Your search keyword '"Patch electrode"' showing total 21 results

1. Preferential activation of small cutaneous fibers through small pin electrode also depends on the shape of a long duration electrical current

Author

Rosa Hugosdottir, Carsten Dahl Mørch, Ole Kæseler Andersen, Thordur Helgason, and Lars Arendt-Nielsen

Subjects

Electrical stimulation, Electrical pulse shapes, Pin electrode, Patch electrode, Small fiber activation, Large fiber accommodation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Electrical stimulation is widely used in experimental pain research but it lacks selectivity towards small nociceptive fibers. When using standard surface patch electrodes and rectangular pulses, large fibers are activated at a lower threshold than small fibers. Pin electrodes have been designed for overcoming this problem by providing a higher current density in the upper epidermis where the small nociceptive fibers mainly terminate. At perception threshold level, pin electrode stimuli are rather selectively activating small nerve fibers and are perceived as painful, but for high current intensity, which is usually needed to evoke sufficient pain levels, large fibers are likely co-activated. Long duration current has been shown to elevate the threshold of large fibers by the mechanism of accommodation. However, it remains unclear whether the mechanism of accommodation in large fibers can be utilized to activate small fibers even more selectively by combining pin electrode stimulation with a long duration pulse. Results In this study, perception thresholds were determined for a patch- and a pin electrode for different pulse shapes of long duration. The perception threshold ratio between the two different electrodes was calculated to estimate the ability of the pulse shapes to preferentially activate small fibers. The perception threshold ratios were compared between stimulation pulses of 5- and 50 ms durations and shapes of: exponential increase, linear increase, bounded exponential, and rectangular. Qualitative pain perception was evaluated for all pulse shapes delivered at 10 times perception threshold. The results showed a higher perception threshold ratio for long duration 50 ms pulses than for 5 ms pulses. The highest perception threshold ratio was found for the 50 ms, bounded exponential pulse shape. Results furthermore revealed different strength-duration relation between the bounded exponential- and rectangular pulse shapes. Pin electrode stimulation at high intensity was mainly described as “stabbing”, “shooting”, and “sharp”. Conclusion These results indicate that long duration pulses with a bounded exponential increase preferentially activate the small nociceptive fibers with a pin electrode and concurrently cause elevated threshold of large non-nociceptive fibers with patch electrodes.

Published

2019

2. Investigating stimulation parameters for preferential small-fiber activation using exponentially rising electrical currents.

Author

Hugosdottir, Rosa, Mørch, Carsten Dahl, Andersen, Ole Kæseler, and Arendt-Nielsen, Lars

Abstract

Electrical stimulation is widely used in pain research and profiling, but current technologies lack selectivity toward small sensory fibers. Pin electrodes deliver high current density in upper skin layers, and it has been proposed that slowly rising exponential pulses can elevate large-fiber activation threshold and thereby increase preferential small-fiber activation. Optimal stimulation parameters for the combined pin electrode and exponential pulse stimulation have so far not been established, which is the aim of this study. Perception thresholds were compared between pin and patch electrodes using single 1- to 100-ms exponential and rectangular pulses. Stimulus-response functions were evaluated for both pulse shapes delivered as single pulses and pulse trains of 10 Hz using intensities from 0.1 to 20 times perception threshold. Perception thresholds (mA) decreased when duration was increased for both electrodes with rectangular pulses and the pin electrode with exponential pulses. For the patch electrode, perception thresholds for exponential pulses decreased for durations ≤10 ms but increased for durations ≥15 ms, indicating accommodation of large fibers. Stimulus-response curves for single pulses were similar for the two pulse shapes. For pulse trains, the slope of the curve was higher for rectangular pulses. Maximal large-fiber accommodation to exponential pulses was observed for 100-ms pulses, indicating that 100-ms exponential pulses should be applied for preferential small-fiber activation. Intensity of 10 times perception threshold was sufficient to cause maximal pain ratings. The developed methodology may open new opportunities for using electrical stimulation paradigms for small-fiber stimulation and diagnostics. [ABSTRACT FROM AUTHOR]

Published

2019

3. Preferential activation of small cutaneous fibers through small pin electrode also depends on the shape of a long duration electrical current

Author

Carsten Dahl Mørch, Lars Arendt-Nielsen, Ole Kæseler Andersen, Thordur Helgason, Rosa Hugosdottir, Verkfræðideild (HR), Department of Engineering (RU), Institute of Biomedical and Neural Engineering (IBNE) (RU), Tæknisvið (HR), School of Technology (RU), Háskólinn í Reykjavík, and Reykjavik University

