A patient positioner for supporting a patient in a prone position includes a base plate, an adjustable platform movable relative to the base plate, a support assembly supported on the adjustable platform, a lateral constraint assembly positioned on the adjustable platform, and a position lock operable to selectively lock the adjustable platform relative to the base plate. The patient positioner is adjustable to adjust the position of the patient and to adjust the orientation of the patient's spine in the coronal and sagittal planes.

The present disclosure relates to a system comprising an operating table, and air bladder, and an air compressor, in particular, to a system which is used for kidney surgery.

An inflatable patient support includes a top panel defining a first perimeter and a bottom panel defining a second perimeter. The second perimeter of the bottom panel is coupled to the first perimeter of the top panel. An internal wall is coupled between the top panel and the bottom panel to define a first chamber and a second chamber. The internal wall defines at least one passage therethrough that allows fluid communication between the first chamber and the second chamber. The first chamber and the second chamber are inflatable.

Introduced here are pressure-mitigation apparatuses able to mitigate the pressure applied to a human body by the surface of an object. A controller device can be fluidically coupled to a pressure-mitigation device that includes a series of selectively inflatable chambers. When a pressure-mitigation device is placed between a human body and a surface, the controller device can continuously, intelligently, and autonomously circulate air through the chambers of the pressure-mitigation device. As further discussed below, the controller device may cause the chambers to be selectively inflated, deflated, or any combination thereof. Such an approach is useful in a variety of contexts. For example, pressure-mitigation apparatuses may be used to improve treatment of patients suffering from respiratory illnesses and patients who are partially or completely immobilized for extended durations (e.g., as part of a medical procedure).

A patient arm support, a method for using thereof, for supporting an arm of a patient during an operation when the patient is lying in a supine position on an operating table. The patient arm support has a base, an upper surface opposite to the base shaped to receive and to secure onto the patient arm support at least a portion of the arm; a proximal end; a distal end; a groove, running along at least a portion of a length of the upper surface of the patient arm support, for receiving at least one of at least a portion of the arm and a hand joined to the arm.

The present disclosure provides a method of positioning a patient. The patient is provided on a support surface, an inflatable positioning mattress disposed between the patient and the support surface. Air flow into the inflatable positioning mattress is initiated to inflate the inflatable positioning mattress. A downward force is applied on the inflatable positioning mattress proximate to a first side of the support surface. A portion of the inflatable positioning mattress proximate to a second side of the support surface is raised. At least one wedge is positioned beneath the inflatable positioning mattress. Subsequently, the patient is lowered onto the at least one wedge.

Apparatus and methods related to an underbody support for supporting a body of a being, such as during surgery to prevent contact pressure injuries. In certain embodiments, the underbody support may include one or more inflatable chambers enclosing a volume. At least one of the inflatable chambers may include one or more compression sensitive switches for monitoring the volume of the inflatable chamber, and the one or more compression sensitive switches may be located within the inflatable chamber. In some embodiments the one or more compression sensitive switches are sized to close when the said inflatable chamber is deflated to a desired residual volume.

Apparatus and methods related to an underbody support for supporting a body of a being, such as during surgery to prevent contact pressure injuries. In certain embodiments, the underbody support may include one or more inflatable chambers enclosing a volume. At least one of the inflatable chambers may include one or more compression sensitive switches for monitoring the volume of the inflatable chamber, and the one or more compression sensitive switches may be located within the inflatable chamber. In some embodiments the one or more compression sensitive switches are sized to close when the said inflatable chamber is deflated to a desired residual volume.

The present disclosure relates to a system for positioning a patient on a medical device. More specifically, the present disclosure relates to a system for aligning a patient's head, spine, and shoulders for providing radiation treatment to a head and neck area of the patient.

A head elevation apparatus configured to be positioned under a mattress may include a base panel and a top panel positioned on the base panel. The top panel may include a center panel hingedly coupled to the base panel. An upper flap may be hingedly coupled to the center panel. A lower flap may be hingedly coupled to the center panel.