Abstract: A system and method for processing X-ray fluorescence data in a hand-held X-ray Fluorescence (XRF) analyzer are provided. The X-ray fluorescence (XRF) analyzer includes a radiation source assembly including a first centerline axis and configured to direct an X-ray beam to impinge on a sample to be tested. The XRF analyzer also includes a radiation detector assembly including a second centerline axis configured to sense X-ray fluorescence (XRF) emitted from the sample in response to the X-ray beam. The XRF analyzer further includes a processor configured to determine a property of the sample to be tested from the emitted XRF, and a proximity sensor configured to continuously measure a distance between the XRF analyzer and the sample to be tested, the distance being at least one of displayed to a user and used by the processor to determine the property.

Abstract: A system and method for processing X-ray fluorescence data in a hand-held X-ray Fluorescence (XRF) analyzer are provided. The X-ray fluorescence (XRF) analyzer includes a radiation source assembly including a first centerline axis and configured to direct an X-ray beam to impinge on a sample to be tested. The XRF analyzer also includes a radiation detector assembly including a second centerline axis configured to sense X-ray fluorescence (XRF) emitted from the sample in response to the X-ray beam. The XRF analyzer further includes a processor configured to determine a property of the sample to be tested from the emitted XRF, and a proximity sensor configured to continuously measure a distance between the XRF analyzer and the sample to be tested, the distance being at least one of displayed to a user and used by the processor to determine the property.

Abstract: A simple device is provided that addresses the concerns of safety, efficiency and efficacy in closing the atrial appendage by conventional or minimally invasive cardiac surgical techniques. The device preferable is formed of a generally elliptical body with a through opening and at least two opposing magnetic serrations for closing the opening. During application, the opening is held open to prevent the magnetic serrations from prematurely coapting. The device is passed about the left atrial appendage through the opening to position the body about a neck of the left atrial appendage. Once the device is in place, the opposing magnetic serrations are permitted to coapt, closing the opening and occluding the orifice of the neck in a generally linear line of closure.

Abstract: The present invention relates generally to variant recombinant forms of haemopoietic growth factors useful as antagonists to the corresponding native haemopoietic growth factor and their use in ameliorating aberrant effects caused by the native molecules and in the treatment of tumours and cancers and inflammation.