Your search keyword '"Vicki Huang"' showing total 17 results

1. The Utility of Spectroscopic MRI in Stereotactic Biopsy and Radiotherapy Guidance in Newly Diagnosed Glioblastoma

Author

Abinand C. Rejimon, Karthik K. Ramesh, Anuradha G. Trivedi, Vicki Huang, Eduard Schreibmann, Brent D. Weinberg, Lawrence R. Kleinberg, Hui-Kuo G. Shu, Hyunsuk Shim, and Jeffrey J. Olson

Subjects

spectroscopic MRI, stereotactic biopsy, survival biomarkers, gliomas, radiotherapy, belinostat, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Current diagnostic and therapeutic approaches for gliomas have limitations hindering survival outcomes. We propose spectroscopic magnetic resonance imaging as an adjunct to standard MRI to bridge these gaps. Spectroscopic MRI is a volumetric MRI technique capable of identifying tumor infiltration based on its elevated choline (Cho) and decreased N-acetylaspartate (NAA). We present the clinical translatability of spectroscopic imaging with a Cho/NAA ≥ 5x threshold for delineating a biopsy target in a patient diagnosed with non-enhancing glioma. Then, we describe the relationship between the undertreated tumor detected with metabolite imaging and overall survival (OS) from a pilot study of newly diagnosed GBM patients treated with belinostat and chemoradiation. Each cohort (control and belinostat) were split into subgroups using the median difference between pre-radiotherapy Cho/NAA ≥ 2x and the treated T1-weighted contrast-enhanced (T1w-CE) volume. We used the Kaplan–Meier estimator to calculate median OS for each subgroup. The median OS was 14.4 months when the difference between Cho/NAA ≥ 2x and T1w-CE volumes was higher than the median compared with 34.3 months when this difference was lower than the median. The T1w-CE volumes were similar in both subgroups. We find that patients who had lower volumes of undertreated tumors detected via spectroscopy had better survival outcomes.

Published

2024

2. Mutant Isocitrate Dehydrogenase 1 Expression Enhances Response of Gliomas to the Histone Deacetylase Inhibitor Belinostat

Author

Chi-Ming Chang, Karthik K. Ramesh, Vicki Huang, Saumya Gurbani, Lawrence R. Kleinberg, Brent D. Weinberg, Hyunsuk Shim, and Hui-Kuo G. Shu

Subjects

glioblastoma, HDAC, IDH, sMRI, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Histone deacetylase inhibitors (HDACis) are drugs that target the epigenetic state of cells by modifying the compaction of chromatin through effects on histone acetylation. Gliomas often harbor a mutation of isocitrate dehydrogenase (IDH) 1 or 2 that leads to changes in their epigenetic state presenting a hypermethylator phenotype. We postulated that glioma cells with IDH mutation, due to the presence of epigenetic changes, will show increased sensitivity to HDACis. This hypothesis was tested by expressing mutant IDH1 with a point alteration—converting arginine 132 to histidine—within glioma cell lines that contain wild-type IDH1. Glioma cells engineered to express mutant IDH1 produced D-2-hydroxyglutarate as expected. When assessed for response to the pan-HDACi drug belinostat, mutant IDH1-expressing glioma cells were subjected to more potent inhibition of growth than the corresponding control cells. Increased sensitivity to belinostat correlated with the increased induction of apoptosis. Finally, a phase I trial assessing the addition of belinostat to standard-of-care therapy for newly diagnosed glioblastoma patients included one patient with a mutant IDH1 tumor. This mutant IDH1 tumor appeared to display greater sensitivity to the addition of belinostat than the other cases with wild-type IDH tumors based on both standard magnetic resonance imaging (MRI) and advanced spectroscopic MRI criteria. These data together suggest that IDH mutation status within gliomas may serve as a biomarker of response to HDACis.

