemo- or radiotherapy. That, however, remains a challenge even for the most skillful surgeons because of the vicinity of important brainstem and cranial nerve structures involved and is particularly difficult in lateral extensions.

MATERIALS AND METHODS

The paper analyzes the current trends of PIE treatment with emphasis on resection difficulties created by lateral extensions. Anatomical analysis and clinical application of the cerebellomedullary fissure dissection has created specific approaches, providing safe route to the lateral recess and cerebellopontine area by dividing safely tenia and tonsils and biventer lobes retraction.

DISCUSSION AND CONCLUSION

Bilateral and unilateral approaches have been developed. This approach prevents the damage of transvermian access and the resulting cerebellar mutism in some cases. Indications, technique and benefits of transcerebellomedullary fissure types of approaches are discussed.

[Childhood and adult medulloblastoma: what difference?]

Medulloblastoma is the most frequent childhood brain tumor (30%) but account only for less than 1% of adult brain tumor. The overall survival increased significantly during the last two decades with 80% of long survivors at five years whatever the stage. Most children who survive have significant neurocognitive sequelae. All children are included in national and international prospective studies which propose risk-adapted radiation therapy and chemotherapy after surgery. Quality control of radiotherapy leads to reduce significantly the risk of recurrence and has an impact on survival. Risks of late toxicity should be taken into account at the time of the treatment. Due to the rarety in adult population, no prospective studies and few data about late effects are available. Adult medulloblastoma is a therapeutic challenge and their therapeutic strategies are similar to pediatric protocols. In order to improve the understanding of adult disease and to homogenize the treatment, National Cancer Institute (INCa) stimulated the creation of web conference to discuss each case prospectively and to propose a protocol of treatment. A better comprehension of biological processes and abnormal cellular signalling pathways involved in medulloblastoma pathogenesis had led toward a new prognostic classification to adapt the therapeutic strategy and gives hope of new therapeutic tools.

Long-term outcomes among adult survivors of childhood central nervous system malignancies in the Childhood Cancer Survivor Study

BACKGROUND

Adult survivors of childhood central nervous system (CNS) malignancies are at high risk for long-term morbidity and late mortality. However, patterns of late mortality, the long-term risks of subsequent neoplasms and debilitating medical conditions, and sociodemographic outcomes have not been comprehensively characterized for individual diagnostic and treatment groups.

METHODS

We collected information on treatment, mortality, chronic medical conditions, and neurocognitive functioning of adult 5-year survivors of CNS malignancies diagnosed between 1970 and 1986 within the Childhood Cancer Survivor Study. Using competing risk framework, we calculated cumulative mortality according to cause of death and cumulative incidence of subsequent neoplasms according to exposure and dose of cranial radiation therapy (RT). Neurocognitive impairment and socioeconomic outcomes were assessed with respect to dose of CNS radiotherapy to specific brain regions. Cumulative incidence of chronic medical conditions was compared between survivors and siblings using Cox regression models. All tests of statistical significance were two-sided.

RESULTS

Among all eligible 5-year survivors (n = 2821), cumulative late mortality at 30 years was 25.8% (95% confidence interval [CI] = 23.4% to 28.3%), due primarily to recurrence and/or progression of primary disease. Patients who received cranial RT of 50 Gy or more (n = 813) had a cumulative incidence of a subsequent neoplasm within the CNS of 7.1% (95% CI = 4.5% to 9.6%) at 25 years from diagnosis compared with 1.0% (95% CI = 0% to 2.3%) for patients who had no RT. Survivors had higher risk than siblings of developing new endocrine, neurological, or sensory complications 5 or more years after diagnosis. Neurocognitive impairment was high and proportional to radiation dose for specific tumor types. There was a dose-dependent association between RT to the frontal and/or temporal lobes and lower rates of employment, and marriage.

CONCLUSIONS

Survivors of childhood CNS malignancies are at high risk for late mortality and for developing subsequent neoplasms and chronic medical conditions. Care providers should be informed of these risks so they can provide risk-directed care and develop screening guidelines.

