Methods, systems, and coaptation measurement devices as described herein include an elongate sensor body at the end of a proximal connecting member, and a plurality of sensors in an array across a face of the sensor body, wherein each sensor of the plurality of sensors is configured to detect if a portion of a heart valve is in contact with the sensor.

The invention provides a system and method for measuring vital signs (e.g. SYS, DIA, SpO2, heart rate, and respiratory rate) and motion (e.g. activity level, posture, degree of motion, and arm height) from a patient. The system features: (i) first and second sensors configured to independently generate time-dependent waveforms indicative of one or more contractile properties of the patient's heart; and (ii) at least three motion-detecting sensors positioned on the forearm, upper arm, and a body location other than the forearm or upper arm of the patient. Each motion-detecting sensor generates at least one time-dependent motion waveform indicative of motion of the location on the patient's body to which it is affixed. A processing component, typically worn on the patient's body and featuring a microprocessor, receives the time-dependent waveforms generated by the different sensors and processes them to determine: (i) a pulse transit time calculated using a time difference between features in two separate time-dependent waveforms, (ii) a blood pressure value calculated from the time difference, and (iii) a motion parameter calculated from at least one motion waveform.

A manipulation assembly includes a delivery catheter having a lumen extending therethrough and a deployment catheter positioned within the delivery catheter. The deployment catheter is independently manipulatable with respect to the delivery catheter. The assembly further includes a visualization element extendable distally beyond the deployment catheter and an ablation probe comprising an energy transmitting surface positionable to ablate tissue adjacent to a distal end of the ablation probe. The ablation probe is extendable distally beyond the deployment catheter.

This invention relates to an apparatus and a method for measuring whether organic matter is present or whether or not organisms (cells or tissue) are alive using infrared absorption spectroscopic analysis. The measurement apparatus of the invention includes an infrared light source for radiating infrared rays on a sample, an infrared detection unit for detecting the infrared rays transmitted or reflected from the sample, and a determination unit for identifying an amide infrared absorption peak of the sample using the detected infrared rays and for determining whether organic matter is present or whether organisms are alive or not in the sample using the identified amide infrared absorption peak. In this invention, a reagent is not used, simple measurement is performed, quantification is feasible, and the presence or absence of cells or tissues and changes in the life and death can be consecutively measured for the same sample.

This invention relates to an apparatus and a method for measuring whether organic matter is present or whether or not organisms (cells or tissue) are alive using infrared absorption spectroscopic analysis. The measurement apparatus of the invention includes an infrared light source for radiating infrared rays on a sample, an infrared detection unit for detecting the infrared rays transmitted or reflected from the sample, and a determination unit for identifying an amide infrared absorption peak of the sample using the detected infrared rays and for determining whether organic matter is present or whether organisms are alive or not in the sample using the identified amide infrared absorption peak. In this invention, a reagent is not used, simple measurement is performed, quantification is feasible, and the presence or absence of cells or tissues and changes in the life and death can be consecutively measured for the same sample.

An electronic device that includes an electronic calendar containing scheduled events, the device further including a) software that matches an event with an optimal brain state, and b) means for convening to the user of the device such optimal brain state when the calendar indicates that the event is imminent or has arrived.

An upper gastrointestinal bleeding monitoring system includes a detection device and a signal processing device to determine bleeding condition of an upper gastrointestinal tract by using relation of time and intensity ratios of RGB three primary colors. The detecting device is placed to the upper gastrointestinal tract of a patient via his/her mouth or nasal passage and then stay the upper gastrointestinal tract for several days for detection of bleeding. The signal processing device may receive and display signal from the detection device to help medical professionals check if bleeding occurs in an upper gastrointestinal tract. Moreover, a procedure of determination of bleeding in an upper gastrointestinal tract with the upper gastrointestinal bleeding monitoring system is described.

A patient monitoring system includes at least two wireless sensing devices, each configured to measure a different physiological parameter from a patient and wirelessly transmit a parameter dataset. The system further includes a receiver that receives each parameter dataset, a processor, and a monitoring regulation module executable on the processor to assign one of the at least two wireless sensing devices as a dominant wireless sensing device and at least one of the remaining wireless sensing devices as a subordinate wireless sensing device. The physiological parameter measured by the dominant wireless sensing device is a key parameter and the parameter dataset transmitted by the dominant wireless sensing device is a key parameter dataset. The key parameter dataset from the dominant wireless sensing device is processed to determine a stability indicator. The subordinate wireless sensing device is then operated based on the stability indicator for the key parameter.

A remote interactive method, system and computer program product is provided for self-managing a person's regular lifestyle needs through controlled notification and feedback. The invention provides a simple, cost effective and flexible self-management and compliance scheme that does not require third party intervention or treatment options typical with immediate-response or alert-based systems. The invention also provides for long term management and analysis for the benefit of the individual. In implementing the invention in a healthcare environment, the individual will gain a better understanding of managing their lifestyle and behaviour. A related business model is also disclosed.

Provided according to embodiments of the present invention are methods of monitoring individuals that include securing a photoplethysmography probe to at least one of a pre-auricular region and a post-auricular region of the individual and obtaining photoplethysmography signals from the photoplethysmography probe. Photoplethysmography probes and helmets related to such methods are also described herein.