| Patent application number | Description | Published |
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| 20090177146 | APPARATUS AND METHODS FOR CONTROLLING AND AUTOMATING FLUID INFUSION ACTIVITIES - The present invention provides apparatuses and methods to safely and economically deliver infusion fluid to a patient during a medical procedure. The infusion fluid may be a sedative, analgesic, amnestic or other pharmaceutical agent (drug) for alleviating a patient's pain and anxiety before, during and/or after a medical or surgical procedure. In general the apparatus comprises a microprocessor-based controller that receives inputs from a plurality of physiological monitors attached to a patient. The system controller processes the data from the physiological monitors and based upon a fluid infusion algorithm delivers infusion fluid to a patient. The physiological monitors monitor the patient throughout the course of the procedure and depending upon the health of the patient, drug delivery may be adjusted to optimize the procedure while ensuring the patient's health and pain level are maintained. | 07-09-2009 |
| 20090283097 | MEDICAL CANNULA ASSEMBLY FOR USE WITH A PATIENT - A first cannula assembly includes a cannula attachable to a patient to extend along and at least partially cover one side of the patient's face and leave completely exposed the other side of the patient's face. A second cannula assembly includes a reusable unit and a disposable and replaceable loop-shaped mouthpiece. The reusable unit contains a suction pump having a flow inlet and a flow outlet, a power source operatively connected to the suction pump, a carbon dioxide sensor in fluid communication with the flow outlet, and a microprocessor adapted to use at least the carbon dioxide sensor to calculate a carbon dioxide level. The mouthpiece has first and second ends, wherein the first end is directly attached to the reusable unit and the second end is positionable in a patient's mouth. The mouthpiece includes at least one respiratory-gas-sampling port in fluid communication with the flow inlet of the pump. | 11-19-2009 |
| 20090292179 | MEDICAL SYSTEM HAVING A MEDICAL UNIT AND A DISPLAY MONITOR - A medical system includes a display monitor and a medical unit. The medical unit is adapted to measure a physiological parameter of a patient. The medical unit is adapted to wirelessly connect to the display monitor, wherein the display monitor is adapted to display the physiological parameter. In one implementation of the medical system, the medical unit is adapted to automatically wirelessly connect to the display monitor when the medical unit is brought into proximity with the display monitor. In one illustration of the medical system, the physiological parameter is a pulse rate of the patient. | 11-26-2009 |
| 20090292226 | MEDICAL SYSTEM AND METHOD EMPLOYING A DRUG DELIVERY ASSEMBLY - A medical system includes a muscular-tension-measuring device and a drug delivery assembly. The muscular-tension-measuring device is operatively connectable to a patient and includes a device output having a device output signal which varies with involuntary changes in muscular tension of the patient. The drug delivery assembly is operatively connectable to the patient for controllably delivering at least one drug to the patient. In one implementation, the device output signal varies with involuntary changes in muscular tension of the patient caused by pain and/or anxiety. In one employment, drug delivery is varied by a controller or a user based at least on variations in the device output signal. A method for conscious sedation of a patient includes measuring muscular tension of the patient and includes varying delivery of a conscious sedation drug to the patient based at least on variations in the measured muscular tension of the patient. | 11-26-2009 |
| 20100010433 | MEDICAL SYSTEM WHICH CONTROLS DELIVERY OF A DRUG - A first medical system includes a controller, a plurality of predetermined patient monitors, and a predetermined drug-delivering medical effector. The controller is adapted to choose different groups of the patient monitors for different medical procedures involving the medical effector. A second medical system includes a controller which is adapted to identify, by querying, connected ones of a multiplicity of medical effectors and connected ones of a plurality of patient monitors and is adapted to control at least one connected medical effector using at least some of the connected patient monitors for a predetermined medical procedure. | 01-14-2010 |
| 20110021978 | DRUG DELIVERY SYSTEM INCLUDING A DRUG-CONTAINER HOLDER AND A PUMP ASSEMBLY - A first drug delivery system includes first and second drug-container holders and first and second pump assemblies. The first (second) holder is adapted to receive a first (second) drug container having a first (a different second) dimensioned shape but not a second (first) drug container having a different second (a first) dimensioned shape. A second drug delivery system includes first and second bar code scanners, first and second drug-container holders, and first and second pump assemblies. The first (second) holder is adapted to receive a first (second) drug container having a dimensioned shape and to orient a positioned first (second) bar code of the first (second) drug container to face the first (second) bar code scanner because of the dimensioned shape. In one application, the first drug is a sedative drug, the second drug is an analgesic drug, and the drugs are used during a conscious sedation medical procedure. | 01-27-2011 |
| 20110245579 | MEDICAL EFFECTOR SYSTEM - A sedation delivery system comprised of a bedside unit and a procedure unit. The bedside unit contains a series of connection points for receiving inputs from a series of patient monitors. The procedure unit contains a patient monitoring and a drug delivery pump or magnetic flux generator capable of sedative therapy to a patient. The sedation delivery system contains the capability to issue and receive a request from a non-sedated patient, issue and receive a request from a sedated patient and then to calculate a time difference. The sedation delivery system program operates the pump or magnetic flux generator based upon at least some of the patient outputs and program inputs including a calculated time difference. A removable umbilical cable connects the two units and allows the output of the patient monitors as well as other information to travel between the two units. | 10-06-2011 |
