PTB - 8.21 - Bioelektrizität und Biomagnetismus

Fachlaboratorium 8.21
Bioelektrizität und Biomagnetismus

Veröffentlichungen

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Magnetisch super-schirmender Raum (MSSR)

Bork J, Hahlbohm HD, Klein R, Schnabel, A
The 8-layered magnetically shielded room of the PTB: Design and construction
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 970-973
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83-SQUID MKG/MEG-System

Drung D
The PTB 83-SQUID System for Biomagnetic Applications in a Clinic.
IEEE transactions on applied superconductivity, 1995, vol. 5, no. 2p3, pp. 2112

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Analyse und Vergleichbarkeit von EKG-Daten

Bousseljot R, Kreiseler D
ECG signal analysis by pattern comparison.
Computers in Cardiology, 1998, 25, p. 349-352

Kreiseler D, Bousseljot R
EKG-Signalanalyse durch Mustervergleich und EKG-Datenbanken.
Biomedizinische Technik, 1998, 43(Suppl.1), p. 73-76

Bousseljot R, Kreiseler D
EKG-Analyse durch Signalmustervergleich.
Biomedizinische Technik, 1998, 43(Suppl.1), p. 156-157

Bousseljot R, Kreiseler D
Auswertung von EKG mit Hilfe der Mustererkennung.
Herzschr Elektrophys, 1998, 9, p. 270-278

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Transformationsverfahren zwischen verschiedenen SQUID-Messsystemen

[1] Burghoff M, Nenonen J, Trahms L, Katila T.
Conversion of magnetocardiographic recordings between two different multichannel SQUID devices.
IEEE Trans Biomed Eng 2000 Jul;47(7):869-75

[2] Burghoff,M., U.Steinhoff, W.Haberkorn, and H.Koch
Comparability of Measurement Results Obtained with Multi-SQUID-Systems of Different Sensor Configuration
IEEE Transactions on Applied Superconductivity 7, No. 2, 1997, 3465-3468.

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Multikanal-Vektormagnetometer

Jazbinsek V, Kosch O, Meindl P, Steinhoff U, Trontelj Z, Trahms L
Cardiac multichannel vector MFM and BSPM of front and back thorax.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 583-586
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Burghoff M, Schleyerbach H, Drung D, Trahms L, Koch H
A vector magnetometer module for biomagnetic application.
IEEE Transactions on Applied Superconductivity, 1999, 9(2) , p. 4069-4072

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DC-Messtechnik

Mackert BM, Wubbeler G, Leistner S, Trahms L, Curio G.
Non-invasive single-trial monitoring of human movement-related brain activation based on DC-magnetoencephalography.
Neuroreport 2001 Jun 13;12(8):1689-92

Carbon M, Wubbeler G, Trahms L, Curio G.
Hyperventilation-induced human cerebral magnetic fields non-invasively monitored by multichannel "direct current" magnetoencephalography.
Neurosci Lett. 2000 Jun 30;287(3):227-30

Jazbinsek V, Thiel G, Wübbeler G, Müller W, Trontelj Z
Spatial and temporal distribution of magnetic field due to injury currents in Vicia faba plants
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 999-1001
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Wubbeler G, Ziehe A, Mackert BM, Muller KR, Trahms L, Curio G.
Independent component analysis of noninvasively recorded cortical magnetic DC-fields in humans.
IEEE Trans Biomed Eng. 2000 May;47(5):594-9.

Jazbinsek V, Thiel G, Muller W, Wubbeler G, Trontelj Z.
Magnetic detection of injury-induced ionic currents in bean plants.
Eur Biophys J. 2000;29(7):515-22.

Mackert BM, Wubbeler G, Burghoff M, Marx P, Trahms L, Curio G.
Non-invasive long-term recordings of cortical "direct current" (DC-) activity in humans using magnetoencephalography.
Neurosci Lett. 1999 Oct 8;273(3):159-62.

Mackert BM, Mackert J, Wubbeler G, Armbrust F, Wolff KD, Burghoff M, Trahms L, Curio G.
Magnetometry of injury currents from human nerve and muscle specimens using superconducting quantum interferences devices.
Neurosci Lett. 1999 Mar 12;262(3):163-6.

