Intraoperative drug delivery to hindbrain tumours via an injectable hydrogel is well tolerated and confers survival benefit against atypical teratoid/rhabdoid xenografts.

BACKGROUND Local drug delivery systems (LDDSs) applied during neurosurgery offer a means of overcoming poor blood brain barrier (BBB) permeability and have been extensively investigated for the treatment of adult gliomas. To the best of our knowledge, they have not been investigated for the treatment of paediatric cerebellar tumours, including medulloblastoma group 3 (MB3) and atypical teratoid/rhabdoid tumours (ATRT), both of which are associated with poor prognoses. METHODS We prepared and characterised an injectable and biodegradable poly(ethyleneglycol)-poly(caprolactone)-poly(ethyleneglycol) (PECE) hydrogel, which has been investigated broadly throughout the literature with an array of therapeutic agents against numerous cancer types. Here, we loaded the PECE hydrogel with chemotherapeutics previously identified as being effective against primary MB3 and ATRT in vitro, but which do not cross the BBB in vivo, namely CHIR99021, ribavirin and PG545. Biocompatibility and cytotoxicity of drug loaded hydrogels was assessed in vitro. LDDSs safety and efficacy was evaluated using patient derived MB3 and ATRT intracranial xenograft resection models. RESULTS The hydrogel was both biocompatible and effected cytotoxicity following drug release. In vivo efficacy experiments against MB3 indicated a comparable median survival in treatment arms receiving radiotherapy or CHIR99021 and PG545 loaded LDDS. However, combined radiotherapy and LDDS conferred a significant survival enhancement including long-term survivors. Against ATRT, the median survival of arms receiving radiotherapy was comparable to that of the CHIR99021 and ribavirin loaded LDDS, with long-term survivors observed only in the latter arm. CONCLUSIONS The application of LDDSs against cerebellar brain tumours offers a promising novel therapeutic alternative. For MB3, the combination of radiotherapy and a LDDS significantly enhances survival compared to radiotherapy alone. For ATRT, the comparable survival of the LDDS and radiotherapy alone is encouraging and indicates the possibility of circumventing radiation-induced adverse effects for young children impacted by this disease.

AIMS This project aims to develop a local drug delivery system for treatment of childhood medulloblastoma (MB) and atypical teratoid/rhabdoid tumours (AT/RT), malignant brain neoplasms occurring in the posterior fossa for which prognoses remains poor. Our goal is to repurpose drug compounds reported as effective against MB and AT/RT, but which either cannot cross the blood-brain-barrier (BBB) or have not been assessed for localised delivery. We have developed a novel intra-cavity drug delivery system, consisting of polymer microparticles made from poly(DL-lactic-co-glycolic acid) and poly(ethylene glycol) (PLGA/PEG) which will be employed to release drugs over several weeks. METHOD Cell toxicity assays were undertaken using drugs of interest against an in vitro panel of relevant MB and AT/RT cell lines. PLGA/PEG paste incorporating the drugs were prepared and release kinetics assessed. RESULTS IC50 values of the drugs were assessed across all cell lines and a range of potencies were observed, with optimum conditions identified as dual treatments of PG545 (heparanse inhibitor) with CHIR99021 (glycogen synthase kinase-3 inhibitor) for MB and ribavirin (anti-viral) with CHIR99021 for AT/RT. Importantly, it was noted that the drugs retained their cytotoxicity following release from PLGA/PEG. Furthermore, release kinetics were finely tuned through careful control of the composition through addition of excipients and encapsulation of drugs in nanoparticles, and a library of formulations were prepared. CONCLUSION A local drug delivery system for MB and AT/RT has been developed and an optimum formulation, based upon in vitro cell assays and release kinetics, has been identified for in vivo efficacy studies in orthotopic models.