Subjects

Male, Time Factors, Electrical pulse shapes, Stimulation, 0302 clinical medicine, Nerve Fibers, Taugavefur, Verkjameðferð, Skin, 0303 health sciences, Sársaukaskyn, Pulse (signal processing), General Neuroscience, Pin electrode, lcsh:QP351-495, Middle Aged, Taugavísindi, Exponential function, Nociception, Small fiber activation, Sensory Thresholds, Trefjar, Electrode, Pain perception, Female, Current density, Research Article, Adult, Materials science, Adolescent, Skynjun, lcsh:RC321-571, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, Áreiti, Humans, Raförvun, Short duration, Electrodes, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, 030304 developmental biology, Aged, Patch electrode, Electric Stimulation, Intensity (physics), lcsh:Neurophysiology and neuropsychology, Electrical stimulation, Leiðarar (rafmagn), Perception, Taugaboð, Large fiber accommodation, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

Publisher's version (útgefin grein), Background Electrical stimulation is widely used in experimental pain research but it lacks selectivity towards small nociceptive fibers. When using standard surface patch electrodes and rectangular pulses, large fibers are activated at a lower threshold than small fibers. Pin electrodes have been designed for overcoming this problem by providing a higher current density in the upper epidermis where the small nociceptive fibers mainly terminate. At perception threshold level, pin electrode stimuli are rather selectively activating small nerve fibers and are perceived as painful, but for high current intensity, which is usually needed to evoke sufficient pain levels, large fibers are likely co-activated. Long duration current has been shown to elevate the threshold of large fibers by the mechanism of accommodation. However, it remains unclear whether the mechanism of accommodation in large fibers can be utilized to activate small fibers even more selectively by combining pin electrode stimulation with a long duration pulse. Results In this study, perception thresholds were determined for a patch- and a pin electrode for different pulse shapes of long duration. The perception threshold ratio between the two different electrodes was calculated to estimate the ability of the pulse shapes to preferentially activate small fibers. The perception threshold ratios were compared between stimulation pulses of 5- and 50 ms durations and shapes of: exponential increase, linear increase, bounded exponential, and rectangular. Qualitative pain perception was evaluated for all pulse shapes delivered at 10 times perception threshold. The results showed a higher perception threshold ratio for long duration 50 ms pulses than for 5 ms pulses. The highest perception threshold ratio was found for the 50 ms, bounded exponential pulse shape. Results furthermore revealed different strength-duration relation between the bounded exponential- and rectangular pulse shapes. Pin electrode stimulation at high intensity was mainly described as "stabbing", "shooting", and "sharp". Conclusion These results indicate that long duration pulses with a bounded exponential increase preferentially activate the small nociceptive fibers with a pin electrode and concurrently cause elevated threshold of large non-nociceptive fibers with patch electrodes., Center for Neuroplasticity and Pain (CNAP) is supported by the Danish National Research Foundation (DNRF121)., "Peer Reviewed"

Published

2019

4. Onsite fish quality monitoring using ultra-sensitive patch electrode capacitive sensor at room temperature

Author

Partha Pratim Sahu and Mukut Senapati

Subjects

Materials science, Capacitive sensing, Biomedical Engineering, Biophysics, 02 engineering and technology, Biosensing Techniques, 01 natural sciences, Fish quality, Patch electrode, Electrochemistry, Calibration, Animals, Humans, Process engineering, Electrodes, Ultra sensitive, Sensor system, business.industry, 010401 analytical chemistry, Fishes, Temperature, Raw fish, General Medicine, 021001 nanoscience & nanotechnology, Silicon Dioxide, 0104 chemical sciences, Electrode, 0210 nano-technology, business, Biotechnology

Abstract

Fish freshness plays a vital role in the fish industry and also affects human health from a nutrition point of view. Here, an Au metal patch electrode capacitive sensor is introduced for rapid and accurate detection of volatile gases generated from raw fish to determine its freshness status. The MIS structured sensor was fabricated on a silicon substrate using Ag–SnO2 as sensing material over SiO2 layer and Au as a metal electrode. The calibration of the sensor was carried out with known composition of volatile gases (NH3, TMA, DMA and H2S) in the ppb-ppm regime. Our sensor using the proposed technique delivers sensor response to raw fish within 4 min, reflecting its freshness status in comparison to the TVB-N and TVC method which takes many hours to complete involving many sophisticated steps. The sensor response to volatile gases from Rohu (Labeo Rohita), Tilapia (Oreochromis Niloticus) and Illish (Tenualosa Ilisha) obtained by using our developed sensor system at 20 °C, 25 °C, and 30 °C, shows high correlation with TVB-N and TVC results. The acceptance limit for safe consumption of Tilapia, Rohu, and Illish at 30 °C was found to be 11 h, 12.5 h, and 10 h of storage time respectively. The result in this work assures a portable low-cost sensor for onsite monitoring of fish freshness at room temperature.

