A secure dispensing unit includes a housing comprising a first end and a second end and a number of storage assemblies. The number of storage assemblies are arranged in parallel with one another within the housing. Each storage assembly includes a number of compartments arranged linearly along an axis of the housing with each of the compartments being configured to store an item. A cover is coupled with the housing and extends between the first end and the second end such that the cover is positioned over the compartments. An actuator is coupled with the cover, the actuator being configured to retract the cover to draw a distal end of the cover from the first end toward the second end to expose a selected number of compartments.

Systems include a plurality of sensors coupled to a person support apparatus, at least one moisture sensor configured to sense a moisture level between the person and the support surface, and at least one computing device coupled to the plurality of sensors coupled to the person support apparatus and the at least one moisture sensor. The at least one computing device receives data from the plurality of sensors coupled to the person support apparatus and the at least one moisture sensor, obtains data from an electronic medical record associated with the person supported by the person support apparatus, calculates a pressure injury score indicative of a likelihood that the person will develop a pressure injury based on the data from the plurality of sensors, the at least one moisture sensor, and the electronic medical record, and alters a treatment plan for the person based on the calculated pressure injury score.

According to an embodiment, a structure is detachably attached to a bed apparatus. The bed apparatus includes a holder and a first frame that includes a portion extending in a first direction. The structure includes: a first portion of a columnar shape extending in a second direction that intersects the first direction; and a second portion continuous to the first portion and including a portion extending in a third direction that intersects the second direction. The first portion is inserted in the holder so that the holder holds the structure. When the structure is attached to the bed apparatus, an angle between the first direction and the third direction is variable. The structure that can facilitate aid of bed departure can be provided.

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.

A chair includes a control system for moving the chair between seated and standing configurations to thereby help facility an occupant's egress out of, or ingress into, the chair. One or more controls are provided on the chair that enable the occupant to control the timing of when the chair's movement between the configurations starts, what speed the chair moves at, and when the chair stops. A caregiver control panel provides the caregiver with multiple options for dictating what aspects of the chair's movement between the configurations the occupant is able to control. In some embodiments, a controller dynamically adjusts the speed of the chair based on shifts in the occupant's weight during the transition between the standing and seated configurations, as detected by one or more force sensors. The force sensors may be integrated into the armrests, the seat, the backrest, a combination of these, or elsewhere.

An ambulance cot loading and unloading system for an emergency vehicle includes a base for mounting in the emergency vehicle and an arm mounted for linear movement along the base, wherein the arm configured to support a cot while the cot is being loaded into or unloaded from the emergency vehicle. The ambulance cot loading and unloading system further includes an indicator mounted relative to the arm and a control system, which is in communication with the indicator and configured to generate a status indication of the cot loading and unloading system at the indicator.

The present disclosure generally relates to the field of temporal and spatial risk mapping and risk response. More particularly, the present disclosure relates to spatial and temporal mapping of outcomes, risk analysis, and responsive and preventative actions derived through artificial intelligence driven workflow augmentation using spatial and temporal data mapping of data from a plurality of historical and streaming data sources.

An automatic wheelchair locking system including: a first lock for a first wheel; a first persistent driver configured to engage and disengage the first lock; at least one processor configured to control the first persistent driver; and a memory having stored thereon instructions that, when executed by the at least one processor, control the at least one processor to: in response to receiving instructions to disengage the first lock while the first lock is engaged, control the first persistent driver to disengage the first lock; and in response to receiving instructions to engage the first lock while the first lock is disengaged, control the first persistent driver to engage the first lock.

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 support structure for active noise control systems is provided. The support structure may be used with active noise control systems in enclosed spaces such as a neonatal incubator.