(Body surface, map or mapping) and (BSM-STUDY NORMAL)

DESCRIPTIVE (12) Reference Values (9) STRESS-TEST (6) REPOLARIZATION (5) Heart Rate (5) Exercise Test (3) Action Potentials (3) Heart Conduction System/physiopathology (3) TACHYCARDIA-EFFECT-ON-ST (3) ANIMALS (3) Heart Ventricles/physiology (3) Rest (2) QRSI (2) CHILD (2) NORM-ACT (2) Heart Ventricles/physiopathology (2) Heart/physiology (2) INFANT (2) P-WAVE (2) Age Factors (2) Sex Factors (2) Body Surface Area (2) Thorax (2) Reference Standards (2) Vectorcardiography (1) VCG (1) Electric Conductivity (1) Infant, Newborn (1) LOW-LEVEL-POTENTIALS (1) QRSTI (1) Vectorcardiography/methods (1) VENTRICULAR-GRADIENT (1) AGED (1) Heart Conduction System/physiology (1) Membrane Potentials (1) SINGLE-MOVING-DIPOLE (1) Myocardial Contraction (1) Respiration (1) Echocardiography (1) TACHYCARDIA-EFFECT (1) Benzazepines (1) Diltiazem (1) Heart Rate/drug effects (1) Coronary Disease/diagnosis (1) Blood Pressure/drug effects (1) NEW-DIRECTION (1) VEB (1) Disease Models, Animal (1) ISCHEMIA-DIAGNOSTIC (1) Bundle-Branch Block/physiopathology (1) Pacemaker, Artificial (1) Cardiac Complexes, Premature/physiopathology (1) ISOCHRONE-MAPS (1) PACE-MAPPING (1) Cardiac Pacing, Artificial (1) Software (1) SVD (1) Computer Graphics (1) DESCRIPTION (1) Atrial Function (1) ISCHRONE-MAPS (1) Coronary Angiography (1) Heart Rate/drug effects/physiology (1) SYMPATHETIC-BLOCKADE (1) Ventricular Function/physiology (1) DISP-REPOL (1)

Am Heart J 1966 Nov;72(5):640-52.
Body surface isopotential maps in normal children, ages 4 to 14 years.
Spach MS, Silberberg WP, Boineau JP, Barr RC, Long EC, Gallie TM, Gabor JB, Wallace AG,
NIL

Am Heart J 1972 Jun;83(6):780-9.
Correlative analysis of vectorcardiograms and serial instantaneous surface potential maps in normal young men.
Olliff BC Jr, Horan LG, Flowers NC,
NIL

Circulation 1976 Dec;54(6):901-6.
The expression of normal ventricular repolarization in the body surface distribution of T potentials.
Abildskov JA, Burgess MJ, Lux RL, Wyatt R, Vincent GM,
NIL

Indian Heart J 1978 Sep-Oct;30(5):299-302.
A study of cardiac potential distribution on body surface in normal adults: QRS isopotential surface maps.
Aslam M, Abdullah AK, Siddiqui MA, Tajuddin M, Qureshi MM, Ali M, Husain E,
NIL

Circulation 1979 Apr;59(4):805-21.
Isopotential body surface mapping in subjects of all ages: emphasis on low-level potentials with analysis of the method.
Spach MS, Barr RC, Warren RB, Benson DW, Walston A, Edwards SB,
NIL

Circulation 1980 Sep;62(3):632-45.
Total body surface potential mapping during exercise: QRS-T-wave changes in normal young adults.
Miller WT 3rd, Spach MS, Warren RB,
NIL

Am J Cardiol 1980 Dec 1;46(6):988-96.
Body surface distribution of exercise-induced QRS changes in normal subjects.
Mirvis DM,
NIL

Circulation 1981 May;63(5):1166-72.
Isointegral analysis of body surface maps: surface distribution and temporal variability in normal subjects.
Montague TJ, Smith ER, Cameron DA, Rautaharju PM, Klassen GA, Felmington CS, Horacek BM,
NIL

J Electrocardiol 1981 Jul;14(3):249-60.
Electrocardiographic body surface potential maps of the QRS of normal children.
Leibman J, Thomas CW, Rudy Y, Plonsey R,
NIL

J Electrocardiol 1981 Oct;14(4):399-406.
The determination of the human ventricular gradient from body surface potential map data.
Sridharan MR, Horan LG, Hand RC, Johnson JC, Sohi GS, Flowers NC,
NIL

Jpn Circ J 1981 Oct;45(10):1199-202.
Characteristics of body surface mapping in the aged.
Matsushita S, Iwasaki T, Ueyama C, Kuramoto K, Murayama M,
NIL

Circulation 1982 Jun;65(6):1247-58.
Evolution of QRS and ST-T-wave body surface potential distributions during the first year of life.
Benson DW Jr, Spach MS,
NIL

Am J Cardiol 1982 Jul;50(1):122-8.
Evaluation of normal variations in S-T segment patterns by body surface isopotential mapping: S-T segment elevation in absence of heart disease.
Mirvis DM,
NIL

Nippon Naika Gakkai Zasshi 1983 Jan 10;72(1):25-37.
[Clinical application of the analysis of cardiac dipole estimated from the body surface potential mapping-normal cases]
Tsunakawa H,
NIL

J Electrocardiol 1983 Apr;16(2):151-9.
Human body surface mapping during atrial depolarization in normal and diseased subjects.
Kawano S, Sawanobori T, Hiraoka M,
NIL

Jpn Circ J 1984 May;48(5):484-91.
Body surface isopotential maps of normal Japanese children.
Kinoshita A, Ohta T, Hirai M, Kuno K, Toyama J, Yamada K,
NIL

