Browsing by Author "Shen, Mark J."
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Item Chronic Low-Level Vagus Nerve Stimulation Reduces Stellate Ganglion Nerve Activity and Paroxysmal Atrial Tachyarrhythmias in Ambulatory Canines(Office of the Vice Chancellor for Research, 2011-04-08) Shen, Mark J.; Shinohara, Tetsuji; Park, Hyung-Wook; Frick, Kyle; Ice, Daniel S.; Choi, Eue-Keun; Han, Seongwook; Sharma, Rahul; Shen, Changyu; Fishbein, Michael C.; Chen, Lan S.; Lopshire, John C.; Zipes, Douglas P.; Lin, Shien-Fong; Chen, Peng-ShengIntroduction: Left sided low-level vagus nerve stimulation (LL-VNS) is used clinically for epilepsy and depression. We hypothesize that LL-VNS can suppress sympathetic outflow and reduce atrial tachyarrhythmias in ambulatory dogs. Methods: We implanted in 12 dogs a neurostimulator in left cervical vagus nerve and a radiotransmitter for continuous recording of left stellate ganglion nerve activities (SGNA), left thoracic vagal nerve activities (VNA) and electrocardiograms. The first 6 dogs (Group 1) underwent 1 week continuous LL-VNS. Another 6 dogs (Group 2) underwent intermittent rapid atrial pacing followed by active or sham LL-VNS on alternate weeks. Results: Integrated SGNA was significantly reduced during LL-VNS (7.8±0.9 mV-s vs. 9.4±0.9 mVs at baseline, P<0.05) in Group 1.The reduction was most apparent from 7 to 9 AM, (31% reduction, 10.8±2.5 mV-s versus 15.6±2.9 mV-s at baseline, P<0.01), along with a significantly reduced heart rate (P<0.05). SGNA-induced heart rate acceleration averaged 107.9±9.0 bpm during LL-VNS and 129.2±9.3 bpm at baseline (P<0.05). LL-VNS did not change VNA. The tyrosine hydroxylase-positive nerve structures in the left stellate ganglion were 99,684±22,257 µm2/mm2 in LL-VNS dogs and 186,561±11,383 µm2/mm2 (P<0.01) in normal control dogs. In Group 2, the frequencies of paroxysmal atrial fibrillation and atrial tachycardia during active LLVNS were 1.4±2.5/d and 8.0±5.8/d, respectively, significantly lower than during sham stimulation (9.2±6.2/d, P<0.01 and 22.0±4.4/d, P<0.001, respectively). Conclusion: LL-VNS suppresses SGNA and reduces the incidences of paroxysmal atrial tachyarrhythmias in ambulatory dogs. Significant neural remodeling of the left stellate ganglion is evident one week after cessation of chronic LL-VNS.Item Effects of carvedilol on cardiac autonomic nerve activities during sinus rhythm and atrial fibrillation in ambulatory dogs(Oxford University Press, 2014-07) Choi, Eue-Keun; Shen, Mark J.; Lin, Shien-Fong; Chen, Peng-Sheng; Oh, Seil; Department of Medicine, IU School of MedicineAIMS: We hypothesized that carvedilol can effectively suppress autonomic nerve activity (ANA) in ambulatory dogs during sinus rhythm and atrial fibrillation (AF), and that carvedilol withdrawal can lead to rebound elevation of ANA. Carvedilol is known to block pre-junctional β2-adrenoceptor responsible for norepinephrine release. METHODS AND RESULTS: We implanted radiotransmitters to record stellate ganglion nerve activity (SGNA), vagal nerve activity (VNA), and superior left ganglionated plexi nerve activity (SLGPNA) in 12 ambulatory dogs. Carvedilol (12.5 mg orally twice a day) was given for 7 days during sinus rhythm (n = 8). Four of the eight dogs and an additional four dogs were paced into persistent AF. Carvedilol reduced heart rate [from 103 b.p.m. (95% confidence interval (CI), 100-105) to 100 b.p.m. (95% CI, 98-102), P = 0.044], suppressed integrated nerve activities (Int-NAs, SGNA by 17%, VNA by 19%, and SLGPNA by 12%; all P < 0.05 vs. the baseline), and significantly reduced the incidence (from 8 ± 6 to 3 ± 3 episodes/day, P < 0.05) and total duration (from 68 ± 64 to 16 ± 21 s/day, P < 0.05) of paroxysmal atrial tachycardia (PAT). Following the development of persistent AF, carvedilol loading was associated with AF termination in three dogs. In the remaining five dogs, Int-NAs were not significantly suppressed by carvedilol, but SGNA significantly increased by 16% after carvedilol withdrawal (P < 0.001). CONCLUSION: Carvedilol suppresses ANA and PAT in ambulatory dogs during sinus rhythm.Item Hypokalemia Promotes Late Phase 3 Early Afterdepolarization and Recurrent Ventricular Fibrillation During Isoproterenol Infusion in Langendorff Perfused Rabbit Ventricles(Elsevier, 2014-04) Maruyama, Mitsunori; Ai, Tomohiko; Chua, Su-Kiat; Park, Hyung-Wook; Lee, Young-Soo; Shen, Mark