Abstract: An apparatus comprising: (a) a main body adapted to engage and retain a catheter therein at a fixed point relative to the catheter length; and (b) a cutting mechanism adapted to sever said catheter in response to a pre-defined threshold force applied along the length of the catheter.

Abstract: Aspects of the present disclosure include a catheter, such as an endovascular catheter configured for catheter rotation during a catheterization procedure, e.g., an endovascular catheterization procedure. The catheter includes a first tubular member and a second tubular member surrounding at least a portion of the central portion of the first tubular member, where the first and second tubular members are rotatable with respect to each other. Methods for performing a catheterization and kits that include the catheter are also provided.

Abstract: The various embodiments herein relate to a boosting catheter for positioning through a conventional guiding catheter into the vasculature of a patient, the boosting catheter having a distal tubular member and a proximal elongated shaft coupled to the distal tubular member.

Abstract: Catheter apparatuses, systems, and methods for introducing a catheter into a patient's body. In one embodiment, a catheter apparatus includes a catheter body having a first lumen capable of fluid communication via a first distal opening and a second lumen capable of fluid communication via a second distal opening, a first intra-catheter stiffener element for disposition through the first lumen such that a distal end thereof is distal in relation to the first distal opening, and a second intra-catheter stiffener element configured for disposition through the second lumen such that a distal end thereof is distal in relation to the second distal opening, one of the first intra-catheter stiffener element distal end and the second intra-catheter stiffener element distal end capable of receiving and accommodating the other of the first intra-catheter stiffener element distal end and the second intra-catheter stiffener element distal end.

Abstract: The invention concerns a medical robot for guiding elongate flexible medical parts, comprising: a fixed base having an outer peripheral wall; a container which is movable relative to the fixed base by a degree of freedom of rotation, the container comprising an inner peripheral wall defining with the outer peripheral wall a first compartment; and the outer peripheral wall having an aperture which opens into the interior of the first compartment and via which the first elongate flexible part can be moved.

Abstract: An MR compatible steerable sheath with a slidable valve adaptor is provided. The slidable valve adaptor is configured to maintain the steerable shaft in a proximal position such that there is slack in first and second longitudinal movement wires when the valve adaptor is in a first position, and is configured to remove slack from the first and second longitudinal movement wires when the valve adaptor is slidably moved to the second position. Slidable valve adaptor also optionally includes a safety cap that prevents insertion of a catheter into the control handle until the valve adaptor is in the distal position.

Abstract: A port guard dressing for use in connection with skin of a patient and through which a percutaneous line can pass includes an upper component, a lower component adapted to contact the skin, and at least one intermediate component positioned between the upper component and the lower component. The at least one intermediate component is attached to a lower surface of the upper component and includes or is formed from a material that is more rigid than the upper component. The material of the of the upper component intermediate component may also be more rigid than the lower component.

Abstract: A universal device for securing a catheter on a patient includes a base which optionally has at least one locating element for positioning or securing a catheter or catheter fitting of various shapes or sizes. The base has an opening and one or more restraining elements positioned on a surface of the base and extending over a portion of the opening. A retention plate includes locating elements for positioning or securing a catheter or catheter fitting of various shapes or sizes on the retention plate. Optionally, the retention plate may be movable. A support plate or similar device attached to the base holds the retention plate between the restraining elements and the support plate. A cover is connected to the base and may optionally have at least one capture element for restraining a catheter or catheter fitting of various shapes or sizes on the base or on the retention plate.

Abstract: An apparatus for delivering devices. The apparatus comprises a catheter with an elongated shaft having a first lumen and a second lumen extending therethrough. The apparatus further comprises a distal section with a lumen in communication with a port in a distal end of the catheter and with the first lumen and the second lumen. The first lumen is configured for a first device and the second lumen is configured for a second device to be disposed therein. The apparatus further comprises a proximal adapter coupled to the elongated shaft with a first port in communication with the first lumen and a second port in communication with the second lumen.

Abstract: A needle assembly can include a needle and a proximal compartment forming a reservoir for collecting blood that flows through an inner lumen of needle. The needle assembly may also include a needle tip shield for capturing a sharpened distal tip of the needle. The needle tip shield can form a fluid pathway through which blood contained within the reservoir is expelled. The volume of the reservoir can be reduced to cause blood to be expelled from the needle tip shield such as by compressing the proximal compartment or a plunger connected to the proximal compartment or by moving a plunger into the reservoir. The fluid pathway of the needle tip shield can either be the same pathway through which the sharpened distal tip is withdrawn into the needle tip shield, or can be a separate pathway.