Published

2020

5. Preferential activation of small cutaneous fibers through small pin electrode also depends on the shape of a long duration electrical current

Author

Hugosdottir, Rosa, Mørch, Carsten Dahl, Andersen, Ole Kæseler, Helgason, Thordur, and Arendt-Nielsen, Lars

Published

2019

6. Electrical Grounding Improves Vagal Tone in Preterm Infants

Author

Yuri Gordin, Charles Palmer, Hans Hinssen, Kim K. Doheny, and Rohit Passi

Subjects

medicine.medical_specialty, Incubators, Infant, Neonatal intensive care unit, Gestational Age, Article, 03 medical and health sciences, 0302 clinical medicine, Patch electrode, Enterocolitis, Necrotizing, Heart Rate, Internal medicine, Intensive Care Units, Neonatal, medicine, Heart rate variability, Birth Weight, Humans, 030212 general & internal medicine, Prospective Studies, Vagal tone, Ground, business.industry, Electric Conductivity, Infant, Newborn, Vagus Nerve, Environmental Exposure, Galvanic Skin Response, medicine.disease, 030205 complementary & alternative medicine, Electronics, Medical, Neonatal morbidity, Pediatrics, Perinatology and Child Health, Necrotizing enterocolitis, Cardiology, business, Infant, Premature, Developmental Biology

Abstract

Background: Low vagal tone (VT) is a marker of vulnerability to stress and the risk of developing necrotizing enterocolitis in preterm infants. Electric fields produced by equipment in the neonatal intensive care unit (NICU) induce an electric potential measurable on the skin in reference to ground. An electrical connection to ground reduces the skin potential and improves VT in adults. Objectives: We aimed to measure the electric field strengths in the NICU environment and to determine if connecting an infant to electrical ground would reduce the skin potential and improve VT. We also wished to determine if the skin potential correlated with VT. Methods: Environmental magnetic flux density (MFD) was measured in and around incubators. Electrical grounding (EG) was achieved with a patch electrode and wire that extended to a ground outlet. We measured the skin potential in 26 infants and heart rate variability in 20 infants before, during, and after grounding. VT was represented by the high-frequency power of heart rate variability. Results: The background MFD in the NICU was below 0.5 mG, but it ranged between 1.5 and 12.7 mG in the closed incubator. A 60-Hz oscillating potential was recorded on the skin of all infants. With EG, the skin voltage dropped by about 95%. Pre-grounding VT was inversely correlated with the skin potential. VT increased by 67% with EG. After grounding, the VT fell to the pre-grounding level. Conclusion: The electrical environment affects autonomic balance. EG improves VT and may improve resilience to stress and lower the risk of neonatal morbidity in preterm infants.

Published

2017

7. Study on Electrophysiological Signal Monitoring of Plant under Stress Based on Integrated Op-Amps and Patch Electrode

Author

Weiming Cai and Qingke Qi

Subjects

0106 biological sciences, 0301 basic medicine, Computer engineering. Computer hardware, Materials science, General Computer Science, Article Subject, Acoustics, 01 natural sciences, Signal, law.invention, TK7885-7895, 03 medical and health sciences, Common-mode rejection ratio, Data acquisition, law, Patch electrode, Shielded cable, Electrical and Electronic Engineering, business.industry, Electrical engineering, Flooding (computer networking), Electrophysiology, 030104 developmental biology, Signal Processing, Operational amplifier, business, 010606 plant biology & botany

Abstract

Electrophysiological signal in plant is a weak electrical signal, which can fluctuate with the change of environment. An amplification detection system was designed for plant electrical signal acquisition by using integrated op-amps (CA3140, AD620, and INA118), patch electrode, data acquisition card (NI USB-6008), computer, and shielded box. Plant electrical signals were also studied under pressure and flooding stress. The amplification detection system can make nondestructive acquisition for Aquatic Scindapsus and Guaibcn with high precision, high sensitivity, low power consumption, high common mode rejection ratio, and working frequency bandwidth. Stress experiments were conducted through the system; results show that electrical signals were produced in the leaf of Aquatic Scindapsus under the stress of pressure. Electrical signals in the up-leaf surface of Aquatic Scindapsus were stronger than the down-leaf surface. Electrical signals produced in the leaf of Guaibcn were getting stronger when suffering flooding stress. The more the flooding stress was severe, the faster the electrical signal changed, the longer the time required for returning to a stable state was, and the greater the electrical signal got at the stable state was.