J.; Chang, Po-Cheng; Lin, Shien-Fong; Chen, Peng-Sheng; Department of Medicine, IU School of MedicineBACKGROUND Hypokalemia and sympathetic activation are commonly associated with electrical storm (ES) in normal and diseased hearts. The mechanisms remain unclear. OBJECTIVE To test the hypothesis that late phase 3 early afterdepolarization (EAD) induced by IKATP activation underlies the mechanisms of ES during isoproterenol infusion and hypokalemia. METHODS Intracellular calcium (Cai) and membrane voltage were optically mapped in 32 Langendorff-perfused normal rabbit hearts. RESULTS Repeated episodes of electrically-induced VF at baseline did not result in spontaneous VF (SVF). During isoproterenol infusion, SVF occurred in 1 of 15 hearts (7%) studied in normal extracellular potassium ([K+]o) (4.5 mmol/L), 3 of 8 hearts (38%) in 2.0 mmol/L [K+]o, 9 of 10 hearts (90%) in 1.5 mmol/L [K+]o, and 7 of 7 hearts (100%) in 1.0 mmol/L [K+]o (P<0.001). Optical mapping showed isoproterenol and hypokalemia enhanced Cai transient duration (CaiTD) and heterogeneously shortened action potential duration (APD) after defibrillation, leading to late phase 3 EAD and SVF. IKATP blocker (glibenclamide, 5 μmol/L) reversed the post-defibrillation APD shortening and suppressed recurrent SVF in all hearts studied despite no evidence of ischemia. Nifedipine reliably prevented recurrent VF when given before, but not after, the development of VF. IKr blocker (E-4031) and small conductance calcium activated potassium channel blocker (apamin) failed to prevent recurrent SVF. CONCLUSION Beta-adrenergic stimulation and concomitant hypokalemia could cause non-ischemic activation of IKATP, heterogeneous APD shortening and prolongation of CaiTD to provoke late phase 3 EAD, triggered activity and recurrent SVF. IKATP inhibition may be useful in managing ES during resistant hypokalemia.Item Intermittent left cervical vagal nerve stimulation damages the stellate ganglia and reduces the ventricular rate during sustained atrial fibrillation in ambulatory dogs(Elsevier, 2016-03) Chinda, Kroekkiat; Tsai, Wei-Chung; Chan, Yi-Hsin; Lin, Andrew Y.-T.; Patel, Jheel; Zhao, Ye; Tan, Alex Y.; Shen, Mark J.; Lin, Hongbo; Shen, Changyu; Chattipakorn, Nipon; Rubart-von der Lohe, Michael; Chen, Lan S.; Fishbein, Michael C.; Lin, Shien-Fong; Chen, Zhenhui; Chen, Peng-Sheng; Department of Medicine, IU School of MedicineBACKGROUND: The effects of intermittent open-loop vagal nerve stimulation (VNS) on the ventricular rate (VR) during atrial fibrillation (AF) remain unclear. OBJECTIVE: The purpose of this study was to test the hypothesis that VNS damages the stellate ganglion (SG) and improves VR control during persistent AF. METHODS: We performed left cervical VNS in ambulatory dogs while recording the left SG nerve activity (SGNA) and vagal nerve activity. Tyrosine hydroxylase (TH) staining and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) staining were used to assess neuronal cell death in the SG. RESULTS: We induced persistent AF by atrial pacing in 6 dogs, followed by intermittent VNS with short ON-time (14 seconds) and long OFF-time (66 seconds). The integrated SGNA and VR during AF were 4.84 mV·s (95% confidence interval [CI] 3.08-6.60 mV·s) and 142 beats/min (95% CI 116-168 beats/min), respectively. During AF, VNS reduced the integrated SGNA and VR, respectively, to 3.74 mV·s (95% CI 2.27-5.20 mV·s; P = .021) and 115 beats/min (95% CI 96-134 beats/min; P = .016) during 66-second OFF-time and to 4.07 mV·s (95% CI 2.42-5.72 mV·s; P = .037) and 114 beats/min (95% CI 83-146 beats/min; P = .039) during 3-minute OFF-time. VNS increased the frequencies of prolonged (>3 seconds) pauses during AF. TH staining showed large confluent areas of damage in the left SG, characterized by pyknotic nuclei, reduced TH staining, increased percentage of TH-negative ganglion cells, and positive TUNEL staining. Occasional TUNEL-positive ganglion cells were also observed in the right SG. CONCLUSION: VNS damaged the SG, leading to reduced SGNA and better rate control during persistent AF.Item Interventional and Device-based Autonomic Modulation in Heart Failure(Elsevier, 2015) Shen, Mark J.; Zipes, Douglas P.; Department of Medicine, IU School of MedicineHeart failure is an increasingly prevalent disease with high mortality and public health burden. It is associated with autonomic imbalance characterized by sympathetic hyperactivity and