End to end simulator for the WIVERN W-band Doppler conically scanning spaceborne radar

The WIVERN (WInd VElocity Radar Nephoscope) mission, soon entering in Phase-0 of the ESA Earth Explorer program, promises to complement Doppler wind lidar by globally observing, for the first time, vertical profiles of winds in cloudy areas. This work describes an end to end simulator of the WIVERN conically scanning 94 GHz Doppler radar, the only payload of the mission. Specific features of the simulator are: the conically scanning geometry; the inclusion of cross-polarization effects and of the simulation of a radiometric mode; the applicability to global cloud model outputs via an orbital model; the incorporation of a mispointing model accounting for thermo-elastic distortions, microvibrations, star-trackers uncertainties, etc.; the inclusion of the surface clutter. Some of the simulator capabilities are showcased for a case study involving a full rotational scan of the instrument. The simulator represents a very useful tool for studying the performances of the WIVERN concept and possible trade-offs for the different configurations (e.g. different antenna sizes, pulse lengths, antenna patterns, .....). Thanks to its modular structure the simulator can be easily adapted to different orbits, different scanning geometries and different frequencies.

THE 2019 EXCAVATIONS OF THE ROMAN PERIOD AND THE MIGRATION PERIOD AT THE YASKOVICHI-1 SETTLEMENT IN THE PRIPYAT POLESIE

В статье представлены результаты исследований 2019 г. на селище Ясковичи-1, открытом в 2017 г. на северной окраине Припятского Полесья. Памятник содержит выразительный горизонт позднеримского периода (рубежа II/III - середины IV в.), сопоставимый с древностями киевской культуры. На примере отдельных фрагментов посуды и вещей прослеживаются связи его жителей с носителями вельбарской культуры. Следующий горизонт памятника - пражской культуры -представлен отдельными находками и немногочисленными фрагментами керамики. Последние соотносятся преимущественно с ранними этапами развития пражского керамического комплекса в Припятском Полесье, не исключая фазы «0» - финала позднеримского времени и начала эпохи Великого переселения народов. The paper presents results of the excavations conducted at the open settlement of Yaskovichi-1 in 2019. The settlement was discovered in 2017 in the northern fringe of the Pripyat Polesie. The site contains a horizon dating to the late Roman period (the turn of the 3 - mid-4 centuries) rich with finds comparable with antiquities of the Kiev culture. Analyzing some fragments of the vessels and other items, the author traces down the links between its residents and the Wielbark population. The subsequent horizon of the site, i.e. that of Prague culture, is represented by individual finds and few fragments of ceramics. The latter are correlated, mostly, with the early development of the Prague ceramic assembly in the Pripyat Polesie, without excluding phase 0, which is the final stage of the Late Roman period and the beginning of the Migration Period.

CTNI-22. A PHASE 0/1 ‘TRIGGER’ TRIAL OF RIBOCICLIB PLUS EVEROLIMUS IN RECURRENT HIGH-GRADE GLIOMA

BACKGROUND mTOR activation is a mechanism of resistance in CDK4/6 targeting. We evaluated tumor pharmacokinetics (PK) and tumor pharmacodynamics (PD) of combined CDK4/6 and mTOR inhibition in recurrent high-grade glioma (HGG) patients. METHODS Recurrent HGG patients with (1) intact RB, (2) CDKN2A/B deletion or CDK4/6 amplification, and (3) PTEN loss or PIK3CA mutations receive five days of presurgical ribociclib plus everolimus prior to resection at 2, 8 or 24 hours after the final dose. Beginning at 400mg QD ribociclib plus 2.5mg QD everolimus, six dose-escalations summit at 600mg QD plus 60mg QW. Gadolinium [Gd]-enhancing and nonenhancing tumor regions, CSF, and plasma are collected. Total and unbound drug concentrations are determined using validated LC-MS/MS methods. RB and S6 phosphorylation are compared to matched archival tissue. To select patients for a therapeutic expansion phase of combined drug therapy, the protocol includes a PK ‘trigger’ (i.e., for each drug, unbound concentration in Gd-nonenhancing tumor > 5-fold biochemical IC50) and a PD ‘trigger’ (i.e., for each tumor, > 30% decrease in pRB and pS6). RESULTS 21 patients with WHO Grade III (n=2) and IV (n=19) gliomas were enrolled into the Phase 0 component of the study. No dose-limiting toxicities were observed. In Gd-nonenhancing tumor regions, the median unbound concentration of ribociclib was 719 nM, whereas unbound everolimus tumor concentrations were undetectable. Across all dose-levels, 62% (13/21) and 22% (5/21) of tumors demonstrated decreased tumor RB and S6 phosphorylation, respectively. Tumor proliferation (MIB-1) was decreased in 67% (14/21) of all patients. No patients qualified for the therapeutic expansion phase. CONCLUSION In adult HGG, ribociclib achieves pharmacologically-relevant concentrations in Gd-nonenhancing tumor whereas everolimus exhibits no meaningful tumor penetration. These findings support further clinical development of ribociclib, but not everolimus, for the treatment of high-grade glioma patients.

