Your search keyword '"Brenner, Matthew"' showing total 1,102 results

1. Too much heat in the kitchen : survey shows toxic work conditions mean many chefs are getting out

Author

Mooney, Shelagh K., Brenner, Matthew, and Robinson, Richard

Published

2024

2. Quantitative assessment of chlorine gas inhalation injury based on endoscopic OCT and spectral encoded interferometric microscope imaging with deep learning.

Author

Zhu, Zhikai, Yang, Hyunmo, Lei, Hongqiu, Miao, Yusi, Philipopoulos, George, Doosty, Melody, Mukai, David, Song, Yuchen, Lee, Jangwoen, Mahon, Sari, Brenner, Matthew, Veress, Livia, White, Carl, Jung, Woonggyu, and Chen, Zhongping

Abstract

Chlorine exposure can cause severe airway injuries. While the acute effects of chlorine inhalation are well-documented, the structural changes resulting from the post-acute, high-level chlorine exposure remain less understood. Airway sloughing is one of the standards for doctors to evaluate the lung function. Here, we report the application of a high-resolution swept-source optical coherence tomography system to investigate the progression of injury based on airway sloughing evaluation in a chlorine inhalation rabbit model. This system employs a 1.2 mm diameter flexible fiberoptic endoscopic probe via an endotracheal tube to capture in vivo large airway anatomical changes before and as early as 30 min after acute chlorine exposure. We conducted an animal study using New Zealand white rabbits exposed to acute chlorine gas (800 ppm, 6 min) during ventilation and monitored them using optical coherence tomography (OCT) for 6 h. To measure the volume of airway sloughing induced by chlorine gas, we utilized deep learning for the segmentation task on OCT images. The results showed that the volume of chlorine induced epithelial sloughing on rabbit tracheal walls initially increased, peaked around 30 min, and then decreased. Furthermore, we utilized a spectral encoded interferometric microscopy system to study ex vivo airway cilia beating dynamics based on Doppler shift, aiding in elucidating how chlorine gas affects cilia beating function. Cilia movability and beating frequency were decreased because of the epithelium damage. This quantitative approach has the potential to enhance the diagnosis and monitoring of injuries from toxic gas inhalation and to evaluate the efficacy of antidote treatments for these injuries.

Published

2024

3. Mass Spectrometric Analysis of Purine Intermediary Metabolism Indicates Cyanide Induces Purine Catabolism in Rabbits.

Author

Morningstar, Jordan, Lee, Jangwoen, Mahon, Sari, Nath, Anjali, and Brenner, Matthew

Subjects

allopurinol, biomarker, cyanide, cytochrome c oxidase (Complex IV), histotoxic hypoxia, mass spectrometry, nucleoside/nucleotide metabolism, preclinical animal model, purine, uric acid

Abstract

Purines are the building blocks of DNA/RNA, energy substrates, and cofactors. Purine metabolites, including ATP, GTP, NADH, and coenzyme A, are essential molecules in diverse biological processes such as energy metabolism, signal transduction, and enzyme activity. When purine levels increase, excess purines are either recycled to synthesize purine metabolites or catabolized to the end product uric acid. Purine catabolism increases during states of low oxygen tension (hypoxia and ischemia), but this metabolic pathway is incompletely understood in the context of histotoxic hypoxia (i.e., inhibition of oxygen utilization despite normal oxygen tension). In rabbits exposed to cyanide-a classical histotoxic hypoxia agent-we demonstrated significant increases in several concordant metabolites in the purine catabolic pathway (including plasma levels of uric acid, xanthosine, xanthine, hypoxanthine, and inosine) via mass spectrometry-based metabolite profiling. Pharmacological inhibition of the purine catabolic pathway with oxypurinol mitigated the deleterious effects of cyanide on skeletal muscle cytochrome c oxidase redox state, measured by non-invasive diffuse optical spectroscopy. Finally, plasma uric acid levels correlated strongly with those of lactic acid, an established clinical biomarker of cyanide exposure, in addition to a tissue biomarker of cyanide exposure (skeletal muscle cytochrome c oxidase redox state). Cumulatively, these findings not only shed light on the in vivo role(s) of cyanide but also have implications in the field of medical countermeasure (MCM) development.

Published

2024

4. Intratracheal cobinamide (vitamin B12 analog) administration increases survivability in rabbits exposed to a lethal dose of inhaled hydrogen sulfide

Author

Park, Seungyong, Mukai, David, Lee, Jangweon, Burney, Tanya, Boss, Gerry, Haouzi, Phillipe, Lee, Jane Annabelle, Kim, Mark Thomas, Fox, Alexis Makenna, Philipopoulos, George, and Brenner, Matthew

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Biodefense, Prevention, Vaccine Related, Rabbits, Animals, Vitamin B 12, Hydrogen Sulfide, Cobamides, Saline Solution, Vitamins, Cobinamide, hydrogen sulfide toxicity, hydrogen sulfide antidote, intratracheal antidote administration, cerebral near infrared spectroscopy, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

BackgroundHydrogen sulfide is a highly toxic, flammable, and colorless gas. Hydrogen sulfide has been identified as a potential terrorist chemical threat agent in mass-casualty events. Our previous studies showed that cobinamide, a vitamin B12 analog, effectively reverses the toxicity from hydrogen sulfide poisoning. In this study, we investigate the effectiveness of intratracheally administered cobinamide in treating a lethal dose hydrogen sulfide gas inhalation and compare its performance to saline control administration.MethodsA total of 53 pathogen-free New Zealand White rabbits were used for this study. Four groups were compared: (i) received no saline solution or drug intratracheally (n = 15), (ii) slow drip saline intratracheally (n = 15), (iii) fast drip saline intratracheally (n = 15), and (iv) slow drip cobinamide intratracheally (n = 8). Blood pressure was continuously monitored, and deoxy- and oxyhemoglobin concentration changes were monitored in real-time in vivo using continuous wave near-infrared spectroscopy.ResultsThe mean (± standard deviation) weight for all animals (n = 53) was 3.87 ± 0.10 kg. The survival rates of the slow cobinamide and the fast saline groups were 75 percent and 60 percent, respectively, while the survival rates in the slow saline and control groups were 26.7 percent and 20 percent, respectively. A log-rank (Mantel-Cox) test showed that survival in fast saline and slow cobinamide groups were significantly greater than those of no saline control and slow saline groups (P

Published

2024

5. Intramuscular administration of glyoxylate rescues swine from lethal cyanide poisoning and ameliorates the biochemical sequalae of cyanide intoxication

Author

Bebarta, Vik S, Shi, Xu, Zheng, Shunning, Hendry-Hofer, Tara B, Severance, Carter C, Behymer, Matthew M, Boss, Gerry R, Mahon, Sari, Brenner, Matthew, Knipp, Gregory T, Davisson, Vincent Jo, Peterson, Randall T, MacRae, Calum A, Rutter, Jared, Gerszten, Robert E, and Nath, Anjali K

Subjects

Vaccine Related, Biodefense, Prevention, Physical Injury - Accidents and Adverse Effects, Swine, Animals, Cyanides, Disease Models, Animal, Antidotes, Hemodynamics, Glyoxylates, Poisoning, preclinical animal models, glyoxylate, medical countermeasures, cyanide antidotes, swine, metabolism, redox balance, Pharmacology and Pharmaceutical Sciences, Toxicology

Abstract

Cyanide-a fast-acting poison-is easy to obtain given its widespread use in manufacturing industries. It is a high-threat chemical agent that poses a risk of occupational exposure in addition to being a terrorist agent. FDA-approved cyanide antidotes must be given intravenously, which is not practical in a mass casualty setting due to the time and skill required to obtain intravenous access. Glyoxylate is an endogenous metabolite that binds cyanide and reverses cyanide-induced redox imbalances independent of chelation. Efficacy and biochemical mechanistic studies in an FDA-approved preclinical animal model have not been reported. Therefore, in a swine model of cyanide poisoning, we evaluated the efficacy of intramuscular glyoxylate on clinical, metabolic, and biochemical endpoints. Animals were instrumented for continuous hemodynamic monitoring and infused with potassium cyanide. Following cyanide-induced apnea, saline control or glyoxylate was administered intramuscularly. Throughout the study, serial blood samples were collected for pharmacokinetic, metabolite, and biochemical studies, in addition, vital signs, hemodynamic parameters, and laboratory values were measured. Survival in glyoxylate-treated animals was 83% compared with 12% in saline-treated control animals (p

Published

2023

6. Identification of Platinum(II) Sulfide Complexes Suitable as Intramuscular Cyanide Countermeasures

Author

Behymer, Matthew M, Mo, Huaping, Fujii, Naoaki, Suresh, Vallabh, Chan, Adriano, Lee, Jangweon, Nath, Anjali K, Saha, Kusumika, Mahon, Sari B, Brenner, Matthew, MacRae, Calum A, Peterson, Randall, Boss, Gerry R, Knipp, Gregory T, and Davisson, Vincent Jo

Subjects

Prevention, Biodefense, Biotechnology, Vaccine Related, Mice, Rabbits, Animals, Platinum, Zebrafish, Cyanides, Dimethyl Sulfoxide, Ligands, Sulfides, Antineoplastic Agents, Inorganic Chemistry, Medicinal and Biomolecular Chemistry, Organic Chemistry, Toxicology

Abstract

The development of rapidly acting cyanide countermeasures using intramuscular injection (IM) represents an unmet medical need to mitigate toxicant exposures in mass casualty settings. Previous work established that cisplatin and other platinum(II) or platinum(IV)-based agents effectively mitigate cyanide toxicity in zebrafish. Cyanide's in vivo reaction with platinum-containing materials was proposed to reduce the risk of acute toxicities. However, cyanide antidote activity depended on a formulation of platinum-chloride salts with dimethyl sulfoxide (DMSO) followed by dilution in phosphate-buffered saline (PBS). A working hypothesis to explain the DMSO requirement is that the formation of platinum-sulfoxide complexes activates the cyanide scavenging properties of platinum. Preparations of isolated NaPtCl5-DMSO and Na (NH3)2PtCl-DMSO complexes in the absence of excess DMSO provided agents with enhanced reactivity toward cyanide in vitro and fully recapitulated in vivo cyanide rescue in zebrafish and mouse models. The enhancement of the cyanide scavenging effects of the DMSO ligand could be attributed to the activation of platinum(IV) and (II) with a sulfur ligand. Unfortunately, the efficacy of DMSO complexes was not robust when administered IM. Alternative Pt(II) materials containing sulfide and amine ligands in bidentate complexes show enhanced reactivity toward cyanide addition. The cyanide addition products yielded tetracyanoplatinate(II), translating to a stoichiometry of 1:4 Pt to each cyanide scavenger. These new agents demonstrate a robust and enhanced potency over the DMSO-containing complexes using IM administration in mouse and rabbit models of cyanide toxicity. Using the zebrafish model with these Pt(II) complexes, no acute cardiotoxicity was detected, and dose levels required to reach lethality exceeded 100 times the effective dose. Data are presented to support a general chemical design approach that can expand a new lead candidate series for developing next-generation cyanide countermeasures.