Risk of second tumor in intracranial germinoma patients treated with radiation therapy: the Johns Hopkins experience

BACKGROUND

We reviewed the risk of second tumor (ST), both malignant and benign, in germinoma survivors followed at the Johns Hopkins Hospital (JHH).

METHODS

Between 1977 and 2002, 27 patients with intracranial germinoma were treated with radiation therapy (RT). In the presence of competing events, a cumulative incidence function of ST was estimated using the minimal time interval from the date of diagnosis to the date of ST, date of death, or date of last follow-up.

RESULTS

Five patients (18%) developed a ST of which 4 (15%) were malignant. One developed a benign falcine meningioma. The cumulative incidence of ST was 9% at 11 years (95% CI, 0-22%).

CONCLUSIONS

The relative contributions of RT and patient susceptibility to a ST cannot be determined but suggests the need for long-term surveillance, including testicular self-exams in male germinoma survivors. Current trials of chemotherapy and reduced RT dose and volume offer the prospect of a lower risk of treatment-induced ST.

Treatment-related myelodysplastic syndrome after temozolomide use in a child: first report

Temozolomide is an effective alkylating agent that is increasingly used for the treatment of pediatric brain tumors. Secondary, or treatment-related, myelodysplasia is a life-threatening complication of alkylating chemotherapy and has been reported in children with brain tumors after treatments other than temozolomide. We describe for the first time a case of temozolomide-related myelodysplasia in a child.

Pediatric medulloblastoma: toxicity of current treatment and potential role of protontherapy

Post-operative craniospinal irradiation and systemic chemotherapy are both necessary in the treatment of pediatric medulloblastoma. Late toxicity is a major problem in long term survivors and significantly affects their quality of life. We have systematically reviewed the literature to examine data on late toxicity, specifically focusing on: endocrine function, growth and bone development, neurocognitive development, second cancers, ototoxicity, gynecological toxicity and health of the offspring, cardiac toxicity and pulmonary toxicity. In this paper, we describe qualitatively the kind of detected side effects and, whenever possible, try to assess their incidence and the relative role of craniospinal irradiation (as opposed to other treatments and to the disease itself) in producing them. Subsequently we examine the possible approach to reduce unwanted effects from craniospinal irradiation to target and non-target tissues and we consider briefly the role of hyperfractionation, tomotherapy and IMRT. We describe the characteristics of protontherapy and its potential for non-target tissues toxicity reduction reviewing the existing physical and dosimetric studies and the (still very limited) clinical experiences. Finally we propose intensity modulated spot scanning protontherapy with multiportal simultaneous optimization (IMPT) as a possible tool for dose distribution optimization within different areas of CNS and potential reduction of target tissues toxicity.

Role of the cerebellum in the neurocognitive sequelae of treatment of tumours of the posterior fossa: an update

The lengthened survival of patients with tumours of the posterior fossa has brought awareness of the neurocognitive deficits present in this patient population. In the past, these deficits were thought to be caused by radiotherapy damaging supratentorial structures known to be responsible for cognitive processing. This notion led to the development of new treatment protocols to restrict damage to supratentorial regions by decreasing the radiation dose and the irradiated volume. However, these treatment protocols have only resulted in marginal improvements, sometimes at the expense of long-term survival. Moreover, the current published work reports that non-irradiated patients with tumours of the posterior fossa exhibit similar cognitive impairments to irradiated patients. The growth and treatment of tumours of the posterior fossa also damage infratentorial structures, including the cerebellum. Findings from anatomical, clinical, and neuroimaging studies support a role for the cerebellum in cognitive functions similar to those impaired in patients with a tumour of the posterior fossa. Despite these findings, research focused on the treatment of these patients and on decreasing their cognitive impairments either ignores that the cerebellum has been implicated in non-motor functions or argues against the possibility that damage to the cerebellum might result in cognitive sequelae. Future studies need to address the possibility that the cognitive impairments of patients with tumours of the posterior fossa might be determined by a combination of factors, including damage to the cerebellum. Recognition of the important cognitive contributions of the cerebellum might lead to improved cognitive outcome and quality of life for this patient population.

