MULTI-WORKSTATION COMPUTER DISPLAY SUPPORT STRUCTURE FOR REDUCING EHR-RELATED MEDICAL ERRORS OCCURRING DURING INTER-PROFESSIONAL PATIENT ROUNDS

Abstract

A method using a specially configured computer display support structure reduces occurrences of medical errors by facilitating real-time, synchronous review of medical data by rounding professionals during patient rounds. The support structure includes an upright column assembly that has a column assembly base and six sides. Mounting brackets fixed to non-contiguous sides of the column assembly receive back plates of a system device mounting assembly, each of which includes a pivot arm that receives a system device arm. The system device arm is pivotable at opposing ends and terminates in a coupling member at its distal end. The coupling member is connected to a video display that has an angularly positionable display screen. In some embodiments, a keyboard tray, on which a keyboard and computer mouse rest, is connected to the coupling member.

Claims

1. A method for reducing the incidence of medical errors occurring during patient rounds performed by rounding professionals including a rounding leader, an order-entry rounding professional, and a presenting professional, comprising: executing a rounding tool, the rounding tool retrieving from memory stores case-relevant medical data and assimilating the case-relevant medical data into one or more case-relevant medical data domains; assimilating, by the rounding tool, the case-relevant medical data domains into one or more rounding protocols, each of the rounding protocols prescribing one or more rounding cues and one or more rounding checklists; generating, by the rounding tool, one or more rounding protocols, one or more rounding cues, and one or more rounding checklists; disseminating each of the rounding protocols graphically through one or more video sources, the video sources being associated with one or more videos displays, the video displays being operatively connected and positionable relative to a computer display support structure and being synchronously viewable by three or more rounding professionals located in a single region; positioning the video displays so that they do not interfere with eye-contact sightlines between different ones of the rounding leader, order-entry rounding professional, and presenting rounding professional; presenting, by the presenting rounding professional to the rounding professionals, each of the rounding protocols; in response to each of the rounding cues, coordinating by the rounding leader with the rounding professionals to assess whether to modify, subtract, or add to, the case-relevant medical data; selecting, by the rounding leader's use of a video source controller, the video source of one or more of the video displays; completing each of the rounding checklists; making modifications to the case-relevant medical data in real time as the rounding professionals view the modifications from the computer display structure; and delivering the modified case-relevant electronic medical data to the memory stores.

2. The method of claim 1, in which the rounding protocol includes any one of a vitals rounding protocol, ventilator rounding protocol, laboratory-result rounding protocol, imaging rounding protocol, nursing rounding protocol, or pharmacy rounding protocol.

3. The method of claim 2, in which the rounding protocols of claim 2 are completed in sequential order.

4. The method of claim 2, in which the case-relevant medical data domain of the vitals rounding protocol is a vitals medical data domain.

5. The method of claim 2, in which the case-relevant medical data domain of the ventilator rounding protocol is a ventilator medical data domain.

6. The method of claim 2, in which the case-relevant medical data domain of the laboratory-result rounding protocol is a laboratory-result medical data domain.

7. The method of claim 2, in which the case-relevant medical data domain of the imaging rounding protocol is an imaging medical data domain.

8. The method of claim 2, in which the case-relevant medical data domain of the nursing rounding protocol is a nursing medical data domain.

9. The method of claim 2, in which the case-relevant medical data domain of the pharmacy rounding protocol is a pharmacy medical data domain.

10. The method of claim 1, in which one of the rounding cues includes an order-readback step that is simultaneously reviewed by the rounding professionals.

11. The method of claim 1, in which a bedside nurse, patient, or patient visitors are located in the same region as the rounding professionals.

12. The method of claim 1, in which a rounding leader's scope of practice is equivalent to that of a pharmacist, nurse, physician, physician's assistant, or nurse practitioner.

13. The method of claim 1, in which the workstation is the computer display support structure described in claims 14 through 21.

