Kroll, Mark W.
Mark W. Kroll
Kroll, Mark W., 19..-....
![Sudoc [ABES], France](/viaf/images/flags/SUDOC.png "Sudoc [ABES], France")
VIAF ID: 12476332 (Personal)
Permalink: http://viaf.org/viaf/12476332
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Kroll, Mark W.
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Kroll, Mark W.,
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Mark W. Kroll
4xx's: Alternate Name Forms (2)
Works
| Title | Sources |
|---|---|
| Atlas of conducted electrical weapon wounds and forensic analysis |
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| Cardiac Bioelectric Therapy : Mechanisms and Practical Implications |
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| Coronary blood flow produced by muscle contractions induced by intracardiac electrical CPR during ventricular fibrillation |
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| Current distribution in tissues with conducted electrical weapons operated in drive-stun mode |
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| Defibrillation success rates for electrically-induced fibrillation: hair of the dog. |
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| Defibrillation testing at ICD implantation: are we asking the wrong question? |
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| Defibrillation thresholds are lower with smaller storage capacitors. |
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| Do TASER Electrical Weapons Actually Electrocute? |
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| Does an SVC electrode further reduce DFT in a hot-can ICD system? |
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| Dual level sensing significantly improves automatic threshold control for R wave sensing in implantable defibrillators. The Angeion Corporation |
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| Efficacy of tuned waveforms based on different membrane time constants on defibrillation thresholds: primary results from the POWER trial |
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| Electric fence standards comport with human data and AC limits |
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| Electrical characteristics of an electronic control device under a physiologic load: a brief report |
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| Electrical Weapon Charge Delivery With Arcing |
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| Electrical weapons and excited delirium: shocks, stress, and serum serotonin |
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| Electrical weapons, hematocytes, and ischemic cardiovascular accidents |
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| Energy steering of biphasic waveforms using a transvenous three electrode system |
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| Essentials of low-power electrocution: established and speculated mechanisms |
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| Eye injury from electrical weapon probes: Mechanisms and treatment |
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| Fatal traumatic brain injury with electrical weapon falls |
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| Finite element modeling of electric field effects of TASER devices on nerve and muscle |
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| High Impedance Electrical Accidents: Importance of Source and Subject Impedance |
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| ICD lead failure detection through high frequency impedance. |
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| Impedance changes on defibrillation coils after atrial fibrillation ablation: lead damage or electromechanical interference? |
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| Impedance in the Diagnosis of Lead Malfunction |
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| Implantable cardioverter defibrillator therapy |
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| Incapacitation recovery times from a conductive electrical weapon exposure |
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| Infection Risk From Conducted Electrical Weapon Probes: What Do We Know? |
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| Innovative engineering solutions. “Lessons learned from medical systems development“ workshop--32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS). |
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| Large change in voltage at phase reversal improves biphasic defibrillation thresholds. Parallel-series mode switching |
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| Limitations of animal electrical cardiac safety models |
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| Low voltage shocks have a significantly higher tilt of the internal electric field than do high voltage shocks |
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| Mechanisms of pain associated with internal defibrillation shocks: results of a randomized study of shock waveform. |
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| Medical device design process |
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| “Medical device development: An Industry-Academia joint venture?” |
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| Medium voltage therapy for preventing and treating asystole and PEA in ICDs |
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| New conducted electrical weapons: Electrical safety relative to relevant standards |
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| New conducted electrical weapons: Thoracic cage shielding effects |
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| A novel mechanism for electrical currents inducing ventricular fibrillation: The three-fold way to fibrillation |
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| On positional asphyxia and death in custody |
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| Optimization of superior vena cava coil position and usage for transvenous defibrillation |
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| Optimized first phase tilt in "parallel-series" biphasic waveform |
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| Optimizing defibrillation waveforms for ICDs |
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| Perceived electrical shock and Bayesian inference with multisensory stimuli |
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| Plateau waveform shape allows a much higher patient shock energy tolerance in AF patients |
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| Preliminary clinical results of a biphasic waveform and an RV lead system |
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| Present understanding of shock polarity for internal defibrillation: the obvious and non-obvious clinical implications |
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| Prolonging the Prone Postulate |
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| Realities of biomedical product liability suits and the role of junk science: from breast implants to TASER weapons |
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| Reducing ICD Test Shocks with a Simplified Upper Limit of Vulnerability |
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| Response |
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| Safety of a High-Efficiency Electrical Fence Energizer |
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| Sawtooth first phase biphasic defibrillation waveform: a comparison with standard waveform in clinical devices |
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| Slope filtered pointwise correlation dimension algorithm and its evaluation with prefibrillation heart rate data |
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| Smaller capacitors improve the biphasic waveform |
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| Stepped defibrillation waveform is substantially more efficient than the 50/50% tilt biphasic |
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| The sternum as an electrical shield. |
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| TASER electronic control devices and eye injuries |
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| TASER(́P) Conducted Electrical Weapons: Physiology, Pathology, and Law |
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| TASER safety |
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| Theoretical possibility of ventricular fibrillation during use of TASER neuromuscular incapacitation devices |
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| To the editor: End of the apex era? |
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| Transthoracic application of electrical cardiopulmonary resuscitation for treatment of cardiac arrest |
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| Transthoracic cardiac stimulation thresholds for short pulses. |
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| Validity of the small swine model for human electrical safety risks |
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| Ventricular fibrillation: are swine a sensitive species? |
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| Ventricular fibrillation risk estimation for conducted electrical weapons: critical convolutions |
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| Ventricular fibrillation threshold of rapid short pulses |
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| A very interesting case study involving a TASER Conducted Electrical Weapon |
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| Why low-voltage shock impedance measurements fail to reliably detect insulation breaches in transvenous defibrillation leads |
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| Woven wire patches are superior to solid disks for subcutaneous electrodes: implications for active can defibrillation |
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| প্রত্যুত্তর |
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