Abstract: A device for influencing biological processes in living tissue, in particular a human body, for applying a pulsating magnetic field to at least a part of the tissue, includes a field generation device for generating the pulsating magnetic field and a pulse generator for actuating the field generation device. The pulse generator is designed such that the pulsating magnetic field includes a sequence of primary pulses, the pulse repetition rate of which is between 0.01 and 1000 Hz. The primary pulses are formed by a plurality of superimposed subpulses, wherein the primary pulses are overlaid by secondary pulses. The secondary pulses have a phase shift ? in relation to the primary pulses of ?0.5>?>0.5 and the phase shift ? is not equal to 0.

Abstract: A device for influencing biological sequences in living tissue, in particular a human body, includes a field generation device for generating the pulsating magnetic field to be applied to at least a part of the tissue, and a pulse generator controlling the field generation device. The pulsating magnetic field is composed of a sequence of primary pulses which are formed by a plurality of superimposed sub-pulses, the pulse repetition rate of which is between 0.01 and 1000 Hz. The sequence of primary pulses separated is from a second sequence of primary pulses by a rest phase. The curve profile of the maximum amplitude of the primary pulses has a slope mB of ??<mB<?0.1 at the beginning of the rest phase and/or has a slope mE of ?>mE>0.1 at the end of the rest phase.

Abstract: A device for influencing biological processes in living tissue, in particular a human body, for applying a pulsating magnetic field to at least a part of the tissue, includes a field generation device for generating the pulsating magnetic field and a pulse generator for actuating the field generation device. The pulse generator is designed such that the pulsating magnetic field includes a sequence of primary pulses, the pulse repetition rate of which is between 0.01 and 1000 Hz. The primary pulses are formed by a plurality of superimposed subpulses, wherein the primary pulses are overlaid by secondary pulses. The secondary pulses have a phase shift ? in relation to the primary pulses of ?0.5>?>0.5 and the phase shift ? is not equal to 0.

Abstract: A device for influencing biological sequences in living tissue, in particular a human body, includes a field generation device for generating the pulsating magnetic field to be applied to at least a part of the tissue, and a pulse generator controlling the field generation device. The pulsating magnetic field is composed of a sequence of primary pulses which are formed by a plurality of superimposed sub-pulses. The pulse repetition rate of which is between 0.01 and 1000 Hz. The sequence of primary pulses separated from a second sequence of primary pulses by a rest pause. The curve profile of the maximum amplitude of the primary pulses has a slope mB of ??<mB<?0.1 at the beginning of the rest pause and/or has a slope mE of ?>mE>0.1 at the end of the rest pause.