Wubbeler G.; Mackert J.; Armbrust F.; Burghoff M.; Mackert B.-M.; Wolff K.-D.; Ramsbacher J.; Curio G.; Trahms L.
SQUID measurements of human nerve and muscle near-dc injury-currents using a mechanical modulation of the source position.
Applied Superconductivity, 1999, 6(10), 559-565

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Magnetische Nanopartikel / Magnetrelaxometrie

Proceedings of the 4th German Ferrofluid Workshop Berlin 2002:

p. 14: P Meindl, C Elster, L Trahms:
Bestimmung der Messunsicherheit bei der Messung der Anfangssuszeptibilität von Ferrofluiden
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p. 15: D Eberbeck, S Hartwig, U Steinhoff, L Trahms, T Götze, N Buske, K Landfester
Magnetische Kurzzeitrelaxometrie realer Ferrofluide
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p. 28: D Eberbeck, S Hartwig, U Steinhoff, L Trahms
Beschreibung des Néelschen Magnetisierungszerfalls in Ferrofluiden mit schmaler Teilchengrössenverteilung
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Haller, A.; Matz, H.; Hartwig, S.; Kerberger, T.; Atzpadin, H.; Trahms,L.
Low Tc SQUID Measurement System for Magnetic Relaxation Immunoassays in Unshielded Environment
IEEE Transactions on Applied Superconductivity, 2001, 11(1) , 1371-1374

A Haller, S Hartwig, H Matz, J Lange, T Rheinländer, R Kötitz, W Weitschies and L Trahms
Magnetic nanoparticle relaxation measured by a low-T_c SQUID system
Superconductor Science and Technology ,1999,12(11),956-958
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A.Haller et al., Supercond. Sci. Technol., 12, 956

Kotitz R.; Weitschies W.; Trahms L.; Semmler W.
Investigation of Brownian and Neel relaxation in magnetic fluids
Journal of Magnetism and Magnetic Materials, 1999, 201(1) , p. 102-104

Matz H.; Drung D.; Hartwig S.; Grosz H.; Kotitz R.; Muller W.; Vass A.; Weitschies W.; Trahms L.
A SQUID measurement system for immunoassays
Applied Superconductivity, 1999, 6(10), p. 577-583

Kotitz R.; Weitschies W.; Trahms L.; Brewer W.; Semmler W.
Determination of the binding reaction between avidin and biotin by relaxation measurements of magnetic nanoparticles
Journal of Magnetism and Magnetic Materials, 1999, 194(1) , p. 62-68

R. Kötitz, T. Bunte, W. Weitschies,L. Trahms
Superconducting quantum interference device-based magnetic nanoparticle relaxation measurement as a novel tool for the binding specific detection of biological binding reactions.
Journal of Applied Physics, 81(8), p. 4317, 1997
Copyright (1997) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
The article may be found at AIP : R. Kötitz et al., J App Phys 81, 4317

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R. Kotitz, H. Matz, L. Trahms, H. Koch, W. Weitschies, T. Rheinlander, W. Semmler, T. Bunte
SQUID based remanence measurements for immunoassays.
IEEE Trans. Appl. Supercond. , 1997, 7 , pp. 3678-81

Weitschies W, Kotitz R, Bunte T, Trahms L
Determination of relaxing or remanent nanoparticle magnetization provides a novel binding-specific technique for the evaluation of immunoassays.
Pharm. Pharmacol. Lett. , 1997, 7 , pp. 1-7

D V Berkov and R Kötitz
Irreversible relaxation behaviour of a general class of magnetic systems.
J. Phys.: Condens. Matter, 1996, 8 , p. 1257-1266
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Berkov D, Kotitz R;J. Phys. Condens. Matter, 1996, 8 1257-1266

Koetitz, R.; Fannin, P.C.; Trahms, L.
Time domain study of Brownian and Neel relaxation in ferrofluids.
Journal of Magnetism and Magnetic materials, 1995, 149 , p. 42-46

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Magnetische Marker in der Gastroenterologie

E. Osmanoglou, O. Kosch, V. Hartmann, A. Strenzke, L. Trahms, W. Weitschies, B. Wiedenmann, H. Mönnikes
Magnetic marker monitoring allows to characterize effects of exogenous factors on esophageal transit of solid drug forms.
Proceedings od the 13th International Conference on Biomagnetism, 2002
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Weitschies W, Karaus M, Cordini D, Trahms L, Breitkreutz J, Semmler W.
Magnetic marker monitoring of disintegrating capsules.
Eur J Pharm Sci 2001 Jul;13(4):411-416

Weitschies W, Cordini D, Karaus M, Trahms L, Semmler W.
Magnetic marker monitoring of esophageal, gastric and duodenal transit of non-disintegrating capsules.
Pharmazie 1999 Jun;54(6):426-30

Weitschies W, Kotitz R, Cordini D, Trahms L.
High-resolution monitoring of the gastrointestinal transit of a magnetically marked capsule.
J Pharm Sci 1997 Nov;86(11):1218-22

Weitschies W, Wedemeyer J, Stehr R, Trahms L.
Magnetic markers as a noninvasive tool to monitor gastrointestinal transit.
IEEE Trans Biomed Eng. 1994 Feb;41(2):192-5.

