5 results on '"Megan Sims"'
Search Results
2. ACTR-14. PHASE I STUDY OF AZD1775 WITH RADIATION THERAPY (RT) AND TEMOZOLOMIDE (TMZ) IN PATIENTS WITH NEWLY DIAGNOSED GLIOBLASTOMA (GBM) AND EVALUATION OF INTRATUMORAL DRUG DISTRIBUTION (IDD) IN PATIENTS WITH RECURRENT GBM
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Brian M. Alexander, Stuart A. Grossman, Megan Sims, Serena Desideri, Manmeet Ahluwalia, Jorg Dietrich, L. Burt Nabors, Jeffrey G. Supko, Keith L. Ligon, Nathalie Y. R. Agar, Xiaobu Ye, Joy D. Fisher, Thomas Kaley, Arati Desai, Patrick Y. Wen, Naoko Takebe, and David M. Peereboom
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0301 basic medicine ,Oncology ,Cancer Research ,medicine.medical_specialty ,Cell cycle checkpoint ,medicine.medical_treatment ,Neutropenia ,Abstracts ,03 medical and health sciences ,0302 clinical medicine ,Internal medicine ,medicine ,Temozolomide ,business.industry ,Muscle weakness ,Atrial fibrillation ,medicine.disease ,Phase i study ,Radiation therapy ,030104 developmental biology ,Neurology (clinical) ,medicine.symptom ,business ,030217 neurology & neurosurgery ,medicine.drug ,Glioblastoma - Abstract
AZD1775 is an oral small molecular inhibitor of the G2/M checkpoint regulator Wee1. The Adult Brain Tumor Consortium 1202 trial (NCT01849146) is a phase I, open label, multicenter dose-finding study of AZD1775 in combination with standard RT and TMZ followed by an IDD study for patients undergoing surgery for recurrent GBM. Dose of AZD1775 was increased in a 3 + 3 design M-F during concurrent RT/TMZ and x 5d/28d cycle with adjuvant TMZ in separate cohorts. A combination cohort with both concurrent and adjuvant AZD1775 at MTD and analysis of PK/PD and IDD at MTD in patients undergoing surgery for recurrent GBM followed. MTD was 200 mg for concurrent with 2/6 patients experiencing DLTs (grade 4 neutropenia, grade 3 ALT elevation). MTD for the adjuvant cohort was 425 mg with 1/6 patients experiencing DLT (grade 4 decrease in ANC). 6/12 patients experienced DLTs when cohorts were combined, however, five during the concurrent phase. Three patients had grade ≥3 ALT/AST elevation, one had grade 3 afib, and one had grade 4 neutropenia/thrombocytopenia, grade 3 dehydration/fatigue/muscle weakness. A sixth patient had grade 4 neutropenia in the first adjuvant cycle. Following amendment, an additional 6 patients were enrolled with 150 mg (concurrent) and 425 mg (adjuvant) combination and are in the observation period with one DLT currently. Drug concentration in contrast enhancing and non-enhancing brain tumor was 4–8 x and 0.5–2.6 x greater than plasma, respectively for patients on IDD portion. CONCLUSIONS: AZD1775 in combination with RT/TMZ at 200 mg qd M-F with concurrent RT/TMZ and 425 mg qd x 5d/28d cycle in combination with adjuvant TMZ had unacceptable DLT rate in the concurrent phase. A cohort with 150 mg concurrent/425 mg adjuvant has competed accrual with acceptable rates of toxicity currently in observation. AZD1775 has good penetration to non-enhancing and enhancing tumor areas.