J Cardiogr 1984 Aug;14(2):323-34.
[Effects of heart rate on body surface potential distribution in patients with atrial pacemaker]
Ohsugi S, Hayashi H, Ishikawa T, Yabe S, Kojima H, Takami K, Muramatsu H, Kato R, Sotobata I,
NIL

Jpn Heart J 1984 Nov;25(6):937-45.
Attenuation of exercise-induced R wave increase after diltiazem in effort angina pectoris.
Kubota I, Igarashi H, Ikeda K, Yamaki M, Tsuiki K, Yasui S, Watanabe Y,
NIL

Nippon Naika Gakkai Zasshi 1985 Jan;74(1):21-30.
[Estimation of the ventricular activation sequence in normal and ventricular premature beat by body surface isochrone map (VAT map)]
Hayashi H, Ishikawa T, Takami K, Kojima H, Yabe S, Ohsugi S, Miyachi K, Sotobata I,
NIL

J Electrocardiol 1985 Jan;18(1):77-85.
Ability of standard ECG parameters to detect the body surface isopotential abnormalities of pacing induced myocardial ischemia in the dog.
Mirvis DM,
NIL

Circulation 1985 Feb;71(2):244-53.
Effects of age, sex, and body habitus on QRS and ST-T potential maps of 1100 normal subjects.
Green LS, Lux RL, Haws CW, Williams RR, Hunt SC, Burgess MJ,
NIL

Cardiovasc Res 1985 May;19(5):254-63.
Electrocardiographic correlates of myocardial ischaemia induced by atrial and ventricular pacing in dogs with coronary stenosis.
Mirvis DM,
NIL

J Cardiogr 1985 Jun;15(2):525-33.
[Ventricular activation sequence estimated by body surface isochrone map]
Hayashi H, Ishikawa T, Takami K, Kojima H, Yabe S, Ohsugi S, Miyachi K, Sotobata I,
NIL

J Electrocardiol 1985 Jul;18(3):223-31.
Effects of tachycardia with normal and ectopic ventricular activation on S-T segment potential and patterns in the dog.
Mirvis DM, Marin-Garcia J,
NIL

J Electrocardiol 1985 Oct;18(4):341-50.
Effective extraction of diagnostic ECG waveform information using orthonormal basis functions derived from body surface potential maps.
Kornreich F, Rautaharju PM, Warren JW, Horacek BM, Dramaix M,
NIL

J Electrocardiol 1985 Oct;18(4):351-60.
Exercise electrocardiographic mapping in normal subjects.
McPherson DD, Horacek BM, Sutherland DJ, Armstrong CS, Spencer CA, Montague TJ,
NIL

J Electrocardiol 1988 Jan;21(1):1-14.
Newer data on the configuration and variability ranges of body surface maps in a sample of normal subjects.
Stilli D, Musso E, Barone P, Ciarlini P, Macchi E, Regoliosi G, Dei Cas L, Manca C, Visioli O, Bo M, et al.,
Istituto di Fisiologia Generale, Universita di Parma, Italy.

J Electrocardiol 1988 Jan;21(1):15-23.
Body surface isopotential maps during the first week of life.
Suzumiya H, Matsuoka Y, Hayakawa K,
Department of Pediatrics, Miyazaki Medical College, Japan.

Jpn Circ J 1988 Apr;52(4):349-56.
P wave changes in body surface potential maps due to increasing heart rate during exercise in normals.
Watanabe Y, Kohgame Y, Nakano H, Abo Y, Mizuno Y,
Department of Internal Medicine, Fujita-Gakuen Health University School of Medicine, Aichi, Japan.

J Electrocardiol 1988 Apr;21(2):121-36.
Electrocardiographic body surface potential maps of the QRS and T of normal young men. Qualitative description and selected quantifications.
Widman LE, Liebman J, Thomas C, Fraenkel R, Rudy Y,
Department of Medicine (University Hospitals), Case Western Reserve University, San Antonio.

Circulation 1989 May;79(5):1077-83.
Sources of variability in normal body surface potential maps.
Kozmann G, Lux RL, Green LS,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, School of Medicine, Salt Lake City 84112.

Pol Arch Med Wewn 1992 Aug-Sep;88(2-3):127-40.
[Heart potential mapping from the thoracic surface in healthy persons]
Kalka D,
Katedra i Zaklad Patofizjologii AM, Wroclawiu.

Physiol Res 1993;42(2):99-102.
Body surface isochrone maps of peak R in normal adolescent girls.
Kozlikova K, Hulin I, Kneppo P, Sapakova E, Bakosova M, Molnarova Z,
Institute of Pathological Physiology, School of Medicine, Comenius University Bratislava.

J Cardiovasc Electrophysiol 1993 Feb;4(1):2-8.
The effects of unilateral stellate ganglion blockade on human cardiac function during rest and exercise.
Gardner MJ, Kimber S, Johnstone DE, Shukla RC, Horacek BM, Forbes C, Armour JA,
Department of Medicine, Faculty of Medicine, Dalhousie University, Halifax, Nova Scotia, Canada.

Jpn Heart J 1993 Mar;34(2):159-70.
Body surface potential maps of ventricular depolarization in normal adults.
Tseng YZ, Tseng CD, Lo HM, Chiang FT, Hsu KL, Wu TL,
Department of Internal Medicine, National Taiwan University Hospital, Taipei, Republic of China.

Med Biol Eng Comput 2003 Sep;41(5):536-42.
Gender differences in stability of the instantaneous patterns of body surface potentials during ventricular repolarisation.
Corlan AD, Macfarlane PW, De Ambroggi L,
Cardiology Department, University Hospital of Bucharest, Academy of Medical Sciences, Romania.

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