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A Pacemaker AutoSense Algorithm with Dual Thresholds  

Kim, Jung-Kuk (Department of Electronics Engineering, Myongji University)
Huh, Woong (Department of Electronics Engineering, Myongji University)
Publication Information
Journal of Biomedical Engineering Research / v.23, no.6, 2002 , pp. 477-484 More about this Journal
Abstract
A pacemaker autosense algorithm with dual thresholds. one for noise or tachyarrhythmia detection (noise threshold, NT) and the other for intrinsic beat detection (sensing threshold. ST), was developed to improve the sensing performance in single pass VDD electrograms. unipolar electrograms, or atrial fibrillation detection. When a deflection in an electrogram exceeds the NT (defined as 50% of 57), the autosense algorithm with dual thresholds checks if the deflection also exceeds the ST. If it does, the autosense algorithm calculates the signal to noise ratio (SNR) of the deflection to the highest deflection detected by NT but lower than ST during the last cardiac cycle. If the SNR 2, the autosense algorithm declares an intrinsic beat detection and calculates the next ST based on the three most recent intrinsic peaks. If the SNR $\geq$2, the autosense algorithm checks the number of deflections detected by NT during the last cardiac cycle in order to determine if it is a noise detection or tachyarrhythmia detection. Usually the autosense algorithm tries to set the 57 at 37.5% of the average of the three intrinsic beats, although it changes the percentage according to event classifications. The autosense algorithm was tested through computer simulation of atrial electrograms from 5 patients obtained during EP study, to simulate a worst sensing situation. The result showed that the ST levels for autosense algorithm tracked the electrogram amplitudes properly, providing more noise immunity whenever necessary. Also, the autosense algorithm with dual thresholds achieved sensing performance as good as the conventional fixed sensitivity method that was optimized retrospectively.
Keywords
Autosense; Automatic pacemaker sensing; Sensitivity;
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  • Reference
1 Implantable Lead Registry. Survival of implantable pacemaker leads /
[ Furman S;Benedek ZM ] / PACE   DOI   ScienceOn
2 Influence of autothreshold sensing and sinus rate on mode switching algorithm behavior /
[ Wood M;Ellenbogen K;Dinsmoor D;Hess M;Markowitz T ] / PACE   DOI   ScienceOn
3 /
[ Wiegand U;Bode F;Bonnemeier H;Tolg R ] / Incidence and predictors of pacemaker dysfunction with unipolar ventricular lead configuration
4 Automatic gain control in pacemaker sensing /
[ Kim J;Haefner P;Stockburger M;Spinelli J ] / NASPE
5 Reliability of an automatic sensing algorithm /
[ Berg M;Frohlig G;Schwerdt H;Becker R;Schieffer H ] / PACE   DOI   ScienceOn
6 Should unipolar leads be implanted in the atrium? A Holter electrocardiographic comparison of threshold adapted unipolar and high sensitive bipolar sensing /
[ Wiegand U;Schier H;Bode F;Brandes A;Potratz J ] / PACE   DOI   ScienceOn
7 Long-tern stability of P-wave sensing in single lead VDDR pacing: Clinicla versus subclinical atrial undersensing /
[ Lau C;Tai Y;Leung S;Leung W;Chung F;Lee I ] / PACE pacing Clin Electrophysiol   DOI   ScienceOn
8 Clinical relevance of loss of atrial sensing in patients with single lead VDD pacemakers /
[ Van Campen C;de Cock C;Huijgens J;Visser C ] / PACE   DOI   ScienceOn
9 Evaluation of autosensing as an automatic means of maintaining a 2:1 sensing safety margin in an implanted pacemaker /
[ Castro A;Liebold A;Vincente J;Dungan T;Allen J ] / PACE   DOI   ScienceOn
10 Long-term clinical experence of patients implanted with two types of bipolar polyurethane ventricular leads /
[ Zweibel S;Gross J;Furman S ] / PACE
11 Paradoxical undersensing at a high sensitivity in dual chamber pacemakers /
[ Willems R;Holemans P;Ector H;Were F ] / PACE   DOI   ScienceOn
12 Extensive variation in the signal amplitude of the atrial floating VDD pacing electrode /
[ Sun Z;Stjernvall J;Laine P;Toivonen L ] / PACE   DOI   ScienceOn
13 Durability of bipolar coaxial endocardial pacemaker leads compared with unipolar leads /
[ Helguera ME;Pinski SL;Maloney JD;et al. ] / Cleve Clin J Med   DOI
14 Combipolar sensing in dual chamber pacing: Is there still a need for bipolar leads in the atrium? /
[ Linde C;Markewitz A;Strandberg H;Larsson B;Binner L;SchUller H ] / PACE   DOI   ScienceOn
15 /
[ Nowak B;Fellmann P;Maertens S;de Metz K;Mols R;Bruls A;Geil S;Voigtlander T;Himmrich E;Meyer J ] / 20th Cardiostim
16 Clinical evaluation of an automatic sensitivity adjustment feature in a dual chamber pacemaker /
[ Wilson J;Love C;Wettenstein E ] / PACE   DOI   ScienceOn
17 Rate dependent far-field R-wave sensing in an atrial tachyarrhythmia therapy device /
[ Collins R;Haugh C;Casavant D;Sheth N;Brown L;Hook B ] / PACE   DOI   ScienceOn
18 Behavior of an automatic sensing algorithm for single-pass VDD(SVDD) atrial electrograms /
[ Kim J.;Senden J;Willems R;Kammeijer W ] / 20th Cardiostim
19 Apprasial of pacing lead performance from the Danish Pacemaker Register /
[ MollerM;Arnsbo P. ] / PACE   DOI   ScienceOn
20 Multicenter experence with a bipolar tined polyurethane ventricular lead /
[ Hayes DL;Graham KJ;Irwin M et al. ] / PACE   DOI   ScienceOn
21 Atrial synchronous ventricular pacing with single lead: Realiability of atrial sensing during physical activities, and long-term stability of atrial sensing /
[ Faerestrand S;Ohm O ] / PACE   DOI   ScienceOn