Abstract: A tissue collection needle with a hollow interior provides two opposing tips with beveled edges on facets that drive tissue toward the hollow interior where the tissue can be gathered and severed from surrounding tissue as the needle advances through a biological specimen. The points and bevels are advantageously formed from a minimal number of cuts amenable to rapid fabrication from readily available hollow needle stock.

Abstract: A tissue collection needle with a hollow interior provides two opposing tips with beveled edges on facets that drive tissue toward the hollow interior where the tissue can be gathered and severed from surrounding tissue as the needle advances through a biological specimen. The points and bevels are advantageously formed from a minimal number of cuts amenable to rapid fabrication from readily available hollow needle stock.

Abstract: A tissue collection needle with a hollow interior provides two opposing tips with beveled edges on facets that drive tissue toward the hollow interior where the tissue can be gathered and severed from surrounding tissue as the needle advances through a biological specimen. The points and bevels are advantageously formed from a minimal number of cuts amenable to rapid fabrication from readily available hollow needle stock.

Abstract: A tissue collection needle with a hollow interior provides two opposing tips with beveled edges on facets that drive tissue toward the hollow interior where the tissue can be gathered and severed from surrounding tissue as the needle advances through a biological specimen. The points and bevels are advantageously formed from a minimal number of cuts amenable to rapid fabrication from readily available hollow needle stock.

Abstract: A surgical device mitigates over-puncture with a bias spring that biases a leading, cutting edge in the opposite direction of the anticipated over-puncture. An associated locking mechanism is configured to release the force of the bias spring in a direction counter to the direction of insertion when the tension force of tissue against the cutting edge is released. Thus, when an opening in the tissue forms, the tension is released and the cutting edge can move opposite to the direction of insertion of the surgical device at the same time that an applied force drives the instrument in the direction of insertion. In this manner, the spring and locking mechanism cooperate to move the cutting edge opposite to the direction of insertion as soon as an incision is made.

Abstract: A surgical device mitigates over-puncture with a bias spring that biases a leading, cutting edge in the opposite direction of the anticipated over-puncture. An associated locking mechanism is configured to release the force of the bias spring in a direction counter to the direction of insertion when the tension force of tissue against the cutting edge is released. Thus, when an opening in the tissue forms, the tension is released and the cutting edge can move opposite to the direction of insertion of the surgical device at the same time that an applied force drives the instrument in the direction of insertion. In this manner, the spring and locking mechanism cooperate to move the cutting edge opposite to the direction of insertion as soon as an incision is made.

Abstract: A surgical device mitigates over-puncture with a bias spring that biases a leading, cutting edge in the opposite direction of the anticipated over-puncture. An associated locking mechanism is configured to release the force of the bias spring in a direction counter to the direction of insertion when the tension force of tissue against the cutting edge is released. Thus, when an opening in the tissue forms, the tension is released and the cutting edge can move opposite to the direction of insertion of the surgical device at the same time that an applied force drives the instrument in the direction of insertion. In this manner, the spring and locking mechanism cooperate to move the cutting edge opposite to the direction of insertion as soon as an incision is made.

Abstract: A surgical device mitigates over-puncture with a bias spring that biases a leading, cutting edge in the opposite direction of the anticipated over-puncture. An associated locking mechanism is configured to release the force of the bias spring in a direction counter to the direction of insertion when the tension force of tissue against the cutting edge is released. Thus, when an opening in the tissue forms, the tension is released and the cutting edge can move opposite to the direction of insertion of the surgical device at the same time that an applied force drives the instrument in the direction of insertion. In this manner, the spring and locking mechanism cooperate to move the cutting edge opposite to the direction of insertion as soon as an incision is made.

Abstract: Apparatus (10) for use in MRIS includes a coil arrangement having drive coils (20), shield coils (30) and a power supply unit (PSU) (40). The drive coils (20) and the shield coils (30) are connected in series to the PSU (40) to form a circuit. The shield coils (30) are connected between a first and second length of the drive coils (20) so as to straddle a virtual earth of the circuit. This is advantageous in minimising potential differences within the shield coil (30) assembly and thereby in minimising partial discharge therewithin. Partial discharge between adjacent parts of the drive coils (20) is minimised by spatially arranging those coils (20) such that parts thereof that are at a high electrical potential are spatially adjacent parts thereof that are simultaneously at a potential of the same polarity of at a low electrical potential of either polarity.

Abstract: Improved chromatographic strip binding assay devices are provided for determining the presence or amount of an analyte present in a patient sample. Assay label reagents interact with capture reagents immobilized in a testing region on the strip substrate to generate a visually detectable image indicative of the test result. The test result images include a minus sign (-) to indicate a negative test result for analyte which image is generated if the suspect analyte is absent in the patient sample and a plus sign (+) to indicate a positive test result for analyte which image is generated if the suspect analyte is present or is present at a pre-determined concentration in the patient sample. The immobilized capture reagents responsible for the location and configuration of the test result images are applied to the strip at an angled orientation with respect to the fluid flow direction of the strip to ensure that sharp substantially complete test result images are formed during performance of the assay.