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- 2018
3. ATIM-21. UPDATED RESULTS OF A PHASE I TRIAL OF ANTI-LAG-3 OR ANTI-CD137 ALONE AND IN COMBINATION WITH ANTI-PD-1 IN PATIENTS WITH RECURRENT GBM
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Anna F. Piotrowski, Michael Lim, L. Burt Nabors, Joy D. Fisher, Xiaobu Ye, Arati Desai, Tobias Walbert, Megan Sims, Stuart A. Grossman, Serena Desideri, Patrick Y. Wen, and Manmeet Ahluwalia
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Abstracts ,Cancer Research ,Immune system ,Cell cycle checkpoint ,Oncology ,Chemistry ,Phase (matter) ,Anti pd 1 ,CD137 ,Cancer research ,O-6-methylguanine-DNA methyltransferase ,In patient ,Neurology (clinical) - Abstract
BACKGROUND: Others and we have shown additional checkpoint molecules are expressed in GBM and preclinical studies have shown that combining anti-Lag-3 and anti-CD137 with anti-PD-1 can induce effective antitumor immune responses. METHODS: The Adult Brain Tumor Consortium (ABTC) 1501 trial is a phase I, open label, multicenter, multi-arm dose-finding/safety study of anti-LAG-3 (BMS-986016) or anti-CD137 (BMS-663513) alone and in combination with anti-PD-1 in patients with first time recurrent GBM. The primary objective was to define MTD for the mono and combination treatments with a secondary objective of OS. Using a sequential allocation, we started with doses of 80mg for anti-LAG-3 and 8mg flat for anti-CD137. Anti-PD-1 was given at a flat dose of 240 mg in the combination treatment arms. Using a 3 + 3 design our target DLT rate was < 33%. RESULTS: To date 30 patients were enrolled into the trial with median age at 56, median KPS of 90. Median treatment cycle was 3 and 43% tumors were MGMT methylated. Recruitment of the monotherapy Anti-LAG-3 and anti-CD137 arms were completed. We observed no DLT at the highest dose for Anti-LAG-3 at 800mg and only one DLT (a grade 3 elevated serum ALT at end of cycle 2) with anti-CD137 at the top dose of anti-CD137 at 8mg flat. In addition, three out of 12 patients developed elevated ALT at end of cycle 2 that was considered possibly related to anti-CD137. Another two patients had grade 1 elevated ALTs. Six patients are currently enrolled into a combination cohort of Anti-LAG-3 at160mg +anti-PD-1with no observed DLT and the combination arm of anti-CD137 with anti-PD-1 is open to accrual. CONCLUSIONS: The safe monotherapy dose is 800mg for anti-LAG-3 and 8mg flat for anti-CD137. Both Anti-LAG-3 and anti-CD137 in combination with antiPD-1 cohorts and an intratumoral surgical anti-CD137 cohort are open for accrual.
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- 2018
4. Phase I study of AZD1775 with radiation therapy (RT) and temozolomide (TMZ) in patients with newly diagnosed glioblastoma (GBM) and evaluation of intratumoral drug distribution (IDD) in patients with recurrent GBM
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Naoko Takebe, Thomas Kaley, Manmeet Ahluwalia, Patrick Y. Wen, Arati Desai, Serena Desideri, Stuart A. Grossman, Joy D. Fisher, Louis B. Nabors, Jorg Dietrich, David M. Peereboom, Brian M. Alexander, Megan Sims, Jeffrey G. Supko, and Xiaobu Ye
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Oncology ,Cancer Research ,medicine.medical_specialty ,Pathology ,Standard of care ,Temozolomide ,business.industry ,DNA damage ,medicine.medical_treatment ,Newly diagnosed ,medicine.disease ,Phase i study ,Radiation therapy ,Internal medicine ,medicine ,In patient ,business ,Glioblastoma ,medicine.drug - Abstract
2005 Background: The standard of care treatment for newly diagnosed GBM is maximal safe surgical resection followed by two DNA damaging agents, RT and TMZ. Cellular response to DNA damage involves checkpoints that halt the cell cycle to allow DNA repair. AZD1775 is an oral small molecular inhibitor of a nuclear tyrosine kinase Wee1, a key regulator of the G2/M checkpoint. Abrogation of the G2/M checkpoint prevents repair and pushes cells into mitosis with unrepaired DNA damage. AZD1775 was shown to enhance TMZ and RT effects in preclinical models. Methods: The Adult Brain Tumor Consortium 1202 trial (NCT01849146) is a phase I, open label, multicenter dose-finding study of AZD1775 in combination with standard RT and TMZ followed by an IDD study for patients undergoing surgery for recurrent GBM. The dose finding portion is comprised of two arms, one with AZD1775 given Monday through Friday during concurrent RT/TMZ and a second arm given with adjuvant TMZ qd x 5d/28d cycle. Each arm had standard 3+3 design. A combination cohort with both concurrent and adjuvant AZD1775 at MTD and analysis of PK/PD and IDD at MTD in patients undergoing surgery for recurrent GBM followed. Results: 51 patients enrolled in the dose finding arms. For the concurrent arm, the MTD was 200 mg. At 275 mg one patient had grade 3 fatigue and another had grade 4 thrombocytopenia and neutropenia. Two of 6 total patients enrolled at 200 mg experienced DLTs (grade 4 neutropenia and grade 3 ALT elevation). The MTD for the adjuvant arm was 425 mg as 1 of 6 patients had DLT (grade 4 decrease in ANC). At 500 mg, 2 of 3 patients experienced intolerable diarrhea despite prophylaxis. Enrollment in the combination cohort is completed and evaluation of safety is underway. The drug concentration in contrast enhancing and non-enhancing brain tumor was 4-8 x and 0.5-2.6 x greater than plasma, respectively for patients on IDD portion. Conclusions: The MTD for AZD1775 in combination with RT/TMZ is 200 mg qd M-F with concurrent RT/TMZ and 425 mg qd x 5d/28d cycle in combination with adjuvant TMZ. IDD and PK/PD analysis is ongoing to inform the decision to proceed to phase II testing. Clinical trial information: NCT01849146.
