Atrial Flutter: Mechanisms, Clinical Features, and Management ,
DOI : 10.1016/B0-7216-0323-8/50057-9
The surgical treatment of atrial fibrillation. I Thorac ,
Atrial fibrillation Mechanism and management, 1992. ,
Surgery for atrial fibrillation. Cardiac Electrophysiology From ceil ta bedside ~d ed, ch, pp.1563-1576, 1995. ,
Nygren A, Svedenhag I : A new surgical technique in atrial fibrillation. The maze procedure restores sinus rhythm, Lakartidningen, vol.6, issue.40, pp.94-3511, 1997. ,
Replication of the /'Maze" procedure by radiofrequency catheter ablation reduces the ability to induce atrial fibrillation. PACE, NAPSE abstract, II), pp.7-11, 1994. ,
A catheter based curative approach to atrialftbrillation in humans, Circulation ARA, Abstracts, vol.98, issue.04, pp.1-335, 1994. ,
Über den einfluss welche heftigere erysipeln zuweileg auf organisierte neubildelungen ausüben, Verhand1. Naturh. Preuss Rhein. Westphal, vol.9, pp.28-30 ,
A travers l'électricité, p.406, 1903. ,
Larousse médical illustré, p.1294, 1912. ,
History of biological effects an medical applications of microwave energy ,
Bundle-branch block with short ]!R interval in healthy young people prone to paraproxysmal tachycardia [13] c.c. Wolferth, EC. Wood: The mechanism of production of short P-R intervals and prolonged QRS complexes in patients with presumably undamaged hearts : hypothesis of an accessory pathway of auriculoventricular conduction (bundle of Kent). Am. Heat l, vo1, Am. Heat l, vol.5, issue.8, pp.685-704, 1930. ,
Successful surgical interruption of the bundle of Kent in a patient Hith Wolf- Parkinson-White syndrome, Circulation, vol.3815, pp.1018-1028, 1968. ,
Control of reccurent tachycardia of Wolff-Parkinson-White syndrome by surgical ligature of the AV bundle, Circulation, vol.3816, pp.1030-1036, 1968. ,
Technique for production of permanent lesion in the intracardiac conduction system (abstract), Clin. Res, p.141, 1977. ,
Grogogeat: Bloc AV intra-hisien définitif induit au cour d'une exploration endoventriculaire droite, Arch. Mal. Coeur, vol.7220, pp.107-112, 1979. ,
Rubinstein: Closed-chest electrodecatheter techniques for His bundle ablation in dogs, Am. Physio. Soc, vol.24121, pp.283-287, 1981. ,
The formation, transmission and signifiance of high pressure shock waves during catheter ablation, Br. Heart l, vol.5922, p.108, 1987. ,
Transvenous cryoablation of the bundle ofHis, PACE, vol.1423, issue.1, pp.504-509, 1991. ,
Anderson et a1. : Cryosurgical ablation of accessory atrioventricular connections : A method for correction of the pre-excitation syndrome. Circulation, vo1, pp.471-478, 1977. ,
Comparison of left ventricular cryolesions created by liquid nitrogen and nitrous oxide. l Am. Coll. Cardio1., vo1, pp.1425-1429, 1992. ,
Gadhoke: Laser therapy for tachyarrhythmias: a new frontier ,
Thermal and optical properties of living tissue : Application to laser-induced hyperthermia, Laser Surg. Med, vol.27, pp.589-599, 1985. ,
Tissue optics for a slab geometry in the diffusion approximation, Laser Med. Sei, vol.28, issue.2, pp.295-312, 1987. ,
Laser angiosurgery : A Biomedical system using photonsto diagnose and treat atherosclerosis, pp.179-187, 1993. ,
Albagli : An Integrated system for spectral diagnosis, guidance and ablation in laser angiosurgery Interventional Cardiology Boulnois : Photophysical processes in recent medical laser developments : A review, Lasers Med. Sei, pp.189-202, 1987. ,
Application of lasers for arrhytmia ablation, Cardiae Eleetrophysiology from Cell to Beside ,
Application of ultrasound energy for intracardiac ablation ofarrhythmias, Eu. Heart l, vol.33, pp.961-966, 1995. ,
Hynynen : Introduction of hyperthermia unsing an intracavitary multi-element ultrasonic applicator, IEEE Trans. Biomed. Eng, vol.3634, pp.432-438, 1989. ,