Published

2022

7. Treatment of life-threatening H2S intoxication: Lessons from the trapping agent tetranitrocobinamide

Author

Haouzi, Philippe, MacCann, Marissa, Brenner, Matthew, Mahon, Sari, Bebarta, Vikhyat S, Chan, Adriano, Judenherc-Haouzi, Annick, Tubbs, Nicole, and Boss, Gerry R

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Animals, Rats, Coma, Sulfides, Hydrogen Sulfide, Epinephrine, Hydrogen sulfide intoxication, Antidote, Environmental Science and Management, Toxicology, Pharmacology and pharmaceutical sciences, Environmental management, Pollution and contamination

Abstract

We sought to evaluate the efficacy of trapping free hydrogen sulfide (H2S) following severe H2S intoxication. Sodium hydrosulfide solution (NaHS, 20 mg/kg) was administered intraperitoneally in 69 freely moving rats. In a first group (protocol 1), 40 rats were randomly assigned to receive saline (n = 20) or the cobalt compound tetranitrocobinamide (TNCbi) (n = 20, 75 mg/kg iv), one minute into coma, when free H2S was still present in the blood. A second group of 27 rats received TNCbi or saline, following epinephrine, 5 min into coma, when the concentration of free H2S has drastically decreased in the blood. In protocol 1, TNCbi significantly increased immediate survival (65 vs 20 %, p

Published

2022

8. Methyl mercaptan gas: mechanisms of toxicity and demonstration of the effectiveness of cobinamide as an antidote in mice and rabbits

Author

Philipopoulos, George P, Tat, John, Chan, Adriano, Jiang, Jingjing, Mukai, David, Burney, Tanya, Doosty, Melody, Mahon, Sari, Patel, Hemal H, White, Carl W, Brenner, Matthew, Lee, Jangwoen, and Boss, Gerry R

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Prevention, Biodefense, Neurosciences, Vaccine Related, Animals, Antidotes, Chlorocebus aethiops, Cobamides, Humans, Mice, Rabbits, Sulfhydryl Compounds, Vitamin B 12, Methyl mercaptan, cobinamide, rescue, Pharmacology and Pharmaceutical Sciences, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

ContextMethyl mercaptan (CH3SH) is a colorless, toxic gas with potential for occupational exposure and used as a weapon of mass destruction. Inhalation at high concentrations can result in dyspnea, hypoventilation, seizures, and death. No specific methyl mercaptan antidote exists, highlighting a critical need for such an agent. Here, we investigated the mechanism of CH3SH toxicity, and rescue from CH3SH poisoning by the vitamin B12 analog cobinamide, in mammalian cells. We also developed lethal CH3SH inhalation models in mice and rabbits, and tested the efficacy of intramuscular injection of cobinamide as a CH3SH antidote.ResultsWe found that cobinamide binds to CH3SH (Kd = 84 µM), and improved growth of cells exposed to CH3SH. CH3SH reduced cellular oxygen consumption and intracellular ATP content and activated the stress protein c-Jun N-terminal kinase (JNK); cobinamide reversed these changes. A single intramuscular injection of cobinamide (20 mg/kg) rescued 6 of 6 mice exposed to a lethal dose of CH3SH gas, while all six saline-treated mice died (p = 0.0013). In rabbits exposed to CH3SH gas, 11 of 12 animals (92%) treated with two intramuscular injections of cobinamide (50 mg/kg each) survived, while only 2 of 12 animals (17%) treated with saline survived (p = 0.001).ConclusionWe conclude that cobinamide could potentially serve as a CH3SH antidote.

Published

2022

9. Development of sodium tetrathionate as a cyanide and methanethiol antidote

Author

Chan, Adriano, Lee, Jangwoen, Bhadra, Subrata, Bortey-Sam, Nesta, Hendry-Hofer, Tara B, Bebarta, Vikhyat S, Mahon, Sari B, Brenner, Matthew, Logue, Brian, Pilz, Renate B, and Boss, Gerry R

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Vaccine Related, Prevention, Biodefense, Animals, Antidotes, CHO Cells, Cricetinae, Cricetulus, Cyanides, Humans, Mice, Rabbits, Rats, Sulfhydryl Compounds, Tetrathionic Acid, Thiosulfates, Cyanide, methanethiol, mice, rabbits, sodium tetrathionate, sodium thiosulfate, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

ContextHydrogen cyanide and methanethiol are two toxic gases that inhibit mitochondrial cytochrome c oxidase. Cyanide is generated in structural fires and methanethiol is released by decaying organic matter. Current treatments for cyanide exposure do not lend themselves to treatment in the field and no treatment exists for methanethiol poisoning. Sodium tetrathionate (tetrathionate), a product of thiosulfate oxidation, could potentially serve as a cyanide antidote, and, based on its chemical structure, we hypothesized it could react with methanethiol.ResultsWe show that tetrathionate, unlike thiosulfate, reacts directly with cyanide in vitro under physiological conditions, and based on rabbit studies where we monitor cyanide poisoning in real-time, tetrathionate likely reacts directly with cyanide in vivo. We found that tetrathionate administered by intramuscular injection rescues >80% of juvenile, young adult, and old adult mice from exposure to inhaled hydrogen cyanide gas that is >80% lethal. Tetrathionate also rescued young adult rabbits from intravenously administered sodium cyanide. Tetrathionate was reasonably well-tolerated by mice and rats, yielding a therapeutic index of ∼5 in juvenile and young adult mice, and ∼3.3 in old adult mice; it was non-mutagenic in Chinese Hamster ovary cells and by the Ames bacterial test. We found by gas chromatography-mass spectrometry that both tetrathionate and thiosulfate react with methanethiol to generate dimethyldisulfide, but that tetrathionate was much more effective than thiosulfate at recovering intracellular ATP in COS-7 cells and rescuing mice from a lethal exposure to methanethiol gas.ConclusionWe conclude that tetrathionate has the potential to be an effective antidote against cyanide and methanethiol poisoning.

Published

2022

10. Glyoxylate protects against cyanide toxicity through metabolic modulation

Author

Nielson, Jason R, Nath, Anjali K, Doane, Kim P, Shi, Xu, Lee, Jangwoen, Tippetts, Emily G, Saha, Kusumika, Morningstar, Jordan, Hicks, Kevin G, Chan, Adriano, Zhao, Yanbin, Kelly, Amy, Hendry-Hofer, Tara B, Witeof, Alyssa, Sips, Patrick Y, Mahon, Sari, Bebarta, Vikhyat S, Davisson, Vincent Jo, Boss, Gerry R, Rutter, Jared, MacRae, Calum A, Brenner, Matthew, Gerszten, Robert E, and Peterson, Randall T

Subjects

Vaccine Related, Prevention, Biodefense, Animals, Cyanides, Glyoxylates, Mammals, Pyruvic Acid, Zebrafish

Abstract

Although cyanide's biological effects are pleiotropic, its most obvious effects are as a metabolic poison. Cyanide potently inhibits cytochrome c oxidase and potentially other metabolic enzymes, thereby unleashing a cascade of metabolic perturbations that are believed to cause lethality. From systematic screens of human metabolites using a zebrafish model of cyanide toxicity, we have identified the TCA-derived small molecule glyoxylate as a potential cyanide countermeasure. Following cyanide exposure, treatment with glyoxylate in both mammalian and non-mammalian animal models confers resistance to cyanide toxicity with greater efficacy and faster kinetics than known cyanide scavengers. Glyoxylate-mediated cyanide resistance is accompanied by rapid pyruvate consumption without an accompanying increase in lactate concentration. Lactate dehydrogenase is required for this effect which distinguishes the mechanism of glyoxylate rescue as distinct from countermeasures based solely on chemical cyanide scavenging. Our metabolic data together support the hypothesis that glyoxylate confers survival at least in part by reversing the cyanide-induced redox imbalances in the cytosol and mitochondria. The data presented herein represent the identification of a potential cyanide countermeasure operating through a novel mechanism of metabolic modulation.

Published

2022

11. Efficacy of oral administration of sodium thiosulfate in a large, swine model of oral cyanide toxicity

Author

Ng, Patrick C, Hendry-Hofer, Tara B, Brenner, Matthew, Mahon, Sari B, Boss, Gerry R, Maddry, Joseph K, and Bebarta, Vikhyat S

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Dental/Oral and Craniofacial Disease, Prevention, Pediatric, Administration, Oral, Animals, Antidotes, Cyanides, Humans, Models, Animal, Swine, Thiosulfates, Treatment Outcome, Cyanide, Ingestion, Sodium thiosulfate, Antidote, Countermeasure, Clinical sciences, Pharmacology and pharmaceutical sciences

Abstract

IntroductionCyanide is a deadly poison, particularly with oral exposure where larger doses can occur before symptoms develop. Prior studies and multiple governmentagencies highlight oral cyanide as an agent with the potential for use in a terrorist attack. Currently, there are no FDA approved antidotes specific to oralcyanide. An oral countermeasure that can neutralize and prevent absorption of cyanide from the GI tract after oral exposure is needed. Our objective was toevaluate the efficacy of oral sodium thiosulfate on survival and clinical outcomes in a large, swine model of severe cyanide toxicity.MethodsSwine (45-55kg) were instrumented, sedated, and stabilized. Potassium cyanide (8 mg/kg KCN) in saline was delivered as a one-time bolus via an orogastric tube. Three minutes after cyanide, animals randomized to the treatment group received sodium thiosulfate (510 mg/kg, 3.25 M solution) via orogastric tube. Our primary outcome was survival at 60 minutes after exposure. We compared survival between groups by log-rank, Mantel-Cox analysis and trended labs and vital signs.ResultsAt baseline and time of treatment all animals had similar weights, vital signs, and laboratory values. Survival at 60 min was 100% in treated animals compared to 0% in the control group (p=0.0027). Animals in the control group became apneic and subsequently died by 35.0 min (20.2,48.5) after cyanide exposure. Mean arterial pressure was significantly higher in the treatment group compared to controls (p=0.008). Blood lactate (p=0.02) and oxygen saturation (p=0.02) were also significantly different between treatment and control groups at study end.ConclusionOral administration of sodium thiosulfate improved survival, blood pressure, respirations, and blood lactate concentrations in a large animal model of acute oral cyanide toxicity.

