Explore the vast range of titles available.

A total of 12 pediatric patients with diffuse intrinsic pontine glioma were treated with a direct infusion of an oncolytic virus, followed by radiotherapy. The tumor size was reduced in 9 patients, and disease was stable over a median follow-up of 18 months in 8 patients.

Diffuse intrinsic pontine glioma (DIPG) is a lethal pediatric brain tumor. While there are a number of in vivo rodent models for evaluating tumor biology and response to therapy, these models require significant time and resources. Here, we established the chick-embryo chorioallantoic (CAM) assay as an affordable and time efficient xenograft model for testing a variety of treatment approaches for DIPG. We found that patient-derived DIPG tumors develop in the CAM and maintain the same genetic and epigenetic characteristics of native DIPG tumors. We monitored tumor response to pharmaco- and radiation therapy by 3-D ultrasound volumetric and vasculature analysis. In this study, we established and validated the CAM model as a potential intermediate xenograft model for DIPG and its use for testing novel treatment approaches that include pharmacotherapy or radiation.

Pediatric high grade gliomas (pHGG), including diffuse intrinsic pontine gliomas (DIPGs), are aggressive tumors with a dismal outcome. Radiotherapy (RT) is part of the standard of care of these tumors; however, radiotherapy only leads to a transient clinical improvement. Delta-24-RGD is a genetically engineered tumor-selective adenovirus that has shown safety and clinical efficacy in adults with recurrent gliomas. In this work, we evaluated the feasibility, safety and therapeutic efficacy of Delta-24-RGD in combination with radiotherapy in pHGGs and DIPGs models. Our results showed that the combination of Delta-24-RGD with radiotherapy was feasible and resulted in a synergistic anti-glioma effect in vitro and in vivo in pHGG and DIPG models. Interestingly, Delta-24-RGD treatment led to the downregulation of relevant DNA damage repair proteins, further sensitizing tumors cells to the effect of radiotherapy. Additionally, Delta-24-RGD/radiotherapy treatment significantly increased the trafficking of immune cells (CD3, CD4+ and CD8+) to the tumor niche compared with single treatments. In summary, administration of the Delta-24-RGD/radiotherapy combination to pHGG and DIPG models is safe and significantly increases the overall survival of mice bearing these tumors. Our data offer a rationale for the combination Delta-24-RGD/radiotherapy as a therapeutic option for children with these tumors. Significance Delta-24-RGD/radiotherapy administration is safe and significantly increases the survival of treated mice. These positive data underscore the urge to translate this approach to the clinical treatment of children with pHGG and DIPGs.

The objective of the article is to report the case of three patients with diffuse intrinsic pontine glioma (DIPG) treated with immunotherapy. In particular we report the data related to the treatments’ efficacy and tolerance.To achieve this, we review the medical records in the Paediatric Oncology and Haematology Unit of HM Hospitales/Centro Integral Oncológico Clara Campal (CIOCC). We focused on patients diagnosed with DIPG who were administered oncolytic viruses followed by immune checkpoint inhibitors (ICI) (pembrolizumab, anti PD-1) plus a concomitant antiangiogenic agent (bevacizumab).The results we obtained showed the three paediatric DIPG patients studied presented good tolerance, with disease stabilisation for approximately 5 months after immunotherapy. However, subsequent clinical worsening required clinicians to change the patients’ treatment.In conclusion, immunotherapy combined with other conventional antineoplastic treatments (chemotherapy, radiotherapy) is postulated as a very promising future therapeutic option. However, further research is warranted in the paediatric population to demonstrate safety and effectiveness.

Pediatric diffuse intrinsic pontine glioma (DIPG) represents approximately 20% of all pediatric CNS tumors. However, disease outcomes are dismal with a median survival of less than 1 year and a 2-year overall survival rate of less than 10%. Despite extensive efforts to improve survival outcomes, progress towards clinical improvement has been largely stagnant throughout the last 4 decades. Focal radiotherapy remains the standard of care with no promising single-agent alternatives and no evidence for improvement with the addition of a long list of systemic therapies. A better understanding of the biology of DIPG, though not easy due to obstacles in obtaining pathological material to study, is promising for the development of specific individualized treatment for this fatal disease. Recent studies have found epigenetic mutations to be successful predictors and prognostic factors for developing future management policies. The aim of this review is to give a global overview about the epidemiology, diagnosis, and treatment of DIPG. We further examine the controversial biopsy and autopsy issue that is unique to DIPG and assess the subsequent impact this issue has on the research efforts and clinical management of DIPG.

