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194 results on '"Weber, Waylon"'

1. The pharmacokinetics of ketamine following intramuscular injection to F344 rats

Author

Moeller, Benjamin, Espelien, Brenna, Weber, Waylon, Kuehl, Philip, Doyle‐Eisele, Melanie, Garner, C Edwin, McDonald, Jacob D, Garcia, Efrain, Raulli, Robert, and Laney, Judith

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Prevention, Neurosciences, Biodefense, Vaccine Related, Good Health and Well Being, Anesthetics, Dissociative, Animals, Injections, Intramuscular, Intramuscular Absorption, Ketamine, Male, Rats, Rats, Inbred F344, Tandem Mass Spectrometry, ketamine, liquid chromatography-mass spectrometry, nerve agent, norketamine, pharmacokinetics, Analytical Chemistry, Biochemistry and Cell Biology, Pharmacology and pharmaceutical sciences
Abstract

Ketamine is a glutamate N-methyl-D-aspartate receptor antagonist that is a rapid-acting dissociative anesthetic. It has been proposed as an adjuvant treatment along with other drugs (atropine, midazolam, pralidoxime) used in the current standard of care (SOC) for organophosphate and nerve agent exposures. Ketamine is a pharmaceutical agent that is readily available to most clinicians in emergency departments and possesses a broad therapeutic index with well-characterized effects in humans. The objective of this study was to determine the pharmacokinetic profile of ketamine and its active metabolite, norketamine, in F344 rats following single or repeated intramuscular administrations of subanesthetic levels (7.5 mg/kg or 30 mg/kg) of ketamine with or without the SOC. Following administration, plasma and brain tissues were collected and analyzed using a liquid chromatography-mass spectrometry method to quantitate ketamine and norketamine. Following sample analysis, the pharmacokinetics were determined using non-compartmental analysis. The addition of the current SOC had a minimal impact on the pharmacokinetics of ketamine following intramuscular administration and repeated dosing at 7.5 mg/kg every 90 minutes allows for sustained plasma concentrations above 100 ng/mL. The pharmacokinetics of ketamine with and without the SOC in rats supports further investigation of the efficacy of ketamine co-administration with the SOC following nerve agent exposure in animal models.

Published
2019

2. Effect of TRPV4 Antagonist GSK2798745 on Chlorine Gas-Induced Acute Lung Injury in a Swine Model

Author

Vermillion, Meghan S., primary, Saari, Nathan, additional, Bray, Mathieu, additional, Nelson, Andrew M., additional, Bullard, Robert L., additional, Rudolph, Karin, additional, Gigliotti, Andrew P., additional, Brendler, Jeffrey, additional, Jantzi, Jacob, additional, Kuehl, Philip J., additional, McDonald, Jacob D., additional, Burgert, Mark E., additional, Weber, Waylon, additional, Sucoloski, Scott, additional, and Behm, David J., additional

Published
2024
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9. Americium systemic model for rats

Author

Melo Dunstana, Miller Guthrie, Klumpp John, Poudel Deepesh, Weber Waylon, Swanson Jasen, and Guilmette Raymond

Subjects
Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991
Published
2019
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22. Dose and Dose-Rate Effects in a Mouse Model of Internal Exposure from 137Cs. Part 2: Integration of Gamma-H2AX and Gene Expression Biomarkers for Retrospective Radiation Biodosimetry.

Author

Shuryak, Igor, Ghandhi, Shanaz A., Turner, Helen C., Weber, Waylon, Melo, Dunstana, Amundson, Sally A., and Brenner, David J.