Published

2021

12. Intramuscular cobinamide as an antidote to methyl mercaptan poisoning

Author

Hendry-Hofer, Tara B, Ng, Patrick C, McGrath, Alison M, Soules, Kirsten, Mukai, David S, Chan, Adriano, Maddry, Joseph K, White, Carl W, Lee, Jangwoen, Mahon, Sari B, Brenner, Matthew, Boss, Gerry R, and Bebarta, Vikhyat S

Subjects

Prevention, Animals, Antidotes, Cobamides, Female, Inhalation Exposure, Injections, Intramuscular, Male, Random Allocation, Sulfhydryl Compounds, Swine, Methyl mercaptan, methanethiol, cobinamide, inhalation, swine, Pharmacology and Pharmaceutical Sciences, Toxicology

Abstract

BackgroundMethyl mercaptan occurs naturally in the environment and is found in a variety of occupational settings, including the oil, paper, plastics, and pesticides industries. It is a toxic gas and deaths from methyl mercaptan exposure have occurred. The Department of Homeland Security considers it a high threat chemical agent that could be used by terrorists. Unfortunately, no specific treatment exists for methyl mercaptan poisoning.MethodsWe conducted a randomized trial in 12 swine comparing no treatment to intramuscular injection of the vitamin B12 analog cobinamide (2.0 mL, 12.5 mg/kg) following acute inhalation of methyl mercaptan gas. Physiological and laboratory parameters were similar in the control and cobinamide-treated groups at baseline and at the time of treatment.ResultsAll six cobinamide-treated animals survived, whereas only one of six control animals lived (17% survival) (p = 0.0043). The cobinamide-treated animals returned to a normal breathing pattern by 3.8 ± 1.1 min after treatment (mean ± SD), while all but one animal in the control group had intermittent gasping, never regaining a normal breathing pattern. Blood pressure and arterial oxygen saturation returned to baseline values within 15 minutes of cobinamide-treatment. Plasma lactate concentration increased progressively until death (10.93 ± 6.02 mmol [mean ± SD]) in control animals, and decreased toward baseline (3.79 ± 2.93 mmol [mean ± SD]) by the end of the experiment in cobinamide-treated animals.ConclusionWe conclude that intramuscular administration of cobinamide improves survival and clinical outcomes in a large animal model of acute, high dose methyl mercaptan poisoning.

Published

2021

13. Diagnosis of cyanide poisoning using an automated, field-portable sensor for rapid analysis of blood cyanide concentrations

Author

Bortey-Sam, Nesta, Jackson, Randy, Gyamfi, Obed A, Bhadra, Subrata, Freeman, Caleb, Mahon, Sari B, Brenner, Matthew, Rockwood, Gary A, and Logue, Brian A

Subjects

Analytical Chemistry, Chemical Sciences, Animals, Automation, Cyanides, Gas Chromatography-Mass Spectrometry, Rabbits, Spectrophotometry, Ultraviolet, Acidification, Validation, Sensor, Spectrophotometry, LOD, Other Chemical Sciences, Analytical chemistry, Chemical engineering, Nanotechnology

Abstract

Cyanide (both HCN and CN- are represented by CN) has multiple industrial applications, is commonly found in some foods, and is a component of fire smoke. Upon exposure, CN blocks production of adenosine triphosphate, causing cellular hypoxia and cytotoxic anoxia, which can eventually result in death. Considering CN's quick onset of action and the long analysis times associated with current techniques, the objective of this study was to develop and validate a rapid and field-portable sensor to detect blood CN concentrations focusing on both concentration and diagnostic accuracy. The sensor takes advantage of the chemical properties of CN by converting it exclusively to HCN via acidification of whole blood. High-speed headspace transfer is used to deliver HCN to a capture solution where it is reacted with naphthalene dialdehyde and taurine to produce a fluorescent β-isoindole product. Simple spectrofluorometric analysis of the product provides quantitative analysis of CN from whole blood in 60 s and requires only 25 μL of blood (obtainable via fingerstick). A limit of detection of 5 μM, a linear range of 10-200 μM (with ≥15 μM considered CN exposed), and excellent accuracy (100 ± 15%) and precision (≤15.2% relative standard deviation) were obtained. To evaluate the diagnostic accuracy of the sensor, rabbit blood samples (N = 190, including 24 blinded samples) were analyzed by both the sensor and a lab-based spectrophotometric method. An excellent positive correlation was obtained between the sensor and the lab-based method (R2 ˃ 0.995) confirming the concentration accuracy of the CN sensor. Moreover, the sensor produced no false positives or negatives when diagnosing CN poisoning.

Published

2020

14. Intramuscular sodium tetrathionate as an antidote in a clinically relevant swine model of acute cyanide toxicity

Author

Hendry-Hofer, Tara B, Witeof, Alyssa E, Ng, Patrick C, Mahon, Sari B, Brenner, Matthew, Boss, Gerry R, and Bebarta, Vikhyat S

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Biodefense, Vaccine Related, Prevention, Lung, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Animals, Antidotes, Cyanides, Disease Models, Animal, Female, Injections, Intramuscular, Swine, Tetrathionic Acid, Cyanide poisoning, sodium tetrathionate, terrorism, potassium cyanide, swine, intramuscular, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

Background: Cyanide is a metabolic poison used in multiple industries and is a high threat chemical agent. Current antidotes require intravenous administration, limiting their usefulness in a mass casualty scenario. Sodium tetrathionate reacts directly with cyanide yielding thiosulfate and the non-toxic compound thiocyanate. Thiosulfate, in turn, neutralizes a second molecule of cyanide, thus, per mole, sodium tetrathionate neutralizes two moles of cyanide. Historical studies examined its efficacy as a cyanide antidote, but it has not been evaluated in a clinically relevant, large animal model, nor has it previously been administered by intramuscular injection.Objective: The objective of this study is to evaluate the efficacy of intramuscular sodium tetrathionate on survival and clinical outcomes in a large, swine model of severe cyanide toxicity.Methods: Anesthetized swine were instrumented for continuous monitoring of hemodynamics, then acclimated and breathing spontaneously prior to potassium cyanide infusion (0.17 mg/kg/min). At 6-min post-apnea (no breaths for 20 s), the cyanide infusion was terminated, and animals were treated with sodium tetrathionate (∼18 mg/kg) or normal saline control. Clinical parameters and laboratory values were evaluated at various time points until death or termination of the experiment (90 min post-treatment).Results: Laboratory values, vital signs, and time to apnea were similar in both groups at baseline and treatment. Survival in the sodium tetrathionate treated group was 100% and 17% in controls (p = 0.0043). All animals treated with sodium tetrathionate returned to breathing at a mean time of 10.85 min after antidote, and all but one control remained apneic through end of the experiment. Animals treated with tetrathionate showed improvement in blood lactate (p ≤ 0.002) starting at 30 min post-treatment. The average time to death in the control group is 63.3 ± 23.2 min. No systemic or localized adverse effects of intramuscular administration of sodium tetrathionate were observed.Conclusion: Sodium tetrathionate significantly improves survival and clinical outcomes in a large, swine model of acute cyanide poisoning.

Published

2020

15. CPAP-to-Ventilator: Open-Source Documentation, UC Irvine

Author

Dunn, Cody E., Crouzet, Christian, Keating, Mark T., Phan, Thinh, Brenner, Matthew, Botvinick, Elliot L., Choi, Bernard, Hakimi, Amir A., editor, Milner, Thomas E., editor, Rajan, Govind R., editor, and Wong, Brian J-F, editor

Published

2022

16. Hydrogen Sulfide Toxicity: Mechanism of Action, Clinical Presentation, and Countermeasure Development

Author

Ng, Patrick C, Hendry-Hofer, Tara B, Witeof, Alyssa E, Brenner, Matthew, Mahon, Sari B, Boss, Gerry R, Haouzi, Philippe, and Bebarta, Vikhyat S

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Vaccine Related, Prevention, Biodefense, Antidotes, Chemically-Induced Disorders, Environmental Exposure, Humans, Hydrogen Sulfide, Hydrogen sulfide, Countermeasure, Sulfide, Mitochondrial toxin, Clinical Sciences, Pharmacology and Pharmaceutical Sciences, Clinical sciences, Pharmacology and pharmaceutical sciences

Abstract

IntroductionHydrogen sulfide (H2S) is found in various settings. Reports of chemical suicide, where individuals have combined readily available household chemicals to produce lethal concentrations of H2S, have demonstrated that H2S is easily produced. Governmental agencies have warned of potential threats of use of H2S for a chemical attack, but currently there are no FDA-approved antidotes for H2S. An ideal antidote would be one that is effective in small volume, readily available, safe, and chemically stable. In this paper we performed a review of the available literature on the mechanism of toxicity, clinical presentation, and development of countermeasures for H2S toxicity.DiscussionIn vivo, H2S undergoes an incomplete oxidation after an exposure. The remaining non-oxidized H2S is found in dissolved and combined forms. Dissolved forms such as H2S gas and sulfhydryl anion can diffuse between blood and tissue. The combined non-soluble forms are found as acid-labile sulfides and sulfhydrated proteins, which play a role in toxicity. Recent countermeasure development takes into account the toxicokinetics of H2S. Some countermeasures focus on binding free hydrogen sulfide (hydroxocobalamin, cobinamide); some have direct effects on the mitochondria (methylene blue), while others work by mitigating end organ damage by generating other substances such as nitric oxide (NaNO2).ConclusionH2S exists in two main pools in vivo after exposure. While several countermeasures are being studied for H2S intoxication, a need exists for a small-volume, safe, highly effective antidote with a long shelf life to treat acute toxicity as well as prevent long-term effects of exposure.

