RP180178
|
Sherry (PI) |
|
|---|---|---|
| Cancer Prevention and Research Institute of Texas (CPRIT) Title: Imaging glucose stimulated zinc secretion (GSZS) from the prostate by MRI The goal of this project is to evaluate the use of a zinc-sensitive MRI contrast agent for early detection of prostate cancer in rodent and small animal models of disease. |
||
R01 DK095416-06 |
Sherry (PI) |
|
| National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) Title: Imaging beta cell function in vivo with a zinc-responsive MRI contrast agent/strong> The goal is to use a low-affinity Zn2+-sensitive MRI agent to detect early responding islets in the mouse pancreas during phase I insulin secretion and to monitor phase I insulin secretion in diabetic models. |
||
P41 EB015908-29 |
Malloy, Craig R. (PI) |
|
| National Center for In Vivo Metabolism The goal of this project is to develop hyperpolarized agents for imaging glucose production and other pathways, tissue pH, and to develop methods to polarize pyruvate using para-hydrogen. Role: Co-PI of Project 1 |
||
R01 CA115531-11 |
Sherry (PI) |
|
| National Cancer Institute (NCI) PARACEST Agents for Molecular Imaging of Cancer by MRI/strong> The major goal is to develop paramagnetic chemical exchange saturation transfer imaging agents for imaging tissue pH, hypoxia, and other biomarkers. |
||
AT-584 |
Sherry (PI) |
|
| Robert A. Welch Foundation Title: Shift reagents for MRI detection of specific metabolites The purpose of this chemistry grant is to develop newer types of paramagnetic NMR shift reagents for CEST imaging applications. |
||
Past
R01 HL034557 followed by a 10-year R37 grant
|
Sherry (PI) |
|
|---|---|---|
| National Heart, Lung and Blood Institute (NHLBI) Title: Metabolism in the Heart by NMR The principle goal outlined is to develop hyperpolarized 13C techniques to quantitatively measure flux through specific enzyme catalyzed steps in perfused hearts, livers and cancer cells. |
||
RP150456 |
Malloy, Craig R. (PI) |
|
| TAMU–UT Southwestern Partnership for Breast Imaging and Spectroscopy Title: Metabolism in the Heart by NMR To develop 1H and 13C breast imaging at 7 Tesla. |
||
5 R37 HL34557 |
Sherry (PI) |
|
| National Institute of Health MERIT Award$250,000 annual direct cost Title: Metabolism in the Heart by NMR The major goal of this project is to develop hyperpolarized 13C techniques to quantitatively measure flux through specific enzyme catalyzed steps in perfused hearts, livers and cancer cells. 2.40 calendar |
||
2 R01 CA115531 |
Sherry (PI) |
|
| National Institute of Health $168,539 annual direct cost Title: PARACEST Agents for Molecular Imaging of Cancer by MRI The major goal is to develop applications of paramagnetic chemical exchange saturation transfer imaging agents when bound to macromolecules and as small molecule sensors of hypoxia. 1.20 calendar |
||
5 P41 RR02584 |
Malloy (PI) |
|
| National Institute of Health $151,327 annual direct cost Title: Southwestern NMR Center for In Vivo Metabolism – Project 1The goal of this project is to develop CEST imaging techniques to image liver glycogen in vivo, to map tissue pH, and to image the distribution of extracellular glucose in tissues in vivo. 0.72 calendar |
||
RP101243-C01 |
Sherry (PI) |
|
| CPRIT $29,338 annual direct cost Title: Novel MRI and MRS Methods for Imaging Cancer Metabolism: C01 The major goal is the development of biomarkers in tumors to study metabolism, MRI and Hypersense substrates.1.20 calendar |
||
AT-584 |
Sherry (PI) |
|
| The Robert A. Welch Foundation (UTD) $70,000 annual direct cost Title: Lanthanide-based CEST Agents for Metabolic ImagingThe major goal is to synthesize a series of new DOTA-tetraamide ligands with variable steric strain, charges, and redox properties and examine the CEST properties of the resulting lanthanide complexes.0.40 calendar |
||
1R01 DK095416-01A1 |
Sherry (PI) |
|
| National Institute of Health $250,000 annual direct cost Title: Imaging Beta Cell Function in Vivo with Zinc Responsive MRI Contrast Agent The goal is to determine the general utility of a novel Zn2+ sensor molecule, GdDOTA-diBPEN, MRI agent for imaging Beta-cell function in anticipation of translating this technology to clinical imaging.1.20 calendar |
||
2 P01 DK058398-11A1 |
Sherry (PI) |
|
| National Institute of Health/Duke University $100,000 annual direct cost Title: Development of Novel Therapies for NIDDIM: Core A The goal is to provide NMR and tracer core support for the 4 projects of the PO1 grant.0.60 calendar |
||
2 P01 DK058398-11A1 |
Malloy (PI) |
|
| National Institute of Health/Duke University $294,209 annual direct cost Title: Development of Novel Therapies for NIDDIM: Project 40.48 calendar |
||
PC110174 |
Sherry/Khemtong (PI) |
|
| US Department of Defense $75,000 annual direct cost Title: Extracellular pH Imaging of Prostate Tumors by Hyperpolarized 15N MRI The major goal of this award is to explore 15N-enrihed compounds for pH imaging of prostate tumors by hyperpolarized MRI.0.00 calendar |
||
PC110175 |
Sherry/Khemtong (PI) |
|
| US Department of Defense $75,000 annual direct cost Title: Hyperpolarized 15N Magnetic Resonance Imaging of Tumor Hypoxia in Prostrate Cancer This Idea Development award aims to establish hyperpolarized agents for functional imaging of tumor hypoxia in prostate cancer by 15N-magnetic resonance spectroscopic imaging.0.00 calendar |