AIMS Local drug delivery systems (LDDSs) applied during neurosurgery offer a means of overcoming poor blood brain barrier (BBB) permeability and have been extensively investigated for the treatment of adult gliomas, but to the best of our knowledge, not for the treatment of paediatric cerebellar tumours. Here we report the applicability of an LDDS against medulloblastoma group 3 (MB3) and atypical teratoid/rhaboid tumours (AT/RT), both of which are associated with poor prognoses. METHOD We prepared and characterised an injectable and biodegradable poly(ethyleneglycol)-poly(caprolactone)- poly(ethyleneglycol) (PECE) hydrogel, which has been investigated with an array of therapeutic agents against numerous cancer types. Here, we loaded the PECE hydrogel with chemotherapeutics previously identified as being effective against primary MB3 and AT/RT in vitro, but which do not cross the BBB in vivo, namely CHIR99021, ribavirin and PG545. Biocompatibility and cytotoxicity of drug loaded hydrogels was assessed in vitro. LDDSs safety and efficacy was evaluated using patient derived MB3 and AT/RT intracranial xenograft surgical resection models. RESULTS The hydrogel was both biocompatible and effected cytotoxicity following drug release. In vivo efficacy experiments against MB3 indicated a comparable median survival in treatment arms receiving radiotherapy or CHIR99021 and PG545 loaded LDDS. However, combined radiotherapy and LDDS conferred a significant survival enhancement, including long-term survivors. Against AT/RT, the median survival of arms receiving radiotherapy was comparable to that of the CHIR99021 and ribavirin loaded LDDS, with long-term survivors observed only in the latter arm. CONCLUSION The application of LDDSs against cerebellar brain tumours offers a promising novel therapeutic alternative. For MB3, the combination of radiotherapy and a LDDS significantly enhances survival compared to radiotherapy alone. For AT/RT, the comparable survival of the LDDS and radiotherapy alone is encouraging and indicates the possibility of circumventing radiation-induced adverse effects for young children impacted by this disease.

The purpose of our study was to compare the imaging characteristics of atypical teratoid-rhabdoid tumor with medulloblastoma and seek distinguishing features that can aid in preoperative diagnosis. Preoperative MRI examinations of 55 patients (36 medulloblastomas and 19 atypical teratoid-rhabdoid tumors) were analyzed retrospectively. Imaging characteristics of atypical teratoid-rhabdoid tumor and medulloblastoma were assessed with conventional MRI and CT. Diffusion-weighted imaging (DWI) was available in 27 patients (19 medulloblastomas and eight atypical teratoid-rhabdoid tumors). Apparent diffusion coefficient (ADC) values were calculated for 14 medulloblastomas and six atypical teratoid-rhabdoid tumors. Both atypical teratoid-rhabdoid tumors in general and infratentorial atypical teratoid-rhabdoid tumors presented at a younger age than medulloblastomas. Eleven of 19 atypical teratoid-rhabdoid tumors were infratentorial. Cerebellopontine angle (CPA) involvement was more frequent (8/11, 72.7%) in atypical teratoid-rhabdoid tumor than in medulloblastoma (4/36, 11.1%) (p < 0.001). Intratumoral hemorrhage was more common in atypical teratoid-rhabdoid tumor (9/19, 47.4%) than in medulloblastoma (2/36, 5.6%) (p < 0.0001). All atypical teratoid-rhabdoid tumors and all medulloblastomas for which DWI was available displayed increased signal intensity on DWI compared with normal brain parenchyma. The mean ADC values for tumor types were not significantly different. Atypical teratoid-rhabdoid tumor presents at a younger age than medulloblastoma. Although atypical teratoid-rhabdoid tumor and medulloblastoma display similar imaging characteristics on conventional MRI, CPA involvement and intratumoral hemorrhage are more common in atypical teratoid-rhabdoid tumor. If a pediatric posterior fossa mass that displays restricted diffusion is involving the CPA, atypical teratoid-rhabdoid tumor is a more likely consideration than medulloblastoma.

