Abstract: Functional near infrared spectroscopy (fNIRS) imaging is utilized to measure the influence of stimulation in real time. An fNIRS imaging device is integrated into a transcranial direct current stimulation (tDCS) stimulator by embedding fNIRS optodes on the tDCS stimulating electrodes. During tDCS stimulation, blood oxygenation levels are measured. For example, concentrations of oxyhemoglobin and deoxyhemoglobin are measured and compared to the concentrations of a baseline resting state to provide feedback on the efficacy of tDCS. Based on the feedback, a tDCS threshold and a dose-response relation for a particular subject can be quantified, and individualized stimulation parameters can be determined for the particular subject.

Abstract: The invention is directed to a novel method for reducing discomfort caused by transcutaneous stimulation. The novel method includes providing transcutaneous stimulation, reducing the transcutaneous stimulation at a first location, and substantially maintaining the transcutaneous stimulation at a second location. The transcutaneous stimulation may be created by electric and/or magnetic fields. The first location may be relatively proximate to the cutaneous surface and may comprise tissue, nerves and muscle. Also, the second location may be relatively deeper than the first location and include, for example, brain tissue that requires the transcutaneous stimulation for treatment purposes. The invention further may include locating a conductor on a treatment area and/or a transcutaneous stimulation device relative to the first location. In addition, the method may further include adjusting how much the transcutaneous stimulation is reduced at the first location.

Abstract: A combined magnetic and irradiating device for therapeutic purposes applies infrared rays and magnetic force. The device includes a shell designed to be gripped by a user, including an outer surface shaped by at least three flat areas, and an inner bore-hole formed inside the shell for receiving first and second magnets in close connection with each other. Both magnets have north and south pole surfaces and an axis, respectively, aligned with each other, and said north pole surface of the first magnet is exposed on a surface of the shell. Windows having an inner rim are arranged on each flat area of the shell. Said close connection is established between the south pole surface of the first magnet and north pole surface of the second magnet. At least one infrared radiating tablet is fixed in said window and abutted against said rim by a clamp placed inside said bore-hole.

Abstract: The invention relates to a method for modulation, augmentation and/or stimulation of neural tissue and/or neural tissue related functionality with stimulating neural tissue and/or neural tissue related functionality with stimuli by which neural activity related local perfusion changes, electro-neuro-chemical, biochemical, neural modulative or neuroplastical responses and/or alterations in ‘metabolism supply lines-neural tissue’ interaction processes in vertebrates can be triggered and/or influenced.

Abstract: A ferrofluid chamber has a housing that is adapted to be coupled to a component that generates a magnetic field of sufficient strength to stimulate anatomical tissue. In addition, a ferrofluid is disposed within the housing for cooling the component.

Abstract: The invention relates to a medical device comprising a generator for generating a magnetic field to be applied to a patient and a supporting structure (2) for the patient. According to the invention, a magnetic field generating head (6) is associated with the supporting structure (2) and can be moved gradually and repeatedly, guided mechanically and/or manually, into a position at a distance from the patient, following a trajectory defined by a bearing guide (5) secured to the supporting structure (2). The trajectory defined by the head (6) extends transversely and/or longitudinally along the length of the surface of the body of the patient to be treated with the magnetic field.

Abstract: Electromagnetic signal delivery for tissue affected by neuronal dysfunction, degradation, damage, and/or necrosis, and associated systems and methods are disclosed. A method in accordance with one embodiment of the invention includes identifying an affected region, with the affected region including neuronal tissue that, at least during a pre-dysfunctional period, was in neural communication with neuronal tissue in a dysfunctional region. The affected tissue can be functionally adversely affected by neuronal dysfunction in the dysfunctional region. The method can further include applying electromagnetic signals to the neuronal tissue in the affected region. For example, the electromagnetic signals can be applied to a hypo-active neural region that is not physically damaged, and has been identified as likely to recover at least in part as a result of electromagnetic signals. Signals can be applied at sub-threshold levels to cortical and/or subcortical regions.

Abstract: A medical device incorporating magnetic material is introduced into the body of a patient. A time varying magnetic field is generated externally of the patient's body and which is of sufficient strength to magnetically induce motion in the device, thereby causing the medical device to vibrate within the patient's body. The frequency and the amplitude of the magnetic field oscillations can be continuously varied to control the vibrations induced in the medical device.

