Abstract: An internal compression tourniquet catheter system and method for wound track navigation for controlling hemorrhage from wounds. The preferred embodiments include an inflatable member constructed of thin, flexible and puncture resistant material such that when deflated can be wrapped around the catheter shaft, which passes within and has a lumen to inflate it. The inflatable member is of large potential volume enabling full inflation with near zero internal pressure when unconstrained externally. When positioned within a wound track and inflated, the gas or liquid injected into the balloon lumen creates pressure because its expansion is constrained by the tissues of the wound, and that pressure is transmitted directly to the surrounding tissue of the wound track.

Abstract: An instrument comprises first and second modules. The modules each comprise computer electronics hardware including a display screen typically carried by the first module. The modules are separable from each other. One of the modules has a projecting bus for connection with the interior of the other module. The bus defines a plurality of sockets for removably receiving circuit boards of desired variable types for direct connection with electronics within the other module and for connection with electronics of the one module through the bus. Thus, the instrument is easily modified in its functioning by addition, subtraction, or replacement of circuit boards from the bus.

Abstract: A method and a catheter for passing a therapeutic electric current to, or sensing electric signals from, the body of a patient. The catheter is inserted into the esophagus of the patient, temporarily sealing a space surrounding a portion of the catheter containing one or more electrodes within the esophagus wall. The space is filled with an electrically conductive liquid (electrolyte). Then, an electric current is passed through electrodes to the conductive liquid between the esophagus wall and an electrode carried on the catheter in spaced relation from the esophagus wall or to other electrodes in the heart or body surface.

Abstract: A method is provided for cardioverting or defibrillating a patient's heart. A plurality of electrodes is positioned on a plurality of different locations on the patient. Different sets of the plurality of electrodes are pulsed with a plurality of pulses within a maximum time period of 200 milliseconds. By using multiple, relatively low energy shocks to different locations instead of a single large shock, there is significantly less trauma to the patient, and during cardioversion the use of anesthesia may be avoided.