Provided is a clothing for electrical stimulation that may apply electrical stimulation to a user's body without a separate power source and may strengthen the strength of electrical stimulation applied to the body. The clothing for electrical stimulation includes: a main body including a first clothing region clothing a user's sole and a second clothing region worn on a body part other than the user's sole; a first conductor located on an inner surface of the main body and disposed to be in contact with the user's body; and a second conductor electrically connected to the first conductor and located on an outer surface of the main body.

A medical treatment device is disclosed herein. In one example, the medical treatment device includes a core assembly which has a first conduct and a second conductor, the second conductor being formed from a first conductive material. An insulative material can surround the second conductor and define one or more uninsulated portions. A second conductive material can surround the first conductive material along at least a portion of the one or more uninsulated portions and can have a higher electrical conductivity than the first conductive material. The medical treatment device can include an interventional element formed from a third conductive material that electrical couples to the first conductor. A fourth conductive material can be disposed over the third conductive material and have a higher electrical conductivity than the third conductive material.

A medical treatment device is disclosed herein. In one example, the medical treatment device includes a core assembly which has a first conduct and a second conductor, the second conductor being formed from a first conductive material. An insulative material can surround the second conductor and define one or more uninsulated portions. A second conductive material can surround the first conductive material along at least a portion of the one or more uninsulated portions and can have a higher electrical conductivity than the first conductive material. The medical treatment device can include an interventional element formed from a third conductive material that electrical couples to the first conductor. A fourth conductive material can be disposed over the third conductive material and have a higher electrical conductivity than the third conductive material.

Embodiments of the present disclosure provide a biofield apparatus. The apparatus includes a first vial and a second vial configured to hold fluid for storing biofield information associated with a subject. The apparatus includes an input plate and an output plate. The input plate and the output plate include an input plate vial well and an output plate vial well, respectively. The apparatus includes a control unit configured to provide a first signal to the input plate for capturing the biofield information from the subject. The control unit encodes and transmits the biofield information captured from the subject, to the fluid within the first vial. Further, the control unit amplifies the biofield information within the first vial based on a target amplification level. The control unit transmits the biofield information from the fluid within the second vial to the subject for enhancing the biofield information and properties of the subject.

Embodiments of the present disclosure provide a biofield apparatus. The apparatus includes a first vial and a second vial configured to hold fluid for storing biofield information associated with a subject. The apparatus includes an input plate and an output plate. The input plate and the output plate include an input plate vial well and an output plate vial well, respectively. The apparatus includes a control unit configured to provide a first signal to the input plate for capturing the biofield information from the subject. The control unit encodes and transmits the biofield information captured from the subject, to the fluid within the first vial. Further, the control unit amplifies the biofield information within the first vial based on a target amplification level. The control unit transmits the biofield information from the fluid within the second vial to the subject for enhancing the biofield information and properties of the subject.

The present invention provides a contactless technique for delivering a charged drug into a body tissue using a replaceable reservoir or cartridge loaded with the charged drug and applying to it an electrical gradient, a high voltage pulses and an electrostatic force, such that the nanonized charged drug moves into the tissue under the influence of these electrical field and force.

The present invention provides a contactless technique for delivering a charged drug into a body tissue using a replaceable reservoir or cartridge loaded with the charged drug and applying to it an electrical gradient, a high voltage pulses and an electrostatic force, such that the nanonized charged drug moves into the tissue under the influence of these electrical field and force.

An implant for the cardiovascular system is provided, the implant is insertable into an organ and includes a body structure configured to be disposed inside an organ; and an electret coating disposed on the body structure; wherein the electret coating includes a negative charge such that a negative electrostatic field is formed in proximity of the body structure, the charge is such that the negative electrostatic field corresponds to a positive electrostatic field formed by a damaged tissue of the organ.

An implant for the cardiovascular system is provided, the implant is insertable into an organ and includes a body structure configured to be disposed inside an organ; and an electret coating disposed on the body structure; wherein the electret coating includes a negative charge such that a negative electrostatic field is formed in proximity of the body structure, the charge is such that the negative electrostatic field corresponds to a positive electrostatic field formed by a damaged tissue of the organ.

Embodiments of the present disclosure provide a biofield apparatus. The apparatus includes a first vial and a second vial configured to hold fluid for storing biofield information associated with a subject. The apparatus includes an input plate and an output plate. The input plate and the output plate include an input plate vial well and an output plate vial well, respectively. The apparatus includes a control unit configured to provide a first signal to the input plate for capturing the biofield information from the subject. The control unit encodes and transmits the biofield information captured from the subject, to the fluid within the first vial. Further, the control unit amplifies the biofield information within the first vial based on a target amplification level. The control unit transmits the biofield information from the fluid within the second vial to the subject for enhancing the biofield information and properties of the subject.