Abstract: An integrated system and method for treatment of various diseases, including psychiatric, mental and brain disorders, which preferably combines personalized non-invasive neuronal brain stimulation together with appropriate personalized cognitive training, and which iteratively fine-tunes this treatment by monitoring specific cognitive and brain functions in response to the treatment. A novel brain stimulator device and method, Computerized Magnetic Photo-Electric Stimulator (CCMPES), is described, which integrates electromagnetic stimulation with laser stimulation to generate a magnetic photo-electric stimulation.

Abstract: An apparatus and method for micro-exercise apply piezoelectric stress to cells of a bone mass by inducing voltages in the bone mass. Application of dynamic, electromagnetic fields passing through the conductive bone mass induce currents and voltages locally in and around cells or groups of cells. The cells respond to the combination of mechanical stress and strain by building themselves up as they would if they had been subjected to the stress and strain of conventional exercise. Thus, micro-exercise at a cellular level of the bone mass can be stimulated as if the stress and strain had been applied to the entire bone structure of which the smaller cellular portions are constituent parts. In combination with casts or splints, the sources of electromagnetic flux may be embedded in the frame or solid structure, the protective padding added for comfort, or both.

Abstract: A magnetic resonance imaging apparatus includes a cine-imaging unit, a characterizing-part detecting unit, a motion-analyzing unit, and an image-extracting unit. First, the cine-imaging unit collects the time-series images of a region of interest in a subject and reconstructs an image. Next, the characterizing-part detecting unit detects the characteristics of the time-series images. The motion-analyzing unit analyzes motion-characteristic values of the characteristics extracted by the characterizing-part detecting unit. The image-extracting unit extracts a specified time-series image in accordance with the motion-characteristic values.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for treatment of depression. Described are methods and devices to treat depression that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect symptoms of depression.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: An applicator for delivering brachytherapy includes elongate members movable between collapsed and expanded configurations for delivering brachytherapy within a lumpectomy cavity, a vaginal cavity, or other target region. The elongate members may be expandable into a symmetrical or asymmetrical expanded configuration, e.g., into a generally spherical, pear-shaped, or planar configuration. A system for delivering brachytherapy includes the applicator and an access device for lining and/or dilating a body cavity and/or for receiving the applicator therein. The access device is advanced into a body cavity, an expandable member on the access device is inflated, the applicator is advanced into the access device, and the elongate members are expanded to deliver radiation to the target region.

Abstract: The present disclosure provides devices and uses thereof A devices disclosed herein comprises a plurality of microneedles adapted to protrude from the device. In some embodiments, a device is dimensioned and constructed to carry a payload, so that the payload can be delivered to an internal tissue of a subject or through a wall of a vessel after interaction with microneedles. In some embodiments, devices can be used for oral or intravenous administration. In some embodiments, devices can be used for implantation such as vaginal, rectal, urethral or bladder suppository or pessary.

