Nicholas B. Levine scite author profile

SUMMARYBackgroundAfter brain metastasis resection, whole-brain radiation therapy (WBRT) decreases local recurrence but may cause cognitive decline. We performed this study to determine if stereotactic radiosurgery (SRS) to the surgical cavity improved local tumor tumor-free recurrence rates compared to surgical resection alone as an alternative to the need for immediate WBRT.MethodsThe main entry criteria for the study included patients >3 years of age, with a Karnofsky Performance Score ≥ 70, who were able to undergo an MRI scan and who had a complete resection of 1–3 brain metastases (the maximum diameter of the resection cavity had to be ≤4cm). Patients were assigned randomly to either SRS treatment of the resection cavity (within 30 days of surgery) or observation (OBS). Patients were stratified by histology, tumor size, and number of metastases. Patients were recruited at a single tertiary cancer center. The primary endpoint was time to local recurrence in the resection cavity assessed by blinded central review of brain MRI scans in the intention-to-treat population. The trial was registered at clinicaltrials.gov (Trial NCT00950001, status: closed to new participants).FindingsBetween 8/13/2009 and 2/16/2016, 132 patients were randomized to OBS (N=68) or SRS (N=64), with 128 patients available for analysis. We stratified by metastasis size (maximum diameter of ≥3 cm vs. <3 cm), histology (melanoma vs. other), and number of metastases (one vs. two or three). The 12-month local tumor recurrence-free rate was 43% (OBS) (95% CI 31%–59%) and 72% (SRS) (95% CI 60%–87%) (hazard ratio [HR] 0.46, 95% confidence interval [CI] 0.24–0.88, p=0.015).InterpretationThis prospective randomized trial of patients undergoing surgical resection for 1–3 brain metastases indicates that SRS administered to the resection cavity significantly lowers local recurrence compared to observation alone. Thus, the use of SRS after brain metastasis resection is an alternative to WBRT.

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Endoscopic Resection of Sinonasal Cancers With and Without Craniotomy

Hanna¹,

DeMonte²,

Ibrahim³

et al. 2009

Arch Otolaryngol Head Neck Surg

335

251

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miR-124 Inhibits STAT3 Signaling to Enhance T Cell–Mediated Immune Clearance of Glioma

et al. 2013

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MicroRNAs (miRs) have been shown to modulate critical gene transcripts involved in tumorigenesis, but their role in tumor-mediated immune suppression is largely unknown. On the basis of miRNA gene expression in gliomas using tissue microarrays, in situ hybridization, and molecular modeling, miR-124 was identified as a lead candidate for modulating signal transducer and activator of transcription 3 (STAT3) signaling, a key pathway mediating immune suppression in the tumor microenvironment. miR-124 is absent in all grades and pathological types of gliomas. Upon up regulating miR-124 in glioma cancer stem cells (gCSCs), the STAT3 pathway was inhibited, and miR-124 reversed gCSC-mediated immune suppression of T-cell proliferation and induction of Foxp3+ regulatory T-cells (Tregs). Treatment of T-cells from immunosuppressed glioblastoma patients with miR-124 induced marked effector response including up regulation of IL-2, IFN-γ, and tumor necrosis factor (TNF)-α. Both systemic administration of miR-124 or adoptive miR-124-transfected T-cell transfers exerted potent anti-glioma therapeutic effects in clonotypic and genetically engineered murine models of glioblastoma and enhanced effector responses in the local tumor microenvironment. These therapeutic effects were ablated in both CD4+ and CD8+ depleted mice and nude mouse systems, indicating that the therapeutic effect of miR-124 depends on the presence of a T-cell-mediated antitumor immune response. Our findings highlight the potential application of miR-124 as a novel immunotherapeutic agent for neoplasms and serve as a model for identifying miRNAs that can be exploited as immune therapeutics.

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Glioma-Associated Cytomegalovirus Mediates Subversion of the Monocyte Lineage to a Tumor Propagating Phenotype

et al. 2011

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Purpose CMV has been ubiquitously detected within high-grade gliomas, but its role in gliomagenesis has not been fully elicited. Experimental Design Glioblastoma multiforme (GBM) tumors were analyzed by flow cytometry to determine CMV antigen expression within various glioma-associated immune populations. The gCSC CMV IL-10 production was determined by ELISA. Human monocytes were stimulated with recombinant CMV IL-10 and levels of expression of p-STAT3, VEGF, TGF-β, viral IE1 and pp65 were determined by flow cytometry. The influence of CMV IL-10 treated monocytes on gCSC biology was ascertained by functional assays. Results CMV demonstrated a tropism for macrophages (MΦs)/microglia and CD133+ gCSCs within GBMs. The gCSCs produce CMV IL-10, which induces human monocytes (the precursor to the CNS MΦs/microglia) to assume an M2 immunosuppressive phenotype (as manifested by down modulation of the major histocompatibility complex and costimulatory molecules) while up regulating immune inhibitory B7-H1. CMV IL-10 also induces expression of viral IE1, a modulator of viral replication and transcription in the monocytes. Finally, the CMV IL-10-treated monocytes produced angiogeneic VEGF, immunosuppressive TGF-β, and enhanced migration of gCSCs. Conclusions CMV triggers a feed-forward mechanism of gliomagenesis by inducing tumor-supportive monocytes.

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