A bedside support structure including a support assembly and a base assembly is disclosed herein. The support assembly includes a cushioned portion and a support structure. The base assembly includes an outer base and an inner base portion. The inner base portion is adjustable from the outer base portion such that a user may configure the height of the bedside support structure. The base assembly further includes an elongated arm that is pivotably mounted to one end of the outer base. The other end of the elongated arm is pivotably mounted to the opposite end of the support structure. The pivot configuration allows a user to adjust the height of the support structure as needed to fit the height of the bed of an individual. The bedside support structure provides a structural support for users of limited mobility to aid the users in sitting beside a bed.

A patient support apparatus includes a support structure having a patient support deck and a side rail coupled to the support structure. The side rail is movable relative to the support structure. A lock releasably locks the side rail in one or more side rail positions, such as in a raised position and an intermediate position. A manual release is coupled to the side rail and operable to unlock the side rail. A bypass lever is provided to allow a user to raise the side rail from a lowered position to the raised position without locking in the intermediate position. A damper is located inside the side rail to counterbalance the weight of the side rail and assist the user in raising the side rail, bi-directionally. The side rail is formed of first and second walls that are heat staked together to form a lightweight side rail of suitable strength.

A patient support apparatus, such as a hospital bed, communicates with an electronic medical record (EMR) system in healthcare facility. The hospital bed includes a patient support structure to support a patient, a graphical user interface coupled to the patient support structure, and control circuitry coupled to the graphical user interface. The graphical user interface displays at least one input that may be used by a caregiver to chart data into an electronic medical record (EMR) of a patient supported by the patient support structure.

A patient support includes a height adjustable patient support deck, at least one guard structure mounted for movement relative to the patient support deck, and a latch operable to lock the position of the guard structure in a raised position. The patient support further includes a CPR release operable to lower the head deck section of the patient support deck to place the patient support in an emergency state and further operable to release the latch to allow the guard rail structure to lower or be lowered from the raised position.

A patient bed includes a drainage bag sensor. The patient bed includes, for example, a frame configured to support a patient, a drainage bag holder coupled to the frame and configured to support a drainage bag, and a sensor to detect a presence of the drainage bag being supported by the drainage bag holder.

A caregiver assistance system is disclosed for assisting a caregiver to ensure the beds of high fall risk patients are in desired states for reducing the likelihood of a patient falling. The system may also help the caregiver to perform rounding tasks. The system comprises a server in communication with the patients' beds and one or more mobile electronic devices (e.g. smart phones). The mobile devices receive answers to a plurality of fall risk questions and forward them to the server. The server generates a patient fall risk assessment from the answers, determines a desired state for fall-risk components of the bed if the patient fall risk assessment indicates the patient has a high risk of falling, compares the states of the fall-risk components to corresponding desired states, and issues an alert at the mobile device if any of the fall-risk components are not in their desired state.

A patient support apparatus includes a support structure having a patient support deck and a side rail coupled to the support structure. The side rail is movable relative to the support structure. A lock releasably locks the side rail in one or more side rail positions, such as in a raised position and an intermediate position. A manual release is coupled to the side rail and operable to unlock the side rail. A bypass lever is provided to allow a user to raise the side rail from a lowered position to the raised position without locking in the intermediate position. A damper is located inside the side rail to counterbalance the weight of the side rail and assist the user in raising the side rail, bi-directionally. The side rail is formed of first and second walls that are heat staked together to form a lightweight side rail of suitable strength.

A caregiver assistance system is disclosed for assisting a caregiver to ensure the beds of high fall risk patients are in desired states for reducing the likelihood of a patient falling. The system may also help the caregiver to perform rounding tasks. The system comprises a server in communication with the patients' beds and one or more mobile electronic devices (e.g. smart phones). The mobile devices receive answers to a plurality of fall risk questions and forward them to the server. The server generates a patient fall risk assessment from the answers, determines a desired state for fall-risk components of the bed if the patient fall risk assessment indicates the patient has a high risk of falling, compares the states of the fall-risk components to corresponding desired states, and issues an alert at the mobile device if any of the fall-risk components are not in their desired state.

A nursing bed comprises a bed frame, a bed platform which is disposed atop the bed frame for supporting a patient who is normally disposed in a supine position, and a pair of side rails mounted upon opposite sides of the bed platform so as to be movable between deployed or raised positions and stowed or lowered positions. The side rails are movable by a pair of linear actuators, which may be simultaneously actuated or independently actuated, and a pair of linkage systems operatively connecting the pair of side rails to opposite sides of the bed frame. When the side rails are moved to their deployed or raised positions, the side rails will be disposed at positions adjacent to the side edge portions of the bed platform so as to effectively protect bed-ridden patients by preventing them from inadvertently or unintentionally falling out of bed, and when the side rails are moved to their stowed or lowered positions, the side rails will be stowed beneath the opposite side edge portions of the bed platform so as to provide an esthetically pleasing appearance to the nursing bed as well as to in permit hospital personnel or family members to more easily approach a side of the bed, without interference with the side rails, so as to thereby easily attend to a particular need of the patient.

A caregiver assistance system is disclosed for helping caregivers manage the care of existing bed sores and/or reduce the risk of a patient developing bed sores. The system may also help the caregiver to perform rounding tasks and/or to reduce the likelihood of patient falls. The system comprises a server application in communication with the patient's bed and one or more mobile electronic devices (e.g. smart phones). The mobile devices receive individual assessments of a plurality of bed sore risk factors and forward them to the server. The server generates bed sore risk scores from the answers and forward them to an EMR server. The server may also determine one or more risk reduction steps, display them on the mobile electronic device, and/or forward them to the patients' beds for implementation thereon. Additional bed sore information may be captured and sent to the EMR.