5 results on '"Shaffer, Terri"'
Search Results
2. Oncolytic measles virus efficacy in murine xenograft models of atypical teratoid rhabdoid tumors
- Author
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Studebaker, Adam W, Hutzen, Brian, Pierson, Christopher R, Shaffer, Terri A, Raffel, Corey, and Jackson, Eric M
- Subjects
Cancer ,Pediatric ,Brain Cancer ,Rare Diseases ,Brain Disorders ,Neurosciences ,Biotechnology ,Good Health and Well Being ,Animals ,Brain ,Cell Line ,Tumor ,Cell Survival ,Chlorocebus aethiops ,Disease Models ,Animal ,Female ,Humans ,Kaplan-Meier Estimate ,Measles virus ,Mice ,Mice ,Nude ,Oncolytic Virotherapy ,Oncolytic Viruses ,Rhabdoid Tumor ,Vero Cells ,Xenograft Model Antitumor Assays ,atypical teratoid rhabdoid tumor ,intravenous ,measles virus ,oncolytic virus ,Oncology and Carcinogenesis ,Oncology & Carcinogenesis - Abstract
BackgroundAtypical teratoid rhabdoid tumor (AT/RT) is a rare, highly malignant pediatric tumor of the central nervous system that is usually refractory to available treatments. The aggressive growth, propensity to disseminate along the neuroaxis, and young age at diagnosis contribute to the poor prognosis. Previous studies have demonstrated the efficacy of using oncolytic measles virus (MV) against localized and disseminated models of medulloblastoma. The purpose of this study was to evaluate the oncolytic potential of MV in experimental models of AT/RT.MethodsFollowing confirmation of susceptibility to MV infection and killing of AT/RT cells in vitro, nude mice were injected with BT-12 and BT-16 AT/RT cells stereotactically into the caudate nucleus (primary tumor model) or lateral ventricle (disseminated tumor model). Recombinant MV was administered either intratumorally or intravenously. Survival was determined for treated and control animals. Necropsy was performed on animals showing signs of progressive disease.ResultsAll cell lines exhibited significant killing when infected with MV, all formed syncytia with infection, and all generated infectious virus after infection. Orthotopic xenografts displayed cells with rhabdoid-like cellular morphology, were negative for INI1 expression, and showed dissemination within the intracranial and spinal subarachnoid spaces. Intratumoral injection of live MV significantly prolonged the survival of animals with intracranial and metastatic tumors.ConclusionThese data demonstrate that AT/RT is susceptible to MV killing and suggest that the virus may have a role in treating this tumor in the clinical setting.
- Published
- 2015
3. A Multimodal Approach to Quantify Chondrocyte Viability for Airway Tissue Engineering.
- Author
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Chan, Coreena, Liu, Lumei, Dharmadhikari, Sayali, Shontz, Kimberly M., Tan, Zheng Hong, Bergman, Maxwell, Shaffer, Terri, Tram, Nguyen K., Breuer, Christopher K., Stacy, Mitchel R., and Chiang, Tendy
- Abstract
Objectives/Hypothesis: Partially decellularized tracheal scaffolds have emerged as a potential solution for long‐segment tracheal defects. These grafts have exhibited regenerative capacity and the preservation of native mechanical properties resulting from the elimination of all highly immunogenic cell types while sparing weakly immunogenic cartilage. With partial decellularization, new considerations must be made about the viability of preserved chondrocytes. In this study, we propose a multimodal approach for quantifying chondrocyte viability for airway tissue engineering. Methods: Tracheal segments (5 mm) were harvested from C57BL/6 mice, and immediately stored in phosphate‐buffered saline at −20°C (PBS‐20) or biobanked via cryopreservation. Stored and control (fresh) tracheal grafts were implanted as syngeneic tracheal grafts (STG) for 3 months. STG was scanned with micro‐computed tomography (μCT) in vivo. STG subjected to different conditions (fresh, PBS‐20, or biobanked) were characterized with live/dead assay, terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL), and von Kossa staining. Results: Live/dead assay detected higher chondrocyte viability in biobanked conditions compared to PBS‐20. TUNEL staining indicated that storage conditions did not alter the proportion of apoptotic cells. Biobanking exhibited a lower calcification area than PBS‐20 in 3‐month post‐implanted grafts. Higher radiographic density (Hounsfield units) measured by μCT correlated with more calcification within the tracheal cartilage. Conclusions: We propose a strategy to assess chondrocyte viability that integrates with vivo imaging and histologic techniques, leveraging their respective strengths and weaknesses. These techniques will support the rational design of partially decellularized tracheal scaffolds. Level of Evidence: N/A Laryngoscope, 133:512–520, 2023 [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. Successful Orthotopic Liver Transplantation in Mice Utilizing Microcomputed Tomography Angiography.