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- 2017
5. Intratumoral drug distribution of adavosertib in patients with glioblastoma: Interim results of phase I study
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Manmeet Ahluwalia, Arati Desai, Joy D. Fisher, Xiaobu Ye, Patrick Y. Wen, Stuart A. Grossman, Keith L. Ligon, Serena Desideri, Thomas Kaley, Naoko Takebe, Eudocia Q. Lee, Jeffrey G. Supko, Megan Sims, Nathalie Y. R. Agar, Jorg Dietrich, Carlos G Romo, David M. Peereboom, Louis B. Nabors, and Brian M. Alexander
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Cancer Research ,biology ,business.industry ,Regulator ,medicine.disease ,Small molecule ,Phase i study ,Wee1 ,Oncology ,Interim ,biology.protein ,medicine ,Cancer research ,In patient ,business ,Glioblastoma - Abstract
2568 Background: Wee1 is a key regulator of the G2/M checkpoint and is frequently overexpressed in glioblastoma (GB). Adavosertib is a first-in-class oral, small molecule inhibitor of Wee1 that acts primarily as a DNA damage sensitizer. A phase I clinical trial was conducted to evaluate its safety and establish the recommended phase II dosing. Studies were undertaken to evaluate whether potentially therapeutic concentrations of the drug are achieved in recurrent tumor and adjacent non-enhancing brain regions with presumed intact blood-brain barrier (BBB). Methods: Twelve patients received five daily doses of adavosertib pre-operatively at either the maximum tolerated dose (MTD) for concurrent radiation or adjuvant temozolomide. Tissue from contrast enhancing (CE) and non-enhancing (NE) brain regions was obtained for analysis during surgical resection. A second stage is being conducted using microdialysis (MD) to facilitate continuous sampling of extracellular fluid (ECF) and measuring free drug concentrations in: normal-appearing brain, contrast enhancing tumor, and a peritumoral T2 hyperintense area. The concentration of total adavosertib in plasma and tissue homogenates and free drug in ECF were determined by validated LC/MS/MS methods. Results: Geometric mean concentrations of adavosertib after a 200 mg dose were 644 ng/mL and 119 ng/mL in CE and NE tissue specimens, respectively (6 patients). At the 425 mg dose, the mean concentrations were 3,576 ng/mL in CE tissue and 885 ng/mL in NE tissue (6 patients). MD was performed in 2 patients. Samples from functional MD catheters were collected from NE brain in patient no. 1 and from two NE areas and a FLAIR hyperintense region in patient no. 2, with the following results in the table. Conclusions: The total drug concentration in tissue samples was notably lower in regions of the brain with a relatively intact BBB as compared to contrast enhancing tissue. Concentrations of adavosertib measured by MD vary markedly depending on catheter location. Free drug levels in ECF within brain with a functional BBB, although considerably lower than total drug levels in tissue, were 2-10 times below the previously reported IC50 for antiproliferative activity against sensitive GB cell lines (127 ng/mL). Whether or not the target of the drug is effectively inhibited at these concentrations remains to be demonstrated. Clinical trial information: NCT01849146 . [Table: see text]
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