12 results on '"Jaimes III, Rafael"'
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2. Lights, camera, path splitter: a new approach for truly simultaneous dual optical mapping of the heart with a single camera
- Author
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Jaimes, III, Rafael, McCullough, Damon, Siegel, Bryan, Swift, Luther, Hiebert, James, McInerney, Daniel, and Posnack, Nikki Gillum
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- 2019
- Full Text
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3. Optocardiography and Electrophysiology Studies of Ex Vivo Langendorff-perfused Hearts
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Swift, Luther M., primary, Jaimes III, Rafael, primary, McCullough, Damon, primary, Burke, Morgan, primary, Reilly, Marissa, primary, Maeda, Takuya, primary, Zhang, Hanyu, primary, Ishibashi, Nobuyuki, primary, Rogers, Jack M., primary, and Posnack, Nikki Gillum, primary
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- 2019
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4. Bisphenol A exposure and cardiac electrical conduction in excised rat hearts
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Posnack, Nikki Gillum, Jaimes, III, Rafael, Asfour, Huda, Swift, Luther M., Wengrowski, Anastasia M., Sarvazyan, Narine, and Kay, Matthew W.
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Cardiac output -- Observations ,Bisphenol-A -- Properties ,Environmental issues ,Health - Abstract
BACKGROUND: Bisphenol A (BPA) is used to produce polycarbonate plastics and epoxy resins that are widely used in everyday products, such as food and beverage containers, toys, and medical devices. Human biomonitoring studies have suggested that a large proportion of the population may be exposed to BPA. Recent epidemiological studies have reported correlations between increased urinary BPA concentrations and cardiovascular disease, yet the direct effects of BPA on the heart are unknown. OBJECTIVES: The goal of our study was to measure the effect of BPA (0.1-100 µM) on cardiac impulse propagation ex vivo using excised whole hearts from adult female rats. METHODS: We measured atrial and ventricular activation times during sinus and paced rhythms using epicardial electrodes and optical mapping of transmembrane potential in excised rat hearts exposed to BPA via perfusate media. Atrioventricular activation intervals and epicardial conduction velocities were computed using recorded activation times. RESULTS: Cardiac BPA exposure resulted in prolonged PR segment and decreased epicardial conduction velocity (0.1-100 µM BPA), prolonged action potential duration (1-100 µM BPA), and delayed atrioventricular conduction (10-100 µM BPA). These effects were observed after acute exposure (≤ 15 min), underscoring the potential detrimental effects of continuous BPA exposure. The highest BPA concentration used (100 µM) resulted in prolonged QRS intervals and dropped ventricular beats, and eventually resulted in complete heart block. CONCLUSIONS: Our results show that acute BPA exposure slowed electrical conduction in excised hearts from female rats. These findings emphasize the importance of examining BPA's effect on heart electrophysiology and determining whether chronic in vivo exposure can cause or exacerbate conduction abnormalities in patients with preexisting heart conditions and in other high-risk populations. CITATION: Posnack NG, Jaimes R III, Asfour H, Swift LM, Wengrowski AM, Sarvazyan N, Kay MW. 2014. Bisphenol A exposure and cardiac electrical conduction in excised rat hearts. Environ Health Perspect 122:384-390; http://dx.doi.org/10.1289/ehp.1206157, Introduction Bisphenol A (BPA) is one of the most widely used chemicals worldwide, with > 8 million pounds produced each year (Vandenberg et al. 2010). BPA is a component of [...]
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- 2014
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5. Cardiac performance is limited by oxygen delivery to the mitochondria in the crystalloid-perfused working heart.
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Kuzmiak-Glancy, Sarah, Covian, Raúl, Femnou, Armel N., Glancy, Brian, Jaimes III, Rafael, Wengrowski, Anastasia M., Garrott, Kara, French, Stephanie A., Balaban, Robert S., and Kay, Matthew W.
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HEART diseases ,OXYGEN - Abstract
The left ventricular working, crystalloid-perfused heart is used extensively to evaluate basic cardiac function, pathophysiology, and pharmacology. Crystalloid- perfused hearts may be limited by oxygen delivery, as adding oxygen carriers increases myoglobin oxygenation and improves myocardial function. However, whether decreased myoglobin oxygen saturation impacts oxidative phosphorylation (OxPhos) is unresolved, since myoglobin has a much lower affinity for oxygen than cytochrome c oxidase (COX). In the present study, a laboratory-based synthesis of an affordable perfluorocarbon (PFC) emulsion was developed to increase perfusate oxygen carrying capacity without impeding optical absorbance assessments. In left ventricular working hearts, along with conventional measurements of cardiac function and metabolic rate, myoglobin oxygenation and cytochrome redox state were monitored using a novel transmural illumination approach. Hearts were perfused with Krebs-Henseleit (KH) or KH supplemented with PFC, increasing perfusate oxygen carrying capacity by 3.6-fold. In KH-perfused hearts, myoglobin was deoxygenated, consistent with cytoplasmic hypoxia, and the mitochondrial cytochromes, including COX, exhibited a high reduction state, consistent with OxPhos hypoxia. PFC perfusate increased aortic output from 76 ± 6 to 142 ± 4 ml/min and increased oxygen consumption while also increasing myoglobin oxygenation and oxidizing the mitochondrial cytochromes. These results are consistent with limited delivery of oxygen to OxPhos resulting in an adapted lower cardiac performance with KH. Consistent with this, PFCs increased myocardial oxygenation, and cardiac work was higher over a wider range of perfusate PO2. In summary, heart mitochondria are limited by oxygen delivery with KH; supplementation of KH with PFC reverses mitochondrial hypoxia and improves cardiac performance, creating a more physiological tissue oxygen delivery. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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6. Plastics and cardiovascular health: phthalates may disrupt heart rate variability and cardiovascular reactivity.
