61 research outputs found
Phase 1 Trial of TPI 287, a Microtubule Stabilizing Agent, in Combination With Bevacizumab in Adults With Recurrent Glioblastoma
BACKGROUND: Recurrent glioblastoma (rGBM) has limited treatment options. This phase 1 protocol was designed to study the safety and preliminary efficacy of TPI 287, a central nervous system penetrant microtubule stabilizer, in combination with bevacizumab (BEV) for the treatment of rGBM.
METHODS: GBM patients with up to 2 prior relapses without prior exposure to anti-angiogenic therapy were eligible. A standard 3 + 3 design was utilized to determine the maximum tolerated dose (MTD) of TPI 287. Cohorts received TPI 287 at 140-220 mg/m
RESULTS: Twenty-four patients were enrolled at 6 centers. Treatment was generally well tolerated. Fatigue, myelosuppression, and peripheral neuropathy were the most common treatment emergent adverse events. Dose-limiting toxicity was not observed, thus the MTD was not determined. Twenty-three patients were evaluable for median and 6-month progression-free survival, which were 5.5 months (mo) and 40%, respectively. Median and 12-month overall survival were 13.4 mo and 64%, respectively. The optimal phase 2 dose was determined to be 200 mg/m
CONCLUSIONS: TPI 287 can be safely combined with BEV for the treatment of rGBM and preliminary efficacy supports further investigation of this combination
Diagnosing growth in low-grade gliomas with and without longitudinal volume measurements: A retrospective observational study.
BACKGROUND: Low-grade gliomas cause significant neurological morbidity by brain invasion. There is no universally accepted objective technique available for detection of enlargement of low-grade gliomas in the clinical setting; subjective evaluation by clinicians using visual comparison of longitudinal radiological studies is the gold standard. The aim of this study is to determine whether a computer-assisted diagnosis (CAD) method helps physicians detect earlier growth of low-grade gliomas.
METHODS AND FINDINGS: We reviewed 165 patients diagnosed with grade 2 gliomas, seen at the University of Alabama at Birmingham clinics from 1 July 2017 to 14 May 2018. MRI scans were collected during the spring and summer of 2018. Fifty-six gliomas met the inclusion criteria, including 19 oligodendrogliomas, 26 astrocytomas, and 11 mixed gliomas in 30 males and 26 females with a mean age of 48 years and a range of follow-up of 150.2 months (difference between highest and lowest values). None received radiation therapy. We also studied 7 patients with an imaging abnormality without pathological diagnosis, who were clinically stable at the time of retrospective review (14 May 2018). This study compared growth detection by 7 physicians aided by the CAD method with retrospective clinical reports. The tumors of 63 patients (56 + 7) in 627 MRI scans were digitized, including 34 grade 2 gliomas with radiological progression and 22 radiologically stable grade 2 gliomas. The CAD method consisted of tumor segmentation, computing volumes, and pointing to growth by the online abrupt change-of-point method, which considers only past measurements. Independent scientists have evaluated the segmentation method. In 29 of the 34 patients with progression, the median time to growth detection was only 14 months for CAD compared to 44 months for current standard of care radiological evaluation (p \u3c 0.001). Using CAD, accurate detection of tumor enlargement was possible with a median of only 57% change in the tumor volume as compared to a median of 174% change of volume necessary to diagnose tumor growth using standard of care clinical methods (p \u3c 0.001). In the radiologically stable group, CAD facilitated growth detection in 13 out of 22 patients. CAD did not detect growth in the imaging abnormality group. The main limitation of this study was its retrospective design; nevertheless, the results depict the current state of a gold standard in clinical practice that allowed a significant increase in tumor volumes from baseline before detection. Such large increases in tumor volume would not be permitted in a prospective design. The number of glioma patients (n = 56) is a limitation; however, it is equivalent to the number of patients in phase II clinical trials.
