Abstract: A treatment system delivers a breathing gas and frozen stem cells or other biologic particles (FBP) to a bronchus of a lung of a patient in order to treat lung and other conditions. The breathing gas and the FBP are usually delivered through separate lumens. The FBP may be delivered concurrently with other frozen particles, such as frozen saline particles (FSP). The FBP/FSP will remain frozen at all times from preparation to delivery, and will thaw only after they are released into the lung.

Abstract: Disclosed are systems and methods to provide a patient care recommendation. The systems and methods receive patient information and a plurality of patient physiological signals that are related to a patient. The systems and methods are then operable to produce at least one derived patient signal from at least one of the plurality of patient physiological signals. The systems and methods use the patient information, at least one of the plurality of patient physiological signals, and the at least one derived patient signal to provide at least one patient care recommendation.

Abstract: A treatment system delivers a breathing gas and frozen stem cells or other biologic particles (FBP) to a bronchus of a lung of a patient in order to treat lung and other conditions. The breathing gas and the FBP are usually delivered through separate lumens. The FBP may be delivered concurrently with other frozen particles, such as frozen saline particles (FSP). The FBP/FSP will remain frozen at all times from preparation to delivery, and will thaw only after they are released into the lung.

Abstract: Disclosed are systems and methods to provide a patient care recommendation. The systems and methods receive patient information and a plurality of patient physiological signals that are related to a patient. The systems and methods are then operable to produce at least one derived patient signal from at least one of the plurality of patient physiological signals. The systems and methods use the patient information, at least one of the plurality of patient physiological signals, and the at least one derived patient signal to provide at least one patient care recommendation.

Abstract: A method for providing decision-assist to medical staff resuscitating a burn patient includes receiving patient information, calculating an infusion rate, outputting the infusion rate, obtaining a urinary output, calculating a new infusion rate using infusion rate model based constants, and outputting the new infusion rate. In some embodiments, the method includes notifying medical staff when problems arise, displaying information regarding the resuscitation, and setting limits regarding the infusion rates.

Abstract: Disclosed are systems and methods to provide a patient care recommendation. The systems and methods receive patient information and a plurality of patient physiological signals that are related to a patient. The systems and methods are then operable to produce at least one derived patient signal from at least one of the plurality of patient physiological signals. The systems and methods use the patient information, at least one of the plurality of patient physiological signals, and the at least one derived patient signal to provide at least one patient care recommendation.

Abstract: Disclosed are systems and methods to provide a patient care recommendation. The systems and methods receive patient information and a plurality of patient physiological signals that are related to a patient. The systems and methods are then operable to produce at least one derived patient signal from at least one of the plurality of patient physiological signals. The systems and methods use the patient information, at least one of the plurality of patient physiological signals, and the at least one derived patient signal to provide at least one patient care recommendation.

Abstract: Disclosed are systems and methods to provide a patient care recommendation. The systems and methods receive patient information and a plurality of patient physiological signals that are related to a patient. The systems and methods are then operable to produce at least one derived patient signal from at least one of the plurality of patient physiological signals. The systems and methods use the patient information, at least one of the plurality of patient physiological signals, and the at least one derived patient signal to provide at least one patient care recommendation.

Abstract: A method for providing decision-assist to medical staff resuscitating a burn patient includes receiving patient information, calculating an infusion rate, outputting the infusion rate, obtaining a urinary output, calculating a new infusion rate using infusion rate model based constants, and outputting the new infusion rate. In some embodiments, the method includes notifying medical staff when problems arise, displaying information regarding the resuscitation, and setting limits regarding the infusion rates.

Abstract: A method for providing decision-assist to medical staff resuscitating a burn patient includes receiving patient information, calculating an infusion rate, outputting the infusion rate, obtaining a urinary output, calculating a new infusion rate using infusion rate model based constants, and outputting the new infusion rate. In some embodiments, the method includes notifying medical staff when problems arise, displaying information regarding the resuscitation, and setting limits regarding the infusion rates.

Abstract: A method for providing decision-assist to medical staff resuscitating a burn patient includes receiving patient information, calculating an infusion rate, outputting the infusion rate, obtaining a urinary output, calculating a new infusion rate using infusion rate model based constants, and outputting the new infusion rate. In some embodiments, the method includes notifying medical staff when problems arise, displaying information regarding the resuscitation, and setting limits regarding the infusion rates.

Abstract: A method for providing decision-assist to medical staff resuscitating a burn patient includes receiving patient information, calculating an infusion rate, outputting the infusion rate, obtaining a urinary output, calculating a new infusion rate using infusion rate model based constants, and outputting the new infusion rate. In some embodiments, the method includes notifying medical staff when problems arise, displaying information regarding the resuscitation, and setting limits regarding the infusion rates.

Abstract: A needle with fiber optic capability for spectrophotometric analysis includes a needle assembly including a needle body having an open tip and side radiation ports. A fiber optic element is disposed in the needle assembly for carrying electromagnetic radiation to the open tip area for transmission to a target area. Fiber optic bundles in communication with the radiation ports are disposed in the needle body for transmitting backscattered radiation to a light detector or sensor for spectrophotometric analysis. The needle assembly may include barbs for anchoring the device in place.

Abstract: This invention relates to diagnostic and monitoring devices. According to the invention, spectrophotometric devices preferably include a needle assembly having a hollow needle body with radiation ports. Preferably, disposed in the body are fiber optic bundles for carrying electromagnetic radiation, such as visible, infrared light, and/or ultraviolet light to a sample and for transmitting backscattered radiation to a light detector or sensor. The needle configuration preferably allows for insertion subcutaneously into muscle tissue and/or into other organs. It permits evaluation of difficult to access areas and facilitates securing the device in place. Barbs may be provided on the needle to anchor the device in place.

Abstract: This invention relates to estimating the amount of blood flowing to the tissues of the kidney. More particularly, the invention is related to analyzing obtained power Doppler ultrasound images taken of the kidney and even more specifically of the kidney cortex tissue to produce a numerical value that correlates to the blood flow.