Ultrasound induced hyperthermia for the treatment of human superficial tumors, Int. l Radiat. Onco1. Biol. Phys, vol.35, pp.1225-1229, 1982. ,
Anhalt : A scanned, focused, multiple transducer ultrasonic system for localized hyperthermia treatment. Int. 1 Hyperthermia, pp.21-35, 1987. ,
Dewey: Thermal dose determination in cancer therapy ,
Mareus : The feasibility of using ultrasound for cardiac ablation, Biol. Phys. IEEE Trans. Biomed Eng, vol.4238, pp.787-800, 1984. ,
An anatomie approach to prevention of atrial fibrillation : Pulmonay vein isolation with through-theballoon Ultrasound ablation (l'TB-USA), Thorae. Cardiovase. Surg, vol.40, pp.7-347, 1999. ,
Transcoronary chemical ablation of ventricular tachycardia. Circulation, vo1, pp.475-482, 1989. ,
Closed chest catheter desication of the atrio ventricular junction using radio frequency energy. A new method of catheter ablation, J. Am. Coll. Cardio, vol.42, pp.349-358, 1987. ,
Radiofrequency catheter ablation of cardiac arrhytmias: Appraisal of an evolving therapeutic modality, Am. Heart J, vol.43, pp.1317-1323, 1989. ,
Determinants of Impedance Rise During Catheter Ablation of Bovine Myocardium with Radiofrequency Energy, Pacing and Clinical Electrophysiology, vol.76, issue.9, pp.1502-1513, 1989. ,
DOI : 10.1161/01.CIR.78.2.416
Experimental observations on the use of radiofrequency energy ablation of ventricular tissue, pp.337-342, 1988. ,
Impedance characteristics of retrograde versus transeptal approaches to radiofrequency ablation of the left sided accessory pathway (abstract), p.921, 1995. ,
Myocardial temperature response during radiofrequency catheter ablation. PACE, voLl8, pp.307-317, 1995. ,
Intramural ablation using radiofrequency energy via screw-tip catheter and saline electrode (abstract). PACE, voLl8, p.921, 1995. ,
Instrumentation pour l'ablation intracardiaque méthode d'adaptation automatique d'impédance ,
Comparative study of high frequency electrophysiological catheters for intracardiac ablatherapy, Wor1d Congress on Medical Physics and Biomedical Engineering, p.52, 1997. ,
Nouvelle méthode d'adaptation automatique d'impédance appliquée à l'ablation intracardiaque " Conférence méditerranéenne sur l'électronique et l'automatique. MCEA'98, pp.17-19 ,
Etude et réalisation d'une sonde électrophysiologique haute fréquence pour l'ablathérapie intracardiaque. 8 eme Fommjeunes chercheurs en GBM, pp.6-7, 1996. ,
Bru : Design of high frequency electrophysiological probe for ablatherapy. Third Intemationa1 Congress of EBEA, European CaST 244, 1996. ,
Etude et réalisation d'une sonde électrophysiologique haute fréquence pour l'ablathérapie intracardiaque ,
History of biological effects and medical applications of microwave energy Microwace catheter ablation of myocardium in vitro, IEEE Trans. Microwave Themy Tech. Circulation, vol.8959, pp.1182-1200, 1984. ,
Monopole antennas for microwave catheter ablation, IEEE Transactions on Microwave Theory and Techniques, vol.44, issue.10, pp.1832-183961, 1996. ,
DOI : 10.1109/22.539941
A finite element model of a microwave catheter for cardiac ablation, IEEE Transactions on Microwave Theory and Techniques, vol.44, issue.10, pp.1848-1854, 1996. ,
DOI : 10.1109/22.539943
Evaluation of microwave and radiofrequency catheter ablation in a myocardium equivalent phantom material, IEEE Trans. Biomed. Eng, vol.63, pp.1086-1095, 1992. ,
RF and microwave ablation for the treatment ofventricular tachycardia, IEEE MIT-s Dig, 1993. ,
Treatment of Atrial Fibrillation in Open Heart Surgery - The Potential Role of Microwave Energy, The Thoracic and Cardiovascular Surgeon, vol.47, issue.S 3, pp.374-378, 1999. ,
DOI : 10.1055/s-2007-1013204
Intraoperative Microwave Ablation for Curative Treatment of Atrial Fibrillation in Open Heart Surgery - The MICRO-STAF and MICRO-PASS Pilot Trial, The Thoracic and Cardiovascular Surgeon, vol.47, issue.S 3 ,