Published

2023

3. Spectroscopic MRI-Guided Proton Therapy in Non-Enhancing Pediatric High-Grade Glioma

Author

Vicki Huang, Abinand Rejimon, Kartik Reddy, Anuradha G. Trivedi, Karthik K. Ramesh, Alexander S. Giuffrida, Robert Muiruri, Hyunsuk Shim, and Bree R. Eaton

Subjects

spectroscopic MRI, proton therapy, pediatric high-grade glioma, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Radiation therapy (RT) is a critical part of definitive therapy for pediatric high-grade glioma (pHGG). RT is designed to treat residual tumor defined on conventional MRI (cMRI), though pHGG lesions may be ill-characterized on standard imaging. Spectroscopic MRI (sMRI) measures endogenous metabolite concentrations in the brain, and Choline (Cho)/N-acetylaspartate (NAA) ratio is a highly sensitive biomarker for metabolically active tumor. We provide a preliminary report of our study introducing a novel treatment approach of whole brain sMRI-guided proton therapy for pHGG. An observational cohort (c1 = 10 patients) receives standard of care RT; a therapeutic cohort (c2 = 15 patients) receives sMRI-guided proton RT. All patients undergo cMRI and sMRI, a high-resolution 3D whole-brain echo-planar spectroscopic imaging (EPSI) sequence (interpolated resolution of 12 µL) prior to RT and at several follow-up timepoints integrated into diagnostic scans. Treatment volumes are defined by cMRI for c1 and by cMRI and Cho/NAA ≥ 2x for c2. A longitudinal imaging database is used to quantify changes in lesion and metabolite volumes. Four subjects have been enrolled (c1 = 1/c2 = 3) with sMRI imaging follow-up of 4–18 months. Preliminary data suggest sMRI improves identification of pHGG infiltration based on abnormal metabolic activity, and using proton therapy to target sMRI-defined high-risk regions is safe and feasible.

Published

2023

4. A Novel Approach to Determining Tumor Progression Using a Three-Site Pilot Clinical Trial of Spectroscopic MRI-Guided Radiation Dose Escalation in Glioblastoma

Author

Karthik K. Ramesh, Vicki Huang, Jeffrey Rosenthal, Eric A. Mellon, Mohammed Goryawala, Peter B. Barker, Saumya S. Gurbani, Anuradha G. Trivedi, Alexander S. Giuffrida, Eduard Schreibmann, Hui Han, Macarena de le Fuente, Erin M. Dunbar, Matthias Holdhoff, Lawrence R. Kleinberg, Hui-Kuo G. Shu, Hyunsuk Shim, and Brent D. Weinberg

Subjects

glioblastoma, GBM, spectroscopy, spectroscopic MRI, MRSI, radiation dose-escalation, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Glioblastoma (GBM) is a fatal disease, with poor prognosis exacerbated by difficulty in assessing tumor extent with imaging. Spectroscopic MRI (sMRI) is a non-contrast imaging technique measuring endogenous metabolite levels of the brain that can serve as biomarkers for tumor extension. We completed a three-site study to assess survival benefits of GBM patients when treated with escalated radiation dose guided by metabolic abnormalities in sMRI. Escalated radiation led to complex post-treatment imaging, requiring unique approaches to discern tumor progression from radiation-related treatment effect through our quantitative imaging platform. The purpose of this study is to determine true tumor recurrence timepoints for patients in our dose-escalation multisite study using novel methodology and to report on median progression-free survival (PFS). Follow-up imaging for all 30 trial patients were collected, lesion volumes segmented and graphed, and imaging uploaded to our platform for visual interpretation. Eighteen months post-enrollment, the median PFS was 16.6 months with a median time to follow-up of 20.3 months. With this new treatment paradigm, incidence rate of tumor recurrence one year from treatment is 30% compared to 60–70% failure under standard care. Based on the delayed tumor progression and improved survival, a randomized phase II trial is under development (EAF211).

Published

2023

5. Final Report on Clinical Outcomes and Tumor Recurrence Patterns of a Pilot Study Assessing Efficacy of Belinostat (PXD-101) with Chemoradiation for Newly Diagnosed Glioblastoma

Author

Karen Xu, Karthik Ramesh, Vicki Huang, Saumya S. Gurbani, James Scott Cordova, Eduard Schreibmann, Brent D. Weinberg, Soma Sengupta, Alfredo D. Voloschin, Matthias Holdhoff, Peter B. Barker, Lawrence R. Kleinberg, Jeffrey J. Olson, Hui-Kuo G. Shu, and Hyunsuk Shim

