The present invention relates to the field of lifting mechanisms for beds, and beds incorporating such lifting mechanisms. A lifting mechanism for a bed comprises a leg connecting a foot assembly to a frame for supporting a mattress, the frame defining a support plane; and a linkage mechanism connected between the frame and the leg and configured to allow the frame to move with respect to the foot assembly in a direction perpendicular to the support plane between a raised position and a lowered position. In the lowered position the leg extends parallel to the support plane, and during movement of the frame between the raised and lowered positions the foot assembly does not move in a direction parallel to the support plane.

The present invention relates to a resuscitation chamber apparatus for administering hyperbaric oxygen to a patient. More particularly, the present invention relates to a hyperbaric oxygen compatible critical care chamber apparatus preferably for use in emergency departments and/or prehospital ambulance management of patients. In a preferred embodiment of the present invention, the apparatus is a resuscitation monoplace hyperbaric chamber preferably used in critical care management of acutely ill or injured patients in prehospital emergency medical services (EMS) settings or in hospital emergency departments. The apparatus preferably allows a critical care shock or arrested patient to be pressurized preferably without compromise for application of best medical equipment, medications and human resuscitating intervention.

The present invention relates to the field of lifting mechanisms for beds, and beds incorporating such lifting mechanisms. A lifting mechanism for a bed comprises a leg connecting a foot to a frame for supporting a mattress, the frame defining a support plane; an actuator; a drive linkage mechanism comprising a drive input link pivotally connected to the frame about a first pivot axis and a drive output link pivotally connected to the frame about a second pivot axis; and a leg linkage mechanism comprising a leg input link and a leg output link, the leg input link being pivotally connected to the frame about the second pivot axis and being coupled to the drive output link, and the leg output link being pivotally connected to the frame about a third pivot axis, and wherein a length of the leg input link is shorter than a length of the drive output link.

A patient support apparatus, mobile integrated critical care unit. a patient bed includes more than a system such as a ventilation system, monitoring system, and a bar as a holder for syringe and infusion pumps implemented with their power supply and supported with examination light. Left head side rail includes monitoring system interface and the rear side of the same side rail includes the docking area for patient probes which in communicate with monitoring electronic system fixed inside the side rail. Ventilation system interface at the right head side rail. Inspiration and expiration modules coupled to the backside of the patient backrest board connected to the patient through a breathing circuit. Ventilation system control box, ventilation power box, gases control box, located at the unit base frame. A wall-mounted monitor displays systems data. The unit provided with blower and back up oxygen cylinder to support the ventilation system.

The present disclosure provides a device that includes a tube having a first end and a second end. The device also includes a stopper coupled to a surface of the tube adjacent to the second end of the tube. The stopper is configured to extend radially from the surface of the tube. The device also includes a first rib coupled to the surface of the tube. The device also includes a second rib coupled to the surface of the tube. The first rib and the second rib are positioned opposite one another on the surface of the tube between the first end of the tube and the stopper.

A support structure for active noise control systems is provided. The support structure may be used with active noise control systems in enclosed spaces such as a neonatal incubator.

The invention relates to an assistance terminal (5, 6a, 6b) including a housing (5) and at least one terminal (6a, 6b) for remotely monitoring a person (1) connected to a medical assistance and/or monitoring device (3). According to the invention, the housing (5) comprises: reception means (8) for receiving a signal from the medical device (3); conditioning means (9) for conditioning the signal received by the reception means (8) of the housing (5); storage means (10) for, in a learning phase prior to a phase of use of the terminal (5, 6a, 6b), storing a range of signals which are sent by the medical device (3), and which are received by the reception means (8) of the housing (5) and which are conditioned by the conditioning means (9); comparison means (11) for, during the phase of use of the terminal (5, 6a, 6b), comparing a signal sent by the medical device (3), received by the reception means (8) and conditioned by the conditioning means (9), with the signals previously stored; transmission means (12) for, during the phase of use, transmitting the signal, if the latter corresponds to a signal previously stored, to the remote terminal (6a, 6b); the terminal (6a, 6b) comprising means for playing back the signal to at least one person to notify him or her of the sending of said signal by the device.

The present invention is a pressurized isolation unit dimensioned to cover the head and thoraco-abdominal region of a patient. The unit has a filtered pressure system and a flexible abdominal binding cover that wraps around the patient's abdomen.

An apparatus for reorienting a person includes a wrap having a first lateral portion and a second lateral portion, the first lateral portion and the second lateral portion being releasably securable to one another along an anterior region of the wrap between lateral sides of the person and along a posterior region of the wrap between the lateral sides of the person via a set of fasteners. Each of the lateral portions are dimensioned to extend around a corresponding one of the lateral sides of the person and having anterior and posterior edges that are dimensioned to extend at most partway across to an opposite one of the lateral sides of the person. The wrap is made from flexible materials and dimensioned to extend at least from below knees of the person to above the elbows of the person and snugly retain the person therein.

A patient support structure for assisting cardiopulmonary resuscitation (CPR) treatment of a patient is described. The patient support structure includes a base frame, one or more patient support sections supported by the base frame, at least one tilt adjuster coupled to at least one of the patient support sections and configured to tilt the at least one of the patient support sections, around a transverse axis of the patient support structure, to a tilt angle, and a chest compression (CC) device mount disposed on at least one of the patient support sections and configured to adjustably secure a CC device to the patient support structure. The tilt angle may be a target tilt angle and the patient support structure may further include a processor configured to determine the target tilt angle based on at least one of sensor input and user input.