Abstract: A magnetic therapy device may include a housing, a disk, a tachometer, a microprocessor, a driver integrated circuit, and a plurality of coils. The disk may include a plurality of magnets thereon, the disk being mounted inside the housing and configured to rotate within the housing. The tachometer may be configured to monitor a magnetic field generated by the plurality of magnets and provide a frequency signal to a microprocessor based on the monitored magnetic field. The microprocessor may be configured to provide a control signal to the driver integrated circuit based on the frequency signal, the microprocessor being programmed to provide the control signal to maintain a constant speed of rotation of the disk based on the frequency signal. The driver integrated circuit may be configured to provide a current to a plurality of coils based on the control signal.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for treatment of coma, post-traumatic stress disorder, Parkinson's disease, cognitive performance, and/or amblyopia. Described are methods and devices to treat coma, post-traumatic stress disorder, Parkinson's disease, cognitive performance, and/or amblyopia that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect symptoms of coma, post-traumatic stress disorder, Parkinson's disease, cognitive performance, and/or amblyopia.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: A composition and method of arresting the flow of blood from a bleeding wound. The composition preferably includes an anhydrous salt ferrate compound preferably combined with an effective amount of an insoluble cation exchange material and an effective amount of anhydrous Magnetite mixed uniformly together. Povidone iodine may be added for enhanced antimicrobial properties. In the method, a quantity of the composition is magnetically attached to a surface of a magnet, after which the powderous mixture is applied to the wound by pressing the surface covered with the powderous compound against the wound for a time sufficient to clot the blood to arrest substantial further blood flow from the wound.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: A method, apparatus and a system for thermally-assisted pulsed electromagnetic field stimulation for treatment of osteoarthritis are disclosed. In one embodiment, the system comprises a multi-coil applicator adapted for positioning near or around of the treated joint, a pulse generator functionally coupled to the applicator, a power supply, and a feedback loop for stabilizing the temperature of the joint. The feedback loop includes a heating element, a temperature sensor and an electronic controller for maintaining the temperature of the joint in the range of 38 to 42 degree C. At elevated temperatures the healing effect of PEMF stimulation on the cartilage is maximized and overall efficiency of the treatment is improved. To produce a high electric field, the coils of the applicator are made with a low number of turns, for example less than 5 turns, and are spatially arranged to cover the whole joint without “dead” zones.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: A method for the delivery of a skin care active agent comprising the following step: applying an active agent(s) between a target dermal barrier and a magnetic device comprising one or more pairs of displaced dipolar magnetic elements linked by a magnetic return wherein the magnetic return is orientated on the surfaces of the dipole pair distal to the dermal barrier.

Abstract: Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for a number of disorders. Described are methods and devices to treat disorders that involves no medication. Methods and devices described herein use alternating magnetic fields to gently “tune” the brain and affect mood, focus, and cognition of subjects.

Abstract: A double-emulsion core-shell nano-structure and preparation methods thereof is provided. The double-emulsion core-shell nano-structure is a structure of an oil shell enclosing a water core. The double-emulsion core-shell nano-structure can be prepared by simply mixing and stirring to emulsify an aqueous solution of a water soluble polymer and an organic solution of hydrophobic paramagnetic nanoparticles.

Abstract: Described herein, in certain embodiments, are devices and methods for modulating the electrical activity of a brain in a targeted manner using a weak magnetic field, generally field with a strength of less than about 100 Gauss. The magnetic field is varied over time in a periodic manner, generally with a frequency tuned to specifically affect one of the intrinsic frequencies of the brain, optionally the alpha frequency. The “Low Field Magnetic Stimulation” devices and methods described herein modulate the electrical activity of a brain without requiring medication. Methods and devices described herein gently “tune” the brain and affect mood, focus, and cognition of human subjects.

Abstract: An apparatus and method for micro-exercise apply piezoelectric stress to cells of a bone mass by inducing voltages in the bone mass. Application of dynamic, electromagnetic fields passing through the conductive bone mass induce currents and voltages locally in and around cells or groups of cells. The cells respond to the combination of mechanical stress and strain by building themselves up as they would if they had been subjected to the stress and strain of conventional exercise. Thus, micro-exercise at a cellular level of the bone mass can be stimulated as if the stress and strain had been applied to the entire bone structure of which the smaller cellular portions are constituent parts. In combination with casts or splints, the sources of electromagnetic flux may be embedded in the frame or solid structure, the protective padding added for comfort, or both.

Abstract: The invention relates to an implantable device to be fixed to a bone and comprising an electrically conductive base body provided with at least two through holes and at least one pair of shaft-shaped contact means, wherein each contact means passes through a through hole of the base body and penetrates a section of the bone in an implanted state, wherein the surface of each contact means comprises a first and a second electrically conductive surface section as well as an electrically insulating surface section separating the electrically conductive surface sections from each other, wherein the first electrically conductive surface section electrically contacts the base body while the second electrically conductive surface section is electrically insulated with respect to the base body, wherein each contact means contains a coil arrangement in its interior by means of which the electrically conductive surface sections of each contact means are electrically coupled, and wherein the coil arrangements of a pair a

Abstract: A system for providing at an application surface of a therapeutic device a multitude of magnetic flux lines of different angles and strengths, including a plurality of arms and a plurality of magnets. Each arm piece may have one or more connecting members and one or more magnet receiving sockets or recesses. At least some of the one or more connecting members are generally configured to attach to one or more attachment or mating mechanisms on other arms. The magnets are placed in the sockets, and the connecting members of the plurality of arms are connected such that the arms form huh-and-spoke configurations, chain-configurations, loops, lines, or any combination of the above.