Published

2017

8. From Bernstein's rheotome to Neher-Sakmann’s patch electrode. The action potential

Author

Edward Carmeliet

Subjects

Patch-Clamp Techniques, Physiology, Voltage clamp, Action Potentials, Review Article, 030204 cardiovascular system & hematology, Conduction, History, 21st Century, 03 medical and health sciences, 0302 clinical medicine, Molecular level, Patch electrode, Physiology (medical), Membrane Physiology, Animals, patch, ionic theory, Review Articles, Physics, History, 19th Century, History, 20th Century, pacemaker, Action (physics), Electrophysiology, Microelectrode, Squid giant axon, Electrode, Cellular Physiology, Muscle action potential, Atomic physics, 030217 neurology & neurosurgery

Abstract

The aim of this review was to provide an overview of the most important stages in the development of cellular electrophysiology. The period covered starts with Bernstein's formulation of the membrane hypothesis and the measurement of the nerve and muscle action potential. Technical innovations make discoveries possible. This was the case with the use of the squid giant axon, allowing the insertion of “large” intracellular electrodes and derivation of transmembrane potentials. Application of the newly developed voltage clamp method for measuring ionic currents, resulted in the formulation of the ionic theory. At the same time transmembrane measurements were made possible in smaller cells by the introduction of the microelectrode. An improvement of this electrode was the next major (r)evolution. The patch electrode made it possible to descend to the molecular level and record single ionic channel activity. The patch technique has been proven to be exceptionally versatile. In its whole‐cell configuration it was the solution to measure voltage clamp currents in small cells. See also: https://doi.org/10.14814/phy2.13860 & https://doi.org/10.14814/phy2.13862

Published

2019

9. Ion Channels in Small Cells and Subcellular Structures Can Be Studied with a Smart Patch-Clamp System

Author

Daniel Sánchez, Guy W. J. Moss, Andrew Shevchuk, Michael Whitaker, Max J. Lab, Hilmar Spohr, Yuri E. Korchev, Igor Vodyanoy, David Klenerman, Alberto Darszon, Yuchun Gu, David C. H. Benton, Christopher R. W. Edwards, Julia Gorelik, and Sian E. Harding

Subjects

Male, Patch-Clamp Techniques, Biophysics, Nanotechnology, In Vitro Techniques, Microscopy, Scanning Probe, Kidney, Ion Channels, Cell Line, Feedback, Membrane Potentials, Rats, Sprague-Dawley, Patch electrode, Animals, Myocytes, Cardiac, Patch clamp, Aorta, Ion channel, Neurons, Membrane potential, Membranes, business.industry, Chemistry, Pipette, Epithelial Cells, Equipment Design, Intracellular Membranes, Spermatozoa, Rats, Membrane, Sea Urchins, Scanning ion-conductance microscopy, Feasibility Studies, Optoelectronics, Nanometre, business, Research Article

Abstract

We have developed a scanning patch-clamp technique that facilitates single-channel recording from small cells and submicron cellular structures that are inaccessible by conventional methods. The scanning patch-clamp technique combines scanning ion conductance microscopy and patch-clamp recording through a single glass nanopipette probe. In this method the nanopipette is first scanned over a cell surface, using current feedback, to obtain a high-resolution topographic image. This same pipette is then used to make the patch-clamp recording. Because image information is obtained via the patch electrode it can be used to position the pipette onto a cell with nanometer precision. The utility of this technique is demonstrated by obtaining ion channel recordings from the top of epithelial microvilli and openings of cardiomyocyte T-tubules. Furthermore, for the first time we have demonstrated that it is possible to record ion channels from very small cells, such as sperm cells, under physiological conditions as well as record from cellular microstructures such as submicron neuronal processes.

Published

2002

10. Defibrillator patch electrode constriction: An underrecognized entity

Author

John R. Windle, Arthur R. Easley, William W. Barrington, and Ubeydullah Deligonul

Subjects

Adult, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Cardiac output, Pericardial constriction, Heart Diseases, medicine.medical_treatment, Constriction, Pathologic, Constriction, Patch electrode, Surgical removal, medicine, Humans, Pericardium, business.industry, Decortication, Defibrillators, Implantable, Surgery, medicine.anatomical_structure, cardiovascular system, Female, Cardiology and Cardiovascular Medicine, Complication, business

Abstract

Pericardial constriction associated with the placement of intrapericardial defibrillator patches is a rare occurrence that is reported only one tenth as often in defibrillator patients as in patients undergoing other types of cardiac operations. Although this discrepancy may be attributable to a lower incidence of constriction with the defibrillator patch electrode procedure, it may also indicate a failure to recognize that progressive right heart failure and signs of low cardiac output that could be due to pericardial constriction and not progressive systolic dysfunction. Because surgical removal of the patches and decortication of the epicardial surface is the only effective therapy, it is important to recognize this uncommon, but profoundly debilitating entity.