Pilocytic astrocytoma developing at the site of a previously treated medulloblastoma in a child

BACKGROUND

After the achieved high cure rates, the survivors of medulloblastoma have come to face other complications associated with treatment regimes. One of these complications is secondary malignant neoplasm (SMN), which is rare but generally fatal.

CASE HISTORY

We report a case of an 8-year-old girl in whom a pilocytic astrocytoma developed at the site of previously excised medulloblastoma 26 months earlier. The patient had then received postoperative radiotherapy and chemotherapy for the treatment of medulloblastoma. Twenty-five months after the cessation of treatment, she had no complaint and physical examination was unremarkable, but a mass in the operation region was detected. Surgical excision of the secondary pilocytic astrocytoma was performed with a good clinical recovery without any evidence of residue or recurrence at 9-month follow-up.

CONCLUSION

Clinicians must be vigilant for the risk of expected SMNs. Rigorous and prolonged follow-up of patients with central nervous system (CNS) tumors is warrant.

Primary postoperative chemotherapy without radiotherapy for intracranial ependymoma in children: the UKCCSG/SIOP prospective study

BACKGROUND

Over half of childhood intracranial ependymomas occur in children younger than 5 years. As an adjuvant treatment, radiotherapy can be effective, but has the potential to damage the child's developing nervous system at a crucial time-with a resultant reduction in IQ and cognitive impairment, endocrinopathy, and risk of second malignancy. We aimed to assess the role of a primary chemotherapy strategy in avoiding or delaying radiotherapy in children younger than 3 years with intracranial ependymoma.

METHODS

Between December, 1992, and April, 2003, we enrolled 89 children with ependymoma who were aged 3 years or younger at diagnosis, of whom nine had metastatic disease on pre-operative imaging. After maximal surgical resection, children received alternating blocks of myelosuppressive and non-myelosuppressive chemotherapy every 14 days for an intended duration of 1 year. Radiotherapy was withheld unless local imaging (ie, from the child's treatment centre) showed progressive disease.

FINDINGS

50 of the 80 patients with non-metastatic disease progressed, 34 of whom were irradiated for progression. The 5-year cumulative incidence of freedom from radiotherapy for the 80 non-metastatic patients was 42% (95% CI 32-53). With a median follow-up of 6 years (range 1.5-11.3), overall survival for the non-metastatic patients at 3 years was 79.3% (95% CI 68.5-86.8) and at 5 years 63.4% (51.2-73.4). The corresponding values for event-free survival were 47.6% (36.2-58.1) and 41.8% (30.7-52.6). There was no significant difference in event-free or overall survival between complete and incomplete surgical resection, nor did survival differ according to histological grade, age at diagnosis, or site of disease. In 47 of 59 (80%) patients who progressed, relapse resulted from local control only. The median time to progression for the 59 patients who progressed was 1.6 years (range 0.1-10.2 years). The median age at irradiation of the whole group was 3.6 years (range 1.5-11.9). For the 80 non-metastatic patients, the 23 who achieved the highest relative dose intensity of chemotherapy had the highest post-chemotherapy 5-year overall survival of 76% (95% CI 46.6-91.2), compared with 52% (33.3-68.1) for the 32 patients who achieved the lowest relative dose intensity of chemotherapy.

INTERPRETATION

This protocol avoided or delayed radiotherapy in a substantial proportion of children younger than 3 years without compromising survival. These results suggest, therefore, that primary chemotherapy strategies have an important role in the treatment of very young children with intracranial ependymoma.