DOI : 10.1055/s-2007-1013205
Safety and EjJicay of a steerable temperature monitoring microwave catheter system for ventricular myocardial ablation, J Cardio ,
The Electromagnetic Field of an Insulated Antenna in a Conducting Or Dielectric Medium, IEEE Transactions on Microwave Theory and Techniques, vol.31, issue.7, pp.574-583, 1983. ,
DOI : 10.1109/TMTT.1983.1131547
The near field of an insulated dipole in a dissipative dielectric medium, IEEE Trans. Microwave Theory Tech, vol.3471, pp.459-463, 1986. ,
Stegun : Handbook of mathematical functions, AMS 55, U.S. Dept. of Commerce, 1964. ,
Approche theorique et realisation d'un systeme d'ablatherapie intracardiaque par sonde electrophysiologique haute frequence. These de doctorat de l, 1993. ,
Studies of thermal injury L The conduction of heat to and through skin and temperature attained therein. A theorical and experimental investigation, American IPath, vol.2374, pp.531-549, 1947. ,
Relationship between pain and tissue damage due to thermal irradiation. I Appl, Physio, vol.475, pp.373-383, 1959. ,
Henriques: Studies of thermal injury IL The relative importance of time and surface temperature in the causation of cutaneous burns. American lPath., vo1, pp.695-720, 1947. ,
Hayes : A finite element model of bum injury in blood-prefused skin ,
Formulas for preparing phantom muscle tissue at various radiofrequencies, Bioelectromagnetics, vol.15, issue.4, pp.435-441, 1984. ,
DOI : 10.1080/16070658.1980.11689181
A Comparative study offour open-ended coaxial probe models for permittivity measurements of lossy dielectriclbiological material at microwave frequencies, IEEE Trans. M.T.T, vol.4481, pp.1928-1934, 1996. ,
Monopole Antennas for microwave catheter ablation Chive : Coaxial antenna array for 915 MHz interstitial hyperthermia : Design and modelization -Power deposition and heating pattern -Phased array, IEEE Trans. Microwave Theorie Techn. IEEE Trans. Microwave Theory Tech, vol.444083, pp.1848-1854, 1992. ,
Heating characteristics of thin helical antennas with conducting cores in a lossy medium. I. Noninsulated antennas, IEEE Transactions on Microwave Theory and Techniques, vol.41, issue.11, pp.1878-1886, 1993. ,
DOI : 10.1109/22.273412
Traitement des arythmies cardiaques par ablation micr~onde, Thése de philosophiae doctor ,
Principles and Applications of electromagnetic fields, 1961. ,
Veyres: Extension of the application of conformai mapping techniques to coplanar lines. Int. l Electronic, volA8 Coplanar Waveguide: A surface strip transmission line suitable for a non reciprocal gyromagnetic device application, MIT-17, pp.47-56, 1969. ,
Microwave Transistor Amplifier: Analysis and Design Prentice Hall, 1997. [89] l Thuéry : Les Micro-ondes et leurs effets sur la matière, 1989. ,
The biophysics of radiofrequency catheter ablation in the heart ,
Electrical field probes in material media and their application in EMC, IEEE Trans. Microwave Theory and Technique, vol.4, pp.206-21192, 1975. ,
Performance comparison of available interstitial antennas for microwave hyperthermia, IEEE Transactions on Microwave Theory and Techniques, vol.37, issue.7, pp.1126-1132, 1989. ,
DOI : 10.1109/22.24558
Strohbehn : Interstitial hyperthermia and iridium brachytherapy in treatment of malignant glioma ,
Microwave applicators for localized hyperthermia treatment of cancer of the prostate, Int. l Radiation Onco1ogy Biol. Phys, vol.64, issue.6, pp.581-587, 1986. ,
Microwave applicator design for cardiac tissue ablations. l Microwave Power and Electrornagnetic Energy : The cap-choke catheter antenna for microwave ablation treatment, IEEE Trans. Bio. Eng, vol.3197, issue.43, pp.59-66, 1996. ,
Medical application of surface electromagnetic waves, Bioelectrochemistry and Bioenergetics, vol.47, issue.2, 1997. ,
DOI : 10.1016/S0302-4598(98)00200-1