The technology disclosed herein relates to a transcutaneous irradiation device having a top portion and a bottom portion. The top portion may include one or more transcutaneous irradiation modules configured to be arranged on a head of a user, the top transcutaneous irradiation modules including a top pulsed laser source. The bottom portion may include one or more transcutaneous irradiation modules configured to be arranged on an abdomen of the user, the top transcutaneous irradiation modules including a bottom pulsed laser source. A modulation frequency may be applied to the top and bottom irradiation modules such that the top and bottom pulse laser sources are subjected to a double pulse.

A Closed Loop Hybrid Modulation Methodology, including the following four methods of neural stimulation: METHOD 1: A priming electrical signal followed by a second magnetic signal. METHOD 2: A magnetic priming signal followed by a second electrical signal. METHOD 3: A priming magnetic signal followed by a second magnetic signal. METHOD 4: A priming hybrid electric and magnetic signal followed by a second hybrid electric and magnetic signal.

A Closed Loop Hybrid Modulation Methodology, including the following four methods of neural stimulation: METHOD 1: A priming electrical signal followed by a second magnetic signal. METHOD 2: A magnetic priming signal followed by a second electrical signal. METHOD 3: A priming magnetic signal followed by a second magnetic signal. METHOD 4: A priming hybrid electric and magnetic signal followed by a second hybrid electric and magnetic signal.

A method and apparatus for pulsed electromagnetic field therapy to one or more patients is disclosed. In some embodiments, a pulsed electromagnetic field (PEMF) therapy device may include a biometric authentication device to verify the identity of the patient. Prior to receiving treatment, the identity of the patient may be verified though the biometric authentication device. After the patient's identity is verified, the PEMF therapy device may receive a PEMF treatment plan for the patient that includes a PEMF applicator type, a treatment duration, and an energy level associated with the PEMF treatment.

The invention relates to a device for generating electrical, magnetic, and/or electromagnetic signals, which, at different treatment frequencies, can be used to treat the human body, an electronic noise element (22) being provided as a means for providing a noise signal, which noise signal can be used for the selection of a treatment frequency, the properties of which electronic noise element are at least partly dependent on at least one biophysical radiation emission of the human body.

The invention relates to a device for generating electrical, magnetic, and/or electromagnetic signals, which, at different treatment frequencies, can be used to treat the human body, an electronic noise element (22) being provided as a means for providing a noise signal, which noise signal can be used for the selection of a treatment frequency, the properties of which electronic noise element are at least partly dependent on at least one biophysical radiation emission of the human body.

This disclosure refers to methods and devices for electromagnetic stimulation of tissues. Some methods comprising the steps: a) disposing an arrangement of electromagnetic transducers encompassing a volume containing a tissue; b) applying an electromagnetic field stimulus to a tissue through the arrangement of electromagnetic transducers according to an activation pattern for a period of time; wherein the activation pattern allows to vary the intensity and direction of the electromagnetic field vector. Some devices comprising: a computing unit, an external power source connected to the computing unit; a decoupling circuit connected to the external power source and to the computing unit; a switching circuit connected to the external power source, to the decoupling circuit and to the computing unit; an arrangement of electromagnetic transducers connected to the computing unit and to the de switching circuit; wherein the computing unit implements the methods of the disclosure for electromagnetic stimulation of tissues.

This disclosure refers to methods and devices for electromagnetic stimulation of tissues. Some methods comprising the steps: a) disposing an arrangement of electromagnetic transducers encompassing a volume containing a tissue; b) applying an electromagnetic field stimulus to a tissue through the arrangement of electromagnetic transducers according to an activation pattern for a period of time; wherein the activation pattern allows to vary the intensity and direction of the electromagnetic field vector. Some devices comprising: a computing unit, an external power source connected to the computing unit; a decoupling circuit connected to the external power source and to the computing unit; a switching circuit connected to the external power source, to the decoupling circuit and to the computing unit; an arrangement of electromagnetic transducers connected to the computing unit and to the de switching circuit; wherein the computing unit implements the methods of the disclosure for electromagnetic stimulation of tissues.

The device includes an outer conductor and an inner conductor arranged approximately coaxial with each other. The outer conductor surrounds the inner conductor. The outer conductor and the inner conductor are arranged and configured to generate an electromagnetic field with lines of force extending from a front surface of the inner conductor to a front surface of the outer conductor. The device further includes an energy delivery window arranged in front of the outer conductor and the inner conductor.

The device includes an outer conductor and an inner conductor arranged approximately coaxial with each other. The outer conductor surrounds the inner conductor. The outer conductor and the inner conductor are arranged and configured to generate an electromagnetic field with lines of force extending from a front surface of the inner conductor to a front surface of the outer conductor. The device further includes an energy delivery window arranged in front of the outer conductor and the inner conductor.