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Jaimes III, Rafael, Swiercz, Adam, Sherman, Meredith, Muselimyan, Narine, Marvar, Paul J., and Posnack, Nikki Gillum
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HEART beat , *HEART rate monitors , *NITRIC-oxide synthases , *BLOOD pressure , *MEDICAL technology - Abstract
Plastics have revolutionized medical device technology, transformed hematological care, and facilitated modern cardiology procedures. Despite these advances, studies have shown that phthalate chemicals migrate out of plastic products and that these chemicals are bioactive. Recent epidemiological and research studies have suggested that phthalate exposure adversely affects cardiovascular function. Our objective was to assess the safety and biocompatibility of phthalate chemicals and resolve the impact on cardiovascular and autonomic physiology. Adult mice were implanted with radiofrequency transmitters to monitor heart rate variability, blood pressure, and autonomic regulation in response to di-2-ethylhexyl-phthalate (DEHP) exposure. DEHP-treated animals displayed a decrease in heart rate variability (-17% SD of normal beat-to-beat intervals and -36% high-frequency power) and an exaggerated mean arterial pressure response to ganglionic blockade (31.5% via chlorisondamine). In response to a conditioned stressor, DEHP-treated animals displayed enhanced cardiovascular reactivity (-56% SD major axis Poincarè plot) and prolonged blood pressure recovery. Alterations in cardiac gene expression of endothelin-1, angiotensin-converting enzyme, and nitric oxide synthase may partly explain these cardiovascular alterations. This is the first study to show an association between phthalate chemicals that are used in medical devices with alterations in autonomic regulation, heart rate variability, and cardiovascular reactivity. Because changes in autonomic balance often precede clinical manifestations of hypertension, atherosclerosis, and conduction abnormalities, future studies are warranted to assess the downstream impact of plastic chemical exposure on end-organ function in sensitive patient populations. This study also highlights the importance of adopting safer biomaterials, chemicals, and/or surface coatings for use in medical devices. [ABSTRACT FROM AUTHOR]
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- 2017
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7. Exposure to Phthalates Affects Calcium Handling and Intercellular Connectivity of Human Stem Cell-Derived Cardiomyocytes
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Posnack, Nikki Gillum, primary, Idrees, Rabia, additional, Ding, Hao, additional, Jaimes III, Rafael, additional, Stybayeva, Gulnaz, additional, Karabekian, Zaruhi, additional, Laflamme, Michael A., additional, and Sarvazyan, Narine, additional
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- 2015
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8. A technical review of optical mapping of intracellular calcium within myocardial tissue.
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Jaimes III, Rafael, Walton, Richard D., Pasdois, Philippe, Bernus, Olivier, Efimov, Igor R., and Kay, Matthew W.
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INTRACELLULAR calcium , *FLUORESCENCE , *CARDIOVASCULAR diseases - Abstract
Optical mapping of Ca2+-sensitive fluorescence probes has become an extremely useful approach and adopted by many cardiovascular research laboratories to study a spectrum of myocardial physiology and disease conditions. Optical mapping data are often displayed as detailed pseudocolor images, providing unique insight for interpreting mechanisms of ectopic activity, action potential and Ca2+ transient alternans, tachycardia, and fibrillation. Ca2+-sensitive fluorescent probes and optical mapping systems continue to evolve in the ongoing effort to improve therapies that ease the growing worldwide burden of cardiovascular disease. In this technical review we provide an updated overview of conventional approaches for optical mapping of Cai 2+ within intact myocardium. In doing so, a brief history of Cai 2+ probes is provided, and nonratiometric and ratiometric Ca2+ probes are discussed, including probes for imaging sarcoplasmic reticulum Ca2+ and probes compatible with potentiometric dyes for dual optical mapping. Typical measurements derived from optical Cai 2+ signals are explained, and the analytics used to compute them are presented. Last, recent studies using Cai 2+ optical mapping to study arrhythmias, heart failure, and metabolic perturbations are summarized. [ABSTRACT FROM AUTHOR]
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- 2016
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9. Feeding the fibrillating heart: Dichloroacetate improves cardiac contractile dysfunction following VF.