CTNI-20. FEASIBILITY OF SINGLE-PASS STEREOTACTIC NEEDLE BIOPSY IN RECURRENT GLIOBLASTOMA PATIENTS TO SUPPORT CLIA-CERTIFIED TUMOR PHARMACODYNAMICS FOR A PHASE 0/2 CLINICAL TRIAL

BACKGROUND In neuro-oncology clinical trials, pharmacodynamic (PD) analysis of tumor tissue before and after experimental therapy is challenging. Today, Phase 0 studies in brain tumor patients typically employ archival tissue from a prior resection as the baseline PD comparator. However, the time-interval between tissue acquisitions can be months to years and often includes confounding exposure to other therapies. Here, we demonstrate the feasibility of a pre-treatment, single-pass stereotactic needle biopsy to support CLIA-certified genetic screening and tumor PD analysis in a Phase 0/2 clinical trial. METHODS In support of an ongoing Phase 0/2 ‘trigger’ trial testing CDK4/6 plus ERK1/2 inhibition in recurrent glioblastoma (GBM), a single-pass stereotactic biopsy was completed in select patients prior to enrollment. Each biopsy yields six tissue cores for immunohistochemistry (IHC) and genetic characterization. Using CLIA-certified protocols, genomic DNA (gDNA) was extracted from two cores, followed by library preparation and next-generation sequencing of a customized panel of 37 genes (IvySeq). In the four remaining cores, IHC staining was performed for RB, pRB, pERK, pS6, CDKN2A, MIB-1, ClCas-3 and pH2AX. RESULTS Single-pass stereotactic needle biopsies were collected from five recurrent GBM patients. No intraoperative, perioperative, or radiographic evidence of morbidity was observed. 800-2400ng of gDNA was isolated from each stereotactic biopsy. IvySeq analysis detected CDKN2A deletion, ATRX loss, and mutations in IDH, PTEN and TP53 genes. Based on IHC and genetic analyses of the biopsied samples, three patients were enrolled into the Phase 0/2 clinical trial and baseline value were used for PD analysis. CONCLUSION Single-pass stereotactic needle biopsy is a feasible and safe strategy to collect pre-treatment tissue in support of a Phase 0 clinical trial, enabling CLIA-certified genetic analysis for trial screening and tumor PD analysis.

CTNI-15. PHASE 0/I TRIAL OF MYCOPHENOLATE MOFETIL COMBINED WITH RADIATION TO OVERCOME GLIOBLASTOMA TREATMENT RESISTANCE BY TARGETING DE-NOVO PURINE METABOLISM: INTERIM REPORT