Published

1995

11. Patch sensor detection of glutamate release evoked by a single electrical shock

Author

Masamichi Satoh, Shuji Kaneko, Yukinori Shimoshige, Shun Shimohama, Akinori Akaike, Kiyoshi Mizukami, and Takehiko Maeda

Subjects

Patch-Clamp Techniques, Excitatory Amino Acids, Hippocampal slice, Neuroscience(all), Action Potentials, Glutamic Acid, Stimulation, Biosensing Techniques, Nerve Fibers, Patch electrode, medicine, Animals, Patch clamp, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid, Chemistry, Pyramidal Cells, General Neuroscience, Glutamate receptor, Electrical shock, Electric Stimulation, Rats, medicine.anatomical_structure, Guanosine 5'-O-(3-Thiotriphosphate), Pyramidal cell, Glutamic acid metabolism, Neuroscience, Biomedical engineering

Abstract

We tried to detect minimal stimulation-induced glutamate overflow from the surface of a hippocampal slice using an outside-out patch electrode excised from pyramidal cell membranes. The amplitude of the stimulation-induced patch current was dependent on the distance between the slice surface and the tip of patch sensor. The current-voltage relations of the stimulation-induced patch current were similar to those of the current evoked by puff application of l-glutamate to the patch. This indicates that the stimulation-induced patch current was produced by glutamate released from presynaptic terminals, and thus this technique may be useful in the study of transmitter release evoked by minimal electrical stimulation in brain slices.

Published

1995

12. Determination of patch electrode position for the internal cardioverter-defibrillator by cine computed tomography and its relation to the defibrillation threshold

Author

Jerry C. Griffin, Elan D. Scheinman, Joseph A. Abbott, Melvin M. Scheinman, Edward S. Yee, and Michael Oeff

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Defibrillation, Heart Ventricles, medicine.medical_treatment, Electric Countershock, Computed tomography, Sudden death, Free wall, Cardioverter-Defibrillator, Defibrillation threshold, Patch electrode, Position (vector), medicine, Humans, Aged, medicine.diagnostic_test, business.industry, Cardiac Pacing, Artificial, Middle Aged, Electrodes, Implanted, Surgery, Female, Radiography, Thoracic, Tomography, X-Ray Computed, business, Nuclear medicine, Cardiology and Cardiovascular Medicine

Abstract

Cardioverter-defibrillator implantation in 22 consecutive patients after aborted sudden cardiac death was followed by prospective determination of the correct anatomic position of epicardial patch electrodes by chest X-ray study and cine computed tomography; the data were compared with the defibrillation threshold obtained intraoperatively. Patch electrode position was qualitatively graded. Computed tomography improved the assessment as compared with X-ray study in 13 patients (59%), visualizing electrodes in relation to the underlying myocardial and vascular structures. Although the computed tomographic technique provided more precise visualization, its grading of patch position correlated as poorly as that of the X-ray study with the measured acute defibrillation threshold. Three-dimensional reconstruction by computed tomography made it possible to determine quantitatively left ventricular mass (free wall and septum) and the mass encompassed by the patch electrodes. The 34.6 ± 13.7% (range 12.6 to 61.1%) of the left ventricular mass encompassed by both patch electrodes showed a linear relation to the defibrillation threshold (r = 0.64, p = 0.01). Differentiation of free wall and septal mass in these measurements revealed that the proportion of septal mass encompassed by patch electrodes correlated closely with the defibrillation threshold (r = −0.6, p = 0.019), whereas that of the free wall mass, although significantly larger (35.4 ± 15.8 vs. 20.6 ± 15.4 g, p = 0.007), did not. Thus, the position of epicardial patch electrodes could be reliably determined by computed tomography. Although the tomographically measured fraction of left ventricular mass encompassed by patch electrodes was predictive of defibrillation threshold, for achievement of a low threshold, it was more important to include the interventricular septal mass than the free wall mass.

Published

1992

13. Use of a Planar Patch Electrode to Measure NBCe1‐A Function in Mammalian Cells

Author

Liyo Kao, Natalia Abuladze, Debra K. Newman, Weixin Liu, Ira Kurtz, and Alexander Pushkin

Subjects

Materials science, Planar, Patch electrode, Genetics, Measure (physics), Function (mathematics), Molecular Biology, Biochemistry, Biotechnology, Biomedical engineering

Published

2008

14. Left ventricular pseudoaneurysm after epicardial patch electrode placement

Author

William H. Maisel, Jeanne M. Lukanich, Raphael Bueno, Peter L. Friedman, and Sharon C. Reimold

