J. Requena-Carrion, J. Vaisanen, F. Alonso-Atienza, A. Garcia-Alberola, F.J. Ramos-Lopez & J.L. Rojo-Alvarez. (2009) Sensitivity and Spatial Resolution of Transvenous Leads in Implantable Cardioverter Defibrillator. IEEE Transactions on Biomedical Engineering 56:12, pages 2773-2781.
Crossref
Merja Puurtinen, Jari Viik, Noriyuki Takano, Jaakko Malmivuo & Jari Hyttinen. (2009) Estimating the measuring sensitivity of unipolar and bipolar ECG with lead field method and FDM models. Computer Methods and Programs in Biomedicine 94:2, pages 161-167.
Crossref
J. Väisänen & J. Hyttinen. (2009) Region of Interest Sensitivity Ratio in Analyzing Sensitivity Distributions of Electrocardiographic Measurements. Annals of Biomedical Engineering 37:4, pages 692-701.
Crossref
J. Vaisanen, J. Requena Carrion & J. Hyttinen. (2008) Effects of activation origin in the subcutaneous ECG with horizontal and vertical bipolar lead orientation. Effects of activation origin in the subcutaneous ECG with horizontal and vertical bipolar lead orientation.
J. Requena-Carrion, J. Vaisanen, F. Alonso-Atienza, J.L. Rojo-Alvarez, J. Hyttinen & A. Garcia-Alberola. (2007) Comparison of the scope of true and integrated bipolar leads in implantable cardioverter defibrillators. Comparison of the scope of true and integrated bipolar leads in implantable cardioverter defibrillators.
Jesus Requena-Carrion, Juho Vaisanen, Felipe Alonso-Atienza, Jose Luis Rojo-Alvarez, Jari Hyttinen & Arcadio Garcia-Alberola. (2007) Estimation of the Scope of Transvenous Lead Systems in Implantable Cardioverter Defibrillators. Estimation of the Scope of Transvenous Lead Systems in Implantable Cardioverter Defibrillators.
Jesús Requena-Carrión, Juho Väisänen, José Luis Rojo-Álvarez, Jari Hyttinen, Felipe Alonso-Atienza & Jaakko Malmivuo. 2007. Functional Imaging and Modeling of the Heart. Functional Imaging and Modeling of the Heart
310
319
.
Juho Väisänen, Jesús Requena-Carrión, Felipe Alonso-Atienza, Jari Hyttinen, José Luis Rojo-Álvarez & Jaakko Malmivuo. 2007. Functional Imaging and Modeling of the Heart. Functional Imaging and Modeling of the Heart
300
309
.
Juho Väisänen, Jari Hyttinen & Jaakko Malmivuo. (2006) Finite difference and lead field methods in designing implantable ECG monitor. Medical & Biological Engineering & Computing 44:10, pages 857-864.
Crossref
J. Vaisanen, J. Hyttinen, M. Puurtinen, P. Kauppinen & J. Malmivuo. (2004) Prediction of implantable ECG lead systems by using thorax models. Prediction of implantable ECG lead systems by using thorax models.
M. Puurtinen, J. Hyttinen, J. Viik, P. Kauppinen & J. Malmivuo. (2004) Estimation of ECG signal of closely separated bipolar electrodes using thorax models. Estimation of ECG signal of closely separated bipolar electrodes using thorax models.
H.G. Puurtinen, J. Hyttinen, P. Kauppinen, N. Takano, P. Laarne & J. Malmivuo. (2001) Application of lead field theory and computerized thorax modeling for the ECG inverse problem. Application of lead field theory and computerized thorax modeling for the ECG inverse problem.
H.G. Puurtinen, J. Hyttinen, P. Laarne, N. Takano & J. Malmivuo. (2001) Effect of number of electrodes, electrode displacement, and RMS measurement noise on the localization accuracy of ECG inverse problem. Effect of number of electrodes, electrode displacement, and RMS measurement noise on the localization accuracy of ECG inverse problem.
Peter Kohl, Denis Noble, Raimond L Winslow & Peter J. Hunter. (2000) Computational modelling of biological systems: tools and visions. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 358:1766, pages 579-610.
Crossref
PASI K. KAUPPINEN, JARI A. HYTTINEN, TIIT KOOBI & JAAKKO MALMIVUO. (1999) Lead Field Theoretical Approach in Bioimpedance Measurements: Towards More Controlled Measurement Sensitivitya. Annals of the New York Academy of Sciences 873:1 ELECTRICAL BI, pages 135-142.
Crossref