Background: The outcome of children with refractory/relapsed malignancies remains poor and novel therapies are urgently required. One of the promising approaches is metronomic chemotherapy. We present the clinical results of 74 children with advanced solid tumors treated according to treatment recommendation with data registry in three European pediatric centers. Methods: COMBAT (Combined Oral Metronomic Biodifferentiating Antiangiogenic Treatment) included low-dose daily temozolomide, etoposide, celecoxib, vitamin D, fenofibrate and retinoic acid. From 2004 to 2010, 74 children were enrolled. Results: The 2-year overall survival (OS) was 43.1% (median 15.4, range 1.3–69.9 months). Of the 74 patients, 50 patients (68%) died and 24 are alive: 6 (8%) with progressive disease, 7 (9%) with stable disease/partial response and 11 (15%) in complete response. Median time to response was 6 months. Of 62 patients with initially measurable disease, 25 (40%) had radiological response or stable disease. Fourteen of 25 showing clinical benefit responded within the first 6 months. The treatment was well tolerated on an outpatient basis. Regarding non-hematological toxicity of grade ≥2, hepatotoxicity of grade 3 occurred in 8 children and grade 3 cheilitis in 16 children. Conclusion: COMBAT is a feasible and effective treatment option for patients with relapsing/refractory malignancies. The treatment is well tolerated with a low acute toxicity profile.
Personalized Treatment of H3K27M-Mutant Pediatric Diffuse Gliomas Provides Improved Therapeutic Opportunities
Diffuse gliomas with K27M histone mutations (H3K27M glioma) are generally characterized by a fatal prognosis, particularly affecting the pediatric population. Based on the molecular heterogeneity observed in this tumor type, personalized treatment is considered to substantially improve therapeutic options. Therefore, clinical evidence for therapy, guided by comprehensive molecular profiling, is urgently required. In this study, we analyzed feasibility and clinical outcomes in a cohort of 12 H3K27M glioma cases treated at two centers. Patients were subjected to personalized treatment either at primary diagnosis or disease progression and received backbone therapy including focal irradiation. Molecular analyses included whole-exome sequencing of tumor and germline DNA, RNA-sequencing, and transcriptomic profiling. Patients were monitored with regular clinical as well as radiological follow-up. In one case, liquid biopsy of cerebrospinal fluid (CSF) was used. Analyses could be completed in 83% (10/12) and subsequent personalized treatment for one or more additional pharmacological therapies could be recommended in 90% (9/10). Personalized treatment included inhibition of the PI3K/AKT/mTOR pathway (3/9), MAPK signaling (2/9), immunotherapy (2/9), receptor tyrosine kinase inhibition (2/9), and retinoic receptor agonist (1/9). The overall response rate within the cohort was 78% (7/9) including one complete remission, three partial responses, and three stable diseases. Sustained responses lasting for 28 to 150 weeks were observed for cases with PIK3CA mutations treated with either Gojo et al.Personalized Treatment of H3K27M Glioma miltefosine or everolimus and additional treatment with trametinib/dabrafenib in a case with BRAFV600E mutation. Immune checkpoint inhibitor treatment of a case with increased tumor mutational burden (TMB) resulted in complete remission lasting 40 weeks. Median time to progression was 29 weeks. Median overall survival (OS) in the personalized treatment cohort was 16.5 months. Last, we compared OS to a control cohort (n = 9) showing a median OS of 17.5 months. No significant difference between the cohorts could be detected, but long-term survivors (>2 years) were only present in the personalized treatment cohort. Taken together, we present the first evidence of clinical efficacy and an improved patient outcome through a personalized approach at least in selected cases of H3K27M glioma.
Few complete reports exist regarding treatment of venous thromboembolism in children undergoing chemotherapy. We designed this study to unify the treatment of venous thromboembolism in oncology pediatric patients at our department. At the same time, we wanted to evaluate the safety and efficacy of our newly designed treatment schedule. Data from pediatric oncology patients with deep venous thrombosis (DVT) treated at the Department of Pediatric Oncology, Brno, was collected prospectively over a 2-year period (1 January 2006 to 31 December 2007). All patients received low molecular weight heparin (LMWH) at an initial dose of 1.2-1.5 mg/kg body weight subcutaneously (s.c.) twice daily for the first 7-10 days. Afterwards, the dose was lowered to 1.5 mg/kg s.c. once daily. We kept this dose unchanged for a minimum of 3 months. For the first 6 weeks of treatment, the platelet count was maintained 20 x 10/l or more with no concomitant LMWH withdrawal. For the rest of the treatment, LMWH was interrupted once platelets dropped below 20 x 10/l. A total of 33 patients were followed for a median of 6 months. DVT was symptomatic in 15 of 33 patients (46%) and asymptomatic in 18 of 33 (54%) patients. Complete thrombus resolution occurred in 22 of 33 (67%) patients, partial or no recanalization was achieved in 11 of 33 (33%) patients. Eight patients (eight of 33, 24%) were diagnosed with postthrombotic syndrome (PTS). The risk of PTS was significantly higher for patients with symptomatic DVT than in those with asymptomatic DVT. Neither patency rates nor the risk of PTS showed a positive correlation with the achievement of therapeutic anti-Xa activity. Thrombocytopenia less than 20 x 10/l occurred at least once during LMWH treatment in 30/33 (91%) patients. None of the patients experienced severe bleeding, whereas mild bleeding episodes were observed in five of 33 (15%) patients. Our treatment schedule has proved to be both well tolerated and reasonably efficient in treating DVT in children undergoing chemotherapy. Further studies on larger patient groups are warranted.
Research has exposed cancer to be a heterogeneous disease with a high degree of inter-tumoral and intra-tumoral variability. Individual tumors have unique profiles, and these molecular signatures make the use of traditional histology-based treatments problematic. The conventional diagnostic categories, while necessary for care, thwart the use of molecular information for treatment as molecular characteristics cross tissue types.This is compounded by the struggle to keep abreast the scientific advances made in all fields of science, and by the enormous challenge to organize, cross-reference, and apply molecular data for patient benefit. In order to supplement the site-specific, histology-driven diagnosis with genomic, proteomic and metabolomics information, a paradigm shift in diagnosis and treatment of patients is required.While most physicians are open and keen to use the emerging data for therapy, even those versed in molecular therapeutics are overwhelmed with the amount of available data. It is not surprising that even though The Human Genome Project was completed thirteen years ago, our patients have not benefited from the information. Physicians cannot, and should not be asked to process the gigabytes of genomic and proteomic information on their own in order to provide patients with safe therapies. The following consensus summary identifies the needed for practice changes, proposes potential solutions to the present crisis of informational overload, suggests ways of providing physicians with the tools necessary for interpreting patient specific molecular profiles, and facilitates the implementation of quantitative precision medicine. It also provides two case studies where this approach has been used.
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