Abstract: Apparatus and methods are described including a blood pump that includes an impeller configured to pump blood through a subject's body, and a frame disposed around the impeller. In a radially-non-constrained configuration of the frame, the frame defines a proximal conical portion and a cylindrical portion disposed distally to the proximal conical portion. The blood pump is configured such that such that, during at least some of the operation of the blood pump, at least a portion of the impeller is disposed within the proximal conical portion of the frame. Other applications are also described.

Abstract: Apparatus and methods are described including a blood pump that includes an axial shaft configured for insertion into, and rotation within, a subject's body. The blood pump also includes an impeller coupled to the axial shaft such that, as the axial shaft rotates, the impeller pumps blood of the subject. Proximal and distal radial bearings surround the axial shaft and are configured to radially stabilize the axial shaft while the axial shaft rotates. Proximal and distal sleeves, which are less flexible than the axial shaft, are disposed around the axial shaft, such that the proximal and distal sleeves contact the proximal and distal radial bearings, respectively, as the axial shaft rotates. A ratio between a length of the axial shaft and a combined length of the proximal sleeve and distal sleeve is between 2:1 and 6:1. Other applications are also described.

Abstract: Apparatus and methods are described including a blood pump that includes an impeller, and a frame disposed around the impeller. An axial shaft extends from a proximal end of the frame to a distal end of the frame. The impeller is coupled to the axial shaft. A radial bearing is configured to radially stabilize the axial shaft and aa bearing housing houses the radial bearing. A layer of elastomeric material is disposed between the radial bearing and the bearing housing. Other applications are also described.

Abstract: Apparatus and methods are described including a solid axial shaft having a shaft diameter that is less than 0.8 mm, an impeller configured for insertion into a left ventricle of a heart of a subject and coupled to the axial shaft, and a hollow drive cable coupled, at a distal end of the drive cable, to the axial shaft, and configured to rotate so as to rotate the axial shaft, thereby causing the impeller to pump blood of the subject from the left ventricle. Other applications are also described.

Abstract: Apparatus and methods are described including a left-ventricular assist device that includes a frame that includes proximal and distal frame portions that include struts that define cells, and a central frame portion that includes helical struts. An impeller is disposed inside the frame, the impeller being configured to rotate such as to pump blood from a left ventricle of a subject to an aorta of the subject. Other applications are also described.

Abstract: Apparatus and methods are described including a blood pump that includes an axial shaft configured for insertion into, and rotation within, a subject's body. The blood pump also includes an impeller, which includes a proximal bushing disposed over the axial shaft, a distal bushing disposed over the axial shaft distally from the proximal bushing, and one or more blades. Each of the blades includes a single inner helical elongate element, a single outer helical elongate element, and a film of material extending between the inner helical elongate element and the outer helical elongate element. The blades are proximally coupled to the proximal bushing and distally coupled to the distal bushing such that, as the axial shaft rotates, the blades rotate, thereby pumping blood of the subject. Other applications are also described.

Abstract: A transistor device can include a drain contact operably connected to a drain finger and a source contact operably connected to a source finger. The transistor device can further include diffusion area connected to the drain finger and the source finger to provide current to the drain finger and the source finger. The drain finger can have a length extending along an axis and different drain finger widths along the drain finger length such that current density is equal at each point along the drain finger length. The source finger can have a length extending along the axis and source finger widths along the source finger length such that current density is equal at each point along the source finger length.

Abstract: The present invention provides techniques for non-invasive measurement of blood related parameters based on NMR (nuclei) relaxation techniques carried out using a relatively low constant magnetic field in the range of 0.15 to 0.5 Tesla. A plurality of electromagnetic excitation pulse sequences having relatively low radiofrequencies are applied over a living tissue placed in the magnetic field and blood related parameters of the examined subject are determined using a plurality of nuclear spin echo signals received from the tissue in response to the applied excitation sequences, thereby allowing to improve the accuracy of the obtained signals and substantially reducing the time duration of the process.

Abstract: Detection and recognition of taggant substances having predefined zero external field magnetic resonance signatures. An object comprising taggant substance(s) is irradiated with a sequence of specific excitation pulses of electromagnetic radiation within a predetermined time and frequency scanning pattern, responsive nuclear spin echo signals are received from the object with a predetermined time and frequency acquisition pattern and data indicative thereof is generated. The scanning and acquisition patterns used permit successive transmission of pulses of multiple frequencies using a two-pulse spin-echo excitation technique, or a steady state-spin echo excitation technique, and successive acquisition of multiple nuclear spin echo response signals, within a time slot between two successive excitation pulses of a specific excitation frequency.

Abstract: A non-destructive inspection of epoxy-based objects by creating a substantially uniform magnetic field of about 0.1 to 0.5 Tesla within a magnetic field region at least partially overlapping with a test zone where the inspected object is to be located, applying electromagnetic excitation signals in the test site to affect the nuclei magnetization in the inspected object and concurrently generating magnetic gradients in three orthogonal directions thereinside, to thereby cause spatially resolved nuclear spin echo signals from the inspected object. Data corresponding to electromagnetic radiation received responsive to the nuclear spin echo signals from the inspected object is processed to extract data indicative of the spatially resolved nuclear spin echo signals from the inspected object, and magnetic resonance images indicative of structural defects in the object are then generated using the extracted data.

Abstract: The present invention provides techniques for non-invasive measurement of blood related parameters based on NMR (nuclei) relaxation techniques carried out using a relatively low constant magnetic field in the range of 0.15 to 0.5 Tesla. A plurality of electromagnetic excitation pulse sequences having relatively low radiofrequencies are applied over a living tissue placed in the magnetic field and blood related parameters of the examined subject are determined using a plurality of nuclear spin echo signals received from the tissue in response to the applied excitation sequences, thereby allowing to improve the accuracy of the obtained signals and substantially reducing the time duration of the process.

Abstract: Detection and recognition of taggant substances having predefined zero external field magnetic resonance signatures. An object comprising taggant substance(s) is irradiated with a sequence of specific excitation pulses of electromagnetic radiation within a predetermined time and frequency scanning pattern, responsive nuclear spin echo signals are received from the object with a predetermined time and frequency acquisition pattern and data indicative thereof is generated. The scanning and acquisition patterns used permit successive transmission of pulses of multiple frequencies using a two-pulse spin-echo excitation technique, or a steady state-spin echo excitation technique, and successive acquisition of multiple nuclear spin echo response signals, within a time slot between two successive excitation pulses of a specific excitation frequency.