Introduction Diffuse intrinsic pontine glioma (DIPG) is a rare clinically, neuro-radiologically, and molecularly defined malignancy of the brainstem with a median overall survival of approximately 11 months. Our aim is to evaluate the current tendency for its treatment in Europe in order to develop (inter)national consensus guidelines. Methods Healthcare professionals specialized in DIPG were asked to fill in an online survey with questions regarding usual treatment strategies at diagnosis and at disease progression in their countries and/or their centers, respectively. Results Seventy-four healthcare professionals responded to the survey, of which 87.8% were pediatric oncologists. Only 13.5% of the respondents biopsy all of their patients, 41.9% biopsy their patients infrequently. More than half of the respondents (54.1%) treated their patients with radiotherapy only at diagnosis, whereas 44.6% preferred radiotherapy combined with chemotherapy. When the disease progresses, treatment strategies became even more diverse, and the tendency for no treatment increased from 1.4% at diagnosis to 77.0% after second progression. 36.5% of the healthcare professionals treat children younger than 3 years differently than older children at diagnosis. This percentage decreased, when the disease progresses. Most of the participants (51.4%) included less than 25% of their patients in clinical trials. Conclusion This survey demonstrates a large heterogeneity of treatment regimens, especially at disease progression. We emphasize the need for international consensus guidelines for the treatment of DIPG, possible by more collaborative clinical trials.

Two single-center Phase I trials evaluated safety (primary endpoint) and preliminary efficacy (secondary endpoint) of oncolytic adenovirus Ad-TD-nsIL12 in primary (Group A, NCT05717712) and progressive (Group B, NCT05717699) pediatric patients with IDH wild-type (WT) diffuse intrinsic pontine glioma (DIPG). Studies employed single-arm and 3 + 3 dose-escalation design. 9 patients were enrolled in Group A and 6 in Group B. Group A completed the dose escalation, and no severe adverse events were observed. Enrollment in Group B was halted after Group A completed escalation. All patients experienced drug-related adverse events. In Group A, three partial responses and five stable diseases were documented, with a median overall survival (mOS) of 10.3 months after the first virus and 11.3 months after onset. In Group B, three patients had stable diseases, and three had progressive disease, with an mOS of 6.4 months after the first virus and 12.7 months after onset. Both groups demonstrated improved mOS from onset compared to the DIPG patients in our center’s retrospective study (mOS, 8.3 months). Both groups showed increased lymphocytes post-treatment, but only Group A decreased after radiotherapy. These trials confirmed the safety of Ad-TD-nsIL12 and provided preliminary efficacy evidence, offering insights for future clinical applications in DIPG. Bioelectronic sensors can use bacteria to detect toxins as electrical signals but are limited to single analytes. Here, the authors combine synthetic biology and electrochemistry to create a multi-channel bioelectronic sensor that detects multiple toxins and encodes digital output.

Diffuse intrinsic pontine glioma (DIPG) is a fatal brainstem tumor desperately in need of better treatments. Chimeric antigen receptor (CAR) T cell therapies for DIPG have demonstrated clinical tolerability and bioactivity, but not universal benefit. A major obstacle is insufficient CAR T cell trafficking to the tumor. As our recent clinical trials have demonstrated locoregional elevation of CXCL10, a ligand of the chemokine receptor CXCR3, here we aim to leverage this CXCL10 upregulation to enhance cell trafficking by engineering our B7-H3-targeting CAR T cells to overexpress CXCR3 variants. We demonstrate that, compared to unmodified B7-H3 CAR T cells, CXCR3-A-modified CAR T cells migrate more efficiently toward CXCR3 ligands in vitro, and when delivered intracerebroventricularly in orthotopic DIPG mouse models, CXCR3-A-modified CAR T cells show enhanced trafficking into the tumor and improved therapeutic efficacy. Overall, our data support the potential for engineering CXCR3-A expression to enhance CAR T cell trafficking and efficacy against DIPG. CAR T cell therapies have been developed to treat paediatric diffuse intrinsic pontine glioma (DIPG), however, clinical efficacy remains limited. Here, the authors report that engineering B7-H3-targeting CAR T cells to express the chemokine receptor CXCR3-A enhances their trafficking and efficacy in DIPG preclinical models.

Background Diffuse intrinsic pontine glioma (DIPG) primarily affects pediatric patients. Data on the global incidence of DIPG remain sparse, especially in South Asia and low-middle-income countries like Pakistan. Methods After exemption from the Ethics Review Committee, a retrospective study was conducted. Records of patients with DIPG at the Aga Khan Hospital in Karachi, from January 2010 to December 2022, were reviewed. Results A total of 35 pediatric patients were managed for DIPG. The median age of the patients was 9, with 19 (54.3%) males and 16 (45.7%) females. Cranial nerve palsies were the most common complaint and were present in 19 (54.3%) patients, followed by headaches in 18 (51.4%), long tract signs in 14 (40%), ataxia/cerebellar symptoms in 14 (40%), and seizures in 5 (14.3%). MRI was the primary diagnostic tool, used alone or with CT in 32 (94.1%) patients; CT alone was used in only 2 (5.7%) patients. Biopsy was performed in 10 (28.6%) patients. Primary radiation therapy was administered to 14 (40%) patients with 5400 cGy in 30 fractions. All these patients received steroids while none of them received reirradiation. VP shunt surgery for hydrocephalus was performed in 9 (25.7%) patients. Over half (54.3%) refused treatment post-diagnosis, and 71.4% were lost to follow-up. Conclusion Providing timely, quality multi-disciplinary care to DIPG patients within resource constraints remains challenging in Pakistan. However, recent developments show promise for improving DIPG care in the country.