Abstract: Systems and methods for magnetic targeting of therapeutic particles are provided. Therapeutic particles comprise one or more magnetic or magnetizable materials and at least one therapeutic agent. Therapeutic particles are specifically targeted using uniform magnetic fields capable of magnetizing magnetizable materials, and can be targeted to particular locations in the body, or can be targeted for capture, containment, and removal. Also provided are bioresorbable nanoparticles prepared without the use of organic solvents, and methods for therapeutically using such bioresorbable nanoparticles.

Abstract: A therapeutic furniture covering system using magnets for increasing the convenience of conducting therapy treatment in an individual's home. The furniture assembly houses embedded magnets used in the improvement of an individual's overall health: improvements in circulation, reduction of pain, and relief of osteoarthritis. While a user may rest, and simultaneously treat, an individual body member, whole-body therapy may be achieved by an individual resting his or her entire body on the furniture item within close proximity of the static magnetic field.

Abstract: A method for enhancing an immune response in a vertebrate subject is described. The method includes providing at least one energy stimulus configured to modulate one or more nervous system components of the vertebrate subject, and administering one or more immunogen to the vertebrate subject, wherein the at least one energy stimulus and the one or more immunogen are provided in a combination and in a temporal sequence sufficient to enhance an immune response in the vertebrate subject.

Abstract: A system and methods for transcranial magnetic stimulation, the system including a helmet, a positioning portion, a stimulator and a cooling system, are disclosed. The helmet includes a coil for deep brain magnetic stimulation. The coil has a base portion, and return portions, which may include a protruding return portion and a contacting return portion. The coil is designed to minimize unintended stimulation of portions of the brain, while reducing accumulation of surface charges. The coil is stimulated at several locations and/or at different times so as to focus the electrical field on a specific deep neuronal structure.

Abstract: Systems, devices, and methods are described for providing a monitor/treatment device configured to, for example, detect hemozoin, as well as to monitor or treat a malarial infection.

Abstract: A magnetic system for treating tissue using magnetic coils connected to a pulse generator is provided. The magnetic system can include a power supply, microcontroller, and magnetic coil pair. The magnetic system can be incorporated into garments, bedding, furniture, or the like. The microcontroller can produce square-wave logic pulses to form trapezoidal-wave pulse generator signals for transmission to the magnetic coil pair. The magnetic coil pair can form magnetic trapezoidal-wave pulses for treatment of tissue. A slew rate of the magnetic trapezoidal-wave pulses can be controlled in a range from twenty kilogauss/second to five megagauss/second.

Abstract: In one embodiment the present invention discloses a nanocluster or a nanorose composition comprising two or more closely spaced nanoparticles each comprising one or more metals, metal oxides, inorganic substances, or a combination thereof and one or more stabilizers. The stabilizers are in contact with the two or more closely spaced nanoparticles to form a nanocluster composition in which the inorganic weight percentage is greater than 50% and the average size is below 300 nm, and the nanocluster composition has magnetic properties, optical properties or a combination of both.

Abstract: Various embodiments provide methods and systems for ultrasound treatment of tissue are provided. Accordingly, a method can include locating an implant in a site in a body, directing a medicant to at least one of the implant and the site, directing ultrasound energy to the site, and accelerating healing of the implant and/or native tissue at the site.

Abstract: Methods and compositions are provided for detection of biological substances in nasal specimen.

Abstract: A method and composition for hyperthermally treating tumor cells in a patient under conditions that affect tumor stem cells and tumor cells. In one embodiment, the method provides a synergistic effect with chemotherapy.

Abstract: This invention provides methods for treating cold extremities using localized electromagnetic radiation directed at excitable tissues, including nerves, muscles and blood vessels. By controlling the wavelength, the wavelength bandpass, pulse duration, intensity, pulse frequency, and/or variations of those characteristics over time, and by selecting sites of exposure to electromagnetic radiation, improvements in the function of different tissues and organs can be provided. Responses can be monitored by measuring physiological variables including temperature and blood flow.