Subjects

glioblastoma, histone deacetylase, epigenetic drug, radiation sensitizer, magnetic resonance spectroscopy, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Glioblastoma (GBM) is highly aggressive and has a poor prognosis. Belinostat is a histone deacetylase inhibitor with blood–brain barrier permeability, anti-GBM activity, and the potential to enhance chemoradiation. The purpose of this clinical trial was to assess the efficacy of combining belinostat with standard-of-care therapy. Thirteen patients were enrolled in each of control and belinostat cohorts. The belinostat cohort was given a belinostat regimen (500–750 mg/m2 1×/day × 5 days) every three weeks (weeks 0, 3, and 6 of RT). All patients received temozolomide and radiation therapy (RT). RT margins of 5–10 mm were added to generate clinical tumor volumes and 3 mm added to create planning target volumes. Median overall survival (OS) was 15.8 months for the control cohort and 18.5 months for the belinostat cohort (p = 0.53). The recurrence volumes (rGTVs) for the control cohort occurred in areas that received higher radiation doses than that in the belinostat cohort. For those belinostat patients who experienced out-of-field recurrence, tumors were detectable by spectroscopic MRI before RT. Recurrence analysis suggests better in-field control with belinostat. This study highlights the potential of belinostat as a synergistic therapeutic agent for GBM. It may be particularly beneficial to combine this radio-sensitizing effect with spectroscopic MRI-guided RT.

Published

2022

6. Double anterior chamber following deep anterior lamellar keratoplasty with endothelium-on donor tissue

Author

Vicki Huang, Vidit Singh, Mohammed Ziaei, and James McKelvie

Subjects

Ophthalmology, General Medicine

Published

2023

7. Spectroscopic MRI-Based Biomarkers Predict Survival for Newly Diagnosed Glioblastoma in a Clinical Trial

Author

Shim, Anuradha G. Trivedi, Karthik K. Ramesh, Vicki Huang, Eric A. Mellon, Peter B. Barker, Lawrence R. Kleinberg, Brent D. Weinberg, Hui-Kuo G. Shu, and Hyunsuk

Subjects

spectroscopic MRI, survival biomarkers, glioblastoma, radiation therapy, dose-escalation

Abstract

Despite aggressive treatment, glioblastoma has a poor prognosis due to its infiltrative nature. Spectroscopic MRI-measured brain metabolites, particularly the choline to N-acetylaspartate ratio (Cho/NAA), better characterizes the extent of tumor infiltration. In a previous pilot trial (NCT03137888), brain regions with Cho/NAA ≥ 2x normal were treated with high-dose radiation for newly diagnosed glioblastoma patients. This report is a secondary analysis of that trial where spectroscopic MRI-based biomarkers are evaluated for how they correlate with progression-free and overall survival (PFS/OS). Subgroups were created within the cohort based on pre-radiation treatment (pre-RT) median cutoff volumes of residual enhancement (2.1 cc) and metabolically abnormal volumes used for treatment (19.2 cc). We generated Kaplan–Meier PFS/OS curves and compared these curves via the log-rank test between subgroups. For the subgroups stratified by metabolic abnormality, statistically significant differences were observed for PFS (p = 0.019) and OS (p = 0.020). Stratification by residual enhancement did not lead to observable differences in the OS (p = 0.373) or PFS (p = 0.286) curves. This retrospective analysis shows that patients with lower post-surgical Cho/NAA volumes had significantly superior survival outcomes, while residual enhancement, which guides high-dose radiation in standard treatment, had little significance in PFS/OS. This suggests that the infiltrating, non-enhancing component of glioblastoma is an important factor in patient outcomes and should be treated accordingly.