14. A computer display support structure for reducing EHR-related medical errors during IP patient rounds, comprising: an upright column assembly having a column assembly base, the upright column assembly defining a longitudinal axis and having an exterior surface and a periphery; multiple mounting brackets positioned at different spaced-apart locations on the exterior surface and around the periphery of the upright column assembly; multiple system device mounting assemblies configured for attachment to the multiple mounting brackets so that different pairs of the multiple system device mounting assemblies, when attached to an associated one of the multiple mounting brackets, are spaced apart from each other in a direction generally along the longitudinal axis of the upright column assembly and configured for pivotal movement independent of each other; a video display mounted to each one of the different pairs of the multiple system device mounting assemblies and having a display screen providing for an observer a viewing angle that is adjustable in correspondence with the pivotal movement; and a video display source controller capable of responding to a user-provided command to select a source of video for delivery to one or more of the video displays.

15. The computer display support structure of claim 14, in which a plurality of the system device mounting assemblies are constructed for selective extension to different distances laterally from the longitudinal axis of the upright column assembly.

16. The computer display support structure of claim 14, in which the upright column assembly is tubular.

17. The computer display support structure of claim 14, in which: the upright column assembly is formed of multiple sides defining a polygonal exterior surface; and the multiple mounting brackets are positioned at different non-contiguous ones of the multiple sides of the upright column assembly.

18. The computer display support structure of claim 14, in which each one of a set of the multiple system device mounting assemblies includes a system device arm that, at a proximal end, is pivotally connected to a pivot arm for pivotal movement about a first axis generally parallel to the longitudinal axis and a second axis transverse to the first axis and, at a distal end, is pivotally connected to a coupling member, the coupling member configured for pivotal connection to a system device.

19. The computer display support structure of claim 18, in which one of the multiple system device mounting assemblies is configured to support a keyboard.

20. The computer display support structure of claim 14, further comprising: a CPU platform attached to one of the multiple mounting brackets; a CPU attached to the CPU mounting platform; and a CPU power supply attached to the column assembly base of the upright column assembly.

21. The computer display support structure of claim 14, in which a set of support legs is attached to the column assembly base, each support leg of the set extending radially outwardly from the upright column assembly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a perspective view of the disclosed computer display support structure in an embodiment that is configured with three workstations.

[0014] FIG. 2 is a perspective view showing the column assembly of and electronic equipment associated with the computer display support structure of FIG. 1.

[0015] FIG. 3 is an oblique top view of the computer display support structure of FIG. 1.

[0016] FIG. 4 is an enlarged fragmentary side elevation view of three system device mounting assemblies configured to support two video displays and a keyboard tray at one of the workstations of the computer display support structure of FIG. 1.

[0017] FIG. 5 is a diagram showing, at each of two adjacent workstations of the computer display support structure of FIG. 1, upper and lower video displays positioned at different distances laterally from the upright support column through various configurations by articulation of the system device mounting assemblies.

[0018] FIG. 6 is a hybrid block diagram and process flow diagram showing the steps performed using components of the computer display support structure of FIG. 1 in generating a rounding protocol for graphical display according to the disclosed method.

[0019] FIGS. 7A and 7B are diagrams showing respective fragmentary side and top plan views of the video displays independently positioned to locations in space that avoid obstructing eye-contact sightlines between adjacent ones of a rounding leader, an order-entry rounding professional, and a scheduled presenting rounding professional using the computer display support structure of FIG. 1.

[0020] FIG. 8 is an exemplary representation of a rounding checklist setting forth data fields that are organized by case-relevant medical data domains and evaluated by medical professionals.

[0021] FIG. 9 is a diagram showing several medical professionals participating in IP patient rounds taking place at a patient's bedside, with the computer display support structure of FIG. 1 in use.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0022] The following is a set of definitions of terms used in the detailed description of several example scenarios of IP rounds carried out in accordance with the disclosed computer display support structure and method of using it.