Published

2019

17. Intramuscular dimethyl trisulfide: efficacy in a large swine model of acute severe cyanide toxicity

Author

Hendry-Hofer, Tara B, Witeof, Alyssa E, Lippner, Dennean S, Ng, Patrick C, Mahon, Sari B, Brenner, Matthew, Rockwood, Gary A, and Bebarta, Vikhyat S

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Lung, Prevention, Animals, Antidotes, Disease Models, Animal, Female, Injections, Intramuscular, Potassium Cyanide, Sulfides, Swine, Toxicity Tests, Acute, Treatment Outcome, Cyanide poisoning, DMTS, dimethyl trisulfide, terrorism, KCN, swine, intramuscular, Pharmacology and Pharmaceutical Sciences, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

BackgroundCyanide is a deadly compound used as a terrorist agent. Current FDA approved antidotes require intravenous administration, limiting their utility in a mass casualty scenario. Dimethyl trisulfide (DMTS), a sulfur-based molecule, binds cyanide converting it to the less toxic by-product thiocyanate. Studies evaluating efficacy in rodents have been performed, but a large, clinically relevant animal model has not been reported.ObjectiveThis study evaluates the efficacy of intramuscular DMTS on survival and clinical outcomes in a swine model of acute, severe cyanide toxicity.MethodsAnesthetized swine were instrumented for continuous monitoring of hemodynamics. Prior to potassium cyanide infusion animals were acclimated and breathing spontaneously. At 5-minutes post-apnea animals were treated with DMTS or saline. Vital signs, hemodynamics, and laboratory values were evaluated at various time points.ResultsBaseline values and time to apnea were similar in both groups. Survival in the DMTS treated group was 83.3% and 0% in saline controls (p = .005). The DMTS group returned to breathing at a mean time of 19.3 ± 10 min after antidote, control animals did not return to breathing (CI difference 8.8, 29.8). At the end of the experiment or time of death, mean lactate was 9.41 mmol/L vs. 4.35 mmol/L (CI difference -10.94,0.82) in the saline and DMTS groups, respectively and pH was 7.20 vs. 7.37 (CI difference -0.04, 0.38). No adverse effects were observed at the injection site.ConclusionIntramuscular administration of DMTS improves survival and clinical outcomes in our large animal swine model of acute cyanide toxicity.

Published

2019

18. A Review on Ingested Cyanide: Risks, Clinical Presentation, Diagnostics, and Treatment Challenges

Author

Hendry-Hofer, Tara B, Ng, Patrick C, Witeof, Alyssa E, Mahon, Sari B, Brenner, Matthew, Boss, Gerry R, and Bebarta, Vikhyat S

Subjects

Dental/Oral and Craniofacial Disease, Vaccine Related, Biodefense, Prevention, Administration, Oral, Antidotes, Cyanides, Humans, Mass Casualty Incidents, Poisoning, Risk, Terrorism, Toxicokinetics, Cyanide, Ingestion, Diagnosis, Treatment, Clinical Sciences, Pharmacology and Pharmaceutical Sciences

Abstract

Cyanide, a metabolic poison, is a rising chemial threat and ingestion is the most common route of exposure. Terrorist organizations have threatened to attack the USA and international food and water supplies. The toxicokinetics and toxicodynamics of oral cyanide are unique, resulting in high-dose exposures, severe symptoms, and slower onset of symptoms. There are no FDA-approved therapies tested for oral cyanide ingestions and no approved intramuscular or oral therapies, which would be valuable in mass casualty settings. The aim of this review is to evaluate the risks of oral cyanide and its unique toxicokinetics, as well as address the lack of available rapid diagnostics and treatments for mass casualty events. We will also review current strategies for developing new therapies. A review of the literature using the PRISMA checklist detected 7284 articles, screened 1091, and included 59 articles or other reports. Articles referenced in this review were specific to risk, clinical presentation, diagnostics, current treatments, and developing therapies. Current diagnostics of cyanide exposure can take hours or days, which can delay treatment. Moreover, current therapies for cyanide poisoning are administered intravenously and are not specifically tested for oral exposures, which can result in higher cyanide doses and unique toxicodynamics. New therapies developed for oral cyanide exposures that are easily delivered, safe, and can be administered quickly by first responders in a mass casualty event are needed. Current research is aimed at identifying an antidote that is safe, effective, easy to administer, and has a rapid onset of action.

Published

2019

19. Correction to: Monitoring Dose Response of Cyanide Antidote Dimethyl Trisulfide in Rabbits Using Diffuse Optical Spectroscopy

Author

Lee, Jangwoen, Rockwood, Gary, Logue, Brian, Manandhar, Erica, Petrikovics, Ilona, Han, Changhoon, Bebarta, Vikhyat, Mahon, Sari B, Burney, Tanya, and Brenner, Matthew

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Pharmacology and Pharmaceutical Sciences, Clinical sciences, Pharmacology and pharmaceutical sciences

Abstract

The online version of the original article can be found at.

Published

2019

20. Intramuscular cobinamide versus saline for treatment of severe hydrogen sulfide toxicity in swine

Author

Ng, Patrick C, Hendry-Hofer, Tara B, Garrett, Norma, Brenner, Matthew, Mahon, Sari B, Maddry, Joseph K, Haouzi, Philippe, Boss, Gerry R, Gibbons, Thomas F, Araña, Allyson A, and Bebarta, Vikhyat S

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Prevention, Lung, Vaccine Related, Biodefense, Administration, Intravenous, Animals, Antidotes, Apnea, Cobamides, Female, Hydrogen Sulfide, Hypotension, Injections, Intramuscular, Kaplan-Meier Estimate, Saline Solution, Survival Analysis, Swine, Treatment Outcome, Cobinamide, hydrogen sulfide toxicity, resuscitation, swine, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

IntroductionHydrogen sulfide (H2S) is found in petroleum, natural gas, and decaying organic matter. Terrorist groups have attempted to use it in enclosed spaces as a chemical weapon. Mass casualty scenarios have occurred from industrial accidents and release from oil field sites. There is no FDA approved antidote for sulfide poisoning. We have previously reported that intravenous cobinamide is effective for sulfide poisoning. A rapid-acting antidote that is easy to administer intramuscularly (IM) would be ideal for use in a prehospital setting. In this study, we assessed survival in sulfide-poisoned swine treated with IM cobinamide.MethodsEleven swine (45-55 kg) were anesthetized, intubated, and instrumented with continuous femoral and pulmonary artery pressure monitoring. After stabilization, anesthesia was adjusted such that animals ventilated spontaneously with a FiO2 of 0.21. Sodium hydrosulfide (NaHS, 8 mg/mL) was infused intravenously at 0.9 mg/kg.min until apnea or severe hypotension. Animals were randomly assigned to receive cobinamide (4 mg/kg), or no treatment at the apnea/hypotension trigger. The NaHS infusion rate was sustained for 1.5 min post trigger, decreased to 0.2 mg/kg.min for 10 min, and then discontinued.ResultsThe amount of NaHS required to produce apnea or hypotension was not statistically different in both groups (cobinamide: 9.0 mg/kg ±6.1; saline: 5.9 mg/kg ±5.5; mean difference: -3.1, 95% CI: -11.3, 5.0). All of the cobinamide treated animals survived (5/5), none of the control (0/6) animals survived (p

Published

2019

21. Endoscopic Optical Coherence Tomography for Assessing Inhalation Airway Injury: A Technical Review

Author

Miao, Yusi, Brenner, Matthew, and Chen, Zhongping

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Lung, Biomedical Imaging, Bioengineering, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Respiratory, Airway monitoring, Airway obstruction, Endoscopic optical coherence tomography, Inhalation injury

Abstract

Diagnosis of inhalation injury has been clinically challenging. Currently, assessment of inhalation injury relies on subjective clinical exams and bronchoscopy, which provides little understanding of tissue conditions and results in limited prognostics. Endoscopic Optical coherence tomography (OCT) technology has been recently utilized in the airway for direct assessment of respiratory tract disorders and injuries. Endoscopic OCT is capable of capturing high-resolution images of tissue morphology 1-3 mm beneath the surface as well as the complex 3D anatomical shape. Previous studies indicate that changes in airway histopathology can be found in the OCT image almost immediately after inhalation of smoke and other toxic chemicals, which correlates well with histology and pulmonary function tests. This review summarizes the recent development of endoscopic OCT technology for airway imaging, current uses of OCT for inhalation injury, and possible future directions.

Published

2019

22. Monitoring Dose Response of Cyanide Antidote Dimethyl Trisulfide in Rabbits Using Diffuse Optical Spectroscopy

Author

Lee, Jangwoen, Rockwood, Gary, Logue, Brian, Manandhar, Erica, Petrikovics, Ilona, Han, Changhoon, Bebarta, Vik, Mahon, Sari B, Burney, Tanya, and Brenner, Matthew

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Vaccine Related, Biodefense, Prevention, Animals, Antidotes, Carbon Dioxide, Dose-Response Relationship, Drug, Electron Transport Complex IV, Hemoglobins, Oxidation-Reduction, Oxygen Consumption, Rabbits, Sodium Cyanide, Spectrum Analysis, Sulfides, Survival Analysis, Chemical and biological weapons, Cyanide toxicity reversal, Optical hemodynamic monitoring, Dimethyl trisulfide, Lethal cyanide poisoning, Diffuse optical spectroscopy, Clinical sciences, Pharmacology and pharmaceutical sciences

Abstract

IntroductionCyanide (CN) poisoning is a serious chemical threat from accidental or intentional exposures. Current CN exposure treatments, including direct binding agents, methemoglobin donors, and sulfur donors, have several limitations. Dimethyl trisulfide (DMTS) is capable of reacting with CN to form the less toxic thiocyanate with high efficiency, even without the sulfurtransferase rhodanese. We investigated a soluble DMTS formulation with the potential to provide a continuous supply of substrate for CN detoxification which could be delivered via intramuscular (IM) injection in a mass casualty situation. We also used non-invasive technology, diffuse optical spectroscopy (DOS), to monitor physiologic changes associated with CN exposure and reversal.MethodsThirty-six New Zealand white rabbits were infused with a lethal dose of sodium cyanide solution (20 mg/60 ml normal saline). Animals were divided into three groups and treated with saline, low dose (20 mg), or high dose (150 mg) of DMTS intramuscularly. DOS continuously assessed changes in tissue hemoglobin concentrations and cytochrome c oxidase redox state status throughout the experiment.ResultsIM injection of DMTS increased the survival in lethal CN poisoning. DOS demonstrated that high-dose DMTS (150 mg) reversed the effects of CN exposure on cytochrome c oxidase, while low dose (20 mg) did not fully reverse effects, even in surviving animals.ConclusionsThis study demonstrated potential efficacy for the novel approach of supplying substrate for non-rhodanese mediated sulfur transferase pathways for CN detoxification via intramuscular injection in a moderate size animal model and showed that DOS was useful for optimizing the DMTS treatment.