Abstract: Embodiments of a catheter insertion device are discussed comprising: an approximately hollow cylindrical catheter sleeve, at whose distal end a catheter is attached; a needle sleeve with a hollow needle, which is attached thereto and which, when ready for use, extends through the catheter sleeve and the catheter, and; a needle protective element that is arranged inside the catheter sleeve while being able to move on the needle. Said needle protective element has an engaging section that engages with an engaging device, which is formed in the vicinity of the needle tip, when the hollow needle is withdrawn from the catheter sleeve. A check valve is placed inside the catheter sleeve between the catheter and the needle protective element. The hollow needle, when ready for use, extends through said check valve, and the check valve automatically closes once the needle is withdrawn.

Abstract: Safety needle assemblies, needle guards, and related methods are disclosed. The guards may be used on different needle applications to cover the tips of the needles. Exemplary needle guards are disclosed in which a curved bore profile is provided so that when the crimp or bulge on the needle retracts into the curved bore profile, the axial movement of the needle causes the needle guard to undergo a rotary movement.

Abstract: A PIVC includes a catheter adapter having a catheter that extends distally from the catheter adapter, and an introducer needle that inserts through the catheter. The introducer needle has a grip component at a proximal end of the introducer needle. The grip component extends outwardly and distally to form a winged grip adjacent the catheter adapter when the introducer needle is inserted within the catheter. The grip component can be rotatable within the catheter adapter to allow repositioning of the winged grip with respect to the catheter adapter.

Abstract: A body (2) for a catheter or sheath is disclosed. The body (2) includes strips (8, 10) formed longitudinally from the proximal (6) portion of the body (2) to the distal (4) portion of the body (2). The strips are formed of different materials. The strips can have different radiopacities, or can be splittable/peelable. The splittable/peelable body comprises a peel mechanism longitudinally extending along its respective length. The peel mechanism can be formed by longitudinally extending regions of interfacial bonding between first and second longitudinally extending strips of polymer material. A region of stress concentration extends along the region of interfacial bonding. The stress concentration facilitates the splitting of the body (2) along its peel mechanism. The polymer material of the first strip (8) can have a greater amount of radiopaque filler than the polymer material of the second strip (10). Each strip forms at least a portion of an outer circumferential surface of the body (2).

Abstract: Guidewires and related methods for percutaneous crossing of an occlusion in a blood vessel are disclosed. A guidewire can include a core member and a jacket member. The core member can extend from a proximal end portion to a distal end portion, with the distal end portion including a first segment, a more distal second segment and a more proximal third segment. The first segment can be configured to encourage prolapse by way of a short taper or a diameter-reduced portion. The jacket member can surround at least the distal end portion of the core member. A method can include advancing a distal end portion of the guidewire through the natural lumen of a blood vessel to a location near an occlusion. A longitudinal pushing force can be applied to a proximal end portion of the guidewire, thereby causing a first segment of the distal end portion to prolapse.

Abstract: A guide wire is disclosed, which includes a wire main body that has flexibility; a distal end member that is fixed to a distal end portion of the wire main body; and a tubular member that is arranged closer to a proximal end side than the distal end member, and on an outer circumference of the wire main body. The tubular member can be configured such that the longitudinal entirety of the tubular member is not fixed to the wire main body. The tubular member can be provided such that a distal end portion of the tubular member is not fixed to the distal end member. A proximal-end side thickness reduction portion with a wall thickness decreasing toward the proximal end side is provided in a proximal end portion of the tubular member.

Abstract: A guide wire includes a wire main body that has a plate-like portion in a distal end portion of the wire main body and a reinforcement portion that is provided on at least one surface of the plate-like portion and reinforces the plate-like portion. The reinforcement portion is made up of two wire rods, and both end portions of the reinforcement portion are fixed to the plate-like portion. The plate-like portion is formed in a ribbon shape, and the reinforcement portions are diagonally provided on the same plane of the plate-like portion, and intersect each other. The guide wire has a coil that covers the plate-like portion and the reinforcement portion.

Abstract: The releasable torque device obviates the need for removal of the wire introducer in order to torque or manipulate a vascular or other guide wire and/or catheter in a medical procedure, and further obviates the need to remove the torque device for wire and/or catheter introduction. The device may include a base cylinder and an inflation cylinder defining a variable fluid volume therebetween. As the inflation cylinder is pushed toward the base cylinder, the fluid is forced through a port in the inner wall of the inflation cylinder and between a tubular inner cylinder and an inflatable guide wire grip within the inner cylinder to squeeze the grip onto the guide wire passing axially therethrough. Alternatively, the device only has a central tube and an inflatable guide wire grip therein, using a remotely disposed fluid pump and reservoir supplying fluid to the tube and guide wire grip.