[0023] Clinical Decision Rules (or CDR) are evidence-based algorithms derived from original research to provide guidance for clinical decision making. CDRs can be directive if they suggest a course of action or assistive if they provide evidence to enhance clinical judgment.

[0024] Electronic Health Record (or EHR) is a digital version of a patient-centered record including patient medical histories, diagnoses, medications, treatment plans, immunization dates, allergies, radiology images, and laboratory test results.

[0025] Electronic Health Record System (or EHR System) is a computer-based, real-time electronic health record management system that allows for secure access and modification to an EHR by an authorized user from more than one health organization such as laboratories, specialists, medical imaging facilities, pharmacies, emergency facilities, and school and workplace clinics. EHR Systems offer access to customizable, evidence-based tools that health care providers can use to make decisions about a patient's care including customizable flowsheets, tracking and trending case-relevant medical data over time, identifying when patients are due for a preventative screening or checkup, or identifying patients with high-risk circumstances.

[0026] Flowsheet is a customizable graphic representation, in outline or picture format, of a standardized clinical intervention process that displays multiple data fields and prompts the user take temporally relevant action(s) to complete the intervention including responding to any CDR prompts (either directive or assistive), reviewing and editing data fields, reviewing and editing data fields from previous interventions, flagging the patient's high-risk circumstances, prompting the user to provide missing case-relevant medical data, and entering additional chart notes in a patient record.

[0027] Workflow engine is a set of logic-based rules held as a template file in the EHR System that defines what activities are available to an EHR System user based on a specified clinical context. EHR System activities include data retrieval, chart review, database lookups, preference lists, navigators, snapshot and summary reports, flowsheets, related orders, and encounter signing.

[0028] FIGS. 1-5 show in several orientations a computer display support structure 10 that is configured in a preferred embodiment as a three-workstation computer display support structure for reducing EHR-related medical errors during IP patient rounds. Computer display support structure 10 includes an upright column assembly 12 of hexagonal shape and length that defines a longitudinal axis 14. Three tubular legs 16.sub.1, 16.sub.2, and 16.sub.3, mutually angularly spaced apart by 120, extend radially from a bottom end of upright column assembly 12 to form a column assembly base 18 for computer display support structure 10. (Similar components and features identified by a common reference numeral followed by different subscripts are sometimes referred to collectively by only the reference numeral.) A caster wheel 20 mounted at the free end of each leg 16 provides translational and rotational mobility to computer display support structure 10. The exterior surface of upright column assembly 12 is formed of six sides 22.sub.1, 22.sub.2, 22.sub.3, 22.sub.4, 22.sub.5, and 22.sub.6, of which non-contiguous sides 22.sub.1, 22.sub.3, and 22.sub.5 incorporate respective mounting brackets 24.sub.1, 24.sub.3, and 24.sub.5. Mounting brackets 24 are fixed to sides 22 from which tubular legs 16 do not extend to provide working space for users of computer display support structure 10. Mounting brackets 24 are guide rails that extend along the length of upright column assembly 12, and each of mounting brackets 24 receives a back plate 40 of a system device mounting assembly 42 that is slideable along the length of its associated mounting bracket 24 and is securable in place by a clamp (not shown). Each system device mounting assembly 42 includes a generally L-shaped pivot arm 46, with its leg extending horizontally from back plate 40 and its ascender oriented vertically. The ascender has a free end that is configured to receive, and form a pivot joint 48 with, a system device arm 50. System device arm 50 is pivotable at two opposite ends and supports one of a number of suitable system devices.

[0029] In the embodiment shown, each of mounting brackets 24.sub.1, 24.sub.3, and 24.sub.5 receives three system device mounting assemblies 42.sub.1, 42.sub.2, and 42.sub.3 and a CPU platform 54 that are positioned at consecutive descending heights along longitudinal axis 14.