Subjects
LABORATORY mice, GENE expression, RADIATION dosimetry, RADIATION, STANDARD deviations, BIOMARKERS
Abstract

Inhalation and ingestion of 137Cs and other long-lived radionuclides can occur after large-scale accidental or malicious radioactive contamination incidents, resulting in a complex temporal pattern of radiation dose/dose rate, influenced by radionuclide pharmacokinetics and chemical properties. High-throughput radiation biodosimetry techniques for such internal exposure are needed to assess potential risks of short-term toxicity and delayed effects (e.g., carcinogenesis) for exposed individuals. Previously, we used γ-H2AX to reconstruct injected 137Cs activity in experimentally-exposed mice, and converted activity values into radiation doses based on time since injection and 137Cs-elimination kinetics. In the current study, we sought to assess the feasibility and possible advantages of combining γ-H2AX with transcriptomics to improve 137Cs activity reconstructions. We selected five genes (Atf5, Hist2h2aa2, Olfr358, Psrc1, Hist2h2ac) with strong statistically-significant Spearman's correlations with injected activity and stable expression over time after 137Cs injection. The geometric mean of log-transformed signals of these five genes, combined with γ-H2AX fluorescence, were used as predictors in a nonlinear model for reconstructing injected 137Cs activity. The coefficient of determination (R2) comparing actual and reconstructed activities was 0.91 and root mean squared error (RMSE) was 0.95 MBq. These metrics remained stable when the model was fitted to a randomly-selected half of the data and tested on the other half, repeated 100 times. Model performance was significantly better when compared to our previous analysis using γ-H2AX alone, and when compared to an analysis where genes are used without γ-H2AX, suggesting that integrating γ-H2AX with gene expression provides an important advantage. Our findings show a proof of principle that integration of radiation-responsive biomarkers from different fields is promising for radiation biodosimetry of internal emitters. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Dose and Dose-Rate Effects in a Mouse Model of Internal Exposure to 137Cs. Part 1: Global Transcriptomic Responses in Blood.

Author

Ghandhi, Shanaz A., Sima, Chao, Weber, Waylon M., Melo, Dunstana R., Rudqvist, Nils, Morton, Shad R., Turner, Helen C., and Amundson, Sally A.

Subjects
LABORATORY mice, TRANSCRIPTOMES, RADIATION injuries, ANIMAL disease models, GENE expression
Abstract

Internal contamination by radionuclides may constitute a major source of exposure and biological damage after radiation accidents and potentially in a dirty bomb or improvised nuclear device scenario. We injected male C57BL/6 mice with radiolabeled cesium chloride solution (137CsCl) to evaluate the biological effects of varying cumulative doses and dose rates in a two-week study. Injection activities of 137CsCl were 5.71, 6.78, 7.67 and 9.29 MBq, calculated to achieve a target dose of 4 Gy at days 14, 7, 5 and 3, respectively. We collected whole blood samples at days 2, 3, 5, 7 and 14 so that we can publish the issue in Decemberfrom all injection groups and measured gene expression using Agilent Mouse Whole Genome microarrays. We identified both dose-rate-independent and dose-rate-dependent gene expression responses in the time series. Gene Ontology analysis indicated a rapid and persistent immune response to the chronic low-dose-rate irradiation, consistent with depletion of radiosensitive B cells. Pathways impacting platelet aggregation and TP53 signaling appeared activated, but not consistently at all times in the study. Clustering of genes by pattern and identification of dose-rate-independent and -dependent genes provided insight into possible drivers of the dynamic transcriptome response in vivo, and also indicated that TP53 signaling may be upstream of very different transcript response patterns. This characterization of the biological response of blood cells to internal radiation at varying doses and dose rates is an important step in understanding the effects of internal contamination after a nuclear event. [ABSTRACT FROM AUTHOR]

Published
2021
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24. Americium Systemic Biokinetic Model for Rats

Author

Miller, Guthrie, primary, Klumpp, John A., additional, Poudel, Deepesh, additional, Weber, Waylon, additional, Guilmette, Raymond A., additional, Swanson, Jasen, additional, and Melo, Dunstanta R., additional

Published
2019
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25. Addition of ketamine to standard-of-care countermeasures for acute organophosphate poisoning improves neurobiological outcomes

Author

Lewine, Jeffrey David, primary, Weber, Waylon, additional, Gigliotti, Andrew, additional, McDonald, Jacob D., additional, Doyle-Eisele, Melanie, additional, Bangera, Nitin, additional, Paulson, Kim, additional, Magcalas, Christy, additional, Hamilton, Derek A., additional, Garcia, Efrain, additional, Raulli, Robert, additional, and Laney, Judith, additional

Published
2018
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26. Developing and comparing models of hematopoietic-acute radiation syndrome in Göttingen and Sinclair minipigs.