Abstract: A primary lumen and a secondary lumen, which is formed so as to be expandable, are formed inside a sheath main body having a deformation portion which is disposed so as to include at least a part of the outer peripheral portion of the sheath main body. The deformation portion is deformed so as to be expanded outwardly in accordance with the expansion of the secondary lumen.

Abstract: A nested balloon is provided where each balloon is formed from tubing that optimizes the inner wall stretch thus providing maximum balloon strength. The high pressure, nested balloon is provided with layers that allow for slipping, such that the balloon has a very high pressure rating and toughness, yet excellent folding characteristics. Methods for producing such nested balloons using existing balloon forming equipment are also provided. The nested balloons can have layers with low-friction surfaces. The nested balloons are preferably manufactured using a variety of methods.

Abstract: Methods and devices for preventing fluid flow through the relatively short guidewire lumen of a rapid exchange catheter. The guidewire lumen for a rapid exchange catheter is provided with a narrowed or sealed section allowing for passage of a guidewire therethrough while preventing fluid flow while a guidewire is disposed therethrough. The narrowed or sealed section extends for a relatively short length of the guidewire lumen to avoid creating excessive friction between the guidewire and the guidewire lumen. In several embodiments the narrowed or sealed section is placed proximal of the distal end of the guidewire lumen.

Abstract: A medical valve assembly includes a tube extending between a first tube end and a second tube end to define a passageway extending along a longitudinal axis between the ends. A plunger plate extends radially from the second tube end of the tube, and a valve housing surrounds the tube about the second tube end and extends from a first valve housing end to a second valve housing end. The valve housing includes a flange extending radially inwardly from the second valve housing end and disposed in spaced relationship with the plunger plate to define a distance dimension D extending therebetween. An elastomeric seal is compressed between the plunger plate and the flange, and one of the valve housing and the tube is axially movable relative to the other to vary the distance between said plunger plate and said flange and adjust an inner diameter of the elastomeric seal.

Abstract: An implantable electrical stimulation lead includes a lead body, electrodes disposed along a distal end of the lead body, terminals disposed along the proximal end of the lead body, and conductors coupling the terminals to the electrodes. The electrodes include a tip electrode having an electrode body with an outer stimulating surface. An internal lumen is defined in the electrode body and extends inwardly from an opening, in a proximal end of the electrode body. Side apertures are formed between the outer stimulating surface and the internal lumen. A portion of the lead body is disposed within the internal lumen and side apertures through the opening in the proximal end of the electrode body. That portion of the lead body facilitates retention of the tip electrode on a distal tip of the lead body.

Abstract: An apparatus for use in peripheral nerve field stimulation (PNFS) whereby a plurality of curved introducer needles, of varying curvatures, are provided to permit the physician to best locate the region of oligodendrocytes that contain the A Beta fibers by matching the lumbar lordosis. A wing device is also provided that is attachable to the hub of the curved needle introducer which gives the physician better ability to maneuver the needle during insertion as well as permitting tenting of the skin. The invention benefits a large number of painful disorders arising from pathology in the cervical, thoracic, and lumbar spine. In addition, this invention can also help a large number of other conditions including but not limited to failed back surgery syndrome/post-laminectomy pain, occipital/suboccipital headaches, scar pain, post herpetic neuralgia pain, mononeuritis multiplex, and pain following joint surgery (e.g., knee, hip, shoulder).

Abstract: The invention relates to an implantable capsule, particularly an autonomous capsule of cardiac stimulation, including a tubular body provided at the distal end of an anchoring element with a helical screw adapted to penetrate tissue a wall of an organ of a patient, the body housing a set of functional elements of the capsule. It includes, in an annular area surrounding the base of the screw recessed arrangements defining a set of flush tips oriented in a circumferential direction opposite to that of the screwing, to avoid the unscrewing of the capsule.