Weitschies W, Wedemeyer J, Stehr R, Trahms L.
Magnetically marked pharmaceutical dosage forms to monitor gastrointestinal transit by biomagnetic measurements.
Pharm. Pharmacol. Lett. , 1991, 1(1), 45-8.

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Modellierung ausgedehnter Quellen

Haberkorn W, Burghoff M
Analytical study of the magnetic field from extended sources in subcortical structures.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 647-650
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Kosch O, Meindl P, Steinhoff U, Trahms L
Physical aspects of cardiac magnetic fields and electric potentials.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 553-556
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Haberkorn W, Burghoff M
Magnetoencephalogram of extended sources in a spherical head model.
Medical & Biological Engineering & Computing 37, Suppl. 2 (1999), 1472-1473

Haberkorn W
Biomagnetic inverse solutions in terms of multipoles.
in: Non-linear Electromagnetic Systems, V.Kose and J. Sievert eds., 1998, IOS Press, p. 29-32

Burghoff M, Haberkorn W, Mackert BM, Curio G, Trahms L
Modeling and analysis of extensive electric sources: the magnetic field of stimulated peripheral nerves.
Biomed Tech (Berl). 1998;43 Suppl:224-5. German.

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Gewichtete Mittelung von Signalen

T. Gräbe, M. Burghoff, U. Steinhoff, B.-M. Mackert, G. Curio
Classification of Noise Components by Variance Estimation of Cortical Evoked Magnetic Brain Fields.
in: Quantitative and Topological EEG and MEG analysis.
H. Witte, U. Zwiener, B. Schack, A. Doering, eds. Druckhaus Mayer Verlag GmbH Jena und Erlangen, 1997, pp. 339-341

T. Gräbe, M. Burghoff, U. Steinhoff, B.-M. Mackert, G. Curio
Identification of Signal Components by Stochastic Modelling in Evoked Magnetic Field Measurements in Peripheral Nerves.
in: Advanced Mathematical Tools in Metrology III.
P.Ciarlini, M.G.Cox, F.Pavese and D.Richter, eds. World Scientific Publishing Company, Singapore, 1997, pp. 178-185

M. Burghoff, T. Gräbe, U. Steinhoff, B.-M. Mackert, G. Curio, L. Trahms
Gewichtete Mittelung schwacher nervaler Magnetfelder unter Berücksichtigung der Kovarianzen starker Rauschkomponenten
Biomedizinische Technik, 42, Ergänzungsband, 1997, 191-192..

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Magnetoenzephalographie

Scheer HJ, Burghoff M
Hochauflösendes EEG im Ganzkopf-MEG.
Biomed Tech (Berl). 2002 ; 47Suppl 1 Pt 2:564-565.

Sander TH, Wubbeler G, Lueschow A, Curio G, Trahms L.
Cardiac artifact subspace identification and elimination in cognitive MEG data using time-delayed decorrelation.
IEEE Trans Biomed Eng. 2002 Apr; 49(4):345-54.

Sander TH, Lueschow A, Curio G, Trahms L
Removal of alpha wave artefacts in MEG data by independent component analysis.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 857-860
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Haberkorn W, Burghoff M
Magnetoencephalogram of extented sources in a spherical head model.
Medical & Biological Engineering & Computing 37, Suppl. 2 (1999), 1472-1473

Curio G, Mackert BM, Burghoff M, Neumann J, Nolte G, Scherg M, Marx P.
Somatotopic source arrangement of 600 Hz oscillatory magnetic fields at the human primary somatosensory hand cortex.
Neurosci Lett. 1997 Oct 3;234(2-3):131-4.

Gräbe T, Burghoff M, Steinhoff U, Mackert B-M, Curio G
Classification of Noise Components by Variance Estimation of Cortical Evoked Magnetic Brain Fields.
in: Quantitative and Topological EEG and MEG analysis. Editors: H. Witte, U. Zwiener, B. Schack, A. Doering
Druckhaus Mayer Verlag GmbH Jena und Erlangen, 1997, 339- 341

Curio G, Drung D, Koch H, Muller W, Steinhoff U, Trahms L, Shen YQ, Vase P, Freltoft T.
Magnetometry of evoked fields from human peripheral nerve, brachial plexus and primary somatosensory cortex using a liquid nitrogen cooled superconducting quantum interference device.
Neurosci Lett. 1996 Mar 15;206(2-3):204-206.