[0030] System device mounting assembly 42.sub.1 includes a pivot arm 46.sub.1 that is pivotally coupled to a shorter-length system device arm 50.sub.1. System device arm 50.sub.1 terminates in a coupling member 56.sub.1, which is a ball and socket assembly, that is connected to a back side of a video display 58.sub.1 having a display screen 60.sub.1. Coupling member 56.sub.1 allows angular positioning of display screen 60.sub.1 in three-dimensional space.

[0031] System device mounting assembly 42.sub.2 includes a pivot arm 46.sub.2 that is pivotally connected to a longer length system device arm 50.sub.2. The pivotal connection to pivot arm 46.sub.2 enables pivotal movement about an axis 52.sub.2v, which is parallel to longitudinal axis 14, and pivotal movement about an axis 52.sub.2h, which is transverse to longitudinal axis 14 and axis 52.sub.2v. System device arm 50.sub.2 terminates in a coupling member 56.sub.2, which at its proximal end forms a pivot joint 62.sub.2 with system device arm 50.sub.2 and at its distal end forms a pivot joint 64.sub.2 with a back side of a video display 58.sub.2 having a display screen 60.sub.2. Pivot joint 62.sub.2 provides pivotal movement of video display 58.sub.2 about an axis 66.sub.2 that is parallel to longitudinal axis 14, and pivot joint 64.sub.2 provides pivotal movement of video display 58.sub.2 about an axis 682 that is transverse to longitudinal axis 14 and axis 66.sub.2. Pivot joints 62.sub.2 and 64.sub.2 cooperate to allow translation of display screen 60.sub.2 in a horizontal plane and tilt relative to a vertical plane.

[0032] System device mounting assembly 42.sub.3 includes a pivot arm 46.sub.3 that is pivotally connected to a longer length system device arm 50.sub.3. The pivotal connection to pivot arm 46.sub.3 enables pivotal movement about an axis 52.sub.3v, which is parallel to longitudinal axis 14, and pivotal movement about an axis 52.sub.3h, which is transverse to longitudinal axis 14 and axis 52.sub.3v. System device arm 50.sub.3 terminates in a coupling member 56.sub.3, which at its proximal end forms a pivot joint 62.sub.3 with system device arm 50.sub.3 and at its distal end forms a pivot joint 64.sub.3 with a back side of a keyboard tray 70 on which a keyboard 72 and a computer mouse 74 rest. Pivot joint 62.sub.3 provides pivotal movement of keyboard tray 70 about an axis 66.sub.3 that is parallel to longitudinal axis 14, and pivot joint 64.sub.3 provides pivotal movement of keyboard tray 70 about an axis 68.sub.3 that is transverse to longitudinal axis 14 and axis 66.sub.3. Pivot joints 62.sub.3 and 64.sub.3 cooperate to allow translation of keyboard tray 70 in a horizontal plane and tilt relative to a vertical plane.

[0033] CPU platform 54 is a U-shaped bracket that includes two channel walls 82.sub.1 and 82.sub.2 and a support surface 84 on which a CPU 86 rests between walls 82.sub.1 and 82.sub.2. The proximal and distal sides of support surface 84 are fixed at right angles to the bottom edges of channel walls 82.sub.1 and 82.sub.2, respectively, with walls 82.sub.1 and 82.sub.2 aligned in parallel to form a U-shape.

[0034] In the embodiment shown, one or more straps (not shown) secure CPU power supplies 90.sub.1, 90.sub.2, and 90.sub.3 to the superior aspect of legs 16.sub.1, 16.sub.2, and 16.sub.3, respectively. Each of the securing straps encircles both a CPU power supply 90 and its supporting tubular leg 16 in a direction transverse to its length.

[0035] In the embodiment shown, one of the three keyboard trays 70 supports a video display source controller 94 on which one of the keyboards 72 and computer mice 74 rest.

[0036] In an alternative embodiment, exterior surface 22 of upright column assembly 12 is polygonal, with more or fewer than six sides. In another alternative embodiment, exterior surface 22 of upright column assembly 12 is circular or elliptical.