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Azam, Mohammed Ali, Wagg, Cory S., Massé, Stéphane, Farid, Talha, Lai, Patrick F. H., Kusha, Marjan, Asta, John, Jaimes III, Rafael, Kuzmiak-Glancy, Sarah, Kay, Matthew W., Lopaschuk, Gary D., and Nanthakumar, Kumaraswamy
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ACETATES analysis ,CONTRACTILE proteins ,VENTRICULAR fibrillation ,CARDIAC arrest ,MYOCARDIAL infarction ,RESUSCITATION - Abstract
Ventricular fibrillation (VF) is an important cause of sudden cardiac arrest following myocardial infarction. Following resuscitation from VF, decreased cardiac contractile function is a common problem. During and following myocardial ischemia, decreased glucose oxidation, increased anaerobic glycolysis for cardiac energy production are harmful and energetically expensive. The objective of the present study is to determine the effects of dichloroacetate (DCA), a glucose oxidation stimulator, on cardiac contractile dysfunction following ischemiainduced VF. Male Sprague-Dawley rat hearts were Langendorff perfused in Tyrode's buffer. Once stabilized, hearts were subjected to 15 min of global ischemia and 5 min of aerobic reperfusion in the presence or absence of DCA. At the 6th min of reperfusion, VF was induced electrically, and terminated. Left ventricular (LV) pressure was measured using a balloon. Pretreatment with DCA significantly improved post-VF left ventricular developed pressure (LVDP) and dp/dt
max . In DCA-pretreated hearts, post-VF lactate production and pyruvate dehydrogenase (PDH) phosphorylation were significantly reduced, indicative of stimulated glucose oxidation, and inhibited anaerobic glycolysis by activation of PDH. Epicardial NADH fluorescence was increased during global ischemia above preischemic levels, but decreased below preischemia levels following VF, with no differences between nontreated controls and DCA-pretreated hearts, whereas DCA pretreatment increased NADH production in nonischemic hearts. With exogenous fatty acids (FA) added to the perfusion solution, DCA pretreatment also resulted in improvements in post-VF LVDP and dp/dtmax , indicating that the presence of exogenous FA did not affect the beneficial actions of DCA. In conclusion, enhancement of PDH activation by DCA mitigates cardiac contractile dysfunction following ischemia-induced VF. [ABSTRACT FROM AUTHOR]- Published
- 2015
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10. NADH Fluorescence Imaging of Isolated Biventricular Working Rabbit Hearts
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Asfour, Huda, primary, Wengrowski, Anastasia M., primary, Jaimes III, Rafael, primary, Swift, Luther M., primary, and Kay, Matthew W., primary
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- 2012
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11. Plasticizer Interaction With the Heart: Chemicals Used in Plastic Medical Devices Can Interfere With Cardiac Electrophysiology.
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Jaimes III, Rafael, McCullough, Damon, Siegel, Bryan, Swift, Luther, McInerney, Daniel, Hiebert, James, Perez-Alday, Erick A., Trenor, Beatriz, Sheng, Jiansong, Saiz, Javier, Tereshchenko, Larisa G, Posnack, Nikki Gillum, and Jaimes, Rafael 3rd
- Abstract
Background: Phthalates are used as plasticizers in the manufacturing of flexible, plastic medical products. Patients can be subjected to high phthalate exposure through contact with plastic medical devices. We aimed to investigate the cardiac safety and biocompatibility of mono-2-ethylhexyl phthalate (MEHP), a phthalate with documented exposure in intensive care patients.Methods: Optical mapping of transmembrane voltage and pacing studies were performed on isolated, Langendorff-perfused rat hearts to assess cardiac electrophysiology after MEHP exposure compared with controls. MEHP dose was chosen based on reported blood concentrations after an exchange transfusion procedure.Results: Thirty-minute exposure to MEHP increased the atrioventricular node (147 versus 107 ms) and ventricular (117 versus 77.5 ms) effective refractory periods, compared with controls. Optical mapping revealed prolonged action potential duration at slower pacing cycle lengths, akin to reverse use dependence. The plateau phase of the action potential duration restitution curve steepened and became monophasic in MEHP-exposed hearts (0.18 versus 0.06 slope). Action potential duration lengthening occurred during late-phase repolarization resulting in triangulation (70.3 versus 56.6 ms). MEHP exposure also slowed epicardial conduction velocity (35 versus 60 cm/s), which may be partly explained by inhibition of Nav1.5 (874 and 231 µmol/L half-maximal inhibitory concentration, fast and late sodium current).Conclusions: This study highlights the impact of acute MEHP exposure, using a clinically relevant dose, on cardiac electrophysiology in the intact heart. Heightened clinical exposure to plasticized medical products may have cardiac safety implications-given that action potential triangulation and electrical restitution modifications are a risk factor for early after depolarizations and cardiac arrhythmias. [ABSTRACT FROM AUTHOR]- Published
- 2019
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12. TO THE EDITOR: Leptin Resistance and Epidural Lipomatosis?
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Rocco, Angelo G. and Jaimes III, Rafael
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LEPTIN regulation , *BODY mass index , *ADRENOCORTICAL hormones , *LIPOMATOSIS , *HYDROCORTISONE , *LEPTIN , *EPIDURAL space , *DIAGNOSIS - Published
- 2017
- Full Text
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