Curio G, Mackert B-M, Burghoff M, Abraham-Fuchs K, and Härer W
Magnetoneurographie: Stand der Technik und klinische Perspektiven.
Zeitschrift für EEG - EMG 27, 1996, 9-15

Curio G, Mackert BM, Burghoff M, Koetitz R, Abraham-Fuchs K, Harer W.
Localization of evoked neuromagnetic 600 Hz activity in the cerebral somatosensory system.
Electroencephalogr Clin Neurophysiol. 1994 Dec;91(6):483-7.

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Magnetoneurographie

Mackert BM, Burghoff M, Hiss LH, Trahms L, Curio G.
Tracing of proximal lumbosacral nerve conduction--a comparison of simultaneous magneto- and electroneurography.
Clin Neurophysiol. 2001 Aug;112(8):1408-13.

Mackert BM, Burghoff M, Hiss LH, Nordahn M, Marx P, Trahms L, Curio G.
Magnetoneurography of evoked compound action currents in human cervical nerve roots.
Clin Neurophysiol. 2001 Feb;112(2):330-5.

Nordahn MA, Burghoff M, Hiss LH, Mackert BM, Trahms L
Effects of parameter changes in weighted averaging.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 879-882
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Mackert BM, Burghoff M, Hiss LH, Nordahn M, Trahms L, Curio G.
Non-invasive magnetoneurography for 3D-monitoring of human compound action current propagation in deep brachial plexus.
Neurosci Lett. 2000 Jul 28;289(1):33-6.

Hiss LH, Mackert BM, Burghoff M, Trahms L, Curio G.
Comparison of somatosensory evoked electric potentials and magnetic fields of tibial nerve measured over the lumbar spine.
Medical & Biological Engineering & Computing 37, Suppl. 2 (1999), 1494-1495.

Burghoff M, Mackert BM, Hiss LH, Nordahn M, Curio G, Trahms L,
Neuromagnetic recording of evoked activity from human brachial plexus and cervical spinal cord.
Medical & Biological Engineering & Computing 37, Suppl. 2 (1999), 1486-1487.

Burghoff M, Mackert BM, Haberkorn W, Curio G, Trahms L.
High resolution magnetoneurography.
Applied Superconductivity, 6(10-12): p. 567-575, 1998.

Mackert BM, Curio G, Burghoff M, Trahms L, Marx P.
Magnetoneurographic 3D localization of conduction blocks in patients with unilateral S1 root compression.
Electroencephalogr Clin Neurophysiol. 1998 Aug;109(4):315-20.

Burghoff M, Haberkorn W, Mackert B-M, Curio G
Analysis of Magnetic Field Recorded From Stimulated Leg Nerves.
Journal of Clinical Engineering, 1997, 22, 158-162.

Mackert BM, Curio G, Burghoff M, Marx P.
Mapping of tibial nerve evoked magnetic fields over the lower spine.
Electroencephalogr Clin Neurophysiol. 1997 Jul;104(4):322-7.

Graebe T, Burghoff M, Steinhoff U, Mackert BM, Curio G
Identification of Signal Components by Stochastic Modelling in Measurements of Evoked Magnetic Fields from Peripheral Nerves.
In: Advanced Mathematical Tools in Metrology III, Ciarlini P, Cox MG, Pavese F, Richter R, eds. (World Scientific Publishing Company, Singapore, 1997), 178-185.

Curio G, Drung D, Koch H, Muller W, Steinhoff U, Trahms L, Shen YQ, Vase P, Freltoft T.
Magnetometry of evoked fields from human peripheral nerve, brachial plexus and primary somatosensory cortex using a liquid nitrogen cooled superconducting quantum interference device.
Neurosci Lett. 1996 Mar 15;206(2-3):204-6.

Curio G, Reill L, Sandfort J, Erne SN, Scheer J, Stehr R, Trahms L.
Nerve, plexus and spinal cord: possible targets for non-invasive neuromagnetic measurements in man.
Physiol Meas. 1993 Nov;14 Suppl 4A:A91-4.

Curio G, Erne SN, Sandfort J, Scheer J, Stehr R, Trahms L.
Exploratory mapping of evoked neuromagnetic activity from human peripheral nerve, brachial plexus and spinal cord.
Electroencephalogr Clin Neurophysiol. 1991 Dec;81(6):450-3.

