Abstract: Apparatus and methods for deactivating bronchial nerves and smooth muscle extending along a bronchial branch of a mammalian subject to treat asthma and related conditions. An electromechanical transducer (11) is inserted into the bronchus as, for example, by advancing the distal end of a catheter (10) bearing the transducer into the bronchial section to be treated. The electromechanical transducer emits unfocused mechanical vibratory energy of one or more ultrasonic frequencies so as to heat tissues throughout a relatively large target region (13) as, for example, at least about 1 cm3 encompassing the bronchus to a temperature sufficient to inactivate nerves but insufficient to cause rapid ablation or necrosis of organic tissues. The treatment can be performed without locating or focusing on individual bronchial nerves.

Abstract: A guide wire has a distal end incorporating a coil and a capacitive element that form a resonance circuit with a resonance frequency that is responsive to the pressure of blood external to the guide wire. The resonance frequency can be detected wirelessly, or through two contacts at the proximal wire end, or through one brush contact located inside an insertion sheath and a ground electrode. Wireless detection can be implemented via a second resonance circuit, and electronics for determining the frequency when the first and second circuits are in resonance with each other.

Abstract: A system for detection of blood pressure in a blood vessel includes a guide wire and a LC resonance circuit provided at a distal end of the guide wire. The resonance circuit may be a non-LC resonance circuit responsive to changes in pressure of fluid external to the guide wire such that the resonance circuit has a resonance frequency that varies in accordance with changes in pressure of the external fluid.

Abstract: Intra-organ ultrasound images are obtained by integrating ultrasound array configurations at the distal region of a sheath or guiding catheter integral to any catheter based intervention. A dual mode ablation/imaging circular ultrasound array is used to create circular or partial circular lesions. The sites of the individual lesion segments are identified in an ultrasound 2D image. In the case of PV isolation the process of ablating individual segments identified in the ultrasound image is repeated until a circumferential, continuous lesion has been achieved and PV isolation has been confirmed with the coaxial loop sensing catheter which also serves as a guide wire.

Abstract: Apparatus and methods for deactivating renal nerves extending along a renal artery of a mammalian subject to treat hypertension and related conditions. An ultrasonic transducer (30) is inserted into the renal artery (10) as, for example, by advancing the distal end of a catheter (18) bearing the transducer into the renal artery. The ultrasonic transducer emits unfocused ultrasound so as to heat tissues throughout a relatively large impact volume (11) as, for example, at least about 0.5 cm3 encompassing the renal artery to a temperature sufficient to inactivate nerve conduction but insufficient to cause rapid ablation or necrosis of the tissues. The treatment can be performed without locating or focusing on individual renal nerves.

Abstract: A guide wire has a distal end incorporating a coil and a capacitive element that form a resonance circuit with a resonance frequency that is responsive to the pressure of blood external to the guide wire. The resonance frequency can be detected wirelessly, or through two contacts at the proximal wire end, or through one brush contact located inside an insertion sheath and a ground electrode. Wireless detection can be implemented via a second resonance circuit, and electronics for determining the frequency when the first and second circuits are in resonance with each other.

Abstract: Apparatus and methods for deactivating renal nerves extending along a renal artery of a mammalian subject to treat hypertension and related conditions. An ultrasonic transducer (30) is inserted into the renal artery (10) as, for example, by advancing the distal end of a catheter (18) bearing the transducer into the renal artery. The ultrasonic transducer emits unfocused ultrasound so as to heat tissues throughout a relatively large impact volume (11) as, for example, at least about 0.5 cm3 encompassing the renal artery to a temperature sufficient to inactivate nerve conduction but insufficient to cause rapid ablation or necrosis of the tissues. The treatment can be performed without locating or focusing on individual renal nerves.

Abstract: Non-invasive inactivation of nerve conduction in a treatment region of a mammalian subject as, for example, a region encompassing a renal artery. A therapeutic ultrasound transducer (31) is engaged with the body of the subject outside of the treatment region, preferably with the skin of the subject in proximity to the treatment region (10). The transducer is actuated to transmit therapeutically effective softly focused ultrasound energy at a level which brings tissues throughout a relatively large impact volume (22), desirably 1 cm3 or larger, to a temperature sufficient to inactivate conduction nerves but insufficient to cause rapid necrosis. The impact volume can be aligned with the treatment region using imaging techniques. The treatment can be applied without imaging or precisely locating individual nerves, and can be used, for example, to inactive renal nerves in treatment of hypertension.

Abstract: Provided herein is an ultrasound imaging device including a two dimensional ultrasound imaging array for three dimensional images positioned at least in the vicinity of distal end of a catheter configured to be used for intra organ imaging, wherein the imaging array includes a first number of output ports. The imaging device also includes a high voltage multiplexer configured to (i) reduce the first number of signal lines to a second number of signal lines, wherein the second number is less than the first number and (ii) connect the array to a signal processing system.