INTRODUCTION Childhood medulloblastoma (MB) and atypical teratoid/rhabdoid tumours (AT/RT) are malignant brain tumours occurring in the posterior fossa, for which prognoses remains particularly poor for the MB Group 3 subtype characterised by amplification of the Myc oncogene and for AT/RT in general. Current in vitro models for these neoplasms rely on non-coated plastic, various hydrogels, or animal-derived extracellular matrix (ECM), which fail to recapitulate the physiological environment from which the cells are derived from. METHODS We have developed a method to decellularize ex vivo human brain tissue from different anatomical locations for the use in 3D in vitro models. Human cerebellar brain tissue was harvested from autopsy brain and sectioned into small cubes before bathing in a sodium dodecyl sulfate/phosphate-buffered saline mixture for several days, before washing and lyophilising. RESULTS The optimised method for generation of decellularized human brain ECM successfully removes nuclei as confirmed by histological staining and DNA quantification (DNA reduction of ≥ 60%). Orbitrap-Secondary Ion Mass Spectrometry analysis confirmed the retention of the ECM components laminin (C9H11N3O2Na+), fibronectin (C9H14N4O2Na+ and C20H33N7O5Na+) and collagen (C4H5N2O2+), with a reduction in cell membrane lipid components (glycerophosphocholine, C9H19NPO4+; phosphocholine, C5H15NPO4+; and choline, C5H14NO+) relative to control tissue, with a &amp;lt; 2 ppm accuracy, which was further corroborated by glycosaminoglycan and collagen assays. Multiple molecular subtype-specific AT/RT and MB cell lines have been successfully grown on decellularized cerebellar-ECM/PEGDA hydrogel, showing no reduction in metabolic viability using PrestoBlue and Cell Titer Glo assays. CONCLUSIONS This methodology offers an innovative human-only high-throughput 3D drug screening model, whereby patient-derived MB or AT/RT cells are co-cultured with healthy human cerebellar astrocytes upon decellularized cerebellar ECM, which we term ‘Tumoursphere Matrices’.

The location of a brain tumor is a fundamental characteristic, because various brain tumors develop in relatively specific locations. An atypical teratoid/rhabdoid tumor (AT/RT) is a highly age-specific tumor that occurs in infants and young children. However, AT/RTs develop in a variety of locations in the brain. This study aimed at uncovering the tumor location pattern of AT/RTs to enhance diagnoses. Neuroimages from 27 patients with a pathologically proven AT/RT were reviewed, and the specific tumor locations were described and categorized. The association of imaging characteristics and tumor location was analyzed. The posterior fossa was the most frequent locations accounting for 19 patients (70%), followed by the diencephalon (four patients; 15%), cerebrum (three patients; 11%), and midbrain (one patient; 4%). In the posterior fossa, the superior medullary velum (SMV) and cerebellopontine angle (CPA) areas were the most common sites (eight patients each) and three patients had a tumor in the inferior medullary velum (IMV) region. AT/RTs in the SMV area had a significantly higher chance of no/minimal enhancement compared with tumors in other locations (P = 0.001) and a lower likelihood of leptomeningeal tumor seeding at presentation (P = 0.053). The location spectrum of AT/RT follows a specific pattern, and some of the locations are linked with intriguing clinical characteristics. This information may not only help make correct preoperative diagnosis but also occasionally aid in postoperative pathological diagnosis.

LIN28 is a somatic cell reprogramming and stem cell factor that binds to and regulates RNA involved in growth, invasion and metabolic genes. We have previously shown that LIN28 is upregulated in atypical teratoid rhabdoid tumors (AT/RT) and contributes to the aggressive nature of these tumors. One of the canonical downstream targets of LIN28 is the mTOR pathway. We hypothesized that AT/RT tumorgenicity is dependent on mTOR signaling downstream of LIN28 and inhibition of this pathway would disrupt tumor growth. We found that primary human AT/RT samples have high expression of the mTOR pathway as determined by immunohistochemistry staining for P-S6 and P-AKT Ser473 (21% of tumors with 2+ P-S6 staining; 87% with 2+ p-AKT staining). The dual TORC1/2 inhibitor MLN0128 has good brain penetration and is currently being tested in phase I clinical trials. Treatment of AT/RT cell lines with MLN0128 inhibits TORC1/2 targets in vitro and suppresses cell proliferation at 100nM concentration in multiple AT/RT cell lines (MTS assay for BT12 p&amp;lt;0.005 vs DMSO control; BT37 p = 0.006 vs DMSO control; and CHLA-06 p&amp;lt;0.005 vs DMSO control by t-test). MLN0128 also slows cell proliferation via BrdU assay (BT12 p&amp;lt;0.005 vs DMSO control; BT37 p&amp;lt;0.005 100nM vs DMSO control; CHLA-06 p&amp;lt;0.005 100nM vs DMSO control by t-test) and induces apoptosis measured by Western Blot for cleaved PARP and cleaved caspase 3 assay (BT12 p&amp;lt;0.005 100nM vs DMSO; BT37 p&amp;lt;0.005 100nM vs DMSO; CHLA-06 p = 0.007 100nM vs DMSO by t-test). MLN0128 induces apoptosis synergistically with cisplatin, which is the backbone of conventional AT/RT therapy (CC3 assay BT37 p&amp;lt;0.005 vs DMSO by t-test) and slows cell growth (MTS assay BT37 p&amp;lt;0.005 vs DMSO control by t-test). MLN0128 treatment of AT/RT xenograft mouse models extends overall survival from a median of 23 days to 39 days (Log-rank test p = 0.002). Targeting the mTOR pathway with MLN0128 leads to potent in vitro and in vivo activity against AT/RT and can be combined with conventional chemotherapy to provide an important survival benefit. MLN0128 may be a candidate for future clinical trials to treat this deadly tumor. Citation Format: Jeffrey Rubens, Antoinette Price, Brent Orr, Charles Eberhart, Eric Raabe. Targeting mTOR downstream of LIN28 in atypical teratoid rhabdoid tumors promotes apoptosis and suppresses tumorigenicity. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2102.

