A medical apparatus is provided. The medical apparatus comprises an operating table provided with a base and a tabletop for supporting a patient, an x-ray detector attached to the operating table, and at least one x-ray source configured to be attached to the operating table in a manner so as to be movable with respect to the operating table.

A movable medical bed system may include a bed body and a power supply apparatus. The power supply apparatus may include an electrical energy receiver and an electrical energy transmitter. The electrical energy receiver is arranged on the bed body. The electrical energy transmitter is configured to be connected to a power source. The bed body is able to move to a working position relative to the electrical energy transmitter. When the bed body is located at the working position, the electrical energy receiver can engage in electrical energy transmission with the electrical energy transmitter without plugging-in. The movable medical bed system helps to make the supply of power more convenient.

Systems and methods for medical imaging diagnoses are provided. The methods may include detecting an entrance of the scan platform into a scanning room by a signal emission device, moving the scan platform to a joint area according to connection interface of the medical imaging device by a driving device. The method may also include adjusting the scan platform to connect to the medical imaging device by a position adjusting device. The method may also include connecting the scan platform to the medical imaging device by a physical interface. The method may further include moving the scanning object to a scanning area of the medical imaging device by the driving device.

A scanning table includes an upper pallet, a lower pallet, a support device, a driving device, an opening belt and an endless belt. The opening belt is fixedly coupled with the lower pallet. The endless belt is fixedly coupled with the upper pallet. A front end of the opening belt is provided with a first driving wheel coupled to the driving device. The lower pallet is driven by the first driving wheel to move in a front-back direction relative to the support device. The endless belt is sleeved on the lower pallet. When the lower pallet moves in the front-back direction relative to the support device, the endless belt moves synchronously with the lower pallet to drive the upper pallet to move in the same direction back and forth relative to the lower pallet.

Embodiments of the present description provide a medical apparatus for use in supporting a patient lying in a supine position during a radial cardiac catheterization procedure. More particularly, embodiments of the present description provide an arm board a patient's arm during a radial cardiac catheterization procedure. The arm board has a base member having a substantially planar support surface on which the patient's arm can be stabilized during a catheterization procedure and at least one shield member affixed to the base member and extending away from the support surface. Desirably, the base member has both a radiolucent portion and a radiopaque portion and the shield member is a radiopaque material, thereby reducing and/or eliminating a doctor's exposure to radiation during radial cardiac catheterization procedures without impairing the ability to obtain the necessary medical images. Also provided is a medical apparatus and a method for its use.

A braking system for a patient support apparatus includes a caster wheel assembly. The caster wheel assembly includes a caster wheel and manually operable brake operable to brake the caster wheel. The caster wheel assembly further includes a manual brake activation handle or pedal for manually operating the manually operable brake to move between three positions, wherein said three positions include a braking position, an un-braked position, and a steer lock position. The braking system further includes an electrically powered actuator mechanically coupled to the manual brake activation handle or pedal and to the manually operable brake. When powered, the electrically powered actuator is operable to move the manually operable brake and to move the manual brake activation handle or pedal between two or more of the three positions to thereby manually operate the caster wheel in a braking mode, an un-braked mode, or a steer lock mode. And, when the actuator is unpowered, the manual brake activation handle or pedal is operable to be manually moved between two or more of the three positions to thereby manually operate the caster wheel in the braking mode, the un-braked mode, or the steer lock mode.

In an initial configuration a device comprises a casing containing: a plurality of beads, a rupturable first container containing one or more isocyanates and a rupturable second container containing one or more polyols, wherein in the final configuration the casing is substantially filled by a polyurethane in which the plurality of beads are embedded. In an intermediate configuration the device is transformed from the initial configuration to a final configuration by rupturing the first container and rupturing the second container so that the one or more isocyanates react with the one or more polyols in a reaction that forms the polyurethane. As the polyurethane is formed during the reaction the polyurethane surrounds the plurality of beads. The device may be molded as the polyurethane is formed in the casing.

A forearm and wrist fracture table includes base members, vertical bars, horizontal bars, an elbow support member and a hand support member. The vertical bars includes a first vertical bar and a second vertical bar attached to the support base members. The horizontal bars are attached between the support base members and vertical bars to provide horizontal stability and length adjustment between the support base members and the vertical bars. The elbow support member is attached to the first vertical bar to provide support for the elbow. The hand support member is attached to the second vertical bar to receive and support a hand extending from the elbow, wherein the fractured arm is supported between the elbow support member and the hand support member, wherein a surgeon is allowed to modulate an amount of needing pressure required to distract fracture fragments, and thereby reducing fracture and healing the fracture site.

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.

Adverse effects of pain in a premature infant, especially a very or extremely premature infant may be ameliorated by exposing the infant to stimuli comprising one or more of vertical oscillating motion simulating breathing, skin contact with an interface that mimics human skin and exposure to sounds and/or vibrations that simulate heartbeats. A device including a movable platform provides such stimuli within a neonatal intensive care incubator. The device provides simulated maternal breathing through vertical movement at a rate and speed similar to that experienced by an infant lying upon its mother's chest. It further provides simulated maternal skin interface feel as well as heartbeat sound. These simulated sensory parameters appear to have an innate calming effect upon a preterm infant that reduces the duration and severity of the infant's response to a pain event. The same stimulations may reduce occurrence of below-baseline fluctuations of brain blood oxygen content.