A medical treatment system for determining administration of medications to a patient is disclosed. The system uses a plurality of sensors to perform a first set of physiologic measurements in a right side of the heart and a second set of physiologic measurements in a left side of the heart. The system also includes a receiver configured to receive measurement data regarding the first and second sets of physiologic measurements and output to a display device the received measurement data.

A motion sickness control system for a vehicle includes a vibrator. The motion sickness control system includes a sensor configured to measure vibration of the vehicle. The motion sickness control system includes a computer having a processor and a memory storing instructions executable by the processor to actuate the vibrator at a target frequency based on the measured vibration of the vehicle. The target frequency attenuates the measured vibration of the vehicle.

The invention described herein provides for a portable autonomic nerve system stimulation device that may operate as an “open-loop” or “closed-loop” stimulation system and includes in some embodiments a paired therapy for a disease or condition. Embodiments of the inventive device include at least one stimulation circuit for the generation and delivery of a stimulation, at least one biological signal monitoring apparatus for monitoring a biological state of a user wearing the device, at least one controller in electrical communication with the stimulation circuit and at least one power supply for providing power to the controller and stimulation circuit. Aspects of the invention provides for a portable autonomic nerve system stimulation device which may be worn in the ear, or about the head, of a subject, patient or user.

There is provided herein a stress reducing and/or mindfulness inducing apparatus including: a substantially spherically shaped body “huggable” by two hands of a user; at least a first and a second pair of indentations located on an outer surface of said body, wherein each of the first and the second pair of indentations is suitable for placing corresponding index, middle and ring fingers from each hand of the user, wherein each of the first and the second pair of indentations comprises one or more sensors, wherein the one or more sensors are configured to sense one or more parameters associated with the user's stress and/or mindfulness state, wherein the sensors are the same or different from each other; and an indicator having at least two modes of operation, the indicator is configured to provide the user with an indication regarding his/her stress and/or mindfulness state.

Systems and methods for automatic intravenous injection in accordance with embodiments of the invention are illustrated. One embodiment includes a method for automatically injecting a needle into a vein. The method includes steps for identifying an injection position using a first set of one or more sensors, positioning an injection mechanism at the identified injection position, and vertically inserting a needle until entry in a vein is detected using a second set of one or more sensors.

A peristaltic pump-based apparatus for capturing circulating tumor cells (CTCs) from blood is provided that includes a feedback control architecture that uses models of pump operation and measures of internal pressure fluctuations of the pump (e.g., in the form time-varying and/or position-dependent pressure oscillation data) to adjust pump operating characteristics that smooth pump operation, thereby improving viscosity and consistency of fluid flowing through the pump to a connected microfluidic capture device.

Method and system for providing basal profile modification in insulin therapy for use with infusion devices includes periodically monitoring the analyte levels of a patient for a predetermined period of time in order to determine, based on the monitored analyte levels, an appropriate modification factor to be incorporated into the underlying basal profile which was running at the time the periodic monitoring of the analyte levels were performed.

The present invention provides a closed loop control method in an artificial pancreas and a system using the method, comprising sensing an activity level of a patient by at least one motion sensor and providing signals to at least one processer; then adjusting a series of related algorithms depending partly on the signals by the processer to provide more accurate and reliable data that is the basis of desirable treatment plans, and sending corresponding instructions by the processer for automatic operations of the artificial pancreas to realize a closed loop control.

Embodiments of the present invention are directed to a liquid delivery apparatus. A non-limiting example of the apparatus includes a substrate including a cavity formed in a surface of the substrate. The apparatus can also include a membrane disposed on the surface of the substrate covering an opening of the cavity. The apparatus can also include a hydrophobic layer disposed on the membrane. The apparatus can also include a seal disposed between the membrane and the substrate, wherein the seal surrounds the opening of the cavity. The apparatus can also include an electrode layer coupled to the membrane.

An apparatus and method use a catheter for specific and discriminate treatment of central nervous system disease. With the catheter, selective hypothermia to the brain and/or the spinal cord for injury protection can be achieved without the need for systemic cooling. The catheter is also capable of draining excess cerebrospinal fluid.