[0037] In an alternative embodiment, a suitable column assembly base 18 stabilizes the upright column assembly 12 vertically while remaining capable of passing through narrow corridors and doorways by reducing the width of column assembly base 18 to be less than the widths of corridors or doorways. In another alternative embodiment, there are no caster wheels 20 attached to upright column assembly base 18. In further alternative embodiments, column assembly base 18 may be a set of multiple radially extending segments of unsegmented legs, forming a contiguous, flanged-out pedestal. In still further alternative embodiments, the center of mass of upright column assembly 12 is lowered by the addition of mass to column assembly base 18 in order to further stabilize upright column assembly 12 vertically.

[0038] In some alternative embodiments, mounting brackets 24 are quadrilaterally shaped and are selectively located on exterior surface 22 of upright column assembly 12. In other alternative embodiments, mounting brackets 24 are sized to receive a single back plate 40 of a system device mounting assembly 42. In further alternative embodiments, mounting brackets 24 receive back plate 40 that is securable to exterior surface 22 of upright column assembly 12 by one or more fasteners, the fasteners including a set of bolts, screws, rivets, or nails. In still further alternative embodiments, mounting brackets 24 receive a back plate 40 that is securable to exterior surface 22 of upright column assembly 12 by an adhesive or a set of welds.

[0039] In some embodiments, system device mounting assembly 42 is secured directly to exterior surface 22 of upright column assembly 12 by one or more fasteners, the fasteners including a set of bolts, screws, rivets, or nails. In other alternative embodiments, system device mounting assembly 42 is secured directly to exterior surface 22 of upright column assembly 12 by an adhesive or a set of welds.

[0040] FIG. 5 is a simplified diagram showing a suitable configuration of computer display support structure 10 that places video displays 58 at different distances laterally from upright column assembly 12. In the left-side embodiment shown, video displays 58 are placed at different distances laterally from upright column assembly 12 because one or more of pivot arms 46.sub.4 and 46.sub.5 and system device arms 50.sub.4 and 50.sub.5 are of different lengths. In the right-side embodiment shown, pivot arms 46.sub.6 and system device arms 50.sub.6 are of the same lengths and video displays 58 are placed at different distances laterally from upright column assembly 12 by adjusting angles of articulation 100 and 102 between pivot arms 46.sub.6 and system device arms 50.sub.6.

[0041] In some embodiments, CPU power supply 90 can receive power from an external source. In other embodiments, CPU platform 54 can be operatively attached to either video display 58 or system device mounting assembly 42.

[0042] Computer display support structure 10 is configured to reduce the incidence of medical errors occurring during patient rounds by facilitating communication during IP patient rounds. Specifically, a method 200 practiced using computer display support structure 10 reduces the risk of a rounding professional engaging in several cognitive biases by disseminating medically appropriate, temporally relevant, non-fragmented, and patient-specific medical data that are simultaneously viewable from a central location in real-time by several, typically three or more, rounding professionals.

[0043] FIG. 6 is a hybrid block diagram and process flow diagram showing the steps performed in generating a set of rounding protocols 202 for graphical display according to method 200. A rounding tool 204 executes a workflow engine 206 to retrieve from memory stores 208 case-relevant medical data 210 from a set of case-relevant medical data domains 212 from the entirety of electronic medical data 214 of a single patient. Suitable memory stores 208 are preferably integrated into an electronic health record (EHR) system 218 running on a networked server computer from which case-relevant medical data 210 can be retrieved remotely. A suitable rounding protocol 202 contains a set of pre-determined instructions that delineate the steps of the rounding protocol and prescribes parameters for one or more rounding cues and one or more rounding checklists. A suitable rounding checklist 220 preferentially includes a medical consensus, standard-of-care list of patient-specific actions to be completed by the medical rounding professionals prior to terminating the patient rounds. In some embodiments, rounding checklist 220 includes a customized list of patient-specific actions to be completed by the medical rounding professionals prior to terminating the patient rounds. A suitable rounding cue 222 is a temporally relevant, graphically displayed signal, generated by a rounding protocol 202 according to CDR-based criteria that prompt rounding professionals 240 to take action. In another embodiment, suitable rounding cue 222 is a temporally relevant auditory signal.