Secondary glioblastoma multiforme after treatment for primary choroid plexus carcinoma in childhood

A 15-year-old boy was diagnosed with choroid plexus carcinoma (CPC) of the right lateral ventricle. His metastatic work-up was negative. After complete macroscopic resection of the tumor, the patient was treated with chemotherapy consisting of vincristine, cisplatin, etoposide, and carboplatin, followed by radiotherapy for a total dose of 34.2 Gy on the whole craniospinal axis plus a boost of 19.8 Gy at the tumor region. The patient remained in complete clinical and radiologic remission over the next 5 years when a secondary malignant tumor, glioblastoma multiforme, a rare complication of the treatment of CPC, was diagnosed. This case reflects the necessity of thorough follow-up in long-term survivors of CPC.

Camptothecin and podophyllotoxin derivatives: inhibitors of topoisomerase I and II - mechanisms of action, pharmacokinetics and toxicity profile

Camptothecins represent an established class of effective agents that selectively target topoisomerase I by trapping the catalytic intermediate of the topoisomerase I-DNA reaction, the cleavage complex. The water-soluble salt camptothecin-sodium - introduced in early trials in the 1960s - was highly toxic in animals, whereas the semisynthetic derivatives irinotecan and topotecan did not cause haemorrhagic cystitis because of their higher physicochemical stability and solubility at lower pH values. Myelosuppression, neutropenia and, to a lesser extent, thrombocytopenia are dose-limiting toxic effects of topotecan. In contrast to the structurally-related topotecan, irinotecan is a prodrug which has to be converted to SN-38, its active form. SN-38 is inactivated by conjugation, thus patients with Gilbert's syndrome and other forms of genetic glucuronidation deficiency are at an increased risk of irinotecan-induced adverse effects, such as neutropenia and diarrhoea. The cytotoxic mechanism of podophyllotoxin is the inhibition of topoisomerase II. Common adverse effects of etoposide include dose-limiting myelosuppression. Hypersensitivity reactions are more common with etoposide and teniposide than with etoposide phosphate because the formulations of the former contain sensitising solubilisers. Leukopenia and thrombocytopenia occur in 65% and 80%, respectively, of patients after administration of conventional doses of teniposide. Anorexia, vomiting and diarrhoea are generally of mild severity after administration of conventional doses of topoisomerase II inhibitors. Clinical pharmacokinetic studies have revealed substantial interindividual variabilities regarding the area under the concentration-time curve values and steady-state concentrations for all drugs reviewed in this article. Irinotecan, etoposide and teniposide are degraded via complex metabolic pathways. In contrast, topotecan primarily undergoes renal excretion. Regarding etoposide and teniposide, the extent of catechol formation over time during drug metabolism may be associated with a higher risk for secondary malignancies.

Current treatment approaches to early childhood medulloblastoma

Treatment of medulloblastoma, the most common malignant brain tumor of childhood, is particularly challenging in very young children, owing to the increased susceptibility of the immature brain to treatment-induced neurocognitive deficits. Three promising strategies have been developed in combination with systemic postoperative chemotherapy, to avoid craniospinal irradiation for young children with nonmetastatic medulloblastoma, these include: high-dose chemotherapy, with and without local radiotherapy; intraventricular chemotherapy; and local radiotherapy. More intensified strategies may be required for metastatic medulloblastoma. Future studies will clarify the prognostic relevance of desmoplasia, postoperative residual tumor and biological markers to improve stratification criteria by risk-adapted treatment recommendations. An international Phase III trial for young children with nonmetastatic medulloblastoma, comparing survival rates and neurocognitive outcomes of different treatment strategies by standardized criteria, is under discussion.

An analysis of SEER data of increasing risk of secondary malignant neoplasms among long-term survivors of childhood brain tumors

BACKGROUND

Advances made in treatment of a childhood brain cancer have extended the lives of many children and adolescents. Treatment success, however, brings the opportunity to assess late effects; most worrying among these are secondary malignant neoplasms (SMN). Even though the cumulative incidence is quite small, long-term follow-up is required because treatment-induced cancers can occur years after initial treatment.