Published

2018

23. Characterization of a Swine (Sus scrofa) Model of Oral Potassium Cyanide Intoxication.

Author

Ng, Patrick C, Hendry-Hofer, Tara B, Witeof, Alyssa E, Brenner, Matthew, Mahon, Sari B, Boss, Gerry R, and Bebarta, Vikhyat S

Subjects

Vaccine Related, Prevention, Biodefense, Lung, Administration, Oral, Animals, Disease Models, Animal, Female, Kaplan-Meier Estimate, Monitoring, Physiologic, Potassium Cyanide, Swine, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Veterinary Sciences

Abstract

Cyanide is a readily available and potentially lethal substance. Oral exposure can result in larger doses, compared with other routes. Currently, there are no antidotes specific for use in the treatment of oral cyanide poisoning, and studies cannot be done in humans. We report on a new large animal model of oral cyanide toxicity to evaluate potential antidotes. Six female swine (Sus scrofa; weight, 45 to 55 kg) were anesthetized, intubated, and instrumented. Animals received a KCN bolus of either 5 or 8 mg/kg delivered via orogastric tube. Time to apnea was recorded; parameters monitored included heart rate, respiratory rate, blood pressure, pulse oximetry, end-tidal CO2, arterial blood gasses, and lactate concentrations. The Welch t test was used to calculate confidence intervals, mean, and standard deviation, and a Kaplan-Meier survival curve was used to compare survival between the 2 groups. At baseline, all animals in both groups were similar. Animals in the 5-mg/kg group had a more rapid time to apnea (5.1 ± 2.1 min), longer time to death (48.5 ± 38.1 min), and a greater rate of survival than the 8-mg/kg group (apnea, 10.6 ± 10.7 min; death, 26.1 ± 5.8 min). All animals displayed signs of toxicity (acidemia, hyperlactatemia, hypotension, apnea). We here report a large animal (swine) model of oral cyanide poisoning with dose-dependent effects in regard to time to death and survival rate. This model likely will be valuable for the development of medical countermeasures for oral cyanide poisoning.

Published

2018

24. Automated 3D segmentation of methyl isocyanate-exposed rat trachea using an ultra-thin, fully fiber optic optical coherence endoscopic probe.

Author

Miao, Yusi, Jing, Joseph C, Desai, Vineet, Mahon, Sari B, Brenner, Matthew, Veress, Livia A, White, Carl W, and Chen, Zhongping

Subjects

Trachea, Animals, Rats, Rats, Sprague-Dawley, Isocyanates, Imaging, Three-Dimensional, Tomography, Optical Coherence, Endoscopy, Algorithms, Male, Sprague-Dawley, Imaging, Three-Dimensional, Tomography, Optical Coherence, Biomedical Imaging, Bioengineering, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

Development of effective rescue countermeasures for toxic inhalational industrial chemicals, such as methyl isocyanate (MIC), has been an emerging interest. Nonetheless, current methods for studying toxin-induced airway injuries are limited by cost, labor time, or accuracy, and only provide indirect or localized information. Optical Coherence Tomography (OCT) endoscopic probes have previously been used to visualize the 3-D airway structure. However, gathering such information in small animal models, such as rat airways after toxic gas exposure, remains a challenge due to the required probe size necessary for accessing the small, narrow, and partially obstructed tracheas. In this study, we have designed a 0.4 mm miniature endoscopic probe and investigated the structural changes in rat trachea after MIC inhalation. An automated 3D segmentation algorithm was implemented so that anatomical changes, such as tracheal lumen volume and cross-sectional areas, could be quantified. The tracheal region of rats exposed to MIC by inhalation showed significant airway narrowing, especially within the upper trachea, as a result of epithelial detachment and extravascular coagulation within the airway. This imaging and automated reconstruction technique is capable of rapid and minimally-invasive identification of airway obstruction. This method can be applied to large-scale quantitative analysis of in vivo animal models.

Published

2018

25. Quantitative real-time optical imaging of the tissue metabolic rate of oxygen consumption

Author

Ghijsen, Michael, Lentsch, Griffin R, Gioux, Sylvain, Brenner, Matthew, Durkin, Anthony J, Choi, Bernard, and Tromberg, Bruce J

Subjects

Engineering, Biomedical Engineering, Bioengineering, Biomedical Imaging, Adult, Equipment Design, Hand, Hemoglobins, Humans, Male, Optical Imaging, Organ Specificity, Oxygen Consumption, Oxyhemoglobins, Phantoms, Imaging, tissue metabolism, tissue optics, scattering, absorption, speckle contrast, Optical Physics, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Abstract

The tissue metabolic rate of oxygen consumption (tMRO2) is a clinically relevant marker for a number of pathologies including cancer and arterial occlusive disease. We present and validate a noncontact method for quantitatively mapping tMRO2 over a wide, scalable field of view at 16  frames  /  s. We achieve this by developing a dual-wavelength, near-infrared coherent spatial frequency-domain imaging (cSFDI) system to calculate tissue optical properties (i.e., absorption, μa, and reduced scattering, μs', parameters) as well as the speckle flow index (SFI) at every pixel. Images of tissue oxy- and deoxyhemoglobin concentration (  [  HbO2  ]   and [HHb]) are calculated from optical properties and combined with SFI to calculate tMRO2. We validate the system using a series of yeast-hemoglobin tissue-simulating phantoms and conduct in vivo tests in humans using arterial occlusions that demonstrate sensitivity to tissue metabolic oxygen debt and its repayment. Finally, we image the impact of cyanide exposure and toxicity reversal in an in vivo rabbit model showing clear instances of mitochondrial uncoupling and significantly diminished tMRO2. We conclude that dual-wavelength cSFDI provides rapid, quantitative, wide-field mapping of tMRO2 that can reveal unique spatial and temporal dynamics relevant to tissue pathology and viability.

Published

2018

26. Identification of specific metabolic pathways as druggable targets regulating the sensitivity to cyanide poisoning.

Author

Sips, Patrick Y, Shi, Xu, Musso, Gabriel, Nath, Anjali K, Zhao, Yanbin, Nielson, Jason, Morningstar, Jordan, Kelly, Amy E, Mikell, Brittney, Buys, Eva, Bebarta, Vikhyat, Rutter, Jared, Davisson, V Jo, Mahon, Sari, Brenner, Matthew, Boss, Gerry R, Peterson, Randall T, Gerszten, Robert E, and MacRae, Calum A

Subjects

Animals, Zebrafish, Swine, Potassium Cyanide, Pyruvate Dehydrogenase Complex, Zebrafish Proteins, Metabolomics, Metabolome, General Science & Technology

Abstract

Cyanide is a potent toxic agent, and the few available antidotes are not amenable to rapid deployment in mass exposures. As a result, there are ongoing efforts to exploit different animal models to identify novel countermeasures. We have created a pipeline that combines high-throughput screening in zebrafish with subsequent validation in two mammalian small animal models as well as a porcine large animal model. We found that zebrafish embryos in the first 3 days post fertilization (dpf) are highly resistant to cyanide, becoming progressively more sensitive thereafter. Unbiased analysis of gene expression in response to several hours of ultimately lethal doses of cyanide in both 1 and 7 dpf zebrafish revealed modest changes in iron-related proteins associated with the age-dependent cyanide resistance. Metabolomics measurements demonstrated significant age-dependent differences in energy metabolism during cyanide exposure which prompted us to test modulators of the tricarboxylic acid cycle and related metabolic processes as potential antidotes. In cyanide-sensitive 7 dpf larvae, we identified several such compounds that offer significant protection against cyanide toxicity. Modulators of the pyruvate dehydrogenase complex, as well as the small molecule sodium glyoxylate, consistently protected against cyanide toxicity in 7 dpf zebrafish larvae. Together, our results indicate that the resistance of zebrafish embryos to cyanide toxicity during early development is related to an altered regulation of cellular metabolism, which we propose may be exploited as a potential target for the development of novel antidotes against cyanide poisoning.

Published

2018

27. Gateway, Fast Lane, or Early Exit? Tourism and Hospitality as a First Employer of Norwegian Youth

Author

Dagsland, Åse Helene Bakkevig, Robinson, Richard N. S., Brenner, Matthew L., Walmsley, Andreas, editor, Åberg, Kajsa, editor, Blinnikka, Petra, editor, and Jóhannesson, Gunnar Thór, editor

Published

2020

28. Efficacy of Intravenous Cobinamide Versus Hydroxocobalamin or Saline for Treatment of Severe Hydrogen Sulfide Toxicity in a Swine (Sus scrofa) Model

Author

Bebarta, Vikhyat S, Garrett, Normalynn, Brenner, Matthew, Mahon, Sari B, Maddry, Joseph K, Boudreau, Susan, Castaneda, Maria, and Boss, Gerry R

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Lung, Peace, Justice and Strong Institutions, Administration, Intravenous, Animals, Antidotes, Apnea, Cobamides, Disease Models, Animal, Female, Hydrogen Sulfide, Hydroxocobalamin, Sodium Chloride, Sulfides, Sus scrofa, Swine, Public Health and Health Services, Emergency & Critical Care Medicine, Clinical sciences

Abstract

BackgroundHydrogen sulfide (H2 S) is a potentially deadly gas that naturally occurs in petroleum and natural gas. The Occupational Health and Safety Administration cites H2 S as a leading cause of workplace gas inhalation deaths. Mass casualties of H2 S toxicity may be caused by exposure from industrial accidents or release from oil field sites. H2 S is also an attractive terrorism tool because of its high toxicity and ease with which it can be produced. Several potential antidotes have been proposed for hydrogen sulfide poisoning but none have been completely successful.ObjectiveThe objective was to compare treatment response assessed by the time to spontaneous ventilation among groups of swine with acute H2 S-induced apnea treated with intravenous (IV) cobinamide (4 mg/kg in 0.8 mL of 225 mmol/L solution), IV hydroxocobalamin (4 mg/kg in 5 mL of saline), or saline alone.MethodsTwenty-four swine (45-55 kg) were anesthetized, intubated, and instrumented with continuous femoral and pulmonary artery pressure monitoring. After stabilization, anesthesia was adjusted such that animals would spontaneously ventilate with an FiO2 of 0.21. Sodium hydrosulfide (NaHS; concentration of 8 mg/mL) was begun at 1 mg/kg/min until apnea was confirmed for 20 seconds by capnography. This infusion rate was sustained for 1.5 minutes postapnea and then decreased to a maintenance rate for the remainder of the study to replicate sustained clinical exposure. Animals were randomly assigned to receive cobinamide (4 mg/kg), hydroxocobalamin (4 mg/kg), or saline and monitored for 60 minutes beginning 1 minute postapnea. G* power analysis using the Z-test determined that equal group sizes of eight animals were needed to achieve a power of 80% in detecting a 50% difference in return to spontaneous ventilations at α = 0.05.ResultsThere were no significant differences in baseline variables. Moreover, there were no significant differences in the mg/kg dose of NaHS (5.6 mg/kg; p = 0.45) required to produce apnea. Whereas all of the cobinamide-treated animals survived (8/8), none of the control (0/8) or hydroxocobalamin (0/8)-treated animals survived. Mean (±SD) time to spontaneous ventilation in the cobinamide-treated animals was 3.2 (±1.1) minutes.ConclusionsCobinamide successfully rescued the severely NaHS-poisoned swine from apnea in the absence of assisted ventilation.