[0044] Rounding tool 204 assimilates case-relevant medical data 210 retrieved from case-relevant medical data domains 212 into the set of rounding protocols 202 and generates a set of rounding protocols 202, rounding checklists 220, and rounding cues 222. A suitable set of rounding protocols 202, rounding checklists 220, and rounding cues 222 is preferably set forth in an EHR System-based flowsheet 224. EHR System 218 disseminates rounding protocol 202 graphically through a networked video source 230 to display on a display screen 60 that is supported by computer display support structure 10.

[0045] In some embodiments, rounding protocols 202 adhere to CDR-based standards-of-care for IP patient rounding. In other embodiments, rounding protocols 202 adhere to customized standards for IP patient rounding. In further embodiments, rounding protocols 202 are executed independently from EHR System 218.

[0046] In some embodiments, rounding tool 204 generates a profession-specific presentation schedule that prescribes a sequence for each rounding professional to participate in the patient rounds, based on each rounding professional's scope of practice. In some embodiments, the profession-specific presentation schedule prescribes that the sequence be: (1) a physician or a rounding professional with an equivalent scope-of-practice to that of the physician, (2) a nurse or a rounding professional with an equivalent scope-of-practice to that of the nurse, and (3) a pharmacist or a rounding professional with an equivalent scope-of-practice to that of the pharmacist.

[0047] With reference to FIG. 6, in some embodiments, the case-relevant medical data domains include a vitals medical data domain 212.sub.1, a ventilator medical data domain 212.sub.2, a laboratory-result medical data domain 212.sub.3, an imaging medical data domain 212.sub.4, a nursing medical data domain 212.sub.5, and a pharmacy medical data domain 212.sub.6. In some embodiments, vitals medical data domain 212.sub.1 includes a blood pressure data field, a heart rate data field, a body temperature data field, a respiratory rate data field, and a pulse oximetry data field. In some embodiments, vitals medical data domain 212.sub.1 includes trended, historical vitals data taken from the patient within seventy-two hours prior to the patient rounds. In some embodiments, ventilator medical data domain 212.sub.2 includes a time-of-intubation data field, a mode-of-mechanical-ventilation data field, an initial-ventilator-settings data field, a changes-to-ventilator-settings data field, a duration-of-mechanical-ventilation data field, and a blood-gas data field. In some embodiments, laboratory-result medical data domain 212.sub.3 includes a pH data field, a K+ data field, a Bilirubin data field, a lactate data field, a blood cultures data field, a platelets data field, and a PT/INR data field. In some embodiments, imaging medical data domain 212.sub.4 incudes a report data field, a MRI data field, a CT data field, and an ultrasound data field. In further embodiments, imaging medical data domain 212.sub.4 includes one or more source images. In some embodiments, nursing medical data domain 212.sub.5 includes a cognition data field, a daily-activities data field, a caregiver-support data field, a home-environment data field, a health-history data field, a symptom-status data field, a medication-issues data field, a wounds data field, an incisions data field, an emotional status data field, and a pain-scores data field. In some embodiments, pharmacy medical data domain 212.sub.6 includes a medical history data field, an allergies data field, a contraindications data field, a current-medications data field, a renal-and-hepatic-dosing data field, a patient-specific-factors data field, and a therapeutic-equivalents data field.

[0048] FIGS. 7A and 7B are diagrams showing video displays 58 independently positioned to locations in space that avoid obstructing eye-contact sightlines 262 between different pairs of rounding leader 241.sub.1, order-entry rounding professional 240.sub.2, and scheduled presenting rounding professional 240.sub.3. Video displays 58 preferably are suitably positioned so that each of video displays 58 is set below each sightline 262. Rounding leader 240.sub.1, order-entry rounding professional 240.sub.2, and scheduled presenting rounding professional 240.sub.3 periodically make eye contact while facing upright column assembly 12 in order to enhance communication during IP Patient Rounds.