Published

2023

8. Patents and Gender: A Big Data Analysis of 15 Years of Australian Patent Applications

Author

Vicki Huang, Sue Finch, and Cameron Patrick

Subjects

General Medicine

Published

2022

9. Final Report on Clinical Outcomes and Tumor Recurrence Patterns of a Pilot Study Assessing Efficacy of Belinostat (PXD-101) with Chemoradiation for Newly Diagnosed Glioblastoma

Author

Hui-Kuo Shu, Alfredo Voloschin, Soma Sengupta, Vicki Huang, Brent D. Weinberg, Jeffrey J. Olson, Peter B. Barker, Saumya S. Gurbani, Karen M. Xu, Karthik Ramesh, Matthias Holdhoff, Lawrence Kleinberg, Hyunsuk Shim, Eduard Schreibmann, and J. Scott Cordova

Subjects

Oncology, medicine.medical_specialty, Sulfonamides, business.industry, Pilot Projects, Newly diagnosed, medicine.disease, Hydroxamic Acids, Tumor recurrence, chemistry.chemical_compound, Text mining, chemistry, Internal medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, Neoplasm Recurrence, Local, business, Glioblastoma, Belinostat, glioblastoma, histone deacetylase, epigenetic drug, radiation sensitizer, magnetic resonance spectroscopy

Abstract

PurposeGlioblastoma (GBM) is highly aggressive with poor prognosis. Belinostat is a histone deacetylase inhibitor with blood–brain barrier permeability, anti-GBM activity, and potential to enhance chemoradiation. The purpose of this clinical trial was to assess the clinical efficacy of combining belinostat with standard-of-care therapy for GBMs. Methods13 patients were enrolled in each of the control and belinostat cohorts. The belinostat cohort was given a belinostat regimen (500-750 mg/m2 1x/day x 5 days) every 3 weeks (weeks 0, 3, and 6 of RT). All patients received temozolomide and radiation therapy (RT). RT margins of 5-10 mm were added to generate clinical tumor volumes and 3 mm added to create planning target volumes. Patient outcomes included progression-free survival, overall survival (OS), and recurrence pattern analysis of enhancing tumor (rGTV). ResultsMedian OS was 15.8 months for the control cohort and 18.5 months for the belinostat cohort (p=0.53). The rGTVs in the control cohort occurred in areas that received higher radiation doses than that in the belinostat cohort. For those belinostat patients who experienced out-of-the field recurrence, tumors were detectable by spectroscopic MRI before RT. ConclusionThe median OS was slightly longer for the belinostat cohort than the control cohort but not statistically significant. Recurrence analysis suggests better in-field control with belinostat, suggesting a radio-sensitizing effect. This study highlights the potential of belinostat as a synergistic therapeutic agent for GBM treatment. It may be particularly beneficial to combine this radio-sensitizing effect with spectroscopic MRI-guided radiation therapy.

Published

2022

10. 3D whole-brain metabolite imaging to improve characterization of low-to-intermediate grade gliomas

Author

Jim Zhong, Jeffrey J. Olson, Hyunsuk Shim, Saumya S. Gurbani, Eduard Schreibmann, Hui-Kuo Shu, Hui Han, Karthik Ramesh, Vicki Huang, Alexander Giuffrida, Brent D. Weinberg, and J. Scott Cordova

Subjects

Cancer Research, medicine.medical_specialty, Stereotactic biopsy, Magnetic Resonance Spectroscopy, Article, 03 medical and health sciences, 0302 clinical medicine, Glioma, Biopsy, medicine, Humans, Prospective Studies, Intermediate Grade, Radiation treatment planning, medicine.diagnostic_test, business.industry, Brain Neoplasms, Astrocytoma, Magnetic resonance spectroscopic imaging, Brain, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, Neurology, Oncology, 030220 oncology & carcinogenesis, Neurology (clinical), Radiology, business, 030217 neurology & neurosurgery