PROCEDURE

The purpose of this project was to determine what treatments and what host characteristics of children treated for a primary brain cancer are associated with an increase in the risk of a SMN in long-term survivors. Data were analyzed from 2,056 5-year survivors, of primary brain cancer in the surveillance, epidemiology, and end results (SEER) database between 1973 and 1998. Thirty-nine patients developed a SMN. Cox regression models were used to evaluate the independent contribution of a number of risk factors.

RESULTS

The most important risk factor for developing a SMN in 5-year survivors was the era in which the primary cancer was treated. Compared to treatment prior to 1979, patients treated between 1979 and 1984 had a 4.7-fold increase in risk (P = 0.001), while those treated after 1985 had a 6.7-fold increase in risk. (P = 0.002). Patients treated most recently carry the greatest risk of SMN development even after controlling for radiotherapy. This could be due to the increase in intensive treatment compared to earlier years.

CONCLUSION

Although the absolute excess risk of SMN remains quite low, continued surveillance is needed to evaluate long-term effects of new therapies for primary brain tumors.

Second malignant neoplasms following the treatment of brain tumors in children

We investigated retrospectively 992 children with central nervous system tumors who were treated at our center between 1970 and 2004. All of the patients were treated by surgery, chemotherapy, and/or radiotherapy. Six patients developed second malignant neoplasms, and their clinical and histopathologic characteristics are reviewed in this article. The second malignant neoplasms were diagnosed as non-Hodgkin lymphoma, myelodysplastic syndrome, basal cell carcinoma, malignant melanoma, Kaposi sarcoma, and high-grade neuroectodermal tumor. The initial diagnoses were ependymoblastoma in one, medulloblastoma in three, and low-grade astrocytoma in two patients. The median latency time was 3.03 years (range 0.39-22.93 years). The outcome varied according to the histopathologic type of the second tumor. The patients who developed non-Hodgkin lymphoma and myelodysplastic syndrome died of progressive disease. The patients with second skin neoplasms are alive as of the time of this writing. The patient with Kaposi sarcoma developed one of the rare reported second malignant neoplasms following a primary brain tumor in childhood. A wide spectrum of second malignant neoplasms was detected after treatment of primary brain tumors with surgery, radiotherapy, and chemotherapy. Long-term follow-up is therefore necessary for the child who has survived a primary central nervous system tumor.

The therapy of infantile malignant brain tumors: current status?