Published

2017

29. Oral Glycine and Sodium Thiosulfate for Lethal Cyanide Ingestion.

Author

Brenner, Matthew, Azer, Sarah M, Oh, Kyung-Jin, Han, Chang Hoon, Lee, Jangwoen, Mahon, Sari B, Du, Xiaohua, Mukai, David, Burney, Tanya, Saidian, Mayer, Chan, Adriano, Straker, Derek I, Bebarta, Vikhyat S, and Boss, Gerry R

Subjects

Continuous wave near infrared spectroscopy, Gastric alkalization, Glycine, Oral cyanide poisoning, Sodium thiosulfate, Prevention, Vaccine Related, Digestive Diseases, Biodefense, 6.1 Pharmaceuticals

Abstract

ObjectiveAccidental or intentional cyanide ingestion is an-ever present danger. Rapidly acting, safe, inexpensive oral cyanide antidotes are needed that can neutralize large gastrointestinal cyanide reservoirs. Since humans cannot be exposed to cyanide experimentally, we studied oral cyanide poisoning in rabbits, testing oral sodium thiosulfate with and without gastric alkalization.SettingUniversity research laboratory.SubjectsNew Zealand white rabbits.InterventionsSeven animal groups studied; Groups 1-5 received high dose oral NaCN (50 mg, >LD100) and were treated immediately with oral (via nasogastric tube): 1) saline, 2) glycine, 3) sodium thiosulfate or 4) sodium thiosulfate and glycine, or 5) after 2 min with intramuscular injection of sodium nitrite and sodium thiosulfate plus oral sodium thiosulfate and glycine. Groups 6-7 received moderate dose oral NaCN (25 mg, LD70) and delayed intramuscular 6) saline or 7) sodium nitrite-sodium thiosulfate.Measurements and main resultsAll animals in the high dose NaCN group receiving oral saline or glycine died very rapidly, with a trend towards delayed death in glycine-treated animals; saline versus glycine-treated animals died at 10.3+3.9 and 14.6+5.9 min, respectively (p=0.13). In contrast, all sodium thiosulfate-treated high dose cyanide animals survived (p

Published

2017

30. Sodium Nitrite and Sodium Thiosulfate Are Effective Against Acute Cyanide Poisoning When Administered by Intramuscular Injection

Author

Bebarta, Vikhyat S, Brittain, Matthew, Chan, Adriano, Garrett, Norma, Yoon, David, Burney, Tanya, Mukai, David, Babin, Michael, Pilz, Renate B, Mahon, Sari B, Brenner, Matthew, and Boss, Gerry R

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Biodefense, Vaccine Related, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Animals, Antidotes, Cyanides, Disease Models, Animal, Injections, Intramuscular, Male, Mice, Rabbits, Random Allocation, Sodium Nitrite, Sus scrofa, Thiosulfates, Emergency & Critical Care Medicine, Clinical sciences

Abstract

Study objectiveThe 2 antidotes for acute cyanide poisoning in the United States must be administered by intravenous injection. In the out-of-hospital setting, intravenous injection is not practical, particularly for mass casualties, and intramuscular injection would be preferred. The purpose of this study is to determine whether sodium nitrite and sodium thiosulfate are effective cyanide antidotes when administered by intramuscular injection.MethodsWe used a randomized, nonblinded, parallel-group study design in 3 mammalian models: cyanide gas inhalation in mice, with treatment postexposure; intravenous sodium cyanide infusion in rabbits, with severe hypotension as the trigger for treatment; and intravenous potassium cyanide infusion in pigs, with apnea as the trigger for treatment. The drugs were administered by intramuscular injection, and all 3 models were lethal in the absence of therapy.ResultsWe found that sodium nitrite and sodium thiosulfate individually rescued 100% of the mice, and that the combination of the 2 drugs rescued 73% of the rabbits and 80% of the pigs. In all 3 species, survival in treated animals was significantly better than in control animals (log rank test, P

Published

2017

31. Cisplatin Analogs Confer Protection against Cyanide Poisoning

Author

Nath, Anjali K, Shi, Xu, Harrison, Devin L, Morningstar, Jordan E, Mahon, Sari, Chan, Adriano, Sips, Patrick, Lee, Jangwoen, MacRae, Calum A, Boss, Gerry R, Brenner, Matthew, Gerszten, Robert E, and Peterson, Randall T

Subjects

Prevention, Biodefense, Vaccine Related, Cancer, Animals, Antidotes, Cell Line, Cisplatin, Cyanides, Drug Approval, Electron Transport Complex IV, Humans, Lethal Dose 50, Oxidation-Reduction, Rabbits, Solubility, Sulfur, Zebrafish, antidote, cisplatin, cyanide, phenotypic screening, platinum, zebrafish

Abstract

Cisplatin holds an illustrious position in the history of chemistry most notably for its role in the virtual cure of testicular cancer. Here we describe a role for this small molecule in cyanide detoxification in vivo. Cyanide kills organisms as diverse as insects, fish, and humans within seconds to hours. Current antidotes exhibit limited efficacy and are not amenable to mass distribution requiring the development of new classes of antidotes. The binding affinity of the cyanide anion for the positively charged metal platinum is known to create an extremely stable complex in vitro. We therefore screened a panel of diverse cisplatin analogs and identified compounds that conferred protection from cyanide poisoning in zebrafish, mice, and rabbits. Cumulatively, this discovery pipeline begins to establish the characteristics of platinum ligands that influence their solubility, toxicity, and efficacy, and provides proof of concept that platinum-based complexes are effective antidotes for cyanide poisoning.

Published

2017

32. The Vitamin B12 Analog Cobinamide Is an Effective Antidote for Oral Cyanide Poisoning

Author

Lee, Jangwoen, Mahon, Sari B, Mukai, David, Burney, Tanya, Katebian, Behdod S, Chan, Adriano, Bebarta, Vikhyat S, Yoon, David, Boss, Gerry R, and Brenner, Matthew

Subjects

Digestive Diseases, Biodefense, Prevention, Nutrition, Vaccine Related, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Administration, Oral, Analysis of Variance, Animals, Antacids, Antidotes, Blood Pressure, Cobamides, Cyanides, Disease Models, Animal, Eating, Erythrocytes, Humans, Male, Rabbits, Sodium Bicarbonate, Spectrum Analysis, Survival Rate, Thiocyanates, Time Factors, Oral cyanide poisoning, Cobinamide, Gastric alkalinization, Diffuse optical spectroscopy, Clinical Sciences, Pharmacology and Pharmaceutical Sciences

Abstract

IntroductionCyanide is a major chemical threat, and cyanide ingestion carries a higher risk for a supra-lethal dose exposure compared to inhalation but provides an opportunity for effective treatment due to a longer treatment window and a gastrointestinal cyanide reservoir that could be neutralized prior to systemic absorption. We hypothesized that orally administered cobinamide may function as a high-binding affinity scavenger and that gastric alkalinization would reduce cyanide absorption and concurrently increase cobinamide binding, further enhancing antidote effectiveness.MethodsThirty New Zealand white rabbits were divided into five groups and were given a lethal dose of oral cyanide poisoning (50 mg). The survival time of animals was monitored with oral cyanide alone, oral cyanide with gastric alkalinization with oral sodium bicarbonate buffer (500 mg), and in combination with either aquohydroxocobinamide or dinitrocobinamide (250 mM). Red blood cell cyanide concentration, plasma cobinamide, and thiocyanate concentrations were measured from blood samples.ResultsIn cyanide ingested animals, oral sodium bicarbonate alone significantly prolonged survival time to 20.3 ± 8.6 min compared to 10.5 ± 4.3 min in saline-treated controls, but did not lead to overall survival. Aquohydroxocobinamide and dinitrocobinamide increased survival time to 64 ± 41 (p

Published

2016

33. Pouring New Wines into Old Wineskins? Sub-regional Identity and the Case of the Basket Range Festival

Author

Staggs, Jonathan, Brenner, Matthew, Sigala, Marianna, editor, and Robinson, Richard N.S., editor

Published

2019

34. A countermeasure development pipeline

Author

MacRae, Calum A, Boss, Gerry, Brenner, Matthew, Gerszten, Robert E, Mahon, Sari, and Peterson, Randall T

Subjects

Biological Sciences, Organic Chemistry, Chemical Sciences, Vaccine Related, Biodefense, Emerging Infectious Diseases, Prevention, Animals, Biomedical Research, Cyanides, Drug Discovery, Humans, Metabolomics, National Institutes of Health (U.S.), Program Development, United States, cyanide, countermeasure, drug discovery, animal models, metabolomics, General Science & Technology

Abstract

We have developed an integrated pipeline for countermeasure discovery that, under the auspices of the National Institutes of Health Countermeasures Against Chemical Threats network, is one of the few efforts within academia that by design spans the spectrum from discovery to phase I. The successful implementation of this approach for cyanide would enable efficient proof-of-concept studies that would lay the foundation for a generalizable strategy for parallel mechanistic studies and accelerated countermeasure development in the face of new and emerging chemical threats.

Published

2016

35. Optical coherence tomography imaging to analyze biofilm thickness from distal to proximal regions of the endotracheal tubes

Author

Dunn, Robert E, Heidari, Andrew E, Moghaddam, Samer, Zhang, Mengke, Han, Changhoon, Oh, Kyung-Jin, Leven, Steve, Brenner, Matthew, Genberg, Carl, and Chen, Zhongping

Subjects

Optical Coherence Tomography, Endotracheal Tube, Biofilm, Ventilator Associated Pneumonia, Translational, ETT, OCT, VAP

Abstract

The development of nosocomial ventilator-associated pneumonia (VAP) has been linked to the presence of specific bacteria found in the biofilm that develops in intubated endotracheal tubes of critical care patients. Presence of biofilm has been difficult to assess clinically. Here, we use Optical coherence tomography (OCT), to visualize the biofilm at both the proximal and distal tips. Ultimately, the goal will be to determine if OCT can be a tool to visualize biofilm development and potential interventions to reduce the incidence of VAP.