Abstract

PURPOSE. MRI is the standard imaging modality used for diagnosis, treatment planning, and post-treatment management of gliomas. Contrast-enhanced T1-weighted (CE-T1w) MRI is used to plan biopsy and radiation for grade IV gliomas but is less effective for grade II and III gliomas (i.e., low-to-intermediate grade gliomas) which may have minimal or no enhancement. Magnetic resonance spectroscopic imaging (MRSI) is an advanced MRI technique that has been shown, to improve diagnostic yield of biopsy and target delineation for grade IV glioma. The purpose of this study is to determine if MRSI can improve characterization and tissue sampling of low-to-intermediate grade gliomas. METHODS. Prospective grade II and grade III glioma patients were enrolled to undergo whole brain high-resolution MRSI prior to tissue sampling. Choline/N-acetyl-aspartate (Cho/NAA) maps were overlaid on anatomic imaging and imported into stereotactic biopsy software. Patients were treated with standard-of-care surgery and radiation. Volumes of spectroscopically abnormal tissue were generated and compared with anatomic imaging and areas of enhancing recurrence on follow-up imaging. RESULTS. Ten patients had pathologic diagnosis of grade II (n = 4) or grade III (n = 6) with a median follow-up of 27.3 months. Five patients had recurrence, and regions of recurrence were found to overlap with metabolically abnormal regions on MRSI at the time of diagnosis. CONCLUSION. MRSI in low-to-intermediate grade glioma patients is predictive of areas of subsequent recurrence. Larger studies are needed to determine if MRSI can be used to guide surgical and radiation treatment planning in these patients.

Published

2021

11. CTNI-13. UPDATES ON CLINICAL OUTCOMES AND TUMOR RECURRENCE PATTERNS OF A HUMAN PILOT STUDY ASSESSING EFFICACY OF BELINOSTAT (PXD-101) COMBINING WITH CHEMORADIATION IN TREATING GLIOBLASTOMA

Author

Peter B. Barker, Karen M. Xu, Soma Sengupta, Hyunsuk Shim, Karthik Ramesh, Vicki Huang, Alfredo Voloschin, Matthias Holdhoff, Brent D. Weinberg, Lawrence Kleinberg, Hui-Kuo Shu, Eduard Schreibmann, Jeffrey J. Olson, and Saumya S. Gurbani

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Temozolomide, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Clinical Trials: Non-Immunologic, Magnetic resonance imaging, Fluid-attenuated inversion recovery, Blood–brain barrier, medicine.disease, Radiation therapy, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Internal medicine, Troponin I, Medicine, Neurology (clinical), business, Belinostat, medicine.drug, Glioblastoma

Abstract

INTRODUCTION Glioblastoma (GBM) is highly aggressive with poor prognosis. Belinostat is a histone deacetylase inhibitor with blood–brain barrier permeability that has anti-GBM activity and may enhance effects of chemoradiation. Our institution conducted a clinical trial evaluating clinical efficacy of belinostat with standard-of-care therapy for GBMs. METHODS 13 and 14 patients were enrolled into cohort 1 (c1, control) or cohort 2 (c2, belinostat) with 12 in each group with sufficient follow-up MRIs for recurrence analysis. All patients received concurrent, adjuvant temozolomide and focal radiation therapy (RT). For c2 patients, the belinostat regimen (500-750mg/m2 1x/day x 5 days) was given over three cycles every 3 weeks (weeks -1, 2, and 5 of RT). RT margins of 5–10 mm and 3 mm were added to generate clinical tumor volumes and planning target volumes (PTVs). PTV1 (based on FLAIR MRI) and PTV2 (based on CE-T1w MRI) received 51 and 60 Gy, respectively, over 30 fractions. Volume at initial recurrence (rGTV) was contoured. RESULTS Mean age was 58.3 years for c1 and 51.1 years for c2. Patient/tumor characteristics were similar between cohorts. Median OS were 16.6 and 18.5 months for c1 and c2 (p=0.538), respectively. Average minimum, maximum and mean radiation dose to rGTV was 54.1 Gy, 64.2 Gy and 62 Gy, for c1, and 47.5 Gy, 57.6 Gy and 53.5 Gy, for c2 (p=0.322, 0.088 and 0.071), respectively. The mean overlap between rGTV and PTV1/PTV2 for c1 & c2 were 99.2% & 96.9%/99.8% & 78.7% (p=0.489/0.133), respectively. CONCLUSION Median OS was slightly longer for c2 though not statistically significant. rGTV in c1 received higher radiation doses and had more overlap with PTV2 than in c2. Out-of-field recurrence appears more likely in c2 suggesting better infield control with belinostat. This study highlights the potential of belinostat as a synergistic therapeutic agent for GBM treatment.