Abstract: Disclosed are advances in the arts with novel topical applicator apparatus for applying substances such as cleansers, cosmetic preparations and medications to the skin. The apparatus includes an applicator body having a power portion connected with an impulse portion, which in combination with an applicator head, transmits one or more various impulses to the skin supplemental to the substance applied. Exemplary preferred embodiments include configurations for providing mechanical and/or electrical or other impulses.

Abstract: The invention relates to a method for cosmetic skin smoothening wherein two magnetic fields are generated perpendicular to each other and wherein the field strength of a quasi-static magnetic field or the frequency of an alternating magnetic field is modulated.

Abstract: In this disclosure, we describe a method for the treatment of tumor(s) or tumor cell(s) or cancer(s) in a subject in need by the generation of heat. The latter is produced by chains of magnetosomes extracted from whole magnetotactic bacteria and subjected to an alternative magnetic field. These chains of magnetosomes yield efficient antitumoral activity whereas magnetosomes unbound from the chains or kept within the whole bacteria produce poor or no antitumoral activity. The introduction of various chemicals such as chelating agents and/or transition metals within the growth medium of the bacteria improves the heating properties of the chains of magnetosomes. Moreover, the insertion of the chains of magnetosomes within a lipid vesicle is also suggested in order to favor their rotation in vivo and hence to improve their heating capacity. The vesicle can contain an antitumoral agent together with the chains of magnetosomes. In this case, the agent is released within the tumors by heating the vesicle.

Abstract: Devices, systems and methods for magnetically assisted agent delivery are included. These devices, systems, and methods make use of a plurality of magnets or magnetic configuration. Two magnets are arranged such that the two magnetic fields overlap and can cancel at the location of the desired node point without canceling around that point.

Abstract: Some embodiments provide a system for external manipulation of magnetic nanoparticles in vasculature using a remotely placed magnetic field-generating stator. In one aspect, the systems and methods relate to the control of magnetic nanoparticles in a fluid medium using permanent magnet-based or electromagnetic field-generating stator sources. Such a system can be useful for increasing the diffusion of therapeutic agents in a fluid medium, such as a human circulatory system, which can result in substantial clearance of fluid obstructions, such as vascular occlusions, in a circulatory system resulting in increased blood flow.

Abstract: A device for treatment with magnetic fields is provided, which provides an easily transportable and storable device for the treatment with magnetic fields, which is also convenient for patients and in particular is economical to produce. The device comprises: a first device for generation of a first magnetic field, a second device for generation of a second magnetic field and a support with an upper side and a lower side, whereby the support is embodied for applying the treated body regions of the patient thereto.

Abstract: Devices, systems, and methods are disclosed herein for treatment of a disease, disorder, or condition in a vertebrate subject. A device is provided that includes one or more cooling elements configured to be applied to one or more tissues of a vertebrate subject to modulate at least one activity of brown adipose tissue of the vertebrate subject, and a programmable controller configured to provide instructions to the one or more cooling elements in response to information regarding one or more physiological conditions of the vertebrate subject.

Abstract: Devices, systems, and methods are disclosed herein for treatment of a disease, disorder, or condition in a vertebrate subject. A device is provided that includes one or more cooling elements configured to be applied to one or more tissues of a vertebrate subject to modulate at least one activity of brown adipose tissue of the vertebrate subject, wherein at least a portion of the one or more cooling elements is configured to be implantable, and a programmable controller configured to provide instructions to the one or more cooling elements in response to information regarding one or more physiological conditions of the vertebrate subject.

Abstract: Devices, systems, and methods are disclosed herein for treatment of a disease, disorder, or condition in a vertebrate subject. A device is provided that includes one or more passive cooling elements configured to be applied to one or more tissues of a vertebrate subject to modulate at least one activity of brown adipose tissue of the vertebrate subject, wherein at least a portion of the one or more passive cooling elements is configured to be implantable, and wherein the one or more passive cooling elements includes a first portion configured to be in association with the one or more tissues to be cooled, and a second portion configured to be placed in association with one or more tissues adjacent to an external epidermal tissue of the vertebrate subject.