BACKGROUND De novo purine synthesis promotes glioblastoma growth and stemness, invasiveness, and resistance to chemoradiation. Mycophenolate mofetil (MMF) is an FDA-approved inhibitor of de novo purine synthesis that sensitizes glioblastoma to radiation and chemotherapy in mice. This Phase 0/I trial of MMF with Radiotherapy in Recurrent Glioblastoma (NCT04477200) aims to determine the maximum-tolerated dose of MMF that can be combined with radiation,and the extent to which the active metabolite of MMF accumulates in brain tumors and inhibits de novo purine synthesis. METHODS Key eligibility criteria are age ≥18, KPS score ≥60%, and recurrent glioblastoma or gliosarcoma with clinical indication for re-irradiation (phase I) or re-resection/biopsy (phase 0). Patients with tumors involving ≥3 lobes or leptomeningeal space or bevacizumab use within 8 weeks are excluded. MMF 500-2000mg PO BID is given one week pre-operatively in Phase 0 (N=8), and up to 2000mg PO BID (starting 1000mg) on TITE-CRM dose escalation on Phase 1 cohort (N=30). RESULTS Since 7/2020, three Phase 0 and six Phase I subjects have been enrolled. On the phase I cohort, 1500mg BID dose has been reached. Studyrelated toxicities have been limited to mainly grade 1-2 nausea and fatigue. No notable study related hematotoxicity have been noted. Additionally, mass spectrometry-based correlative measurements of the activity of de novo GTP synthesis are ongoing. CONCLUSION MMF has been well tolerated up to 1500mg BID combined with radiotherapy in recurrent glioblastoma patients in this interim analysis. An additional upfront glioblastoma cohort with MMF with standard of care will activate in 2021. These studies will determine the maximum tolerated dose of MMF in combination with radiation and chemotherapy and provide a preliminary efficacy estimate at that dose. Encouraging results would support a randomized clinical trial to determine efficacy of MMF combined with chemoradiation in glioblastoma, and to define potential biomarkers for effectiveness.

DDRE-12. DETERMINATION OF TOTAL AND UNBOUND LEVELS OF A POTENT INHIBITOR OF FIBROBLAST GROWTH FACTOR RECEPTOR, INFIGRATINIB, IN HUMAN PLASMA, CEREBROSPINAL FLUID AND BRAIN TUMOR BY A VALIDATED LC-MS/MS ASSAY

BACKGROUND Infigratinib is an orally available potent inhibitor of fibroblast growth factor receptor (FGFR) under investigation in a Phase 0 clinical trial for recurrent high-grade gliomas harboring oncogenic FGFR mutation or translocation (NCT04424966). Here, we report on our development and validation of an LC-MS/MS method for determination of total and unbound levels of infigratinib in human plasma, cerebrospinal fluid (CSF) and glioblastoma tissue. METHODS Infigratinib was extracted from human plasma, CSF and glioblastoma homogenate samples by protein precipitation with methanol. Unbound fractions of infigratinib in plasma and brain tissues were determined by equilibrium dialysis. Validation was performed using Sciex ExionLC UHPLC system coupled with Sciex QTRAP 6500+ MS/MS detector using positive electrospray ionization mode. The method was validated according to FDA guidelines and CAP/CLIA regulations. RESULTS The method was validated for 0.2-1000 nmol/L concentration range using plasma as matrix for all biospecimens. The analytical separation was optimized on Phenomenex Kinetex™ F5 column with total run time of 3.5 min using isocratic mode. Maximum coefficient of variation for intra- and inter-day precision was 12.7% and the accuracy was within 88.5-115.0% in all matrixes. The analyte is stable in plasma for at least 19 hours at room temperature (RT). Plasma stability at -20°C was demonstrated for at least 119 days. Stability of stock and working solutions was demonstrated for at least 15 hours (RT) and 60 days (2-8°C). The unbound fraction of infigratinib in pooled human plasma and brain were determined to be 0.01. CONCLUSIONS A sensitive and rapid bioanalytical method is successfully developed and validated to quantify total and unbound infigratinib levels in human plasma, CSF and glioblastoma tissue. The method is presently employed to evaluate plasma pharmacokinetics and CNS penetration of infigratinib in recurrent glioblastoma patients in an ongoing Phase 0 clinical trial.