||
Innovation Award |
Sherry/Anderson (PI) |
|
| American Diabetes Association $47,643 annual direct cost Title: In Vivo Quantification of Beta Cell Function with MRI Using Zinc Responsive Contrast Agents To establish the utility of a novel MRI contrast agent that senses beta cell function by testing it’s sensitivity to changes in pancreas function in a pig model of type 1 diabetes and subsequent beta cell implantation.0.36 calendar |
||
Mentor-Based Predoc Fellowship |
Sherry/Anderson (PI) |
|
| American Diabetes Association $42,910 annual direct cost Title: In Vivo Imaging of Beta cell Function with Zinc responsive MRI Contrast Agents To support a postdoc who will test a novel MRI contrast agent sensitive to pancreatic function by researching its effectiveness and then use the agent as a metric for competing beta cell implantation techniques.0.36 calendar |
||
37-2011-21 |
Li (PI) |
|
| Juvenile Diabetes Research Foundation $227,273 annual direct cost Title: Measuring Beta Cell Function in Human Islets by MRI The major goal is to label human islets with responsive MRI agents for detecting zinc and proton release during insulin secretion.0.60 calendar |
||
1 R03 NS081584-01A1 |
Udugamasooriya (PI) |
|
| National Institute of Health $150,000 Title: Direct Identification of Ready–to-Use Peptoid-DOTA Theranostic Systems The goal is to identify peptoids capable of being generated into a new class of drugs with the potential to impact treatment of multiple types of cancer.0.60 calendar |
||
RO1 EB004582 |
Lenkinski (PI) |
|
| National Institute of Health NIBIB $207,305 Title: PARACEST Agents: Optimization for Human MR Imaging Major Goal: This is a bioengineering partnership application involving further development of the chemistry of PARACEST agents at UT Dallas, development of optimal pulse sequences for clinical scanners at GE Medical, and imaging of PARACEST agents in large animal models (pigs) at UT Southwestern.1.2 calendar |
||
Completed
1 R13 EB015773 |
Sherry (PI) |
|
| National Institutes of Health $25,000 Title: 2012 Metals in Medicine This conference grant is to support travel and registration fees for scientists to attend the 2012 Gordon Research Conference on Metals in Medicine. The conference this year will focus on the development of new metal-based drugs for therapy, imaging, and other clinical applications.0.0 calendar |
||
R01 HL34557 |
Sherry (PI) |
|
| National Institutes of Health Title: Intermediary Metabolism by 13C NMR The major goals of this project are to develop novel 13C and 1H NMR techniques for examining intermediary metabolism in intact tissues and to apply such techniques to significant metabolic issues. Current studies involve the kinetics of 13C labeling of glutamate and other intermediates in isolated rat heart mitochondria and indirect 1H detection of 13C labeling in isolated perfuse mouse hearts. |
||
AT-584 |
Sherry (PI) |
|
| The Robert A. Welch Foundation Title: Lanthanide-based CEST Agents for Molecular Imaging The major goals of this project are to synthesize a series of new DOTA-tetraamide ligands with variable steric strain, charges, and redox properties and examine the CEST properties of the resulting lanthanide complexes. |
||
RO1 CA115531 |
Sherry (PI) |
|
| National Institutes of Health Title: PARACEST Agents for Molecular Imaging of Cancer The major goals of this project are to develop applications of paramagnetic chemical exchange saturation transfer imaging agents when bound to antibody surfaces and as small molecule sensors of hypoxia. |
||
P01 DK058398 |
Newgard (PI) |
|
| National Institutes of Health (renewal – this application) Title: Development of Novel Therapies for NIDDM This is a renewal application for a project grant to continue studies of novel targets and imaging agents for imaging pancreatic beta cell function by MRI and PET. Dr. Christopher Newgard of Duke will become the PI of this program project grant involving several scientists at UTSW and at Duke University. |
||
P41 RR02584 |
Malloy (PI) |
|
| National Institute of Health Research Resources grant (renewal application) Title: Metabolic Imaging Agents The major goals of this project are to develop CEST imaging techniques for determining liver glycogen in animal models, apply glucose sensitive PARACEST agents to image the distribution of glucose in tissues in vivo and to develop new agents for mapping of tissue pH by MRI. |
||
U24 DK-59632 |
Malloy (PI) |
|
| National Institutes of Health Title: Metabolic Phenotyping Center for Mouse Models of Diabetes This project is one element of a national consortium involving three other centers with the shared goal of refining methods for metabolic studies in mice and in providing those methods to the research community. |
||
RO1 EB004582-01 |
Lenkinski (PI) |
|
| National Institutes of Health PARACEST Agents: Optimization for Human MR Imaging This is a bioengineering partnership application involving further development of the chemistry of PARACEST agents at UT Dallas, development of optimal pulse sequences for clinical scanners at GE Medical, and imaging of PARACEST agents in large animal models (pigs) at the Beth Israel Deaconess Medical Center in Boston, MA. |
||