Subjects

Pulmonary and Respiratory Medicine, Hemoptysis, medicine.medical_specialty, Heart disease, Diagnostic evaluation, Ventricular tachycardia, Text mining, Patch electrode, Internal medicine, medicine, Humans, cardiovascular diseases, Heart Aneurysm, Aged, Surgical repair, business.industry, Left ventricular pseudoaneurysm, medicine.disease, Defibrillators, Implantable, Electrodes, Implanted, Surgery, cardiovascular system, Cardiology, Female, Cardiology and Cardiovascular Medicine, business, Complication, Pericardium, Aneurysm, False

Abstract

There are many known complications of implantable cardioverter-defibrillator placement. We treated a patient in whom a left ventricular pseudoaneurysm developed secondary to epicardial patch electrode placement and cardioverter-defibrillator implantation. The presenting symptoms, diagnostic evaluation, and surgical repair are described.

Published

1998

15. Fracture of the subcutaneous patch electrode in a patient with an implanted cardioverter-defibrillator

Author

Dragutin Savic, Milos Velinovic, Goran Milasinovic, Sinisa U. Pavlovic, and Vera Jelic

Subjects

Pectoral region, Adult, medicine.medical_specialty, business.industry, Defibrillation, medicine.medical_treatment, General Medicine, medicine.disease, Surgery, Defibrillators, Implantable, Cardioverter-Defibrillator, Patch electrode, Internal medicine, Cardiology, medicine, Humans, Equipment Failure, Female, Cardiology and Cardiovascular Medicine, business, Electrodes, Tetralogy of Fallot

Abstract

There are more than 20 years of experience with implantation of defibrillator devices in humans and the procedure is an important therapeutic option for patients at high risk of life-threatening ventricular arrhythmias. The incidence of new defibrillator implantation has gradually increased, being used even in children, 1 although pediatric use is associated with several complications, especially with epicardial systems,2 including fracture of the subcutaneous patch,3-5 mainly because of growth.3 We present a case of subcutaneous patch electrode fracture in the left axillary pectoral region of a patient who needed the patch for effective defibrillation, and we discuss the methods of treatment. (Circ J 2005; 69: 116 -118)

Published

2005

16. Ca(2+)- and metabolism-related changes of mitochondrial potential in voltage-clamped CA1 pyramidal neurons in situ

Author

Uwe Heinemann, M. Lückermann, Klaus Ballanyi, Sebastian Schuchmann, and Anna Kulik

Subjects

In situ, Male, Patch-Clamp Techniques, Physiology, Hippocampal formation, Hippocampus, Membrane Potentials, 03 medical and health sciences, 0302 clinical medicine, Patch electrode, Animals, Rhodium, Rats, Wistar, 030304 developmental biology, Fluorescent Dyes, 0303 health sciences, Cyanides, Chemistry, General Neuroscience, Pyramidal Cells, Cell Membrane, Metabolism, Electric Stimulation, Mitochondria, Rats, Electrophysiology, Microscopy, Fluorescence, Calibration, Biophysics, Eosine Yellowish-(YS), Calcium, Female, Nerve Net, Dialysis (biochemistry), Dialysis, Microelectrodes, 030217 neurology & neurosurgery, Intracellular

Abstract

In hippocampal slices from rats, dialysis with rhodamine-123 (Rh-123) and/or fura-2 via the patch electrode allowed monitoring of mitochondrial potential (ΔΨ) changes and intracellular Ca2+([Ca2+]i) of CA1 pyramidal neurons. Plasmalemmal depolarization to 0 mV caused a mean [Ca2+]irise of 300 nM and increased Rh-123 fluorescence signal (RFS) by ≤50% of control. The evoked RFS, indicating depolarization of ΔΨ, and the [Ca2+]itransient were abolished by Ca2+-free superfusate or exposure of Ni2+/Cd2+. Simultaneous measurements of RFS and [Ca2+]ishowed that the kinetics of both the Ca2+rise and recovery were considerably faster than those of the ΔΨ depolarization. The plasmalemmal Ca2+/H+pump blocker eosin-B potentiated the peak of the depolarization-induced RFS and delayed recovery of both the RFS and [Ca2+]itransient. Thus the ΔΨ depolarization due to plasmalemmal depolarization is related to mitochondrial Ca2+sequestration secondary to Ca2+influx through voltage-gated Ca2+channels. CN−elevated [Ca2+]iby 2+]i. In the presence of oligomycin, CN−and p-trifluoromethoxy-phenylhydrazone (FCCP) elevated [Ca2+]iby 2+]i. Imaging techniques revealed that evoked [Ca2+]irises are distributed uniformly over the soma and primary dendrites, whereas corresponding changes in RFS occur more localized in subregions within the soma. The results show that microfluorometric measurement of the relation between mitochondrial function and intracellular Ca2+is feasible in whole cell recorded mammalian neurons in situ.