Malignant brain tumors are not uncommon in infants as their occurrence before the age of three represents 20-25% of all malignant brain tumors in childhood [1]. Genetic predisposition to infantile malignant brain tumors are known in Gorlin syndrome for example who present with desmoplastic medulloblastoma in about 5% of the affected patients. In addition, sequelae from tumor and its treatment are more severe at this age [2]. Thus, malignant brain tumors represent a true therapeutic challenge in neuro-oncology. Before the era of modern imaging and modern neurosurgery these malignant brain tumors were misdiagnosed or could not benefit of the surgical procedures as well as older children because of increased risks in this age group. Since the end of the 80s, noninvasive imaging procedures produce accurate diagnosis of brain tumors and improvement in neurosurgery, neuroanesthesia and perioperative intensive care permit safe tumor resections or at least biopsies. Consequently, the pediatric oncologists are more often confronted with very young children who need a complementary treatment. Before the development of specific approaches for this age group, these children received the same kind of treatment than the older children did, but their survival and quality of life were significantly worse. The reasons of these poor results were probably due in part to the fear of late effects induced by radiation therapy, leading to decrease the necessary doses of irradiation which increased treatment failures without avoiding treatment related complications [3]. At the end of the 80s, pilot studies were performed using postoperative chemotherapy in young medulloblastoma patients. Van Eys treated 12 selected children with medulloblastoma with MOPP regimen and without irradiation; 8 of them were reported to be long term survivors [4]. Subsequently, the pediatric oncology cooperative groups studies have designed therapeutic trials for very young children with malignant brain tumors. Different approaches have been explored: * Prolonged postoperative chemotherapy and delayed irradiation as designed in the POG (Pediatric Oncology Group). * Postoperative chemotherapy without irradiation in the SFOP (Société Française d'Oncologie Pédiatrique) and in the GPO (German Pediatric Oncology) studies. * The role of high-dose chemotherapy with autologous stem cells transplantation was explored in different ways: High-dose chemotherapy given in all patients as proposed in the Head Start protocol. High-dose chemotherapy given in relapsing patients as salvage treatment in the French strategy. In the earliest trials, the same therapy was applied to all histological types of malignant brain tumors and whatever the initial extension of the disease. This attitude was justified by the complexity of the classification of all brain tumors that has evolved over the past few decades leading to discrepancy between the diagnosis of different pathologists for a same tumor specimen. Furthermore, it has become increasingly obvious that the biology of brain tumors in very young children is different from that seen in older children. However, in the analysis of these trials an effort was made to give the results for each histological groups, according to the WHO classification and after a central review of the tumor specimens. All these collected data have brought to an increased knowledge of infantile malignant brain tumors in terms of diagnosis, prognostic factors and response to chemotherapy. Furthermore a large effort was made to study long term side effects as endocrinopathies, cognitive deficits, cosmetic alterations and finally quality of life in long term survivors. Prospective study of sequelae can bring information on the impact of the different factors as hydrocephalus, location of the tumor, surgical complications, chemotherapy toxicity and irradiation modalities. With these informations it is now possible to design therapeutic trials devoted to each histological types, adapted to pronostic factors and more accurate treatment to decrease long term sequelae.

Radiation induced meningioma with a short latent period following high dose cranial irradiation – Case report and literature review

Radiation induced meningiomas (RIM) are rare late complications in patients who have received high dose irradiation for brain tumors. The mean latency period for induction of RIM in most of the series is 18.7+/-10.2 years. There are only 9 reported cases of RIM following high dose cranial irradiation with unusually short latency periods of less than 5 years. Herein, we report a child diagnosed with RIM with an unusually short latency period of 14 months. An 11-year old male child underwent gross total resection of medulloblastoma. Following surgery he received high dose craniospinal irradiation. Postoperative computed tomography scan (CT scan) after 1 month did not show features of any residual tumor, recurrence or tumor at a new site. The child was asymptomatic for 14 months and then presented with complaints of headache and vomiting. CT scan head showed multiple solid homogenously enhancing lesions in bilateral basifrontal and right basitemporal region. Histopathology of the lesions turned out to be atypical meningioma.

Primitive neuroectodermal tumors, embryonal tumors, and other small cell and poorly differentiated malignant neoplasms of the central and peripheral nervous systems

Many different types of small cell, embryonal, and poorly differentiated neoplasms originate within the central and peripheral nervous systems. Because appropriate treatment is based on a correct diagnosis, the surgical pathologist must be familiar both with basic characteristics of each of the numerous entities as well as the spectrum of morphologic features that each may display. The nosology and nomenclature of these tumors have a rich and varied history. One basic distinction is between primitive neuroectodermal tumors of the central nervous system (cPNETs) and primitive neuroectodermal tumors of the peripheral nervous system (pPNETs), which are clinicopathologically and genetically distinct. Among the cPNETs are medulloblastoma, pineoblastoma, cerebral neuroblastoma, ependymoblastoma, medulloepithelioma, primary rhabdomyosarcoma, and atypical teratoid/rhabdoid tumor, whereas the pPNETs comprise the more differentiated end of a spectrum of neoplasms that include skeletal and extraskeletal Ewing's sarcoma.