Abstract: A co-connected hermetic feedthrough, feedthrough capacitor, and leadwire assembly includes a dielectric substrate with a via hole disposed through the dielectric substrate from a body fluid side to a device side. A conductive fill is disposed within the via forming a hermetic seal and is electrically conductive between the body fluid side and the device side. A feedthrough capacitor is attached to the dielectric substrate and includes a capacitor dielectric substrate, an unfilled capacitor via hole including an inner metallization, a set of capacitor active electrode plates electrically coupled to the inner metallization, an outer metallization disposed and a set of capacitor ground electrode plates electrically coupled to the outer metallization. A conductive leadwire is disposed within the unfilled capacitor via hole. An electrical joint connects the conductive fill, the capacitor inner metallization along with the capacitor active electrode plates and the conductive leadwire.

Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

Abstract: A system and method are provided for a wireless electrical stimulation. The system generally includes at least two electrical stimulation units. Each electrical stimulation unit includes electrodes connected to the unit. The system also includes a transmitter for remotely, wirelessly controlling each of the electrical stimulation units to selectively apply a time-varying electric potential to the electrodes to provide an electrical stimulation to tissue in electrical contact with the electrodes.

Abstract: Disclosed herein are embodiments of methods and systems for attenuating artifacts in single channel cochlear implants. Both high and low frequency artifacts can be attenuating using embodiments of the disclosed methods and systems. In some embodiments, low-pass filters, impedance balancing, and DC artifact estimation can be used, alone or in combination, to attenuate or completely remove artifacts in single channel cochlear implants.

Abstract: An interface relay system for use with a fully implantable medical devices that permits transcutaneous coupling of the implanted medical device to a consumer electronics device. In one embodiment, coupling the implanted medical device to the external electronics device provides a back-up source of power for operating the implanted medical device. In another embodiment, coupling the implanted medical device to the external electronics device allows for providing unidirectional and/or bidirectional data transfer between the devices. In one arrangement, the consumer electronics device may be connectable to a communications/data network to allow for network communication between the implantable medical device and a remote processing platform/server.

Abstract: An electrical neuromodulation system and method of meeting a therapeutic goal for a patient using a neuromodulation device. A modulation parameter value is varied by a step size. The neurostimulation device instructs the neuromodulation device to deliver electrical energy to at least one electrode in accordance with the varied modulation parameter value. A therapeutic feedback indicator is compared to a threshold in response to the delivery of the electrical energy. Whether the therapeutic goal has been met is determined based on the comparison, and the previous steps are repeated to determine the modulation parameter value at the resolution of the step size that minimizes energy consumption of the neuromodulation device required to meet the therapeutic goal when delivering the electrical energy to the electrode(s) in accordance with the varied modulation parameter value.

Abstract: A device comprises an implantable pulse generator having a plurality of stimulator outputs and a plurality of neural electrodes. A lead splitter is configured to electronically map the stimulator outputs to the plurality of neural electrodes. The present invention generally relates to implanted neurostimulation systems and, more particularly, to a lead splitter for neurostimulation systems and methods to increase the number of effective output channels of a single or multi-channel neurostimulator.

Abstract: An integrated circuit includes: a radio-frequency (RF) to direct current (DC) rectifying circuit coupled to one or more antenna on an implantable wirelessly powered device, the rectifying circuit configured to: rectify an input RF signal received at the one or more antennas and from an external controller through electric radiative coupling; and extract DC electric power and configuration data from the input RF signal; a logic control circuit connected to the rectifying circuit and a driving circuit, the logic control circuit configured to: generate a current for the driving circuit solely using the extracted DC electrical power; in accordance with the extracted configuration data, set polarity state information for each electrode; and a driving circuit coupled to one or more electrode, the driving circuit comprising current mirrors and being configured to: steer, to each electrode and via the current mirrors, a stimulating current solely from the generated current.

Abstract: Systems and methods are provided for delivering neurostimulation therapies to patients for treating chronic heart failure. A neural fulcrum zone is identified and ongoing neurostimulation therapy is delivered within the neural fulcrum zone. The implanted stimulation device includes a physiological sensor for monitoring the patient's response to the neurostimulation therapy on an ambulatory basis over extended periods of time and a control system for adjusting stimulation parameters to maintain stimulation in the neural fulcrum zone based on detected changes in the physiological response to stimulation.

Abstract: A neuromodulation system comprises a plurality of electrical terminals configured for being respectively coupled to electrodes, modulation output circuitry configured for respectively outputting a plurality of individual electrical pulse trains in a plurality of timing channels to the electrical terminals, wherein each of the timing channels prevents the respective pulse train from having a specific characteristic, and control circuitry configured for controlling the modulation output circuitry in a manner that outputs the pulse trains to a common set of the electrical terminals, thereby creating a combined electrical pulse train at the common set of electrical terminals that has the specific characteristic. A method of providing therapy to a patient comprises delivering a plurality of electrical pulse trains respectively in a plurality of timing channels to a common set of electrodes implanted within the patient, thereby creating a combined electrical pulse train at the common set of electrical terminals.