Background:Atypical teratoid/ rhabdoid tumor (AT/RT) is a rare aggressive embryonal central nervous system (CNS) tumor of infancy and early childhood. Majority of the cases arise in the posterior fossa, and remaining in the cerebrum.Aims:To analyze the clinicopathologic features of AT/RT on a cohort of cases.Materials and methods:All reported cases of AT/RT at the Department of Pathology and Laboratory Medicine, Aga Khan University Hospital (AKUH) from 2007 to 2016 were reviewed for clinical and pathological features. Immunohistochemical stain for INI-1 was performed in all 11 cases. Follow up was obtained.Results:A total of 11 cases were identified. Seven patients were males and 4 were females. The ages ranged from 1 month to 48 months (mean 26.6 months). Six tumors were located in the cerebrum and 3 in the posterior fossa. Exact Location was not known in 2 cases. Histologically, rhabdoid cells were present in sheets in variable proportions in five cases, Medulloblastoma and PNET like areas were seen in 2 cases each. Immunohistochemical stains EMA (10/10), vimentin (7/7), CKAE1/AE3 (8/9), and CD99 (3/4), GFAP (6/10), ASMA (3/4) and synaptophysin (3/4) were positive in varying proportions while desmin was negative in all 6 cases in which it was performed. All 11 tumors lacked immunoreactivity for INI-1 protein. Four patients died of disease with a follow up ranging from 5 to 24 months.Conclusions:AT/RT is a rare highly aggressive embryonal tumor of CNS. A male predominance was noted in our series. We report the first and largest series from Pakistan.

Purpose Embryonal brain tumors (EBTs): ETMR (embryonal tumor with multilayered rosettes) and ATRT (atypical teratoid rhabdoid tumor) are aggressive malignancies with poor prognosis necessitating alternative strategies. GSK-3β is a serine threonine kinase often overexpressed in solid tumors and a positive regulator of NF-κB which promotes tumor growth and chemotherapy resistance. 9-ING-41 is a maleimide-based small molecule that crosses the blood brain barrier and selectively inhibits GSK-3β. Previously we demonstrated that 9-ING-41 decreases ETMR and ATRT cell viability through apoptosis and increases p53 signaling, however the exact mechanism leading to its activation is unknown. This study aims to determine the optimal dosing for 9-ING-41 and describe the phenotypic response of these cell lines to 9-ING-41 using cell viability assay, western blotting and neurosphere assay. This information will help further elucidate the mechanism of action for this drug. Methods ATRT cell lines ATRT 2141, ATRT-787199, ATRT 803499, LCH-091-07 and the ETMR cell line BT-183 were grown for 24hrs prior to 9-ING-41 treatment in DMEM and Neurocult medium, respectively. Cell viability was assessed after 72hrs of treatment using Cell Titer Glo 2.0. Western blots were analyzed for XIAP, cleaved caspase-3, p53, MDM2 after 24 and 48 hours at 200nM, 400nM and 600nM. Neurosphere assays were done by seeding two cells per well in a 96-well plate followed by treatment with 9-ING-41. Neurosphere frequency and size was monitored weekly for up to 4 weeks using Incucyte® S3 software. Pearson’s correlation graph was generated to determine the relationship between GSK-3β expression and sensitivity to 9-ING-41. Graph Pad Prism was used for statistical analysis and level of significance set to p=0.05. Results The IC50s of 9-ING-41 in cell lines ATRT 2141, ATRT-787199, ATRT 803499 and LCH-091-07 were 194nM, 558nM, 730nM &amp; 5353nM, respectively. We observed decreased expression of NF-κB mediated anti-apoptotic marker XIAP and an increase in expression of apoptotic marker cleaved caspase-3 and tumor suppressor p53 in response to 9-ING-41. MDM2, a negative regulator of p53 had a significant increase in expression indicating it is not responsible for p53 increase which may suggest ATM pathway could be responsible for regulating p53 increase. GSK-3β expression in vitro, correlated with sensitivity to 9-ING-41. There was a dose dependent decrease in frequency and size of neurospheres in response to 9-ING-41. Conclusion 9-ING-41 decreases cell viability and neurosphere formation in ETMR and ATRT cell lines within clinically relevant doses. p53 stabilization is not mediated by MDM2 and may be downstream of the ATM pathway. Further studies are underway to demonstrate its efficacy in mouse models. Citation Format: Divya Gandra, Lauren Difabio, Kaitlyn H. Smith, Kimberly Q. McKinney, Giselle S. Sholler. The anti-tumor effects of GSK-3β inhibitor (9-1NG-41) in ETMR and ATRT pediatric brain tumors. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4875.