Published

2020

12. The Longitudinal Imaging Tracker (BrICS-LIT):A Cloud Platform for Monitoring Treatment Response in Glioblastoma Patients

Author

Karthik Ramesh, Vicki Huang, Lawrence Kleinberg, Saumya S. Gurbani, Hyunsuk Shim, Hui-Kuo Shu, Eric A. Mellon, Peter B. Barker, Brent D. Weinberg, and Mohammed Goryawala

Subjects

medicine.medical_specialty, medicine.medical_treatment, longitudinal tracking, Brain tumor, Cloud computing, Fluid-attenuated inversion recovery, Neuroimaging, BT-RADS, medicine, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, Longitudinal Studies, structured reporting, Research Articles, business.industry, glioblastoma, segmentation, Brain Neoplasms, Longitudinal imaging, Cloud Computing, medicine.disease, Magnetic Resonance Imaging, Clinical trial, Radiation therapy, Neoplasm Recurrence, Local, business, Glioblastoma

Abstract

Glioblastoma is a common and aggressive form of brain cancer affecting up to 20,000 new patients in the US annually. Despite rigorous therapies, current median survival is only 15–20 months. Patients who complete initial treatment undergo follow-up imaging at routine intervals to assess for tumor recurrence. Imaging is a central part of brain tumor management, but MRI findings in patients with brain tumor can be challenging to interpret and are further confounded by interpretation variability. Disease-specific structured reporting attempts to reduce variability in imaging results by implementing well-defined imaging criteria and standardized language. The Brain Tumor Reporting and Data System (BT-RADS) is one such framework streamlined for clinical workflows and includes quantitative criteria for more objective evaluation of follow-up imaging. To facilitate accurate and objective monitoring of patients during the follow-up period, we developed a cloud platform, the Brain Imaging Collaborative Suite's Longitudinal Imaging Tracker (BrICS-LIT). BrICS-LIT uses semiautomated tumor segmentation algorithms of both T2-weighted FLAIR and contrast-enhanced T1-weighted MRI to assist clinicians in quantitative assessment of brain tumors. The LIT platform can ultimately guide clinical decision-making for patients with glioblastoma by providing quantitative metrics for BT-RADS scoring. Further, this platform has the potential to increase objectivity when measuring efficacy of novel therapies for patients with brain tumor during their follow-up. Therefore, LIT will be used to track patients in a dose-escalated clinical trial, where spectroscopic MRI has been used to guide radiation therapy (Clinicaltrials.gov NCT03137888), and compare patients to a control group that received standard of care.

Published

2020

13. A multisite clinical trial of spectroscopic MRI-guided radiation dose escalation for newly-diagnosed glioblastomas

Author

Karthik Ramesh, Mohammed Goryawala, Eric A. Mellon, Brent D. Weinberg, Saumya S. Gurbani, Andrew A. Maudsley, Vicki Huang, Lawrence Kleinberg, Peter B. Barker, Eduard Schreibmann, Sulaiman Sheriff, Hyunsuk Shim, and Hui-Kuo George Shu

Subjects

Cancer Research, medicine.medical_specialty, business.industry, medicine.medical_treatment, Radiation dose, Malignant brain tumor, Newly diagnosed, medicine.disease, Radiation therapy, Clinical trial, Oncology, Overall survival, Medicine, Radiology, business, Mri guided, Glioblastoma