Abstract: An implantable medical device includes an enclosure having a sidewall and a welded seam in the sidewall, the seam extends along a perimeter of the enclosure. A thermoform is located adjacent a surface of the enclosure and is secured in place within the enclosure. A metalized surface is located adjacent an interior surface of the enclosure sidewall and is secured in place by the thermoform. The metalized surface extends along a perimeter of the enclosure and is configured to obstruct laser energy during a weld seam process. The metalized surface may be provided as a separate backup band component or may be integrated in a perimeter sidewall of the thermoform.

Abstract: Medical devices provide metallic connector enclosures. The metallic connector enclosures may be constructed with relatively thin walls in comparison to polymer connector enclosures to aid in miniaturizing the medical device. The metallic connector enclosures may be constructed with interior surfaces that deviate less from an ideal inner surface shape in comparison to polymer connector enclosures to allow for better concentricity of electrical connectors. The metallic connector enclosures may include a panel that allows access to the cavity of the connector enclosure where set screw blocks, lead connectors, spacers, seals, and the like may be located. Furthermore, the lead connectors within the metallic connector enclosures may be separated from the metallic connector enclosure by being positioned within non-conductive seals that reside within features included in cavity walls of the connector enclosure.

Abstract: A method of making a feed-thru connector assembly includes inserting a conductor within an opening within a housing of a pulse generator and dispensing a sealant in a gap between the conductor and portions of the housing adjacent to the conductor that define the opening of the housing and curing the sealant to form a seal comprising a polyisobutylene cross-linked network.

Abstract: An implantable medical device is provided for the suppression or prevention of pain, movement disorders, epilepsy, cerebrovascular diseases, autoimmune diseases, sleep disorders, autonomic disorders, abnormal metabolic states, disorders of the muscular system, and neuropsychiatric disorders in a patient. The implantable medical device can be a neurostimulator configured to be implanted on or near a cranial nerve to treat headache or other neurological disorders. One aspect of the implantable medical device is that it includes an electronics enclosure, a substrate integral to the electronics enclosure, and a monolithic feed-through integral to the electronics enclosure and the substrate. In some embodiments, the implantable medical device can include a fixation apparatus for attaching the device to a patient.

Abstract: A system and method are provided for a wireless electrical stimulation. The system generally includes at least two electrical stimulation units. Each electrical stimulation unit includes electrodes connected to the unit. The system also includes a transmitter for remotely, wirelessly controlling each of the electrical stimulation units to selectively apply a time-varying electric potential to the electrodes to provide an electrical stimulation to tissue in electrical contact with the electrodes.

Abstract: An interactive representation of electrostimulation electrodes or vectors can be provided, such as for configuring combinations of electrostimulation electrodes. In an example, electrodes or test parameters can be presented graphically or in a table. A user interface can be configured to receive user-input designating electrode combinations or vectors for test or for use in programming an implantable or ambulatory medical device. The interface can be used to indicate suggested electrode combinations or vectors in response to a first selection of an electrode. Tests can be performed on electrode combinations and vectors, and the results of the tests can be presented to a user using the interactive representation. In an example, test results can be analyzed by a processor and optionally used to program an implantable or ambulatory medical device.

Abstract: Timing channel circuitry for controlling stimulation circuitry in an implantable stimulator is disclosed. The timing channel circuitry comprises a addressable memory. Data for the various phases of a desired pulse are stored in the memory using different numbers of words, including a command indicative of the number of words in the phase, a next address for the next phase stored in the memory, and a pulse width or duration of the current phase, control data for the stimulation circuitry, pulse amplitude, and electrode data. The command data is used to address through the words in the current phase via the address bus, which words are sent to a control register for the stimulation circuitry. After the duration of the pulse width for the current phase has passed, the stored next address is used to access the data for the next phase stored in the memory.

Abstract: A hybrid system forming an active implantable medical device includes a subcutaneous autonomous capsule and at least one intracorporeal autonomous leadless capsule. The subcutaneous capsule is a hybrid capsule having a seal body of dimensions comparable to those of a leadless capsule, but extended by a detection/stimulation microlead, without any intermediate connector. The leadless capsule includes a seal body, anchoring means in a wall of an organ and a detection/stimulation electrode. The hybrid capsule and the leadless capsules each include transmitter/receiver means for intracorporeal mutual wireless communication so as to constitute a network wherein the hybrid capsule is the master and leadless capsules are the slaves. The hybrid capsule further includes means for centralizing data transmitted by the leadless capsules and for exchanging data with remote external equipment.

