Patent application number | Description | Published |
20090005827 | Wearable defibrillator - There is provided a wearable defibrillator that includes a first sensor adapted to sense a cardiac related parameter, a second sensor adapted to sense breathing, a controller adapted to produce a signal upon determining a cardiac arrest and a defibrillating subunit adapted to provide a defibrillation energy upon receiving the signal from the controller. There is also provided a method of defibrillating that includes sensing a cardiac related parameter; sensing breathing; and triggering a defibrillation energy upon determining a cardiac arrest. There is further provided a wearable defibrillator that includes a first sensor adapted to sense a cardiac related parameter; a controller adapted to produce a signal upon determining a cardiac arrest; a transmitter adapted to send a signal indicative of a cardiac arrest to a remote location; and a defibrillation subunit adapted to trigger a defibrillation upon being activated from a remote location. In addition, there is provided a method of defibrillating that includes sensing a cardiac related condition; producing a signal upon determining a cardiac arrest; transmitting a signal indicative of a cardiac arrest to a remote location; and triggering a defibrillation upon being activated from the remote location. | 01-01-2009 |
20090005834 | Deep vein thrombosis prevention - A device adapted for mitigating the formation of a blood clot, the device comprising: a sensor adapted to identify muscle movement associated with blood circulation in a vein and to produce a signal indicating the movement; and a controller adapted to monitor the sensor signal and to activate an actuator upon said controller determining that less than a defined number of movements have been sensed over a defined period of time, wherein the actuator is adapted to produce a stimulating action of a given set of parameters urging the user to move his/her feet if, for example, the predefined number of dorsiflexions is not met. | 01-01-2009 |
20090018522 | TISSUE MODIFICATION BY TARGETED DELIVERY OF HEAT - A method for manipulating a tissue by targeted delivery of heat by heating a liquid contained in an injecting means to a predetermined temperature level and injecting a predetermined volume of said heated liquid into a predetermined depth of the tissue through a needle attached to the injecting means, to thereby manipulate the tissue in the injected area. An apparatus adapted for manipulating a tissue by targeted delivery of heat having a heating means adapted to heat a liquid contained in an injecting means to a predetermined temperature level; an injecting means adapted to contain liquid to be injected said tissue and to inject a predetermined volume of said liquid into a predetermined depth of the tissue through a needle; a temperature sensor adapted to identify the temperature level of the liquid contained in the injecting means and to produce a signal indicating said temperature level; a controller adapted to monitor the sensor signal and to activate or deactivate said heating means and an electromechanical element according to the temperature sensed, and an electromechanical element either integrated or non-integrated to the apparatus that is adapted to allow the injection of the heated liquid. | 01-15-2009 |
20130276521 | FLUIDS TESTING APPARATUS AND METHODS OF USE - The invention is directed to a mobile hand held miniature laboratory system in general, and to fluid testing apparatus for performing a parameter measurement in a fluid sample and methods of use thereof in particular. The apparatus comprising: A strip adapted to absorb a fluid sample and to produce a signal indicative of said parameter level in said sample; and an adaptor adapted to connect said strip to a smart phone to thereby allow delivery of the produced signal or a correlated signal to said smart phone for obtaining a measurement of said fluid parameter displayed on said smart phone, wherein said testing apparatus relies on said smart phone at least for power supply and display means. | 10-24-2013 |
20130319424 | INTRAUTERINE DEVICE AND INSERTER FOR THE SAME - An inserter for placing a T-shaped intrauterine device inside a patient's uterus and a T-shaped intrauterine device are disclosed. The inserter includes a sleeve part and a plunger part, the sleeve part includes a tube and a first engaging member and the plunger part includes a rod, a handle attached to the rod and a second engaging member. The first and the second engaging members are configured for reversibly engaging the sleeve part and the plunger part to temporarily lock the relative position between the tube and the rod. The T-shaped intrauterine device includes a pair of wings having a relaxed extended configuration and a contracted folded configuration and an elongated contraceptive body suspended from a junction between the wings. | 12-05-2013 |
20140159916 | FLUID TESTING APPARATUS AND METHODS OF USE - The invention is directed to a mobile hand held miniature laboratory system in general, and to fluid testing apparatus for performing a parameter measurement in a fluid sample and methods of use in particular. The apparatus comprising: a strip adapted to absorb a fluid sample and to produce a signal indicative of said parameter level in said sample; and adaptor adapted to connect said strip to a smart phone to allow delivery of the produced signal or a correlated signal to said smart phone for obtaining a measurement of said fluid parameter displayed on said smart phone, wherein said testing apparatus relies on said smart phone at least tor power supply and display means. The fluid may be a physiological fluid such as blood, urine, saliva or amniotic fluid, or a non-physiological fluid such as fluid obtained from industrial pools for fish or algae growth, or entertainment swimming pools. | 06-12-2014 |
20150029037 | FLUID TESTING APPARATUS AND METHODS OF USE - The invention is directed to a mobile hand held miniature laboratory system in general, and to fluid testing apparatus for performing a parameter measurement in a fluid sample and methods of use in particular. The apparatus comprising: a strip adapted to absorb a fluid sample and to produce a signal indicative of said parameter level in said sample; and adaptor adapted to connect said strip to a smart phone to allow delivery of the produced signal or a correlated signal to said smart phone for obtaining a measurement of said fluid parameter displayed on said smart phone, wherein said testing apparatus relies on said smart phone at least for power supply and display means. The fluid may be a physiological fluid such as blood, urine, saliva or amniotic fluid, or a non-physiological fluid such as fluid obtained from industrial pools for fish or algae growth, or entertainment swimming pools. | 01-29-2015 |
20150339918 | FLUID TESTING APPARATUS AND METHODS OF USE - The invention is directed to a mobile hand held miniature laboratory system in general, and to fluid testing apparatus for performing a parameter measurement in a fluid sample and methods of use in particular. The apparatus comprising: a strip adapted to absorb a fluid sample and to produce a signal indicative of said parameter level in said sample; and adaptor adapted to connect said strip to a smart phone to allow delivery of the produced signal or a correlated signal to said smart phone for obtaining a measurement of said fluid parameter displayed on said smart phone, wherein said testing apparatus relies on said smart phone at least tor power supply and display means. The fluid may be a physiological fluid such as blood, urine, saliva or amniotic fluid, or a non-physiological fluid such as fluid obtained from industrial pools for fish or algae growth, or entertainment swimming pools. | 11-26-2015 |