Disclosed herein is an implantable blood pump assembly that includes a housing defining an inlet, an outlet, a flow path extending from the inlet to the outlet, and an internal compartment separated from the flow path. The blood pump assembly further includes a rotor positioned within the flow path and operable to pump blood from the inlet to the outlet, a stator positioned within the internal compartment and operable to drive the rotor, and an inlet conduit connected to the housing inlet and having a downstream end that has a reduced cross-sectional area that produces a localized region of high velocity blood flow. The blood pump assembly further includes at least one pressure sensor positioned between the inlet and the outlet and configured to detect a pressure of blood flowing through the flow path. The pressure sensor is located adjacent the downstream end of the inlet conduit.

Provided is a medical handpiece having liquid spray and suction functions and capable of being replaced with a drill. The medical handpiece includes a handpiece body having an accommodation space therein, a spray unit receiving liquid from an outside to spray the liquid onto a target to be treated, a pump unit transmitting air pressure to the spray unit to increase a spray speed of liquid sprayed by the spray unit, a drive unit converting a rotary motion into a reciprocating motion to transmit power to the pump unit, and a suction unit sucking liquid and foreign matter from the target to be treated.

A unidirectional-driven drug infusion device, includes: a reservoir, a piston and a screw, the piston is arranged in the reservoir; a driving module which includes at least one driving wheel and at least one driving arm that cooperate with each other, the circumferential surface of the driving wheel is provided with wheel teeth; a power module coupled to the driving arm; a control module, connected to the power module, controls the power module to apply different driving powers to the driving arm, making the driving arm perform linear reciprocating motion; and a friction member which is in contact with the surface of the driving wheel. This device can fully utilize the internal space of the infusion device, and its weight and volume is reduced.

A medical device includes a handle; flexible tubing extending from the handle and having a proximal end fixed to the handle; flexible tip attached to the distal end of the flexible tubing; a tip actuator assembly adjusting the bending plane of the tip relative to the distal end and adjusting the degree of bending of the tip in the bending plane; user operable controls on the handle and moveable in a first, rotational direction relative to the handle and to a tip actuator assembly around an axis causing the tip actuator assembly to adjust the bending plane of the tip substantially and moveable relative to the handle and the tip actuator assembly along a second, substantially linear direction towards and away from the proximal end of the flexible tubing, causing the tip actuator assembly to adjust bending of the tip in the bending plane without adjusting the bending plane.

The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to devices and methods for controlled delivery of a stent, such as a self-expanding stent, and more particularly for controlling the full deployment of a stent in incremental steps from a sheath and for controlling the reconstrainment of a stent in incremental steps within a sheath.

An apparatus for processing biological material includes a supporting structure, provided with a seat and with a rotation device supplied with constraining means, and a container for biological material, provided with a shaped body, with a base, shaped to match the seat of the supporting structure, with at least one valve (24a) for extracting the biological material, and with movable cutting means equipped with coupling means for coupling to the constraining means of the rotation device, in such a way as to acquire a relative motion relative to the container.

An example device comprises: a cradle to support a resuscitator bag; a paddle arm comprising: a paddle surface disposed opposite the cradle; and a pair of arms extending from the paddle surface; a housing comprising: top, bottom, front and rear sides, and an opening at the front side, towards the top side; the paddle surface extending through the opening; the pair of arms, of the paddle arm, rotatably attached to the housing at an end opposite the paddle surface towards the rear side; a nut assembly rotatably attached to the pair of arms therebetween; a screw threaded through the nut assembly; and a motor rotatably attached to the housing towards the bottom side of the housing; the motor configured to: drive the screw relative to the nut assembly to move the paddle arm towards and away from the cradle, to compress and release the resuscitator bag when located therebetween.

Sensor assembly comprising a first rotary sensor part with a plurality of individual electrically conducting sensor areas arranged in a pattern, a second rotary sensor part arranged rotationally relative to the first portion, the second part comprising a plurality of contact structures adapted to be in contact with conducting sensor areas on the first sensor rotary part. The contact structures are configured to engage and connect different sensor areas as the first and second part of the rotary sensor rotate relative to each, the created connections being indicative of a rotational position between the first and second portions. One of the contact structures is an actuatable contact structure being axially moveable relative to the first portion and having a connected position in which the actuatable contact structure is in contact with a sensor area and a disconnected position in which the actuatable contact structure is not in contact with a sensor area.

A fluid management system includes a control console and a cassette. The control console includes a housing, a cassette bay defined within the housing, and an actuation mechanism disposed within the housing and including a plurality of actuators. The cassette is insertable into the cassette bay of the control console and includes a chassis supporting a plurality of fluid flow paths through the cassette, and an outer housing defining at least one access opening providing access to the plurality of fluid flow paths. With the cassette positioned within the cassette bay, each actuator of the plurality of actuators is aligned with an access opening of the at least one access opening to enable each actuator, upon actuation thereof, to close a corresponding fluid flow path of the plurality of fluid flow paths.

A vibrating hand held surgical instrument for loosening tissue of a patient for liposuction or body contouring procedures. The instrument includes a motor connected to a vibration actuator having an eccentric rotating mass and an end effector for engaging tissue operatively connected to the vibration actuator, wherein the motor rotates the eccentric mass to cause the end effector to vibrate to loosen tissue. A flexible shaft having first end and second ends dampen the vibration to the motor and to the operator handle.