Abstract

2018 Background: Glioblastoma (GBM) is the most common adult primary malignant brain tumor. These pts have poor outcomes [median overall survival (OS) ̃ 16 months] despite radiation therapy (RT) to 60 Gy and temozolomide (TMZ). Magnetic resonance spectroscopy (MRS) measures levels of specific metabolites in the brain including choline (Cho) and N-acetyl aspartate (NAA). Previously, we found that high Cho/NAA ratios can aid in localizing regions of brain at high risk for GBM recurrence that may not be appreciated on standard contrast-enhanced (CE) MRI. Based on this finding, we conducted a clinical trial to assess the feasibility and safety of using an advanced volumetric MRS technique termed spectroscopic MRI (sMRI) to guide RT dose escalation for newly-diagnosed GBMs. Methods: Our clinical trial (NCT03137888) funded by the NCI (RO1CA214557) enrolled pts at 3 institutions (Emory U, U Miami, Johns Hopkins U) from 5/2017 to 4/2019. This study was approved by the IRB at each respective institution. Eligibility criteria included newly-diagnosed GBM pts ≥ 18 years of age with a tumor site that could be adequately imaged by sMRI. Cho/NAA ratio was normalized to the contralateral normal appearing white matter (NAWM). For RT planning, standard gross tumor volumes (GTV1 & 2) were defined based on T2-FLAIR and T1 CE MRIs and 5 mm margins were added to generate clinical tumor volumes (CTV1 & 2). GTV3 ( = CTV3, sMRI-defined) was generated by the union of residual CE tumor and Cho/NAA ≥ 2x NAWM. To remain eligible, CTV3 was required to be ≤ 65 cc. Planning target volumes (PTVs) were generated by applying a 3 mm margin around CTVs. 50.1, 60 and 75 Gy in 30 fractions were prescribed to PTV1, PTV2 and PTV3, respectively. All pts received standard concurrent/adjuvant TMZ. Survival curves were generated by the Kaplan-Meier method. Toxicities were assessed according to CTCAE v4.0. Results: 30 pts met eligibility and were treated on study. Mean/median ages were 56.4/58.9 years. 9 pts (30%) were MGMT methylated; 2 pts (6.7%) harbored an IDH1 mutation. With median followup of 21.4 months in censored pts, median OS was 23.0 months. 11 of 30 pts were documented to have experienced grade 3 or greater toxicities that were at least possibly due to their treatment. Of the 7 pts who experienced these by 9 months post-RT, most were attributable to TMZ (thrombocytopenia x 4, thrombocytopenia/neutropenia x 1, transaminitis x 1) and only one case (headaches/fatigue x 1) could potentially be ascribed to RT. Increased risk of pseudoprogression or radiation necrosis, especially beyond 3 months post-RT, was noted but these were clinically manageable and did not result in toxicity ≥ grade 3. Conclusions: Dose-escalated RT to 75 Gy guided by sMRI appears feasible and safe for pts with newly-diagnosed GBMs. OS outcome is also quite promising and warrants additional testing. Based on these results, a phase II randomized trial is planned at ECOG-ACRIN (EAF211). Clinical trial information: NCT03137888.

Published

2021

14. Clinical Outcome Measures for Lateropulsion Poststroke: An Updated Systematic Review

Author

Melissa Mosley, Caitlin Clark, Chad Cook, Ryan Koter, Jeffrey Hoder, Vicki Huang, Erin Wyant, and Sara Regan

Subjects

030506 rehabilitation, medicine.medical_specialty, MEDLINE, Length of hospitalization, Physical Therapy, Sports Therapy and Rehabilitation, Outcome assessment, Sensation Disorders, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Health care, Outcome Assessment, Health Care, medicine, Postural Balance, Humans, Stroke, business.industry, Rehabilitation, Outcome measures, Stroke Rehabilitation, Reproducibility of Results, medicine.disease, Neurology (clinical), 0305 other medical science, business, 030217 neurology & neurosurgery

Abstract

Contraversive Lateropulsion, also referred to as contraversive pushing, pusher behavior, and pusher syndrome, can be associated with increased hospital length of stay, increased health care costs, and delayed outcomes in persons with stroke. The purpose of this updated systematic review was to identify scales used to classify contraversive lateropulsion, investigate literature that addresses their clinimetric properties, and create a resource for clinicians recommending use in clinical practice.Three databases were searched for articles from inception to March 2017. The search strategy followed Cochrane Collaboration guidelines. The Consensus-based Standards for the selection of health Measurement INstruments (COSMIN) checklist was applied to evaluate methodological quality.Four hundred three records were screened. Seven studies met inclusion criteria. Four scales were identified: the Scale for Contraversive Pushing (SCP), the Modified Scale for Contraversive Pushing (M-SCP), the Burke Lateropulsion Scale (BLS), and the Swedish Scale for Contraversive Pushing (S-SCP). Psychometric property investigation was most robust for the SCP and the BLS. Cross-cultural validity has not been fully investigated in scales used outside of their country of origin.The BLS is recommended for identifying contraversive lateropulsion. The scale assesses the presence of contraversive lateropulsion across several functional tasks, from rolling to walking, and is the only scale originally written in English. The BLS is the only tool to receive ratings greater than poor for reliability and responsiveness. The BLS should be implemented as soon as contraversive lateropulsion is suspected to guide frontline clinicians' initial plan of care, allow objective identification of change over time, and facilitate easier investigation of interventional efficacy.Video Abstract available for additional insights from the authors (see Video, Supplemental Digital Content 1, http://links.lww.com/JNPT/A177).