Primary diffuse leptomeningeal atypical teratoid rhabdoid tumor (AT/RT) demonstrating atypical imaging findings in an adolescent patient

Atypical teratoid/rhabdoid tumors (AT/RTs) are rare, malignant brain tumors that usually occur in the posterior fossa. Both AT/RT and the analogous tumor outside the brain, malignant rhabdoid tumor, share a polyphenotypic immunoprofile and frequent 22q deletions with inactivation of the IN11/hSNF5 gene. Reports, so far, indicate that AT/RTs occur almost exclusively in children, most of whom are 5-years-old or less. The rarity of the tumor and the polyphenotypic immunoprofile, characterized by antigen expression that is often patchy, make diagnosis in adults difficult and controversial. We describe three AT/RTs in adults in which the diagnoses were supported by detection of 22q11.2 deletions, INI1 mutation and/or loss of INI1 protein expression. Two patients were female, ages 20 and 31 and one was male, age 45. Two tumors occurred in the sella or sellar region and one in the cerebellum. In all cases, fluorescence in situ hybridization with probes to the BCR (22q11.2) and NF2 (22q12) regions of chromosome 22 revealed single copy deletions of BCR with normal dosages of NF2 and, in all cases, immunohistochemistry demonstrated loss of INI1 protein expression. In one case, a single base pair deletion was detected in the INI1/hSNF5 gene. These molecular findings confirm the occurrence of AT/RTs in adults. Although rare, AT/RT should be considered in the differential diagnosis of poorly differentiated intracranial tumors in adults.

Atypical teratoid/rhabdoid tumor (AT/RT) of the central nervous system is a highly malignant tumor that mainly occurs in children under the age of 3 and has only been rarely described in adults. The fact that AT/RT patients have such a terrible prognosis is even more regrettable. Herein, we reported two special cases of AT/RT, both of which were under 3 years. Symptoms at presentation included increased intracranial pressure and cerebellar symptoms such as headache, altered gait, and ataxia. As for the tumor location, one was infratentorial in the posterior fossa, and the other was the right lateral ventricle. Preoperative magnetic resonance imaging scans showed calcification and heterogeneous contrast enhancement in the lesions. The mass was excised surgically for the progression of symptoms. Postoperative pathologies of the tumors, combined with immunohistochemistry, revealed AT/RT. AT/RTs are often misdiagnosed as other types of brain tumors due to the lack of specific radiological features and other key characteristics. To improve awareness of AT/RT on the differential diagnosis of intracranial lesions among clinicians, we present this report and briefly summarize previous cases.