CTNI-18. PHASE I AND PRELIMINARY PHASE 0 RESULTS OF ABTC 1801: A MULTI-ARM CLINICAL TRIAL OF THE PARP INHIBITOR PAMIPARIB (BGB290) WITH VERY LOW DOSE METRONOMIC TEMOZOLOMIDE IN RECURRENT IDH MUTANT GLIOMAS

BACKGROUND Preclinical studies have demonstrated that IDH1-mutant (IDHmt) gliomas harbor a BRCAness phenotype with a defect in homologous recombination that confers PARP inhibitor sensitivity. Pamiparib (BeiGene BGB-290) is an effective PARP-trapping PARP inhibitor with demonstrated favorable brain penetration in animal models. METHODS ABTC 1801 is a study examining the safety, pharmacokinetics, and efficacy of the combination of pamiparib with low dose metronomic temozolomide in recurrent IDHmt gliomas. The Phase I component utilized a 3 + 3 design with a target DLT rate ≤ 33%. Pamiparib dose was 60 mg BID and temozolomide dose 20 mg daily, with dose de-escalation levels for anticipated hematological toxicity. RESULTS Seven patients were enrolled on the Phase I portion at dose level 1; one patient was replaced for inadequate dosing secondary to non-compliance. All patients had prior radiotherapy and temozolomide; 4/7 had received multiple lines of alkylator therapy including nitrosoureas. Median age was 45, KPS 90, and number of prior relapses 3. Four patients had anaplastic astrocytoma, 2 anaplastic oligodendroglioma, and 1 glioblastoma. One of 6 patients (16.7%) experienced DLT during the first cycle (grade 3 neutropenia and thrombocytopenia). Two additional patients had grade 2 neutropenia. Two patients remain on study treatment at 12+ and 10+ months, while a third progressed at 10.1 months (PFS-6 43%). Tumor tissue was collected from two patients in the surgical arm. In enhancing and non-enhancing tumors, the mean unbound pamiparib concentrations were 198 and 160 nmol/L (or nmol/kg), respectively, which were > 20-fold the in vitro IC50 for PARP inhibition; mean unbound tumor-to-plasma ratios were 0.65 and 0.38. CONCLUSIONS Phase I results support pamiparib 60 mg BID with temozolomide 20 mg daily as the dosages for the Phase II study. Preliminary Phase 0 data suggest that pamiparib likely achieves sufficient pharmacologically active concentrations in both enhancing and non-enhancing brain tumors.

CTNI-48. A PHASE 0 ‘TRIGGER’ TRIAL OF CDK4/6 PLUS ERK1/2 INHIBITORS IN RECURRENT GLIOBLASTOMA

BACKGROUND This dual-drug Phase 0 study (NCT04391595) evaluates the tumor pharmacokinetics (PK) and tumor pharmacodynamics (PD) of abemaciclib, a selective CDK4/6-inhibitor, plus LY3214996, a selective ERK1/2 inhibitor, in recurrent GBM patients. METHODS Adult recurrent GBM patients (n=10) with intact RB expression, > 30% pERK expression, and CDKN2A/B deletion or CDK4/6 amplification received six days of abemaciclib (150mg BID) plus LY3214996 (200mg QD) prior to a planned resection at 3-5 or 7-9 hour time interval after the final drug dose in a Time-Escalation Arm. Tumor tissue (gadolinium [Gd]-enhancing and nonenhancing regions), cerebrospinal fluid (CSF), and plasma were collected. Total and unbound drug concentrations were measured using validated LC-MS/MS methods. Tumor PD effects, including RB and RSK phosphorylation, were compared to matched archival or pre-treatment biopsied tissue. A PK ‘trigger’ (i.e., unbound concentration > 5x biochemical IC50) was set for each drug. Gd-nonenhancing tumor tissue exhibiting abemaciclib and LY3214996 concentrations in excess of their trigger threshold qualified patients for postoperative dual-drug therapy. RESULTS No dose-limiting toxicities were observed. In Gd-nonenhancing tumor regions, median unbound concentrations of abemaciclib were 31.2 nM (3-5 hour cohort) and 25.1 nM (7-9 hour cohort) while median unbound concentrations of LY3214996 were 52.0 nM (3-5 hour cohort) and 10.2 nM (7-9 hour cohort). Tumor RB and RSK phosphorylation decreased in 6/10 and 2/10 patients, respectively. Tumor proliferation (MIB-1) was decreased in 8/10 patients. 5/10 patients exceeded PK thresholds for both abemaciclib (12 nM) and LY3214996 (25 nM), thereby entering the study’s therapeutic expansion phase. CONCLUSION Abemaciclib and LY3214996 achieve pharmacologically-relevant concentrations in Gd-non-enhancing GBM tissue and are associated with suppression of RB pathway and tumor proliferation. The Optimal Time Interval (OTI) for tissue sampling was 3-5 hours after the final drug dose. Based on this interim analysis, the trial will accrue an additional 25 patients at this OTI.

