Abstract: An exemplary method includes receiving a signal from an intrathoracic vibration sensor, analyzing the signal for vibration associated with deceleration of blood flow into the left ventricle, based at least in part on the analyzing, deciding whether to call for adjustment to one or more parameters of a bi-ventricular pacing therapy. Other exemplary methods, devices, systems, etc., are also disclosed.

Abstract: A skin dressing comprising first and second electrodes, an electrical power supply not electrically connected to either or both of the first and second electrodes, and further comprising a physiologically or antimicrobially active precursor substance, the dressing being operable, when placed on a skin site to be treated, to connect the electrical power supply to both the first and second electrodes, thereby to trigger the electrochemical oxidation or reduction of the precursor substance on one of the electrodes to produce a physiologically or antimicrobially active oxidized or reduced compound which is capable of diffusing towards the skin site for the treatment thereof.

Abstract: A cochlear implant includes electrodes and a processor for generating frequency-modulated electrical pulse trains in one or more of the electrodes responsive to dividing data representing audio spanning frequency-bands into bins associated with each frequency-band, each bin representing an energy level of the data within the frequency-band within a time-period; associating each frequency-band with a phase probability that starts at an initial phase probability value (PPV), resets to a minimum PPV after generating a pulse, and increases from the minimum PPV to a maximum PPV over a time-period; for each bin, assigning a power probability as a normalized intensity being a number between a minimum power probability and a maximum power probability representing the energy level of the bin, and generating a pulse in an electrode associated with the frequency-band associated with the bin when a random number generated is less than the power probability divided by the phase probability.

Abstract: The present disclosure is directed to an electrosurgical instrument having a housing that includes a generator configured to output electrosurgical energy and a controller configured to control the output of the generator. The instrument also includes a switch coupled to the controller and configured to provide a signal to the controller to select the energy modality of the electrosurgical energy. An indicator is also included to provide an indication of the selected energy modality.

Abstract: The present invention involves the field of numerous types of compounds including tooth whitening compounds and in particular, to specific apparatus which are used to retain tooth whitening compounds and then dispense them either into a dental tray where the tray is placed over the patient's teeth for a period of time or the tooth whitening compound is directly applied to the patient's teeth by the dentist or the dental assistant. More broadly described, the present invention includes compound and applicators used to dispense the compounds including tooth whitening compounds, dental bonding and filling compounds, adhesives, finely ground powder, jells, creams and paints.

Abstract: An electrode for use with a cochlear implant system includes an electrode array with at least one electrode contact, and an electrode lead adjacent to the electrode array. The electrode lead has a flexible region configured to allow the electrode lead to bend and has an attachment mechanism with an internal portion positioned within the electrode lead and an external portion configured to be bent and secured to bone. A method of securing the electrode to bone is also disclosed.

Abstract: A surgical instrument includes a reusable component and a limited-use component releasably engagable with the reusable component. The limited-use component is configured for one or more uses and includes a clocking mechanism configured to count each engagement of the reusable component and the limited-use component to one another. The clocking mechanism is incrementally transitionable upon each successive count from one or more uses state, wherein the clocking mechanism permits both mechanical engagement and electrical coupling of the reusable component and the limited-use component to one another, to a spent state, wherein the clocking mechanism inhibits both mechanical engagement and electrical coupling of the limited-use component and the reusable component to one another.

Abstract: A method and system are provided for equalizing cycle lengths among different map points during mapping studies. Different embodiments may be applicable to different circumstances and physiological settings. A compression embodiment encapsulates the entire behavior of a map point throughout its native cycle length. A truncation and rotation embodiment, and an extension and rotation embodiment allow for a more physiologically-relevant processing of the motion data.

Abstract: What is disclosed is a system and method for determining respiration rate from a video of a subject. In one embodiment, a video is received comprising plurality of time-sequential image frames of a region of a subject's body. Features of pixels are extracted from that region from each image frame and vectors formed from these features. Each image frame has an associated feature vector. A N×M video matrix of the vectors of length N is constructed such that a total number of columns M in the video matrix correspond to a time duration over which the subject's respiration rate is to be determined. The video matrix is processed to obtain a matrix of eigenvectors where principal axes of variations due to motion associated with respiration are contained in a first few eigenvectors. One eigenvector is selected from the first few eigenvectors. A respiration rate is obtained from the selected eigenvector.

Abstract: An electrocardiogram display device includes an electrocardiogram waveform generating unit that generates electrocardiogram waveforms of a plurality of leads based on electrocardiogram data of each of the leads, an arranging instruction unit that instructs an arranging order of the electrocardiogram waveform of each lead by performing inputting, a display unit, and a displaying control unit that arranging the electrocardiogram waveform of each lead in a corresponding arranging order in response to instruction of the arranging instruction unit to create and display one screen image on the display unit.

Abstract: Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump.