Trahms L, Erne SN, Trontelj Z, Curio G, Aust P.
Biomagnetic functional localization of a peripheral nerve in man.
Biophys J. 1989 Jun;55(6):1145-53.

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Magnetokardiographie

Smith FE, Langley P, Trahms L, Steinhoff U, Bourke JP, Murray A.
Errors in repolarization measurement using magnetocardiography.
Pacing Clin Electrophysiol 2002 Aug;25(8):1223-1229.

Godde P, Agrawal R, Muller HP, Czerski K, Endt P, Steinhoff U, Oeff M, Schultheiss HP, Behrens S.
Magnetocardiographic mapping of QRS fragmentation in patients with a history of malignant tachyarrhythmias.
Clin Cardiol. 2001 Oct;24(10):682-688.

Korhonen P, Montonen J, Endt P, Mäkijärvi M, Trahms L, Katila T, Toivonen L
Magnetocardiographic Intra-QRS Fragmentation Analysis in the Identification of Patients with Sustained Ventricular Tachycardia after Myocardial Infarction
Pacing Clin Electrophysiol 2001;24(8):1179-1186

Koch H.; Haberkorn W.
Magnetic field mapping of cardiac electrophysiological function
Philosophical Transactions of The Royal Society: Mathematical, Physical & Engineering Sciences, 2001, 359(1783), pp. 1287-1298

Koch H.
SQUID Magnetocardiography: Status and Perspectives
IEEE Transactions on Applied Superconductivity, 2001,11(1) pp. 49-59

Link A, Endt P, Oeff M, Trahms L.
Variability of the QRS signal in high-resolution electrocardiograms and magnetocardiograms.
IEEE Trans Biomed Eng 2001 Feb;48(2):133-42

Endt P, Montonen J, Makijarvi M, Nenonen J, Steinhoff U, Trahms L, Katila T.
Identification of post-myocardial infarction patients with ventricular tachycardia by time-domain intra-QRS analysis of signal-averaged electrocardiogram and magnetocardiogram.
Med Biol Eng Comput 2000 Nov;38(6):659-65

Hren R, Steinhoff U, Endt P, Goedde P. Agrawal R., Oeff M, Lux RL, Trahms L
Assessment of vulnerability to ventricular arrhythmias using magnetocardiographic QRST integral mapping.
in Biomag2000, Proc. 12th Int. Conf. on Biomagnetism, J. Nenonen, R.J. Ilmoniemi, and T. Katila, eds. (Helsinki Univ. of Technology, Espoo, Finland, 2001), pp. 511-513
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Hren R, Steinhoff U, Gessner C, Endt P, Goedde P, Agrawal R, Oeff M, Lux RL, Trahms L.
Value of magnetocardiographic QRST integral maps in the identification of patients at risk of ventricular arrhythmias.
Pacing Clin Electrophysiol 1999 Sep;22(9):1292-1304

Müller HP, Gödde P, Czerski K, Oeff M, Agrawal R, Endt P, Kruse W, Steinhoff U, Trahms L.
Magnetocardiographic analysis of the two-dimensional distribution of intra-QRS fractionated activation.
Phys Med Biol 1999 Jan;44(1):105-12
Download paper (abstract free) from IoP:
HP Müller et al., Phys Med Biol., 44, 105-112

Zhang Y.; Bousack H.; Bick M.; Montsch A.; Soltner H.; Wolf W.; Steinhoff U.; Trahms L.; Endt P.
Magnetocardiography using HTS rf SQUIDs with coplanar resonators.
Applied Superconductivity, 1999, 6(10), 705-710

Endt P, Hahlbohm HD, Kreiseler D, Oeff M, Steinhoff U, Trahms L.
Fragmentation of bandpass-filtered QRS-complex of patients prone to malignant arrhythmia.
Med Biol Eng Comput 1998 Nov;36(6):723-8

Brockmeier K, Schmitz L, Bobadilla Chavez JD, Burghoff M, Koch H, Zimmermann R, Trahms L.
Magnetocardiography and 32-lead potential mapping: repolarization in normal subjects during pharmacologically induced stress.
J Cardiovasc Electrophysiol 1997 Jun;8(6):615-26

Oeff M, Burghoff M.
Magnetocardiographic localization of the origin of ventricular ectopic beats.
Pacing Clin Electrophysiol. 1994 Mar;17(3 Pt 2):517-22.

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Fachlaboratorium 8.21 Bioelektrizität und Biomagnetismus Veröffentlichungen

Fachlaboratorium 8.21
Bioelektrizität und Biomagnetismus

Veröffentlichungen