Published

2017

15. Unexpected competitiveness of Methanosaeta populations at elevated acetate concentrations in methanogenic treatment of animal wastewater

Author

Jiang Liu, Terry C. Hazen, Si Chen, Cheng Huicai, Vicki Huang, and Qiang He

Subjects

0301 basic medicine, Methanogenesis, 030106 microbiology, Population, Wastewater, Acetates, Applied Microbiology and Biotechnology, Methanosaeta, Microbiology, 03 medical and health sciences, Bioreactors, Anaerobic digestion, Animals, Waste Water, Food science, Anaerobiosis, education, education.field_of_study, biology, Acetate, Methanosarcinaceae, General Medicine, Methanosarcina, biology.organism_classification, Methanogen, Acetoclastic methanogenesis, Waste treatment, 030104 developmental biology, Anaerobic exercise, Biotechnology

Abstract

© 2016, Springer-Verlag Berlin Heidelberg. Acetoclastic methanogenesis is a key metabolic process in anaerobic digestion, a technology with broad applications in biogas production and waste treatment. Acetoclastic methanogenesis is known to be performed by two archaeal genera, Methanosaeta and Methanosarcina. The conventional model posits that Methanosaeta populations are more competitive at low acetate levels (

Published

2017

16. Laboratory Evaluation of Utilizing Waste Heavy Clay and Foundry Sand Blends as Construction Materials

Author

Baoshan Huang, Vicki Huang, and Qiao Dong

Subjects

Cement, Materials science, Waste management, Compaction, Building and Construction, Proctor compaction test, Atterberg limits, Industrial waste, Compressive strength, Mechanics of Materials, General Materials Science, Direct shear test, Foundry, Civil and Structural Engineering

Abstract

This paper presents a study in which the feasibility of utilizing two industrial wastes, a heavy clay material from the automotive industry and a waste foundry sand from the metallurgical industry, as construction materials was evaluated through laboratory experiments. The laboratory study blended two industrial wastes at different proportions and stabilized the blend with varying amounts of cement. The engineering properties of the blends were evaluated through the Atterberg limits, Proctor compaction test, direct shear, and unconfined compressive strength tests. The results from this study indicate that blending foundry sand into waste heavy clay significantly reduced its plasticity and cohesion and hence made it possible to be further stabilized with cement. In addition, it is observed that the blended materials had other improved properties such as increased maximum dry unit weight, friction angle, and compressive strength. However, the increase in compaction and strength properties became less significant with the increase of foundry sand content. An optimum blending ratio was recommended through this laboratory study.

Published

2014

17. Laboratory Evaluation of Utilizing Waste Heavy Clay and Foundry Sand Blends as Construction Materials.

Author

Qiao Dong, Vicki Huang, and Baoshan Huang

Subjects

*FOUNDRY sand, *CONSTRUCTION materials, *CLAY, *INDUSTRIAL wastes, *MATERIALS compression testing

Abstract

This paper presents a study in which the feasibility of utilizing two industrial wastes, a heavy clay material from the automotive industry and a waste foundry sand from the metallurgical industry, as construction materials was evaluated through laboratory experiments. The laboratory study blended two industrial wastes at different proportions and stabilized the blend with varying amounts of cement. The engineering properties of the blends were evaluated through the Atterberg limits, Proctor compaction test, direct shear, and unconfined compressive strength tests. The results from this study indicate that blending foundry sand into waste heavy clay significantly reduced its plasticity and cohesion and hence made it possible to be further stabilized with cement. In addition, it is observed that the blended materials had other improved properties such as increased maximum dry unit weight, friction angle, and compressive strength. However, the increase in compaction and strength properties became less significant with the increase of foundry sand content. An optimum blending ratio was recommended through this laboratory study. [ABSTRACT FROM AUTHOR]

Published

2014