Introduction: Atypical teratoid rhabdoid tumor (ATRT) is among the most aggressive central nervous system malignancies. Although rare, this tumor typically afflicts young children and results in mortality within months. Here, we aim to determine key clinical features and treatment options that impact the survival of patients with ATRT. Methods: From the year 2000 to 2019, 363 patients with ATRT were identified from the Surveillance, Epidemiology, and End Results database. Univariate analysis was used to identify variables that had a significant impact on the primary endpoint of overall survival (OS). Multivariable analysis was then used to identify independent predictors of survival. Results: The median OS of the entire cohort was 13 months. Univariate analysis identified ages between 1 and 3 years, ages between 4 and 17 years, years of diagnosis between 2010 and 2019, and the receipt of treatment to have a significant impact on survival. In multivariable analysis, ages between 1 and 3 years and receipt of treatment were the only significant independent predictors of survival. The median OS was significantly greater in patients who received surgical treatment, chemotherapy, or radiation when compared to those who did not receive any treatment. In general, the receipt of any combination of therapies improved the median OS significantly. The receipt of triple therapy had the greatest impact on survival. Discussion: This study highlights the survival benefit of a multimodal approach in the treatment of ATRT. The use of triple therapy, including surgery, radiation, and chemotherapy, was found to have the greatest survival benefit for patients. Overall, these findings may guide future care for patients with ATRT.

Atypical teratoid/rhabdoid tumors (AT/RT) are among the most malignant pediatric brain tumors. Cells from brain tumors with high aldehyde dehydrogenase (ALDH) activity have a number of characteristics that are similar to brain tumor initiating cells (BTICs). This study aimed to evaluate the therapeutic potential of ALDH inhibition using disulfiram (DSF) against BTICs from AT/RT. Primary cultured BTICs from AT/RT were stained with Aldefluor and isolated by fluorescence activated cell sorting. The therapeutic effect of DSF against BTICs from AT/RT was confirmed in vitro and in vivo. AT/RT cells displayed a high expression of ALDH. DSF demonstrated a more potent cytotoxic effect on ALDH(+) AT/RT cells compared with standard anticancer agents. Notably, treatment with DSF did not have a considerable effect on normal neural stem cells or fibroblasts. DSF significantly inhibited the ALDH enzyme activity of AT/RT cells. DSF decreased self-renewal ability, cell viability, and proliferation potential and induced apoptosis and cell cycle arrest in ALDH(+) AT/RT cells. Importantly, DSF reduced the metabolism of ALDH(+) AT/RT cells by increasing the nicotinamide adenine dinucleotide ratio of NAD(+)/NADH and regulating Silent mating type Information Regulator 2 homolog 1 (SIRT1), nuclear factor-kappaB, Lin28A/B, and miRNA let-7g. Animals in the DSF-treated group demonstrated a reduction of tumor volume (P < .05) and a significant survival benefit (P = .02). Our study demonstrated the therapeutic potential of DSF against BTICs from AT/RT and suggested the possibility of ALDH inhibition for clinical application.

Atypical teratoid/rhabdoid tumor (AT/RT) is a rare and highly malignant central nervous system (CNS) embryonal neoplasm: it accounts for <2% of all pediatric CNS tumors and occurs mainly in infants and young children. The primary site of this tumor is usually the posterior cranial fossa. Supratentorial and, in detail, latero-ventricular location is extremely uncommon, especially in adolescents. This tumor is characterized by rapid growth and spread in cerebrospinal fluid and, therefore, it is characterized by a poor prognosis. Neurological signs and symptoms are related the location of the tumor. The radiological features of AT/RT are nonspecific. Immunohistochemical staining for loss of nuclear integrase interactor 1 (INI1) expression is considered a reliable criterion for the diagnosis of this type of tumor. AT/RT has been linked to mutations of SMARCB1 or, rarely, SMARCA4 genes, which function as tumor suppressor genes. Currently, there is no validated protocol of treatment for children with AT/RT, and multimodality treatment (consisting of surgery, chemotherapy, and radiation therapy) is considered. In this case report, we describe a 15-year-old adolescent with an AT/RT of the left lateral ventricle. Despite the late diagnosis, the multimodal therapeutic approach provided a good outcome for our patient at 21 months’ follow-up. Based on our case-based review, early diagnosis and a multimodal approach to treatment play a key role in improving the survival of patients with this diagnosis. Implementing a system supporting pathological and molecular analyses for developing countries and, in general, for non-academic centers is of primary importance to timely diagnose and treat rare tumors, such as AT/RT.