CONCLUSIONS: The current practice of visual comparison of longitudinal MRI scans is associated with significant delays in detecting growth of low-grade gliomas. Our findings support the idea that physicians aided by CAD detect growth at significantly smaller volumes than physicians using visual comparison alone. This study does not answer the questions whether to treat or not and which treatment modality is optimal. Nonetheless, early growth detection sets the stage for future clinical studies that address these questions and whether early therapeutic interventions prolong survival and improve quality of life
ELAVL1 Role in Cell Fusion and Tunneling Membrane Nanotube Formations with Implication to Treat Glioma Heterogeneity
Homotypic and heterotypic cell fusions via permanent membrane fusions and temporal tunneling nanotube formations in the glioma microenvironment were recently documented in vitro and in vivo and mediate glioma survival, plasticity, and recurrence. Chronic inflammation, a hypoxic environment, aberrant mitochondrial function, and ER stress due to unfolded protein accumulation upregulate cell fusion events, which leads to tumor heterogeneity and represents an adaptive mechanism to promote tumor cell survival and plasticity in cytotoxic, nutrient-deprived, mechanically stressed, and inflammatory microenvironments. Cell fusion is a multistep process, which consists of the activation of the cellular stress response, autophagy formation, rearrangement of cytoskeletal architecture in the areas of cell-to-cell contacts, and the expression of proinflammatory cytokines and fusogenic proteins. The mRNA-binding protein of ELAV-family HuR is a critical node, which orchestrates the stress response, autophagy formation, cytoskeletal architecture, and the expression of proinflammatory cytokines and fusogenic proteins. HuR is overexpressed in gliomas and is associated with poor prognosis and treatment resistance. Our review provides a link between the HuR role in the regulation of cell fusion and tunneling nanotube formations in the glioma microenvironment and the potential suppression of these processes by different classes of HuR inhibitors
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Survival of patients with newly diagnosed glioblastoma treated with radiation and temozolomide in research studies in the United States.
PurposeNovel agents are currently combined with radiation and temozolomide (RT + TMZ) in newly diagnosed glioblastoma using overall survival as the primary end point. Results of these phase II studies are typically compared with the phase III European Organization for Research and Treatment of Cancer (EORTC) survival data that resulted in RT + TMZ becoming standard therapy.Experimental designThe New Approaches to Brain Tumor Therapy (NABTT) Consortium assigned 365 patients with glioblastoma to four single-cohort studies with similar eligibility criteria. Patients received RT + TMZ with talampanel (n = 72), poly-ICLC (n = 97), or cilengitide (n = 112) or RT + TMZ alone with monitoring of CD4 counts (n = 84). Overall survival of those ages 18 to 70 years with glioblastoma was compared with published EORTC data.ResultsNABTT and EORTC patients had comparable performance status and debulking surgery. Median, 12-month, and 24-month survival rates for the EORTC patients (n = 287) and the comparable NABTT patients receiving RT + TMZ and novel agents (n = 244) are 14.6 versus 19.6 months, 61% versus 81%, and 27% versus 37%, respectively. This represents a 37% reduction in odds of death (P < 0.0001) through 2 years of follow-up. NABTT and EORTC patients receiving only RT + TMZ had similar survival.ConclusionsNewly diagnosed glioblastoma treated recently with RT + TMZ and talampanel, poly-ICLC, or cilengitide had significantly longer survival than similar patients treated with only RT + TMZ accrued internationally from 2000 to 2002. These differences could result from the novel agents or changing patterns of care. Until the reasons for these different survival rates are clarified, comparisons of outcomes from phase II studies with published RT + TMZ survival data should be interpreted with caution
Survival of patients with newly diagnosed glioblastoma treated with radiation and temozolomide in research studies in the United States.
PurposeNovel agents are currently combined with radiation and temozolomide (RT + TMZ) in newly diagnosed glioblastoma using overall survival as the primary end point. Results of these phase II studies are typically compared with the phase III European Organization for Research and Treatment of Cancer (EORTC) survival data that resulted in RT + TMZ becoming standard therapy.Experimental designThe New Approaches to Brain Tumor Therapy (NABTT) Consortium assigned 365 patients with glioblastoma to four single-cohort studies with similar eligibility criteria. Patients received RT + TMZ with talampanel (n = 72), poly-ICLC (n = 97), or cilengitide (n = 112) or RT + TMZ alone with monitoring of CD4 counts (n = 84). Overall survival of those ages 18 to 70 years with glioblastoma was compared with published EORTC data.ResultsNABTT and EORTC patients had comparable performance status and debulking surgery. Median, 12-month, and 24-month survival rates for the EORTC patients (n = 287) and the comparable NABTT patients receiving RT + TMZ and novel agents (n = 244) are 14.6 versus 19.6 months, 61% versus 81%, and 27% versus 37%, respectively. This represents a 37% reduction in odds of death (P < 0.0001) through 2 years of follow-up. NABTT and EORTC patients receiving only RT + TMZ had similar survival.ConclusionsNewly diagnosed glioblastoma treated recently with RT + TMZ and talampanel, poly-ICLC, or cilengitide had significantly longer survival than similar patients treated with only RT + TMZ accrued internationally from 2000 to 2002. These differences could result from the novel agents or changing patterns of care. Until the reasons for these different survival rates are clarified, comparisons of outcomes from phase II studies with published RT + TMZ survival data should be interpreted with caution
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