A patient-positioning system, computer-control and data-integration system, and surgical componentry are provided. The patient-positioning system can be used to manipulate the patient prior to, during, and after surgery to globally or regionally articulate the patient's body to facilitate stabilization of the patient's spine. And the computer-control and data-integration system can be used to facilitate operation of the patient-positioning system and enabling technologies use to perform surgery. Furthermore, the surgical componentry can be used to locally articulate the patient's body and/or the stabilize patient's spine. Surgical methods of using the patient-positioning system, the computer-control and data-integration system, and the surgical componentry for improving patient health outcomes are also provided.

A patient positioner (100) includes a central portion (102) and a pair of shoulder restraints (105,106) extending distally away from a first side (107) of the central portion. Each shoulder restraint can terminate at an attachment area (108,109). Each attachment area can comprise fastener (114,115). Complementary fasteners (214,215) can be disposed on the central portion (102). The shoulder restraints can then be folded (116) about a patient's shoulders, with the fasteners attaching to the complementary fasteners. A plurality of securement straps (121,122,123,124,125,126) configured to attach the patient positioner to a procedure table (701) can extend distally from the second side (110) and the third side (111) of the central portion, respectively.

A surgical positioning system includes a flexible air-impermeable shell filled with beads that is wrapped against the patient and subjected to a vacuum to hold the patient in place. An air-impermeable top wall can be joined with an air-impermeable bottom wall to define a plurality of chambers. Each of the chambers can include a peripheral edge that extends around the periphery of the respective chamber. The plurality of chambers can include a first shoulder chamber, a second shoulder chamber, and a main chamber.

A modular surgical patient positioner unit apparatus, system and method for adjustably positioning human joints such as knees for surgical operating procedures having a base plate to support moveably a transformable carriage that can be releasably locked in position and which adjustably supports a boot or other limb holder which can be releasably locked in position by the carriage. The base plate also is configured with a side bar located at a mid-portion of the base plate to secure to an arc clamp configured to secure the positioning system to a side rail of an operating table in a medical procedure on the left or right side of the body. An extension unit also is provided and configured to secure to a lower surface of the base plate to extend the base plate of the system, as needed, for larger limbs of patients, which extension unit is configured with a stud and post locking portions for securing to the base plate and for positioning in a medical procedure on either side of the body.

An elevation device used in the performance of cardiopulmonary resuscitation (CPR) and after resuscitation includes a base and an upper support operably coupled to the base. The upper support is configured to elevate an individual's upper back, shoulders and head. The elevation device also includes a chest compression device coupled with the base. The chest compression device is configured to compress the chest and to actively decompress the chest.

A patient-positioning system, computer-control and data-integration system, and surgical componentry are provided. The patient-positioning system can be used to manipulate the patient prior to, during, and after surgery to globally or regionally articulate the patient's body to facilitate stabilization of the patient's spine. And the computer-control and data-integration system can be used to facilitate operation of the patient-positioning system and enabling technologies use to perform surgery. Furthermore, the surgical componentry can be used to locally articulate the patient's body and/or the stabilize patient's spine. Surgical methods of using the patient-positioning system, the computer-control and data-integration system, and the surgical componentry for improving patient health outcomes are also provided.

A patient-positioning system, computer-control and data-integration system, and surgical componentry are provided. The patient-positioning system can be used to manipulate the patient prior to, during, and after surgery to globally or regionally articulate the patient's body to facilitate stabilization of the patient's spine. And the computer-control and data-integration system can be used to facilitate operation of the patient-positioning system and enabling technologies use to perform surgery. Furthermore, the surgical componentry can be used to locally articulate the patient's body and/or the stabilize patient's spine. Surgical methods of using the patient-positioning system, the computer-control and data-integration system, and the surgical componentry for improving patient health outcomes are also provided.

A patient-positioning system, computer-control and data-integration system, and surgical componentry are provided. The patient-positioning system can be used to manipulate the patient prior to, during, and after surgery to globally or regionally articulate the patient's body to facilitate stabilization of the patient's spine. And the computer-control and data-integration system can be used to facilitate operation of the patient-positioning system and enabling technologies use to perform surgery. Furthermore, the surgical componentry can be used to locally articulate the patient's body and/or the stabilize patient's spine. Surgical methods of using the patient-positioning system, the computer-control and data-integration system, and the surgical componentry for improving patient health outcomes are also provided.

Provided is a medical device whereby a burden placed on a patient in spinal deformity surgery is alleviated while facilitating the surgery. A medical device in which a chest unit 5A for supporting the chest of a patient 2 and a pelvic unit 5B for supporting the pelvis of the patient 2 are disposed side by side on a base 10, the medical device being provided with a first shifting device 15, 16 for shifting the chest unit 5A in a first direction closer to or away from the pelvic unit 5B, and a second shifting device 25, 46 for shifting either the chest unit 5A or the pelvic unit 5B in a horizontal direction orthogonal to the first direction with respect to the other of the chest unit 5A or the pelvic unit 5B.

A patient positioning device is provided for restraining movement of a body lying over a top surface of a table. The device includes a cervical-thoracic notch restraint that includes a base with a first side and an opposed second side. The first side defines a substantially flat plane with a repositionable fastener, and the second side defines a substantially flat plane with a raised, curved support extending transversely across the base. In an operational state, the curved support is configured to nest into an anatomical cervical-thoracic notch of the body lying over the table to abut a trapezius muscle of the body. In one example, a rigid support frame extends transversely over the top surface of the table, and the cervical-thoracic notch restraint is securely fixed to the upper support surface of the support frame.