Author

Doyle-Eisele, Melanie, Brower, Jeremy, Aiello, Kenneth, Ferranti, Emily, Yaeger, Michael, Wu, Guodong, and Weber, Waylon

Subjects
RADIATION injuries, TOTAL body irradiation, BLOOD collection, RADIATION exposure, ARTERIAL catheterization, CLINICAL pathology
Abstract

Current animal models of hematopoietic-acute radiation syndrome (H-ARS) are resource intensive and have limited translation to humans, thereby inhibiting the development of effective medical countermeasures (MCM)s for radiation exposure. To improve the MCM pipeline, we developed models of H-ARS in male Göttingen and Sinclair minipigs. Weight matched Göttingens and Sinclairs received total body irradiation (TBI; 1.50–2.10 Gy and 1.94–2.90 Gy, respectively), were observed for up to 45 days with blood collections for clinical pathology analysis, and were examined during gross necropsy. The lethal dose for 50% of the population over the course of 45 days (LD50/45) with 'field' supportive care (primarily antibiotics and hydration support) and implanted vascular access ports was 1.89 and 2.53 Gy for Göttingens and Sinclairs, respectively. Both minipig strains exhibited prototypical H-ARS characteristics, experiencing thrombocytopenia and neutropenia, and nadirs approximately 14 days following irradiation, slightly varying with dose. Both strains experienced increased bruising, petechia, and signs of internal hemorrhage in the lungs, GI, heart, and skin. All observations were noted to correlate with dose more closely in Sinclairs than in Göttingens. The results of this study provide a template for future MCM development in an alternate species, and support further development of the Göttingen and Sinclair minipig H-ARS models. [ABSTRACT FROM AUTHOR]

Published
2021
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29. Orally administered DTPA di-ethyl ester for decorporation of 241 Am in dogs: Assessment of safety and efficacy in an inhalation-contamination model

Author

Susick, Robert L., Sadgrove, Matthew P., Agha, Bushra J., Leed, Marina G. D., Doyle-Eisele, Melanie, Pacyniak, Erik, Weber, Waylon M., Guilmette, Raymond A., Huckle, James E., Mumper, Russell J., and Jay, Michael

Subjects
organic chemicals
Abstract

Currently two injectable products of diethylenetriaminepentaacetic acid (DTPA) are U.S. Food and Drug Administration (FDA) approved for decorporation of 241Am, however, an oral product is considered more amenable in a mass casualty situation. The diethyl ester of DTPA, named C2E2, is being developed as an oral drug for treatment of internal radionuclide contamination.

Published
2015
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30. Development of a combined radiation and full thickness burn injury minipig model to study the effects of uncultured adipose-derived regenerative cell therapy in wound healing

Author

Foubert, Philippe, primary, Doyle-Eisele, Melanie, additional, Gonzalez, Andreina, additional, Berard, Felipe, additional, Weber, Waylon, additional, Zafra, Diana, additional, Alfonso, Zeni, additional, Zhao, Sherry, additional, Tenenhaus, Mayer, additional, and Fraser, John K., additional

Published
2016
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33. Serum Dyslipidemia Is Induced by Internal Exposure to Strontium-90 in Mice, Lipidomic Profiling Using a Data-Independent Liquid Chromatography–Mass Spectrometry Approach