Intracranial tumors in infants

The prognosis in infants with brain tumors has historically been very poor. This study reviews 16 infants under the age of 12 months with brain tumors who presented to our institution between 1988 and 1999. The aim was to describe the clinical presentation, diagnosis, and management of these patients and to establish if newer diagnostic and treatment modalities have improved prognosis in terms of survival and neurocognitive outcome. Charts were reviewed retrospectively for age at diagnosis, time to diagnosis, presenting features, location, histology, surgical and adjuvant treatment, survival, and neurocognitive outcome. Survival has improved. Three quarters of the patients remain alive. The 5-year survival rate was 81%. The 5-year progression-free survival rate was 51%, with a median follow-up time of 70 months. The 5-year survival rate for benign tumors was 100%. None of the children with malignant tumors survived. Morbidity remains high: 8 of 13 survivors had focal neurologic deficits, 7 of 13 had epilepsy, and 7 of 12 had significant cognitive disability. Future treatment protocols should include formal analysis of neurocognitive morbidity, functional outcome, and quality of life measures to provide accurate prognostic information and to prepare families for early intervention programs.

Second neoplasms in pediatric patients with primary central nervous system tumors

BACKGROUND

Details on second neoplasms (SNs) following pediatric central nervous system (CNS) tumors are scant, because of the rarity of such SNs. The goal of the current study was to investigate and characterize these rare SNs.

METHODS

The authors reviewed clinical and treatment data on all institutional patients age < 22 years at diagnosis of a primary CNS tumor who developed any type of SN. Patients with neurofibromatosis type 1 were excluded. Cumulative incidence rates were estimated, and putative risk factors were analyzed.

RESULTS

The SNs investigated in the current study included 10 gliomas (42%), 5 meningiomas (21%), 2 desmoid tumors, 2 myelodysplastic syndromes, 2 basal cell carcinomas, 1 leukemia, 1 malignant fibrous histiocytoma, and 1 thyroid carcinoma. Twenty-one patients had previously received radiotherapy, and 12 patients had received chemotherapy. The SN was related to a genetic cause in 7 patients (29%). Eleven patients died of their SNs, including 8 patients with glioma and 2 patients with myelodysplastic syndromes. The estimated 15-year cumulative incidence rate for malignant SNs was 4%. Children with choroid plexus tumors had an estimated 10-year cumulative incidence rate of 20.2%; 2 of those patients had germline TP53 mutations. Age </= 2 years was a significant risk factor (P = 0.016) for development of an SN only when patients with genetic conditions were included in the analysis. No significant difference in the estimated cumulative incidence of SNs was found among patients who had received different types of therapy.

CONCLUSIONS

The risk of lethal SNs after pediatric CNS tumors is small. Young patients and patients with choroid plexus tumors appear to have an increased risk of SNs that is associated with genetic factors.

Multiple primary tumors involving cancer of the brain and central nervous system as the first or subsequent cancer

BACKGROUND

This study was undertaken to determine whether cancer of the brain and central nervous system (CNS) occurs together with other types of cancer more often or less often than would be expected due to chance.

METHODS

The study was based on data collected by the Surveillance, Epidemiology, and End Results (SEER) Program for cancers diagnosed in the U.S. between 1973 and 1998. The standardized incidence ratio (SIR) for new malignancies was estimated as the number of patients diagnosed with a particular type of cancer (observed), divided by the number of diagnoses expected based on person-years of follow-up and incidence rates for SEER cancer registries.

RESULTS

Among patients who were diagnosed first with cancer of the brain or CNS, statistically significant excesses were observed for cancers of bone (SIR = 14.4), soft tissue (SIR = 4.6), brain and CNS (SIR = 5.9), salivary gland (SIR = 5.1), and thyroid gland (SIR = 2.7) in addition to acute myelocytic leukemia (SIR = 4.1) and melanoma of the skin (SIR = 1.7). Excess risk of new malignancies was markedly greater after first cancers of the brain or CNS diagnosed in childhood compared with similar diagnoses in adulthood. In reverse associations, significant excesses of cancer of the brain and CNS were observed only after diagnoses of acute lymphocytic leukemia (SIR = 7.4) and cancer of the testis (SIR = 1.8) or the thyroid gland (SIR = 1.7).