Published

2016

36. Errata: Visualizing biofilm formation in endotracheal tubes using endoscopic three-dimensional optical coherence tomography

Author

Heidari, Andrew E, Moghaddam, Samer, Truong, Kimberly K, Chou, Lidek, Genberg, Carl, Brenner, Matthew, and Chena, Zhongping

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Published

2016

37. Hydrogen Sulfide--Mechanisms of Toxicity and Development of an Antidote.

Author

Jiang, Jingjing, Chan, Adriano, Ali, Sameh, Saha, Arindam, Haushalter, Kristofer J, Lam, Wai-Ling Macrina, Glasheen, Megan, Parker, James, Brenner, Matthew, Mahon, Sari B, Patel, Hemal H, Ambasudhan, Rajesh, Lipton, Stuart A, Pilz, Renate B, and Boss, Gerry R

Subjects

Myocardium, Brain, Neurons, Mitochondria, Heart, Fibroblasts, Animals, Mice, Inbred C57BL, Humans, Mice, Rats, Drosophila melanogaster, Hydrogen Sulfide, Hydroxyl Radical, Sulfides, Potassium Cyanide, Cobamides, Electron Transport Complex IV, F2-Isoprostanes, Antidotes, Apoptosis, Cell Differentiation, Oxidative Stress, Male, Induced Pluripotent Stem Cells, Mitochondria, Heart, Inbred C57BL, Nutrition, Stem Cell Research, Neurosciences, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

Hydrogen sulfide is a highly toxic gas-second only to carbon monoxide as a cause of inhalational deaths. Its mechanism of toxicity is only partially known, and no specific therapy exists for sulfide poisoning. We show in several cell types, including human inducible pluripotent stem cell (hiPSC)-derived neurons, that sulfide inhibited complex IV of the mitochondrial respiratory chain and induced apoptosis. Sulfide increased hydroxyl radical production in isolated mouse heart mitochondria and F2-isoprostanes in brains and hearts of mice. The vitamin B12 analog cobinamide reversed the cellular toxicity of sulfide, and rescued Drosophila melanogaster and mice from lethal exposures of hydrogen sulfide gas. Cobinamide worked through two distinct mechanisms: direct reversal of complex IV inhibition and neutralization of sulfide-generated reactive oxygen species. We conclude that sulfide produces a high degree of oxidative stress in cells and tissues, and that cobinamide has promise as a first specific treatment for sulfide poisoning.

Published

2016

38. Visualizing biofilm formation in endotracheal tubes using endoscopic three-dimensional optical coherence tomography

Author

Heidari, Andrew E, Moghaddam, Samer, Troung, Kimberly K, Chou, Lidek, Genberg, Carl, Brenner, Matthew, and Chen, Zhongping

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Biomedical Imaging, Bioengineering, Clinical Research, Lung, Pneumonia & Influenza, Infectious Diseases, Pneumonia, 4.1 Discovery and preclinical testing of markers and technologies, Artifacts, Biofilms, Critical Care, Cross Infection, Endoscopy, Equipment Contamination, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Intensive Care Units, Interferometry, Intubation, Intratracheal, Microscopy, Electron, Scanning, Phenotype, Pneumonia, Ventilator-Associated, Tomography, Optical Coherence, optics, biofilm, optical coherence tomography, endotracheal tube, ventilator-associated pneumonia, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Abstract

Biofilm formation has been linked to ventilator-associated pneumonia, which is a prevalent infection in hospital intensive care units. Currently, there is no rapid diagnostic tool to assess the degree of biofilm formation or cellular biofilm composition. Optical coherence tomography (OCT) is a minimally invasive, nonionizing imaging modality that can be used to provide high-resolution cross-sectional images. Biofilm deposited in critical care patients’ endotracheal tubes was analyzed in vitro. This study demonstrates that OCT could potentially be used as a diagnostic tool to analyze and assess the degree of biofilm formation and extent of airway obstruction caused by biofilm in endotracheal tubes.

Published

2015

39. CPAP-to-Ventilator: Open-Source Documentation, UC Irvine

Author

Dunn, Cody E, Crouzet, Christian, Keating, Mark T, Phan, Thinh, Brenner, Matthew, Botvinick, Elliot L, and Choi, Bernard

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Assistive Technology, Lung, Bioengineering

Abstract

In response to ventilator shortages experienced during the early months of the COVID-19 pandemic, we set out to develop a ventilator that leverages existing off-the-shelf equipment and supplies. Under the assumption that unused continuous positive airway pressure machines were relatively available, we focused on modifying a commercially available continuous positive airway pressure device to achieve a clinically useful level of peak inspiratory pressure. Here, we present detailed instructions, schematics, and code on converting a ResMed S9 AutoSetTM CPAP machine into an emergency resuscitator, and demonstrate its ability to achieve a peak inspiratory pressure of 40 cm H2O.

Published

2022

40. Nitrocobinamide, a New Cyanide Antidote That Can Be Administered by Intramuscular Injection

Author

Chan, Adriano, Jiang, Jingjing, Fridman, Alla, Guo, Ling T, Shelton, G Diane, Liu, Ming-Tao, Green, Carol, Haushalter, Kristofer J, Patel, Hemal H, Lee, Jangwoen, Yoon, David, Burney, Tanya, Mukai, David, Mahon, Sari B, Brenner, Matthew, Pilz, Renate B, and Boss, Gerry R

Subjects

Biomedical and Clinical Sciences, Neurosciences, Biodefense, Infectious Diseases, Emerging Infectious Diseases, Animals, Antidotes, COS Cells, Chlorocebus aethiops, Cobamides, Cyanides, Dose-Response Relationship, Drug, Injections, Intramuscular, Male, Mice, Mice, Inbred C57BL, Muscle, Skeletal, Rabbits, Sodium Nitrite, Structure-Activity Relationship, Thiosulfates, Time Factors, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry, Pharmacology and pharmaceutical sciences, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Currently available cyanide antidotes must be given by intravenous injection over 5-10 min, making them ill-suited for treating many people in the field, as could occur in a major fire, an industrial accident, or a terrorist attack. These scenarios call for a drug that can be given quickly, e.g., by intramuscular injection. We have shown that aquohydroxocobinamide is a potent cyanide antidote in animal models of cyanide poisoning, but it is unstable in solution and poorly absorbed after intramuscular injection. Here we show that adding sodium nitrite to cobinamide yields a stable derivative (referred to as nitrocobinamide) that rescues cyanide-poisoned mice and rabbits when given by intramuscular injection. We also show that the efficacy of nitrocobinamide is markedly enhanced by coadministering sodium thiosulfate (reducing the total injected volume), and we calculate that ∼1.4 mL each of nitrocobinamide and sodium thiosulfate should rescue a human from a lethal cyanide exposure.

Published

2015

41. Determination of free cyano-cobinamide in swine and rabbit plasma by liquid chromatography tandem mass spectrometry

Author

Dzisam, Joseph K., Brenner, Matthew, Mahon, Sari B., Rockwood, Gary A., and Logue, Brian A.

Published

2019

42. Dynamics of superconducting nanowires shunted with an external resistor

Author

Brenner, Matthew W., Roy, Dibyendu, Shah, Nayana, and Bezryadin, Alexey

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity

Abstract

We present the first study of superconducting nanowires shunted with an external resistor, geared towards understanding and controlling coherence and dissipation in nanowires. The dynamics is probed by measuring the evolution of the V-I characteristics and the distributions of switching and retrapping currents upon varying the shunt resistor and temperature. Theoretical analysis of the experiments indicates that as the value of the shunt resistance is decreased, the dynamics turns more coherent presumably due to stabilization of phase-slip centers in the wire and furthermore the switching current approaches the Bardeen's prediction for equilibrium depairing current. By a detailed comparison between theory and experimental, we make headway into identifying regimes in which the quasi-one-dimensional wire can effectively be described by a zero-dimensional circuit model analogous to the RCSJ (resistively and capacitively shunted Josephson junction) model of Stewart and McCumber. Besides its fundamental significance, our study has implications for a range of promising technological applications., Comment: 15 pages, 14 figures

Published

2012

43. Cratered Lorentzian response of driven microwave superconducting nanowire-bridged resonators: oscillatory and magnetic-field induced stochastic states

Author

Brenner, Matthew W., Gopalakrishnan, Sarang, Ku, Jaseung, McArdle, Timothy J., Eckstein, James N., Shah, Nayana, Goldbart, Paul M., and Bezryadin, Alexey

Subjects

Condensed Matter - Superconductivity

Abstract

Microwave Fabry-Perot resonators containing nonlinear mesoscopic elements (such as superconducting nanowires) can be used to explore many-body circuit QED. Here, we report on observations of a superconductor-normal pulsing regime in microwave (GHz) coplanar waveguide resonators consisting of superconducting MoGe films interrupted by a gap that is bridged by one or more suspended superconducting nanowires. This regime, which involve MHz-frequency oscillations in the amplitude of the supercurrent in the resonator, are achieved when the steady-state amplitude of the current in the driven resonator exceeds the critical current of the nanowires. Thus we are able to determine the temperature dependence of the critical current, which agrees well with the corresponding Bardeen formula. The pulsing regime manifests itself as an apparent "crater" on top of the fundamental Lorentzian peak of the resonator. Once the pulsing regime is achieved at a fixed drive power, however, it remains stable for a range of drive frequencies corresponding to subcritical steady state currents in the resonator. We develop a phenomenological model of resonator-nanowire systems, from which we are able to obtain a quantitative description of the amplitude oscillations and also, inter alia, to investigate thermal relaxation processes in superconducting nanowires. For the case of resonators comprising two parallel nanowires and subject to an external magnetic field, we find field-driven oscillations of the onset power for the amplitude oscillations, as well as the occurrence (for values of the magnetic field that strongly frustrate the nanowires) of a distinct steady state in which the pulsing is replaced by stochastic amplitude-fluctuations. We conclude by giving a brief discussion of how circuit-QED-based systems have the potential to facilitate understanding of quantum phase-slips in superconducting nanowires., Comment: 40 pages, 20 figures

Published

2011

44. Current-phase Relationship, Thermal and Quantum Phase Slips in Superconducting Nanowires made on Scaffold Created using Adhesive Tape