Author

Goudarzi, Maryam, primary, Weber, Waylon M., additional, Chung, Juijung, additional, Doyle-Eisele, Melanie, additional, Melo, Dunstana R., additional, Mak, Tytus D., additional, Strawn, Steven J., additional, Brenner, David J., additional, Guilmette, Raymond, additional, and Fornace Jr., Albert J., additional

Published
2015
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35. Orally administered DTPA di-ethyl ester for decorporation of241Am in dogs: Assessment of safety and efficacy in an inhalation-contamination model

Author

Huckle, James E., primary, Sadgrove, Matthew P., additional, Pacyniak, Erik, additional, Leed, Marina G. D., additional, Weber, Waylon M., additional, Doyle-Eisele, Melanie, additional, Guilmette, Raymond A., additional, Agha, Bushra J., additional, Susick, Robert L., additional, Mumper, Russell J., additional, and Jay, Michael, additional

Published
2015
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36. Decorporation of Systemically Distributed Americium by a Novel Orally Administered Diethylenetriaminepentaacetic Acid (DTPA) Formulation in Beagle Dogs

Author

Wilson, James P., primary, Cobb, Ronald R., additional, Dungan, Nathanael W., additional, Matthews, Laura L., additional, Eppler, Bärbel, additional, Aiello, Kenneth V., additional, Curtis, Shiro, additional, Boger, Teannetta, additional, Guilmette, Raymond A., additional, Weber, Waylon, additional, Doyle-Eisele, Melanie, additional, and Talton, James D., additional

Published
2015
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37. Development of a combined radiation and full thickness burn injury minipig model to study the effects of uncultured adipose-derived regenerative cell therapy in wound healing.

Author

Foubert, Philippe, Doyle-Eisele, Melanie, Gonzalez, Andreina, Berard, Felipe, Weber, Waylon, Zafra, Diana, Alfonso, Zeni, Zhao, Sherry, Tenenhaus, Mayer, and Fraser, John K.

Subjects
CELLULAR therapy, WOUND healing, RADIOTHERAPY, THROMBOCYTOPENIA treatment, NEUTROPENIA, THERAPEUTICS
Abstract

Purpose:To develop an approach that models the cutaneous healing that occurs in a patient with full thickness thermal burn injury complicated by total body radiation exposure sufficient to induce sub-lethal prodromal symptoms. An assessment of the effects of an autologous cell therapy on wound healing on thermal burn injury with concomitant radiation exposure was used to validate the utility of the model. Methods:Göttingen minipigs were subjected to a 1.2 Gy total body irradiation by exposure to a 6 MV X-ray linear accelerator followed by ∼10 cm2full thickness burns (pre-heated brass block with calibrated spring). Three days after injury, wounds were excised to the underlying fascia and each animal was randomized to receive treatment with autologous adipose-derived regenerative cells (ADRC) delivered by local or intravenous injection, or vehicle control. Blood counts were used to assess radiation-induced marrow suppression. All animals were followed using digital imaging to assess wound healing. Full-thickness biopsies were obtained at 7, 14, 21 and 30 days’ post-treatment. Results:Compared to animals receiving burn injury alone, significant transient neutropenia and thrombocytopenia were observed in irradiated subjects with average neutrophil nadir of 0.79 × 103/μl (day 15) and platelet nadir of 60 × 103/μl (day 12). Wound closure through a combination of contraction and epithelialization from the wound edges occurred over a period of approximately 28 days’ post excision and treatment. Re-epithelialization was accelerated in wounds treated with ADRC (mean 3.5-fold increase at 2 weeks post-treatment relative to control). This acceleration was accompanied by an average 67% increase in blood vessel density and 30% increase in matrix (collagen) deposition. Similar results were observed when ADRC were injected either directly into the wound or by intravenous administration. Conclusions:Although preliminary, this study provides a reproducible minipig model of thermal burn injury complicated by myelosuppressive total body irradiation that utilizes standardized procedures to evaluate novel countermeasures for potential use following attack by an improvised nuclear device. [ABSTRACT FROM PUBLISHER]

Published
2017
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