Abstract: An implantable neurological stimulation lead assembly (10) having multiple elongated stimulation leads coupled together in parallel with a lead coupler (13) for delivering electrical impulses to subcutaneous tissue for treatment. The lead coupler (13) includes a set of interconnected expandable elastic collars (15), one collar for each lead (11,12), whereby the collars (15) respectively receive and retain the leads (11,12) with an elastic constraint in a predetermined side by side array. The set of interconnected lead coupler collars (15) are interconnected with a releasable connection (23) whereby the lead assembly (10) may be configured as a single or multiple lead assembly.

Abstract: The present invention relates to an active medical device that uses non-linear filtering for reconstructing a surface electrocardiogram from an endocardial electrogram. At least one endocardial EGM electrogram signal is collected from of samples collected from at least one endocardial or epicardial derivation (71?, 72?, 73?), and at least one of a reconstructed surface electrocardiogram (ECG) signal through the processing of collected EGM samples by a transfer function (TF) of a neural network (60?). The neural network (60?) is a time-delay-type network that simultaneously processes said at least one endocardial EGM electrogram signal, formed by a first sequence of collected samples, and at least one delayed version of this EGM signal, formed by a second sequence of collected samples distinct from the first sequence collected samples. The neural network (60?) provides said reconstructed ECG signal from the EGM signal and its delayed version.

Abstract: An apparatus includes an end effector, an energy component, a control module, and a directional force sensor assembly associated with the energy component and control module. The directional force assembly can include a piezoelectric disc, a piezoresistive element, an accelerometer, and/or a Hall Effect sensor. The end effector of the apparatus can include ultrasonic blade, an RF electrode, or a staple driving assembly. In some versions, the energy component includes an ultrasonic transducer. The control module may be configured to operate the energy component at a first energy setting in response to a first detected force and at a second energy setting in response to a second detected force. The apparatus may also include an activation feature to be operated by a user. In some versions the piezoelectric disc may include a plurality of segments and may be configured to induce movement in at least part of the energy component.

Abstract: A photobiological measurement apparatus 1 may include a second received light quantity information calculation unit 33 for calculating measurement data relating to cerebral activity, a data display controller for displaying the measurement data for a specified area of a subject's brain, is characterized: is being provided with a reference light-receiving probe 14, which is disposed at a position separated by a first setting distance r1 from the light-transmitting prober 12 that is shorter than a second setting distance r2, and a first received light quantity information calculating unit 32, which calculates skin blood flow data relating to the skin blood flow using first received light quantity information ?A1 from the light transmitting probe 12 to the reference light-receiving probe 14, and in displaying the skin blood flow data at a specified position of the subject's scalp by indicating the measurement position on the subject's scalp and displaying the skin blood data.

Abstract: A windowed electrode assembly includes a foam layer having windows. Each window receives a corresponding gel pad that is sized such that it is contained by the window's sidewalls. The windowed electrode assembly includes a foam backing layer that forms a back wall for the windows such that each gel pad is encased by the window's sidewalls and back wall.

Abstract: A medical electronic device comprises at least a battery module, a detector for detecting the remaining battery of the battery module to generate a detection signal, a processor generating a first status information according to the detection signal, a transceiver and a function circuit. The processor transmits and receives the first status information and the control signal by the transceiver. The function circuit is electrically connected to the processor and at least an electrode. The electrode extends outward from the medical electronic device. According to the control signal, the processor controls the function circuit to output an electrical stimulation signal with default stimulation frequency, stimulation cycle and stimulation intensity to the electrode. The voltage of the electrical stimulation signal ranges from ?10V to ?1V and from 1V to 10V, and the frequency of the electrical stimulation signal is between 200 KHz and 800 KHz.

Abstract: An ablation device comprising an ablation applicator adapted for ablating material from an object upon delivery of an ablation medium to the ablation applicator in an ablation mode, an ablation medium supply line adapted for supplying the ablation medium to the ablation applicator in the ablation mode, an ablation medium drain line adapted for draining the ablation medium received from the ablation applicator in the ablation mode, and a closure mechanism adapted for selectively enclosing a predefined volume in a fluidic path upon operating the ablation device in a no-flow mode or upon detecting a leak in the fluidic path, the fluidic path including the ablation applicator and being defined between the ablation medium supply line and the ablation medium drain line.

Abstract: Provided is a pericardial-liquid level control system with which a good viewing field can be ensured for an endoscope image without causing cardiac tamponade. A pericardial-liquid level control system is employed, including a sheath that is inserted into the pericardium; pumps that supply and expel liquid to and from the sheath; electrocardiogram electrodes that detect electrocardiographic information; and a pump control device that, in synchronization with the electrocardiographic information detected by the electrocardiogram electrodes, controls the pumps so that the liquid is supplied to the pericardium via the sheath during contraction of the heart and the liquid is expelled from the pericardium via the sheath during expansion of the heart.

Abstract: A system for controlling a position of a patient's tongue includes attaching at least one electrode to the patient's Hypoglossal nerve and applying an electric signal through the electrode to at least one targeted motor efferent located within the Hypoglossal nerve to stimulate at least one muscle of the tongue. The system may also include the use of more than one contact to target more than one motor efferent and stimulating more than one muscle. The stimulation load to maintain the position of the tongue may be shared by each muscle. The position of the patient's tongue may be controlled in order to prevent obstructive sleep apnea.