Example muscle tension relief devices are provided herein. A muscle tension relief device includes a first base portion extending in a first plane, a second base portion extending in a second plane, and a muscle engagement feature extending generally upwardly. There is a non-zero angle extending between the first plane and the second plane. The device is configured to engage with and relieve tension in a user's iliacus or psoas muscles. The device can transition from a first position resting on the first base portion to a second position resting on the second base portion to cause the muscle engagement feature to change orientation to apply pressure at the proper position on a user's psoas major muscle. The shape of an upper portion of a body of the device and the muscle engagement feature correspond to the shape of a hand, such as that of a physical therapist.

A surgical frame and method for use thereof is provided. The surgical frame is capable of reconfiguration before, during, or after surgery. The surgical frame includes a main beam that can be rotated, raised/lowered, and tilted upwardly/downwardly to afford positioning and repositioning of a patient supported thereon. The main beam is capable of be reconfigured between a left configuration and a right configuration to support the patient in different positions thereon.

A surgical frame and method for use thereof is provided. The surgical frame is capable of reconfiguration before, during, or after surgery. The surgical frame includes a main beam that can be rotated, raised/lowered, and tilted upwardly/downwardly to afford positioning and repositioning of a patient supported thereon. The surgical frame also includes a reconfigurable upper leg support for supporting portions of the upper legs, the hips, and the lower back of the patient to facilitate positioning and repositioning there during surgery. The upper leg support via reconfiguration thereof can accommodate patients of different sizes, can provide flexure of the patient's lumbar spine to facilitate surgical access thereto, and can prevent unwanted torsion of a patient's spine during such reconfiguration.

Method of securing a patient onto an operating or surgical table when the patient is in a position for a hip procedure and apparatus therefor including a kit. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. § 1.72(b). As stated in 37 C.F.R. § 1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used f or interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

Example muscle tension relief devices are provided herein. A muscle tension relief device includes a first base portion extending in a first plane, a second base portion extending in a second plane, and a muscle engagement feature extending generally upwardly. There is a non-zero angle extending between the first plane and the second plane. The device is configured to engage with and relieve tension in a user's iliacus or psoas muscles. The device can transition from a first position resting on the first base portion to a second position resting on the second base portion to cause the muscle engagement feature to change orientation to apply pressure at the proper position on a user's psoas major muscle. The shape of an upper portion of a body of the device and the muscle engagement feature correspond to the shape of a hand, such as that of a physical therapist.

A surgery table utilizing first and second sections which are hingedly attached to one another. First and second sections are also connected to supports apart from the hinged portion. An elevator moves one of the sections upwardly and downwardly at the support. The resultant position of the frame formed by the first and second sections may take the configuration of a flat surface or an upwardly or downwardly oriented “V”.

An articulated patient support apparatus includes upper and lower body support frames hinged together to form a patient support assembly which is hinged to head and foot end supports. One end of the assembly includes a length compensator to enable hinged angulation between the body support frames. Hinge motors are connected between the frames to cause hinged articulation therebetween. One or both of the body support frames has a body slide assembly mounted thereon to enable part of a patient's body to move linearly along the particular body support frame by operation of a slide motor to compensate for hinged articulation of the frames. The hinge motors and slide motor have encoders interfaced to a controller to digitally coordinate sliding movement with hinging articulation.

A method for positioning a patient in a prone position including the following steps: positioning a patient in a supine position, attaching to the chest of the patient an inflatable chest cushion in a deflated state, attaching to the pelvic region of the patient an inflatable pelvis cushion in a deflated state, transferring the patient from the supine position to a prone position, with the chest cushion attached to the chest and the pelvic cushion attached to the pelvic region and the patient in the prone position, inflating the chest cushion and the pelvis cushion, thereby providing that the chest cushion and the pelvis cushion together bear the weight of the torso of the patient with the abdominal region of the patient being decompressed. The method provides reliable positioning the patient, which is safe for the patient and safe, hygienic and user friendly for the medical team.

A fuel vaporizer including fuel injectors is described herein. The vaporizer includes a housing having a plurality of baffles defining a plurality of chambers, with each of the plurality of baffles defining an aperture between adjacent chamber, and the apertures define a flow path from the air inlet, through the plurality of chambers, and to the vapor outlet. A conduit extends through the baffles and chambers, and the conduit is adapted to accept a flow exhaust gas and transfer thermal energy from the exhaust gas to an airflow along the flow path A fuel injector is positioned in the housing to inject fuel into the flow path in the first chamber, the thermal energy from the conduit vaporizing the fuel injected into the airflow and producing the flow of vaporized fuel. The fuel vaporizer may include a heat exchanger pre-heating the airflow and electric heating elements supplementing the conduit heating.

A spinal deformity correction and fusion surgery supporting device is capable of simplifying the operative procedures of a spinal deformity correction and fusion surgery by an operator to reduce the operative time and lessen the burden on the patient and achieving a more effective correction rate by the spinal deformity correction and fusion surgery. In this supporting device, the waist and the vicinity thereof are pressed from both sides in the left-right direction by a pair of waist pressing bodies, and the chest and the vicinity thereof are pressed from both sides in the left-right direction by a pair of chest pressing body to establish a trunk balance. In this state, the pair of chest pressing bodies and the pair of waist pressing bodies are moved away from each other to apply a tensile load to spinal deformity and a state in which the spinal deformity is corrected so as to approach a correction rate by the spinal deformity correction and fusion surgery can be maintained. As a result, a more effective correction rate is achieved by spinal deformity correction and fusion surgery while simplifying the operative procedures of spinal deformity correction and fusion surgery, shortening the operative time, and lessening the burden on the patient.