T. Kleber scite author profile

Background Low-dose radiotherapy (LD-RT) has produced anti-inflammatory effects in both animal models and early human trials of COVID-19-related pneumonia. The role of whole-lung LD-RT within existing treatment paradigms merits further study. Methods A phase II prospective trial studied the addition of LD-RT to standard drug treatments. Hospitalized and oxygen-dependent patients receiving dexamethasone and/or remdesevir were treated with 1.5 Gy whole-lung LD-RT and compared to a blindly-matched contemporaneous control cohort. Results Of 40 patients evaluated, 20 received drug therapy combined with whole-lung LD-RT and 20 without LD-RT. Intubation rates were 14% with LD-RT compared to 32% without (p=0.09). Intubation-free survival was 77% vs. 68% (p=0.17). Biomarkers of inflammation (C-reactive protein, p=0.02) and cardiac injury (creatine kinase, p<0.01) declined following LD-RT compared to controls. Mean time febrile was 1.4 vs 3.3 days, respectively (p=0.14). Significant differences in clinical recovery (7.5 vs. 7 days, p=0.37) and radiographic improvement (p=0.72) were not detected. On subset analysis, CRP decline following LD-RT was predictive of recovery without intubation compared to controls (0% vs. 31%, p=0.04), freedom from prolonged hospitalizations (21+ days) (0% vs. 31%, p=0.04), and decline in oxygenation burden (56% reduction, p=0.06). CRP decline following 1st drug therapy was not similarly predictive of outcome in controls (p=0.36). Conclusions Adding LD-RT to standard drug treatments reduced biomarkers of inflammation and cardiac injury in COVID-19 patients and may have reduced intubation. Durable CRP decline following LD-RT predicted especially favorable recovery, freedom from intubation, reduction in prolonged hospitalization, and reduced oxygenation burden. A confirmatory randomized trial is now ongoing. Clinical Trial Registration : NCT04366791. Funding : None

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Strategies to Overcome Failures in T-Cell Immunotherapies by Targeting PI3K-δ and –γ

Chandrasekaran

Funk

Kleber

et al. 2021

Front. Immunol.

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PI3K-δ and PI3K-γ are critical regulators of T-cell differentiation, senescence, and metabolism. PI3K-δ and PI3K-γ signaling can contribute to T-cell inhibition via intrinsic mechanisms and regulation of suppressor cell populations, including regulatory T-cells and myeloid derived suppressor cells in the tumor. We examine an exciting new role for using selective inhibitors of the PI3K δ- and γ-isoforms as modulators of T-cell phenotype and function in immunotherapy. Herein we review the current literature on the implications of PI3K-δ and -γ inhibition in T-cell biology, discuss existing challenges in adoptive T-cell therapies and checkpoint blockade inhibitors, and highlight ongoing efforts and future directions to incorporate PI3K-δ and PI3K-γ as synergistic T-cell modulators in immunotherapy.

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Single institutional outcomes of whole brain radiotherapy for metastatic melanoma brain metastases

2021

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Background The management of melanoma with brain metastases (MBM) is increasingly complex, especially given recent improvements in targeted agents, immunotherapy, and radiotherapy. Whole brain radiation therapy (WBRT) is a longstanding radiotherapy technique for which reported patient outcomes and experiences are limited. We sought to report our institutional outcomes for MBM patients receiving WBRT and assess whether other clinical factors impact prognosis. Methods A retrospective review of a single institution database was performed. Patients diagnosed with MBM from 2000 to 2018 treated with WBRT, with or without other systemic treatments, were included. Post-WBRT brain MRI scans were assessed at timed intervals for radiographic response. Clinical and treatment variables associated with overall survival (OS), distant failure-free survival (DFFS), local failure-free survival (LFFS), and progression-free survival (PFS) were assessed. Data on radiation-induced side effects, including radionecrosis, hemorrhage, and memory deficits, was also captured. Results 63 patients with MBM were ultimately included in our study. 69% of patients had 5 or more brain metastases at the time of WBRT, and 68% had extracranial disease. The median dose of WBRT was 30 Gy over 10 fractions. Median follow-up was 4.0 months. Patients receiving WBRT had a median OS of 7.0 months, median PFS of 2.2 months, median DFFS of 6.1 months, and median LFFS of 4.9 months. Performance status correlated with OS on both univariate and multivariable analysis. BRAF inhibitor was the only systemic therapy to significantly impact OS on univariate analysis (HR 0.24, 95% CI 0.07–0.79, p = 0.019), and this effect extended to multivariable analysis as well. Post-WBRT intralesional hemorrhage decreased DFFS on both univariate and multivariable analysis. Of patients with post-treatment brain scans available, there was a 16% rate of radionecrosis, 32% rate of hemorrhage, and 19% rate of memory deficits. Conclusions Outcomes for MBM patients receiving WBRT indicate that WBRT remains an effective treatment strategy to control intracranial disease. Treatment-related toxicities such as intralesional hemorrhage, necrosis, or neurocognitive side effects are limited. With continued innovations in WBRT technique and systemic therapy development, MBM outcomes may continue to improve. Further trials should evaluate the role of WBRT in the modern context.

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T. Kleber

Effect of immunotherapy time-of-day infusion on overall survival among patients with advanced melanoma in the USA (MEMOIR): a propensity score-matched analysis of a single-centre, longitudinal study

Immunomodulatory Low-Dose Whole-Lung Radiation for Patients with Coronavirus Disease 2019-Related Pneumonia

Whole-lung low-dose radiation therapy (LD-RT) for non-intubated oxygen-dependent patients with COVID-19-related pneumonia receiving dexamethasone and/or remdesevir

Strategies to Overcome Failures in T-Cell Immunotherapies by Targeting PI3K-δ and –γ

Single institutional outcomes of whole brain radiotherapy for metastatic melanoma brain metastases

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