CONCLUSIONS

Cancer treatment appears to have been the major factor underlying most of the positive associations between brain cancer and primary cancers of other types, with a probable lesser contribution from shared genetic susceptibility. Results provide little or no evidence that brain cancer shares important etiologic factors with the common cancers of adulthood.

Toxicity of platinum compounds

Since the introduction of platinum-based combination chemotherapy, particularly cisplatin, the outcome of the treatment of many solid tumours has changed. The leading platinum compounds in cancer chemotherapy are cisplatin, carboplatin and oxaliplatin. They share some structural similarities; however, there are marked differences between them in therapeutic use, pharmacokinetics and adverse effects profiles [1-4]. Compared to cisplatin, carboplatin has inferior efficacy in germ-cell tumour, head and neck cancer and bladder and oesophageal carcinoma, whereas both drugs seem to have comparable efficacy in advanced non-small cell and small cell lung cancer as well as ovarian cancer [5-7]. Oxaliplatin belongs to the group of diaminocyclohexane platinum compounds. It is the first platinum-based drug that has marked efficacy in colorectal cancer when given in combination with 5-fluorouracil and folinic acid [8,9]. Other platinum compounds such as oral JM216, ZD0473, BBR3464 and SPI-77, which is a pegylated liposomal formulation of cisplatin, are still under investigation [10-13], whereas nedaplatin has been approved in Japan for the treatment of non-small cell lung cancer and other solid tumours. This review focuses on cisplatin, carboplatin and oxaliplatin.

Therapeutic strategies and management of desmoplastic infantile ganglioglioma: two case reports and literature overview

INTRODUCTION

Desmoplastic infantile gangliogliomas (DIG) are rare cerebral glioneural tumors usually occurring in early childhood. DIGs are generally benign although rare cases with poor outcome are known. Total resection, if possible, is the treatment of choice, without further adjuvant therapy. After incomplete resection, adjuvant chemo-and/or radiotherapy is generally applied, despite the potential negative side effects in such young patients.

CASE REPORTS

We describe two girls with DIG, one who twice underwent subtotal resection at 3 and 5 months, the other who underwent total resection at 2 years. Neither had adjuvant therapy and there was no tumor recurrence.

CONCLUSIONS

Our own experience and a review of the literature suggest that in most DIGs adjuvant therapy is not justified even after incomplete resection. After tumor recurrence a second surgical intervention should be considered instead of adjuvant therapy. An exception may be made for rare, deep-seated DIGs, which are more aggressive and have a poorer outcome.

Primitive neuroectodermal tumors in the central nervous system following cranial irradiation: a report of four cases

BACKGROUND

Radiation induced intracranial neoplasms are uncommon but well described and include gliomas, meningiomas, and sarcomas. The development of primitive neuroectodermal tumors (PNETs) following prophylactic craniospinal irradiation has been infrequently reported previously. The authors present four additional cases of PNETs that developed after previous cranial irradiation.

METHODS

Four patients who had previously been irradiated were determined to have PNETs of the central nervous system characterized by histopathologic and immunohistochemical features. The average patient age at diagnosis of the initial tumors and cranial irradiation was 17 years. The PNETs developed 5, 11, 11, and 18 years after completion of radiation.

RESULTS

Three patients had posterior fossa tumors, one pilocytic astrocytoma, one low grade astrocytoma, and one malignant ependymoma, which had been diagnosed and treated in childhood. Two of those patients developed supratentorial PNETs and the third a cerebellar hemispheric PNET. The fourth patient developed a posterior fossa PNET following irradiation for a temporal astrocytoma, which was initially diagnosed and resected at 37 years of age. Mean survival was 12 months after diagnosis.

CONCLUSIONS

The development of PNETs after cranial irradiation may be more common than thought previously and should be considered in the differential diagnosis of irradiation induced neoplasms. Survival after diagnosis of these radiation induced PNETs was short, and this may reflect an inability to provide standard therapy used for primary PNETs.