SFCE METRO-01 four-drug metronomic regimen phase II trial for pediatric extracranial tumor.

OBJECTIVE: To investigate the antitumor activity of a four-drug metronomic chemotherapy (MC) regimen in relapsed/progressing pediatric extracranial solid tumors (EST). The primary objective was clinical benefit (complete response /partial response/stable disease [SD]) after two cycles of therapy (four months). METHODS: Patients aged ≥4 to 25 years with progressing EST and adequate organ function were eligible. Treatment consisted of an eight-week cycle of oral celecoxib b.i.d., weekly vinblastine, and oral cyclophosphamide for three weeks alternating with oral methotrexate for three weeks, with a two-week rest. The Kepner-Chang two-stage model was used with 10 patients in the first stage. If primary objective was reached in two or more patients, eight additional patients were included according to four groups: neuroblastoma (NBL), soft-tissue sarcoma (STS), bone sarcoma (BS), and miscellaneous (Misc.). RESULTS: Forty-four patients were evaluable. The NBL cohort could be expanded to 18 patients: 4 of 18 patients stabilized with MC treatment for 6 (n = 1) and 12 (n = 3) months. In STS, two of seven patients (metastatic hemangioendothelioma and angiosarcoma) had SD for > 2 cycles. One of nine Misc. (metastatic myoepithelial carcinoma) had SD for one year. All patients with BS had progressive disease. One-year progression-free survival of the whole cohort was 6.8% and one-year overall survival was 55.3%. Grade 3 toxicity occurred in 18 patients and grade 4 in 15 patients. The most frequent toxicity was hematologic, predominantly neutropenia. CONCLUSIONS: This MC has no activity in BS and limited though interesting activity in NBL with some patients being stable for > 1 year. It is not possible to conclude activity in STS and Misc.

Generation of Orthotopic and Subcutaneous Patient-Derived Xenograft Models from Diverse Clinical Tissue Samples of Pediatric Extracranial Solid Tumors.

Realistic and renewable laboratory models that accurately reflect the distinct clinical features of childhood cancers have enormous potential to speed research progress. These models help us to understand disease biology, develop new research methods, advance new therapies to clinical trial, and implement personalized medicine. This chapter describes methods to generate patient-derived xenograft models of neuroblastoma and rhabdomyosarcoma, two tumor types for which children with high-risk disease have abysmal survival outcomes and survivors have lifelong-debilitating effects from treatment. Further, this protocol addresses model development from diverse clinical tumor tissue samples, subcutaneous and orthotopic engraftment, and approaches to avoid model loss.

Extending the Applicability of In Ovo and Ex Ovo Chicken Chorioallantoic Membrane Assays to Study Cytostatic Activity in Neuroblastoma Cells.

PURPOSE: The chick chorioallantoic membrane (CAM) assay can provide an alternative versatile, cost-effective, and ethically less controversial in vivo model for reliable screening of drugs. In the presented work, we demonstrate that CAM assay (in ovo and ex ovo) can be simply employed to delineate the effects of cisplatin (CDDP) and ellipticine (Elli) on neuroblastoma (Nbl) cells in terms of their growth and metastatic potential. METHODS: The Nbl UKF-NB-4 cell line was established from recurrent bone marrow metastases of high-risk Nbl (stage IV, MYCN amplification, 7q21 gain). Ex ovo and in ovo CAM assays were optimized to evaluate the antimetastatic activity of CDDP and Elli. Immunohistochemistry, qRT-PCR, and DNA isolation were performed. RESULTS: Ex ovo CAM assay was employed to study whether CDDP and Elli exhibit any inhibitory effects on growth of Nbl xenograft in ex ovo CAM assay. Under the optimal conditions, Elli and CDDP exhibited significant inhibition of the size of the primary tumor. To study the efficiency of CDDP and Elli to inhibit primary Nbl tumor growth, intravasation, and extravasation in the organs, we adapted the in ovo CAM assay protocol. In in ovo CAM assay, both studied compounds (CDDP and Elli) exhibited significant (p < 0.001) inhibitory activity against extravasation to all investigated organs including distal CAM. CONCLUSIONS: Taken together, CAM assay could be a helpful and highly efficient in vivo approach for high-throughput screening of libraries of compounds with expected anticancer activities.