Patent application number | Description | Published |
20110074585 | PATIENT TRACKING SYSTEM - Provided are a method and system for tracking a patient at a medical facility. Tracking the patient includes, using a computer comprising an input peripheral manipulated by a user, receiving a first location of the patient within the medical facility identified by the user via the input peripheral. The first location is displayed on a display device operatively connected to the computer, the first location being identified by a graphical marker representing the first location where the patient can be found. In response to a user interaction with the input peripheral, a second location of the patient is received, indicating movement of the patient from the first location to the second, different location. In response to receiving the second location, the graphical marker on the display device operatively connected to the computer is moved to identify the second location where the patient can be found after being moved. | 03-31-2011 |
20110077966 | ALLERGY ELECTRONIC MEDICAL RECORD SYSTEM AND METHOD - A method of managing information related to immunotherapy treatment in a computer system is provided. The computer system includes an input peripheral system for reading a computer-readable code and inputting the computer-readable code into the computer system. An antigen having a predetermined concentration is associated with a master code that is computer readable to at least identify the antigen and the concentration of the antigen associated with the master code. An antigen recipe to be administered to the patient during immunotherapy treatment is associated with an antigen recipe code that is computer readable to identify each antigen included in the antigen recipe that is to be administered to the patient. In response to receiving the master code read by the input peripheral system in communication with the computer system, the antigen and the concentration of the antigen are associated with the antigen recipe code. | 03-31-2011 |
20110084835 | MEDICAL INSTRUMENT CLEANING SYSTEM AND METHOD - A system and method for monitoring a status of a medical instrument is provided. Using an input peripheral associated with a computer terminal, a code associated with the medical instrument to be subjected to a cleaning operation after a previous use of the medical instrument is received. A timer for monitoring a duration of the cleaning operation is initiated. In response to completion of the cleaning operation determined based on the timer, a status of the medical instrument in an electronic record associated with the medial instrument stored in a non-transitory computer-readable medium is updated to indicate that the medical instrument has been cleaned. An indication that the cleaning operation being performed on the medical instrument is complete is then issued. | 04-14-2011 |
Patent application number | Description | Published |
20080266636 | Scanner Apparatus Having Electromagnetic Radiation Devices Coupled to MEMS Acuators - A disclosed scanner apparatus includes a member having spaced apart proximal and distal portions. An electromagnetic radiation device is configured to direct electromagnetic radiation therefrom and is movably coupled to the distal portion of the member. The electromagnetic radiation device is configured to move in a first plane of movement to a first position to direct the electromagnetic radiation along a first path and configured to move in the plane of movement to a second position to direct the electromagnetic radiation along a second path. A MicroElectroMechanical Systems (MEMS) actuator is coupled to the electromagnetic radiation device, wherein the MEMS actuator is configured to move in a first direction to move the electromagnetic radiation device to the first position and configured to move in a second direction to move the electromagnetic radiation device to the second position. Other scanning and robotic structure devices are disclosed. | 10-30-2008 |
20090287223 | REAL-TIME 3-D ULTRASOUND GUIDANCE OF SURGICAL ROBOTICS - Laparoscopic ultrasound has seen increased use as a surgical aide in general, gynecological, and urological procedures. The application of real-time three-dimensional (RT3D) ultrasound to these laparoscopic procedures may increase information available to the surgeon and serve as an additional intraoperative guidance tool. The integration of RT3D with recent advances in robotic surgery can also increase automation and ease of use. In one non-limiting exemplary implementation, a 1 cm diameter probe for RT3D has been used laparoscopically for in vivo imaging of a canine. The probe, which operates at 5 MHz, was used to image the spleen, liver, and gall bladder as well as to guide surgical instruments. Furthermore, the 3D measurement system of the volumetric scanner used with this probe was tested as a guidance mechanism for a robotic linear motion system in order to simulate the feasibility of RT3D/robotic surgery integration. Using images acquired with the 3D laparoscopic ultrasound device, coordinates were acquired by the scanner and used to direct a robotically controlled needle towards desired in vitro targets as well as targets in a post-mortem canine. The RMS error for these measurements was 1.34 mm using optical alignment and 0.76 mm using ultrasound alignment. | 11-19-2009 |
20100085619 | Amplified bimorph scanning mirror, optical system and method of scanning - An amplified bimorph scanning mirror for use in various optical systems, an optical coherence tomography scanner incorporating the amplified bimorph scanning mirror, and a method for manufacturing the foregoing are described. A method for optically scanning a target site using the amplified bimorph scanning mirror is further provided. The scan range which can be obtained by exemplary implementations of the present invention can be larger than the scan range made available by conventional scanners. | 04-08-2010 |
20100238532 | SCANNER APPARATUS HAVING ELECTROMAGNETIC RADIATION DEVICES COUPLED TO MEMS ACTUATORS - A disclosed optical scanner apparatus can include a member having spaced apart proximal and distal portions. An optical scanning device can be configured to direct optical radiation, which is moveably coupled to the proximal portion of the member and can be configured to rotate in a plane of movement to a first position to direct the optical radiation along a first path and can be configured to rotate in the plane of movement to a second position to direct the optical radiation along a second path. A MicroElectroMechanical Systems (MEMS) actuator can be coupled to the optical scanning device, where the MEMS actuator can be configured to move in a first direction to move the optical scanning device to the first position and can be configured to move in a second direction to move the optical scanning device to the second position. The MEMS actuator can have proximal and distal portions, where the distal portion of the MEMS actuator is coupled to the proximal portion of the member and the proximal portion of the MEMS actuator is coupled to the optical scanning device. Other scanner apparatus are disclosed. | 09-23-2010 |
20130063801 | SCANNER APPARATUS HAVING ELECTROMAGNETIC RADIATION DEVICES COUPLED TO MEMS ACTUATORS - A disclosed scanner apparatus includes a member having spaced apart proximal and distal portions. An electromagnetic radiation device is configured to direct electromagnetic radiation therefrom and is moveably coupled to the distal portion of the member. The electromagnetic radiation device is configured to move in a first plane of movement to a first position to direct the electromagnetic radiation along a first path and configured to move in the plane of movement to a second position to direct the electromagnetic radiation along a second path. A MicroElectroMechanical Systems (MEMS) actuator is coupled to the electromagnetic radiation device, wherein the MEMS actuator is configured to move in a first direction to move the electromagnetic radiation device to the first position and configured to move in a second direction to move the electromagnetic radiation device to the second position. Other scanning and robotic structure devices are disclosed. | 03-14-2013 |