Published

2000

17. Experimental ablation study using a new long linear probe in isolated porcine hearts

Author

Eimei Shimoike, Takehiko Fujino, Norihiro Ueda, Toru Maruyama, Shozo Kanaya, Yoshikazu Kaji, and Yoshiyuki Niho

Subjects

medicine.medical_specialty, Materials science, Swine, medicine.medical_treatment, Tachycardia, Sinoatrial Nodal Reentry, Energy delivery, In Vitro Techniques, Ablation, Animal origin, Surgery, Patch electrode, Atrial Fibrillation, medicine, Catheter Ablation, Animals, Linear probe, Maze operation, Cardiology and Cardiovascular Medicine, Contact pressure, Radiofrequency energy, Biomedical engineering

Abstract

We studied a new technique for creating long linear lesions in hearts using a custom-made linear probe. Radiofrequency (RF) energy applications using a 25-mm long stainless steel linear probe and a corresponding 500-kHz energy generator were tested, creating 90 lesions in isolated porcine hearts. The RF current was applied between the linear probe and a large patch electrode attached to the back of the specimen. Three parameters, comprising the power of the delivered energy, the pressure of contact between the probe and the specimen, and the duration of energy delivery were changed independently and the size of the resulting lesions was measured. All 90 lesions were transmural, well demarcated and created by a single stationary RF application. Lesion length and width increased with: 1) increasing power, when the other two parameters were maintained at constant levels, 2) increasing contact pressure, when the other two parameters were maintained at constant levels, and 3) increasing duration of energy delivery when the other two paramaters were maintained at constant levels. The maximum width of the lesions was 3.7 mm. No overheating of any of the specimens was observed. In conclusion, the new original long linear probe used in this study was effective for creating transmural linear lesions, presenting the possibility of a worthwhile contribution to the maze surgical procedure applied to atrial fibrillation.

Published

1999

18. Implantation of cardioverter device in young children: the perirenal approach

Author

Robert A.E. Dion, Mark G. Hazekamp, Paul H Schoof, Martin J. Schalij, Nico A. Blom, and Other departments

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Perirenal space, Defibrillation, medicine.medical_treatment, Kidney, Risk Assessment, Sensitivity and Specificity, Left perirenal space, Patch electrode, Atrial Fibrillation, Humans, Medicine, Child, Peritoneal Cavity, Surgical approach, business.industry, Age Factors, Defibrillators, Implantable, Surgery, Child, Preschool, Tachycardia, Ventricular, Heavy weight, Cardiology and Cardiovascular Medicine, business, Large size

Abstract

Placement of Implantable cardioverter devices in young children is complicated because of the relatively large size and heavy weight of these devices. A technique is described where the device is implanted in the left perirenal space while an endovascular lead is used instead of an epicardial patch electrode.

Published

2001

19. Cosmetic approach for placement of the automatic implantable cardioverter-defibrillator in young women

Author

John A. Elefteriades, Lynda E. Rosenfeld, and Steven Curiale

Subjects

Pulmonary and Respiratory Medicine, Adult, medicine.medical_specialty, Esthetics, medicine.medical_treatment, Electric Countershock, Vena caval, Abdominal wall, External oblique fascia, Patch electrode, medicine, Humans, Surgical approach, business.industry, Arrhythmias, Cardiac, Implantable cardioverter-defibrillator, Transverse incision, Surgery, Electrodes, Implanted, Left breast, medicine.anatomical_structure, Thoracotomy, Female, Cardiology and Cardiovascular Medicine, business

Abstract

A surgical approach is described for a more cosmetically acceptable placement of the automatic implantable cardioverter-defibrillator in young women. The transvenous sensing lead and the vena caval spring electrode are placed through a small subclavicular incision. The left ventricular patch electrode is placed through an anterior minithoracotomy in the crease under the left breast. A small transverse incision in the left lower quadrant is used to place the generator under the external oblique fascia in the low abdominal wall. Minimal cosmetic impairment from incisions and hardware results.