- Author
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Zeng Q, Gouchoe DA, Nabavinia M, Lee YG, Wang X, Shaffer TA, Stacy MR, Peterson BR, Whitson BA, Breuer C, and Black SM
- Subjects
- Mice, Animals, X-Ray Microtomography, Angiography, Computed Tomography Angiography, Anastomosis, Surgical, Liver Transplantation methods
- Abstract
Microcomputed tomography (microCT) angiography is an invaluable resource to researchers. New advances in this technology have allowed for high-quality images to be obtained of micro-vasculature and are high-fidelity tools in the field of organ transplantation. In this model of orthotopic liver transplantation (OLT) in mice, microCT affords the opportunity to evaluate allograft anastomosis in real time and has the added benefit of not having to sacrifice study animals. The choice of contrast, as well as image acquisition settings, create a high-definition image, which gives researchers invaluable information. This allows for evaluation of the technical aspects of the procedure as well as potentially evaluating different therapeutics over an extended duration of time. In this protocol, we detail an OLT model in mice in a stepwise fashion and finally describe a microCT protocol that can give high-quality images, which aid researchers in in-depth analysis of solid organ transplantation. We provide a step-by-step guide for liver transplantation in a mouse, as well as briefly discuss a protocol for evaluating the patency of the graft through microCT angiography.
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- 2023
- Full Text
- View/download PDF
5. Lactobacillus reuteri in its biofilm state promotes neurodevelopment after experimental necrotizing enterocolitis in rats.
- Author
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Wang Y, Jaggers RM, Mar P, Galley JD, Shaffer T, Rajab A, Deshpande S, Mashburn-Warren L, Buzzo JR, Goodman SD, Bailey MT, and Besner GE
- Abstract
Necrotizing enterocolitis (NEC) is a devastating disease affecting premature newborns with no known cure. Up to half of survivors subsequently exhibit cognitive impairment and neurodevelopmental defects. We created a novel probiotics delivery system in which the probiotic Lactobacillus reuteri ( Lr ) was induced to form a biofilm [ Lr (biofilm)] by incubation with dextranomer microspheres loaded with maltose ( Lr -DM-maltose). We have previously demonstrated that a single dose of the probiotic Lr administered in its biofilm state significantly reduces the incidence of NEC and decreases inflammatory cytokine production in an animal model of the disease. The aim of our current study was to determine whether a single dose of the probiotic Lr administered in its biofilm state protects the brain after experimental NEC. We found that rat pups exposed to NEC reached developmental milestones significantly slower than breast fed pups, with mild improvement with Lr (biofilm) treatment. Exposure to NEC had a negative effect on cognitive behavior, which was prevented by Lr (biofilm) treatment. Lr administration also reduced anxiety-like behavior in NEC-exposed rats. The behavioral effects of NEC were associated with increased numbers of activated microglia, decreased myelin basic protein (MBP), and decreased neurotrophic gene expression, which were prevented by administration of Lr (biofilm). Our data indicate early enteral treatment with Lr in its biofilm state prevented the deleterious effects of NEC on developmental impairments.
- Published
- 2021
- Full Text
- View/download PDF
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