Abstract: A defibrillator having a pair of electrodes for delivering an artifact-compensated defibrillation shock and a method thereof is provided. The defibrillator can be deployed rapidly while administering a cardio-pulmonary resuscitation (CPR) on the patient. Upon detection of an end of the CPR operation, a correlation signal indicative of signal corruption is detected and analyzed rapidly to determine an appropriate energy level discharged across the pair of electrodes. Thereafter, a notification signal is sent to the user of the defibrillator prior to delivering the defibrillation shock to the patient. The artifact-compensated defibrillation shock is delivered if for a predetermined period of time no movement is detected.

Abstract: A CRM system enhances intracardiac electrogram-based arrhythmia detection using a wireless electrocardiogram (ECG), which is a signal sensed with implantable electrodes and approximating a surface ECG. In one embodiment, an intracardiac electrogram allows for detection of an arrhythmia, and the wireless ECG allows for classification of the detected arrhythmia by locating its origin. In another embodiment, the wireless ECG is sensed as a substitute signal for the intracardiac electrogram when the sensing of the intracardiac electrogram becomes unreliable. In another embodiment, a cardiac signal needed for a particular purpose is selected from one or more intracardiac electrograms and one or more wireless ECGs based on a desirable signal quality. In another embodiment, intracardiac electrogram-based arrhythmia detection and wireless ECG-based arrhythmia detection confirm with each other before indicating a detection of arrhythmia of a certain type.

Abstract: Systems and methods for treating cardiac arrhythmias. One example medical device system for delivering electrical stimulation therapy to a heart of a patient may comprise a leadless cardiac pacemaker (LCP) implanted within a heart of a patient and configured to determine occurrences of cardiac arrhythmias, a medical device configured to determine occurrences of cardiac arrhythmias and to deliver defibrillation shock therapy to the patient, wherein the LCP and the medical device are spaced from one another and communicatively coupled, and wherein after the LCP determines an occurrence of a cardiac arrhythmia, the LCP is configured to modify the defibrillation shock therapy of the medical device.

Abstract: A notebook, laptop computer or tablet having an automated external defibrillator (AED) capability, and methods of utilizing the notebook, laptop computer or tablet defibrillator to treat victims of sudden cardiac arrest. A notebook, laptop computer or tablet having the technology to enable each to be used as an automated external defibrillator (AED). Methods and apparatuses for implementing the common notebook, laptop computer, tablet, common cell phone and the common personal digital assistant (PDA) as an automated external defibrillator (AED).

Abstract: A notebook, laptop computer or tablet computer having an automated external defibrillator (AED) capability, and methods of utilizing the notebook, laptop computer or tablet computer defibrillator to treat victims of sudden cardiac arrest. Kits and methods for converting, adapting or retrofitting a common notebook, laptop computer and tablet computer to enable each to be used as an AED to treat victims of sudden cardiac arrest. A kit including an adjustable case for receiving, encompassing, adapting and converting a common notebook, laptop computer or tablet computer to enable each to be used as an AED. A kit including a slave automated external defibrillator (AED) that is joined to a common notebook, laptop computer or tablet computer to adapt, convert and enable each to be used as an AED.

Abstract: A flexible catheter includes two electrical contacts in a distal region of the catheter and a distal aperture of a hose line. The electrical contacts are connected to a high frequency pulse generator for applying pulsed radio frequency energy for nerve stimulation. A temperature sensor is located in the distal region of the catheter. The flexible catheter is inserted into a region in the spinal canal and the pulsed radio frequency generator is operated, thereby applying pulsed radio frequency energy to a localized region to be treated. The temperature at the distal region of the catheter can also be monitored, and the pulsed radio frequency energy is applied in dependence on the monitored temperature. With the catheter, pain and other medical conditions being related to and influenced by a nervous system are treated.

Abstract: Transcranial magnetic stimulation (TMS) is used to modulate permeability of the blood brain barrier in a transient, safe and non-invasive manner. A conventional or deep TMS coil may be placed on a head in a vicinity of a tumor, for example. A series of magnetic pulses is provided to the brain with a tailored stimulation protocol. In one of many possible clinical applications, a pharmaceutical substance may be introduced during a time frame before, during or after providing the magnetic pulses to treat a tumor in the brain.