Author

Bae, Myung-Ho, Dinsmore III, Robert C., Aref, Thomas, Brenner, Matthew, and Bezryadin, Alexey

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Quantum phase slippage (QPS) in a superconducting nanowire is a new candidate for developing a quantum bit. It has also been theoretically predicted that the occurrence of QPS significantly changes the current-phase relationship (CPR) of the wire due to the tunneling between topologically different metastable states. We present studies on the microwave response of the superconducting nanowires to reveal their CPRs. First, we demonstrate a simple nanowire fabrication technique, based on commercially available adhesive tapes, which allows making thin superconducting wire from different metals. We compare the resistance vs. temperature curves of Mo$_{76}$Ge$_{24}$ and Al nanowires to the classical and quantum models of phase slips. In order to describe the experimentally observed microwave responses of these nanowires, we use the McCumber-Stewart model, which is generalized to include either classical or quantum CPR., Comment: to be published in Nano Letters

Published

2009

45. Cyanide Toxicokinetics: The Behavior of Cyanide, Thiocyanate and 2-Amino-2-Thiazoline-4-Carboxylic Acid in Multiple Animal Models

Author

Bhandari, Raj K, Oda, Robert P, Petrikovics, Ilona, Thompson, David E, Brenner, Matthew, Mahon, Sari B, Bebarta, Vikhyat S, Rockwood, Gary A, and Logue, Brian A

Subjects

Animals, Biomarkers, Cyanides, Half-Life, Inactivation, Metabolic, Injections, Intravenous, Injections, Subcutaneous, Male, Rabbits, Rats, Sprague-Dawley, Species Specificity, Sus scrofa, Thiazoles, Thiocyanates, Toxicokinetics, Analytical Chemistry, Pharmacology and Pharmaceutical Sciences

Abstract

Cyanide causes toxic effects by inhibiting cytochrome c oxidase, resulting in cellular hypoxia and cytotoxic anoxia, and can eventually lead to death. Cyanide exposure can be verified by direct analysis of cyanide concentrations or analyzing its metabolites, including thiocyanate (SCN(-)) and 2-amino-2-thiazoline-4-carboxylic acid (ATCA) in blood. To determine the behavior of these markers following cyanide exposure, a toxicokinetics study was performed in three animal models: (i) rats (250-300 g), (ii) rabbits (3.5-4.2 kg) and (iii) swine (47-54 kg). Cyanide reached a maximum in blood and declined rapidly in each animal model as it was absorbed, distributed, metabolized and eliminated. Thiocyanate concentrations rose more slowly as cyanide was enzymatically converted to SCN(-). Concentrations of ATCA did not rise significantly above the baseline in the rat model, but rose quickly in rabbits (up to a 40-fold increase) and swine (up to a 3-fold increase) and then fell rapidly, generally following the relative behavior of cyanide. Rats were administered cyanide subcutaneously and the apparent half-life (t1/2) was determined to be 1,510 min. Rabbits were administered cyanide intravenously and the t1/2 was determined to be 177 min. Swine were administered cyanide intravenously and the t1/2 was determined to be 26.9 min. The SCN(-) t1/2 in rats was 3,010 min, but was not calculated in rabbits and swine because SCN(-) concentrations did not reach a maximum. The t1/2 of ATCA was 40.7 and 13.9 min in rabbits and swine, respectively, while it could not be determined in rats with confidence. The current study suggests that cyanide exposure may be verified shortly after exposure by determining significantly elevated cyanide and SCN(-) in each animal model and ATCA may be used when the ATCA detoxification pathway is significant.

Published

2014

46. Noninvasive optical cytochrome c oxidase redox state measurements using diffuse optical spectroscopy

Author

Lee, Jangwoen, Kim, Jae G, Mahon, Sari B, Mukai, David, Yoon, David, Boss, Gerry R, Patterson, Steven E, Rockwood, Gary, Isom, Gary, and Brenner, Matthew

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Bioengineering, Animals, Electron Transport Complex IV, Hemodynamics, Hemoglobins, Hemorrhage, Oxidation-Reduction, Oxyhemoglobins, Rabbits, Sodium Cyanide, Spectrum Analysis, diffuse optical spectroscopy, cytochrome c oxidase, physiological perturbation, cyanide poisoning, hemorrhage, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Abstract

A major need exists for methods to assess organ oxidative metabolic states in vivo. By contrasting the responses to cyanide (CN) poisoning versus hemorrhage in animal models, we demonstrate that diffuse optical spectroscopy (DOS) can detect cytochrome c oxidase (CcO) redox states. Intermittent decreases in inspired O2 from 100% to 21% were applied before, during, and after CN poisoning, hemorrhage, and resuscitation in rabbits. Continuous DOS measurements of total hemoglobin, oxyhemoglobin, deoxyhemoglobin, and oxidized and reduced CcO from muscle were obtained. Rabbit hemorrhage was accomplished with stepwise removal of blood, followed by blood resuscitation. CN treated rabbits received 0.166  mg/min NaCN infusion. During hemorrhage, CcO redox state became reduced concurrently with decreases in oxyhemoglobin, resulting from reduced tissue oxygen delivery and hypoxia. In contrast, during CN infusion, CcO redox state decreased while oxyhemoglobin concentration increased due to CN binding and reduction of CcO with resultant inhibition of the electron transport chain. Spectral absorption similarities between hemoglobin and CcO make noninvasive spectroscopic distinction of CcO redox states difficult. By contrasting physiological perturbations of CN poisoning versus hemorrhage, we demonstrate that DOS measured CcO redox state changes are decoupled from hemoglobin concentration measurement changes.

Published

2014

47. In vivo detection of inhalation injury in large airway using three-dimensional long-range swept-source optical coherence tomography

Author

Chou, Lidek, Batchinsky, Andriy, Belenkiy, Slava, Jing, Joseph, Ramalingam, Tirunelveli, Brenner, Matthew, and Chen, Zhongping

Subjects

Bioengineering, Biomedical Imaging, Respiratory, Animals, Bronchi, Bronchoscopy, Imaging, Three-Dimensional, Respiratory Mucosa, Sheep, Smoke Inhalation Injury, Tomography, Optical Coherence, optical coherence tomography, long-range optical coherence tomography, smoke inhalation injury, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics

Abstract

We report on the feasibility of using long-range swept-source optical coherence tomography (OCT) to detect airway changes following smoke inhalation in a sheep model. The long-range OCT system (with axial imaging range of 25 mm) and probe are capable of rapidly obtaining a series of high-resolution full cross-sectional images and three-dimensional reconstructions covering 20-cm length of tracheal and bronchial airways with airway diameter up to 25 mm, regardless of the position of the probe within the airway lumen. Measurements of airway thickness were performed at baseline and postinjury to show mucosal thickness changes following smoke inhalation.

Published

2014

48. In vivo detection of inhalation injury in large airway using three-dimensional long-range swept-source optical coherence tomography.

Author

Batchinsky, Andriy, Belenkiy, Slava, Jing, Joseph, Ramalingam, Tirunelveli, Brenner, Matthew, Chen, Zhongping, and Chou, Lidek

Subjects

Animals, Bronchi, Bronchoscopy, Imaging, Three-Dimensional, Respiratory Mucosa, Sheep, Smoke Inhalation Injury, Tomography, Optical Coherence

Abstract

We report on the feasibility of using long-range swept-source optical coherence tomography (OCT) to detect airway changes following smoke inhalation in a sheep model. The long-range OCT system (with axial imaging range of 25 mm) and probe are capable of rapidly obtaining a series of high-resolution full cross-sectional images and three-dimensional reconstructions covering 20-cm length of tracheal and bronchial airways with airway diameter up to 25 mm, regardless of the position of the probe within the airway lumen. Measurements of airway thickness were performed at baseline and postinjury to show mucosal thickness changes following smoke inhalation.

Published

2014

49. Integrated IVUS-OCT Imaging for Atherosclerotic Plaque Characterization.

Author

Li, Xiang, Li, Jiawen, Jing, Joe, Ma, Teng, Liang, Shanshan, Zhang, Jun, Mohar, Dilbahar, Raney, Aidan, Mahon, Sari, Patel, Pranav, Shung, K, Zhou, Qifa, Brenner, Matthew, and Chen, Zhongping

Subjects

IVUS, OCT, intravascular, multimodal

Abstract

For the diagnosis of atherosclerosis, biomedical imaging techniques such as intravascular ultrasound (IVUS) and optical coherence tomography (OCT) have been developed. The combined use of IVUS and OCT is hypothesized to remarkably increase diagnostic accuracy of vulnerable plaques. We have developed an integrated IVUS-OCT imaging apparatus, which includes the integrated catheter, motor drive unit, and imaging system. The dual-function imaging catheter has the same diameter of current clinical standard. The imaging system is capable for simultaneous IVUS and OCT imaging in real time. Ex vivo and in vivo experiments on rabbits with atherosclerosis were conducted to demonstrate the feasibility and superiority of the integrated intravascular imaging modality.

Published

2014

50. Development of a Fluorescence-Based Sensor for Rapid Diagnosis of Cyanide Exposure

Author

Jackson, Randy, Oda, Robert P, Bhandari, Raj K, Mahon, Sari B, Brenner, Matthew, Rockwood, Gary A, and Logue, Brian A

Subjects

Prevention, Biodefense, Vaccine Related, Analytic Sample Preparation Methods, Animals, Chemistry Techniques, Analytical, Cyanides, Environmental Exposure, Rabbits, Spectrometry, Fluorescence, Analytical Chemistry, Other Chemical Sciences

Abstract

Although commonly known as a highly toxic chemical, cyanide is also an essential reagent for many industrial processes in areas such as mining, electroplating, and synthetic fiber production. The "heavy" use of cyanide in these industries, along with its necessary transportation, increases the possibility of human exposure. Because the onset of cyanide toxicity is fast, a rapid, sensitive, and accurate method for the diagnosis of cyanide exposure is necessary. Therefore, a field sensor for the diagnosis of cyanide exposure was developed based on the reaction of naphthalene dialdehyde, taurine, and cyanide, yielding a fluorescent β-isoindole. An integrated cyanide capture "apparatus", consisting of sample and cyanide capture chambers, allowed rapid separation of cyanide from blood samples. Rabbit whole blood was added to the sample chamber, acidified, and the HCN gas evolved was actively transferred through a stainless steel channel to the capture chamber containing a basic solution of naphthalene dialdehyde (NDA) and taurine. The overall analysis time (including the addition of the sample) was

Published

2014