CTNI-23. A FIRST-IN-HUMAN PHASE 0/1 CLINICAL TRIAL OF 5-AMINOLEVULINIC ACID SONODYNAMIC THERAPY IN RECURRENT GLIOBLASTOMA

5-Aminoleveulinic acid sonodynamic therapy (5-ALA SDT) is a drug-device strategy that exploits the metabolic liabilities of cancer. Following systemic administration of 5-ALA, aberrant tumor metabolism leads to accumulation of protoporphyrin-IX (PpIX). Activation of PpIX by non-invasive, non-ablative magnetic resonance-guided focused ultrasound (MRgFUS) induces reactive oxygen species and tumor cell death. This first-in-human Phase 0/1 study investigates the feasibility, safety, and biological effects of 5-ALA SDT in recurrent glioblastoma (GBM) patients. Six hours prior to SDT, adult patients with recurrent GBM are administered Sonala-001 (10mg/kg), an IV formulation of 5-ALA. In a Dose-Escalation Arm, 9-18 patients are assigned to one of three ascending acoustic energy doses of MRgFUS (200J/400J/800J, measured at transducer surface), followed by a four-day interval to planned tumor resection. In each patient, half the tumor volume, including Gadolinium-enhancing and nonenhancing tumor, is targeted with MRgFUS and the other half serves as an internal control. Using tumor pharmacodynamic endpoints, the Minimum Biological Dose (MBD) associated with 5-ALA SDT response is identified. In a subsequent Time-Escalation Arm, 12 patients are treated at the MBD and assigned to one of two time-intervals between SDT and resection. As of May 1, accrual to the 200J dose level (n=3) is complete without significant drug- or device-related adverse events. No cellular or radiographic changes to non-targeted tissue were detected. The median Cmax for 5-ALA and PpIX were 307 µM and 319 nM, respectively. The oxidative stress biomarkers 4-hydroxynonenal, glutathione, cysteine, and thiol were significantly elevated in treated tissue vs. control. Similarly, the apoptosis biomarker cleaved caspase-3 was increased in treated tumor vs. control (median, 48.6% vs. 29.6%, p=0.05). This first-in-human experience with a new therapeutic modality for recurrent glioblastoma patients demonstrates that 5-ALA SDT is safe at 200J. Sonodynamic therapy leads to targeted oxidative stress and tumor cell death in human glioblastoma tissue.

Live weight performance of three different breed of indonesian local chickens in starter phase

The production of local chickens in Indonesia is determined by the availability of high-quality local chicken stocks. However, information on local chicken performance is limited, therefore, this study aims to determine the live weight performance of three local Indonesian chicken namely Merawang, Murung Panggang, and KUB in the starter phase. The study was conducted at chicken farm located in Semanu Gunung Kidul, Yogyakarta. Meanwhile, the live weight data were collected at the starter phase (0, 2, and 4 weeks. The samples consisted of 196 Merawang, 157 Murung Panggang, and 416 KUB chickens reared in a battery cage in a closed house under similar conditions. Furthermore, the live weight performance data were analyzed using analysis of variance (ANOVA). As a result, the Merawang chicken had the highest live weight (P<0.05) at the day-old chick (DOC) age. At the same age, no significant difference was detected between the KUB and Murung Panggang chicken (P>0.05). However, the live weight of Murung Panggang was significantly higher at 2 and 4 weeks compared to others (P< 0.05). Therefore, it was concluded that there are variations in the live weight of the three local chickens during the starter phase.