Lesiones cerebrales traumáticas en la literatura ilustrada: experiencia de una serie de más de 700 lesiones en la cabeza en los cómics de Asterix

Background The goal of the present study was to analyze the epidemiology and specific risk factors of traumatic brain injury (TBI) in the Asterix illustrated comic books. Among the illustrated literature, TBI is a predominating injury pattern. Methods A retrospective analysis of TBI in all 34 Asterix comic books was performed by examining the initial neurological status and signs of TBI. Clinical data were correlated to information regarding the trauma mechanism, the sociocultural background of victims and offenders, and the circumstances of the traumata, to identify specific risk factors. Results Seven hundred and four TBIs were identified. The majority of persons involved were adult and male. The major cause of trauma was assault (98.8%). Traumata were classified to be severe in over 50% (GCS 3 – 8). Different neurological deficits and signs of basal skull fractures were identified. Although over half of head-injury victims had a severe initial impairment of consciousness, no case of death or permanent neurological deficit was found. The largest group of head-injured characters was constituted by Romans (63.9%), while Gauls caused nearly 90% of the TBIs. A helmet had been worn by 70.5% of victims but had been lost in the vast majority of cases (87.7%). In 83% of cases, TBIs were caused under the influence of a doping agent called “ the magic potion ” . Conclusions Although over half of patients had an initially severe impairment of consciousness after TBI, no permanent deficit could be found. Roman nationality, hypoglossal paresis, lost helmet, and ingestion of the magic potion were significantly correlated with severe initial impairment of consciousness (p ≤ 0.05)

Evaluation of the Perioperative and Postoperative Course of Surgery for Pineal Germinoma in the SIOP CNS GCT 96 Trial.

Background: CNS germinoma, being marker-negative, are mainly diagnosed by histological examination. These tumors predominantly appear in the suprasellar and/or pineal region. In contrast to the suprasellar region, where biopsy is the standard procedure in case of a suspected germ-cell tumor to avoid mutilation to the endocrine structures, pineal tumors are more accessible to primary resection. We evaluated the perioperative course of patients with pineal germinoma who were diagnosed by primary biopsy or resection in the SIOP CNS GCT 96 trial. Methods: Overall, 235 patients had germinoma, with pineal localization in 113. The relationship between initial symptoms, tumor size, and postoperative complications was analyzed. Results: Of 111 evaluable patients, initial symptoms were headache (n = 98), hydrocephalus (n = 93), double vision (n = 62), Parinaud syndrome (n = 57), and papilledema (n = 44). There was no significant relationship between tumor size and primary symptoms. A total of 57 patients underwent primary resection and 54 underwent biopsy. Postoperative complications were reported in 43.2% of patients after resection and in 11.4% after biopsy (p < 0.008). Biopsy was significantly more commonly performed on larger tumors (p= 0.002). Conclusions: These results support the practice of biopsy over resection for histological confirmation of pineal germinoma

THE USE OF DYNAMIC O-(2-[F-18]fluoroethyl)-L-TYROSINE-PET IN THE CLINICAL EVALUATION OF BRAIN TUMORS IN CHILDREN AND ADOLESCENTS

BACKGROUND: Experience regarding the use of dynamic O-(2-[(18)F]-fluoroethyl)-L-tyrosine ((18)F-FET) PET in children and adolescents with brain tumors is limited. METHODS: Sixty-nine (18)F-FET PET scans of 49 patients (median age, 13 years; range, 1-18 years) were analyzed retrospectively. Patients had been referred for: (A) assessment of newly diagnosed cerebral lesions (26 scans in 26 patients), (B) diagnosing tumor progression/recurrence (24 scans in 18 patients), (C) monitoring of chemotherapy effects (8 scans in 4 patients), and (D) the detection of residual tumor tissue after resection (11 scans in 10 patients). Maximum and mean tumor/brain ratios (TBR(max/mean)) of (18)F-FET uptake were determined (20-40 min p.i.) and time-activity curves were generated and assigned to one of the following patterns: (1) constantly increasing uptake, (2) uptake peaking at a midway point (>20-40 min) followed by a plateau, and (3) uptake peaking early (≤20 min) followed by a constant descent. The diagnostic values of TBRs and kinetic parameters to detect neoplastic tissue or diagnose tumor progression/recurrence were assessed using ROC analyses. Diagnoses were confirmed histologically and/or by clinical course. RESULTS: In patients with newly diagnosed cerebral lesions, highest accuracy (77%) to detect neoplastic tissue (7 of 26 patients) was obtained when TBR(max) was >1.7 (AUC, 0.80 ± 0.09; sensitivity, 79%; specificity, 71%, PPV, 88%; P = 0.02). For diagnosing tumor progression/recurrence, highest accuracy (82%) was obtained when curve patterns 2 or 3 were present (AUC, 0.80 ± 0.11; sensitivity, 75%; specificity, 90%, PPV, 90%; P = 0.02). During chemotherapy, a decrease of TBRs was associated with a stable clinical course at least for 6 months. In patients after complete tumor resection (2 of 10 patients), (18)F-FET PET detected metabolically active tumor (TBR(max) ≥ 1.7). CONCLUSIONS: Our findings suggest that (18)F-FET PET can add valuable information for clinical decision-making in pediatric brain tumor patients