parasympathetic hypoactivity. Evolving novel interventional and device-based therapy has sought to restore autonomic balance by neuromodulation. Results of preclinical animal studies and early clinical trials have demonstrated its safety and efficacy in heart failure. In this review article, we will discuss specific neuromodulatory treatment modalities individually—spinal cord stimulation, vagus nerve stimulation, baroreceptor activation therapy and renal sympathetic nerve denervation.Item Selective sinoatrial node optical mapping and the mechanism of sinus rate acceleration(J-Stage, 2012) Shinohara, Tetsuji; Park, Hyung-Wook; Joung, Boyoung; Maruyama, Mitsunori; Chua, Su-Kiat; Han, Seongwook; Shen, Mark J.; Chen, Peng-Sheng; Lin, Shien-Fong; Department of Medicine, IU School of MedicineBACKGROUND: Studies using isolated sinoatrial node (SAN) cells indicate that rhythmic spontaneous sarcoplasmic reticulum calcium release (Ca clock) plays an important role in SAN automaticity. In the intact SAN, cross-contamination of optical signals from the SAN and the right atrium (RA) prevent the definitive testing of Ca clock hypothesis. The aim of this study was to use a novel approach to selectively mapping the intact SAN to examine the Ca clock mechanism. METHODS AND RESULTS: We simultaneously mapped intracellular Ca (Ca(i)) and membrane potential (V(m)) in 10 isolated, Langendorff-perfused normal canine RAs. The excitability of the RA was suppressed with high-potassium Tyrode's solution, allowing selective optical mapping of V(m) and Ca(i) of the SAN. Isoproterenol (ISO, 0.03 µmol/L) decreased the cycle length of the sinus beats, and shifted the leading pacemaker site from the middle or inferior SAN to the superior SAN in all RAs. The Ca(i) upstroke preceded the V(m) in the leading pacemaker site by up to 18 ± 2 ms. ISO-induced changes to SAN were inhibited by ryanodine (3 µmol/L), but not ZD7288 (3 µmol/L), a selective I(f) blocker. CONCLUSIONS: We conclude that, in the isolated canine RA, a high extracellular potassium concentration can suppress atrial excitability thus leading to SAN-RA conduction block, allowing selective optical mapping of the intact SAN. Acceleration of Ca cycling in the superior SAN underlies the mechanism of sinus tachycardia during sympathetic stimulation.Item Simultaneous Recordings of Intrinsic Cardiac Nerve Activities and Skin Sympathetic Nerve Activities From Human Patients During the Postoperative Period(Elsevier, 2017) Shen, Mark J.; Coffey, Arthur C.; Straka, Susan; Adams, David E.; Wagner, David B.; Kovacs, Richard J.; Clark, Michael; Shen, Changyu; Chen, Lan S.; Everett, Thomas H., IV; Lin, Shien-Fong; Chen, Peng-Sheng; Department of Medicine, IU School of MedicineBackground Intrinsic cardiac nerve activity (ICNA) and skin nerve activity (SKNA) are both associated with cardiac arrhythmias in dogs. Objective The purpose of this study was to test the hypothesis that ICNA and SKNA correlate with postoperative cardiac arrhythmias in humans. Methods Eleven patients (mean age 60 ± 13 years; 4 women) were enrolled in this study. Electrical signals were simultaneously recorded from electrocardiogram (ECG) patch electrodes on the chest wall and from 2 temporary pacing wires placed during open heart surgery on the left atrial epicardial fat pad. The signals were filtered to display SKNA and ICNA. Premature atrial contractions (PACs) and premature ventricular contractions were determined manually. The SKNA and ICNA of the first 300 minutes of each patient were calculated minute by minute to determine baseline average amplitudes of nerve activities and to determine their correlation with arrhythmia burden. Results We processed 1365 ± 973 minutes of recording per patient. Low-amplitude SKNA and ICNA were present at all time, while the burst discharges were observed much less frequently. Both SKNA and burst ICNA were significantly associated with the onset of PACs and premature ventricular contractions. Baseline average ICNA (aICNA), but not average SKNA, had a significant association with PAC burden. The correlation coefficient (r) between aICNA and PAC burden was 0.78 (P < .01). A patient with the greatest aICNA developed postoperative atrial fibrillation. Conclusion ICNA and SKNA can be recorded from human patients in the postoperative period. The baseline magnitude of ICNA correlates with PAC burden and development of postoperative atrial fibrillation.