Published

1991

20. Membrane voltage, resistance, and channel switching in isolated mouse fibroblasts (L cells): a patch-electrode analysis

Author

C L Slayman and S Hosoi

Subjects

Cell Membrane Permeability, Time Factors, Physiology, Kinetics, Action Potentials, Conductivity, Ion Channels, Membrane Potentials, Cell membrane, Mice, L Cells, Patch electrode, medicine, Animals, Cells, Cultured, Membrane potential, Chemistry, Conductance, Cobalt, Membrane, medicine.anatomical_structure, Barium, Electrode, Potassium, Biophysics, Calcium, Research Article

Abstract

The whole-cell patch-electrode technique of Fenwick, Marty & Neher (1982) has been applied to single suspension-cultured mouse fibroblasts. Seals in the range of 10-50 G omega were obtained without special cleaning of the cell membranes. Rupture of the membrane patch inside the electrode was accompanied by a shift of measured potential into the range -10 to -25 mV, but in most cases with little change in the recorded resistance. The latter fact implied that the absolute resistance of the cell membrane must be in the same range as the seal resistance and the recorded potential is a poor measure of actual cell membrane potential. Steady-state current-voltage curves (range -160 mV to +80 mV) were generated before and after rupture of the membrane patch, and the difference between these gave (zero-current) membrane potentials of -50 to -75 mV, which represents a leak-corrected estimate of the true cell-membrane potential. The associated slope conductivity of the cell membrane was 5-15 microS/cm2 (assumed smooth-sphere geometry, cells 13-15 microns in diameter) and was K+-dominated. With 0.1 mM (or more) free Ca2+ filling the patch electrode, membrane potentials in the range -60 to -85 mV were observed following patch rupture, with associated slope conductivities of 200-400 microS/cm2, also K+-dominated. Similar voltages and conductivities were observed at the peak of pulse-induced 'hyperpolarizing activation' (Nelson, Peacock, & Minna, 1972), and the two phenomena probably reflect the behaviour of Ca2+-activated K+ channels. Both the pulse-induced conductance and the Ca2+-activated conductance spontaneously decayed, the latter over periods of 5-15 min following patch rupture. Sr2+, Ba2+, and Co2+ could also activate the putative K+ channels, but only Sr2+ really mimicked Ca2+. Co2+ and Ba2+ activated with a delay of several minutes following patch rupture, and deactivated quickly with a small decrease of conductance and a large decrease of membrane potential. Evidently, Co2+ and Ba2+ affect channel specificity as well as channel opening and closing kinetics.

Published

1985

21. Preliminary experience with a hybrid nonthoracotomy defibrillating system that includes a biphasic device: Comparison with a standard monophasic device using the same lead system

Author

Jasbir Sra, Sanjay Deshpande, Kathi Axtell, Cheryl Maglio, Andrea Natale, Mohammad Jazayeri, Anwer Dhala, Masood Akhtar, and Abdul Wase

Subjects

Adult, Male, medicine.medical_specialty, Defibrillation, medicine.medical_treatment, Electric Countershock, Defibrillation threshold, Patch electrode, Medicine, Humans, In patient, Procedure time, Aged, business.industry, Lead system, Biphasic waveform, Equipment Design, Middle Aged, medicine.disease, Surgery, Defibrillators, Implantable, Electrodes, Implanted, Heart Arrest, Thoracotomy, Anesthesia, Ventricular fibrillation, Tachycardia, Ventricular, Female, business, Cardiology and Cardiovascular Medicine

Abstract

Objectives. This study analyzed the advantage of combining a biphasic device with a transvenous system and compared the results with those obtained with a standard monophasic device. Background. Available lead system use monophasic pulses and may require lengthy intraoprative testing to achieve adequate defibrillation threshold in a conspicuous number of patients. The option of biphasis waveform may provide further benefits. However, clinical experience with a permanent implant is lacking. Methods. Fifty-five patients underwent testing and received a permanent implant using the Endotak lead system associated with a CPI monophasic device. The remaining 36 patients received a permanent implant with the Endotak lead system connected to a biphasic device. In both groups a subcutaneous patch was combined when needed to obtain acceptable defibrillation thresholds. Results. Biphasic pulses resulted in lower mean (±SD) defibrillation threshold (monophasic 15 ± 4.7 J vs. biphasic 12 ± 5 J, p = 0.03) and a better implantation rate (100% biphasic vs. 89% monophasic, p = 0.07). Biphasic pulses allowed implantation with less ventricular fibrillation induction (7.4 ± 3.2 vs. 3.5 ± 1.8, p < 0.01) and a mean shorter procedure time (168 ± 39 vs. 111 ± 30 min, p < 0.01). With the biphasic waveform a grater proportion of patients met the implantation criteria with the lead system alone (83% vs. 45%, p < 0.01). When needed, the left prepectoral location of the patch electrode was always sufficient in patients receiving the biphasic device, whereas placement in the left subscapular position was required in 15 patients in the monophaisic group. Implantation of the biphasic device was associated with a shorter mean hospital stay (3.8 ± 0.8 vs. 5.4 ± 2.2 days, p < 0.01). Conclusions. Incorporation of a biphasic device in a transvenous implantable cardioverter-defibrillator uniformly incresses the efficacy of the system and the case of implantation.