[0049] FIG. 8 is an exemplary representation of a rounding checklist 220 setting forth data fields that are organized by case-relevant medical data domains 212 and evaluated by the medical professionals. Each case-relevant medical data domain 212 has a set of checklist fields 264 whose nomenclature is analogous to the respective nomenclature of the data fields of each case-relevant medical data domain 212. Checklist fields 264 each have an empty check-box 266 that indicates that each of the data fields has not been evaluated by rounding professionals 240. Once a checklist field has been evaluated by rounding professionals 240, a mark is placed in check-box 266 to indicate that checklist field 264 has been evaluated. The rounding leading ensures that each of checklist fields 264 is evaluated before concluding IP patient rounds.

EXAMPLE

[0050] The following example further describes and demonstrates embodiments within the scope of method 200. The example is given solely for the purpose of illustration and is not to be construed as limiting method 200, as many variations thereof are possible without departing from the spirit and scope of method 200. The example demonstrates the benefits of the disclosed multi-workstation computer display support structure 10 in concert with practice of method 200 in completing IP patient rounds in the ICU.

[0051] Rounding tool 204 retrieves from memory stores 208 case-relevant medical data 210 pertaining to an ICU clinical context from a set of case-relevant medical data domains 212. The set of case-relevant medical data domains 212 includes a vitals medical data domain 212.sub.1, a ventilator medical data domain 212.sub.2, a laboratory-result medical data domain 212.sub.3, an imaging medical data domain 212.sub.4, a nursing medical data domain 212.sub.5, and a pharmacy medical data domain 212.sub.6. Vitals medical data domain 212.sub.1 includes a blood-pressure data field, a heart-rate data field, a body-temperature data field, a respiratory-rate data field, and a pulse-oximetry data field. Each data field of vitals medical data domain 212.sub.1 includes trended, historical data taken from at least thirty-six hours prior to the initiation of IP patient rounds. Ventilator medical data domain 212.sub.2 includes a time-of-intubation data field, a mode-of-mechanical-ventilation data field, an initial-ventilator-settings data field, a changes-to-ventilator-settings data field, a duration-of-mechanical-ventilation data field, and a blood-gas data field. Laboratory-result medical data domain 212.sub.3 includes a pH data field, a K+ data field, a bilirubin data field, a lactate data field, a blood culture data field, a platelets data field, and a PT/INR data field. Imaging medical data domain 212.sub.4 includes a report data field, an MRI data field, a CT data field, and an ultrasound data field. Nursing medical data domain 212.sub.5 includes a cognition data field, a daily-activities data field, a caregiver-support data field, a home-environment data field, a health-history data field, a symptom-status data field, a medication-issues data field, a wounds data field, an incisions data field, an emotional status data field, and a pain-scores data field. Pharmacy medical data domain 212.sub.6 includes a medical history data field, an allergies data field, a contraindications data field, a current-medications data field, a renal-and-hepatic-dosing data field, a patient-specific-factors data field, and a therapeutic-equivalents data field.

[0052] Rounding protocols 202 incorporate CDRs relevant to vitals rounding protocol 202.sub.1, ventilator rounding protocol 202.sub.2, laboratory-result rounding protocol 202.sub.3, imaging rounding protocol 202.sub.4, nursing rounding protocol 202.sub.5, and pharmacy rounding protocol 202.sub.6.

[0053] Rounding tool 204 generates a set of rounding protocols 202, rounding checklists 220, and rounding cues 222, with each of the set of rounding protocols 202, rounding checklists 220, and rounding cues 222 being set forth in an EHR System-based flowsheet 224. Rounding tool 204 assimilates case-relevant medical data 210 of the set of case-relevant medical data domains 212 into the set of rounding protocols 202; vitals medical data domain 212.sub.1 is assimilated into a vitals rounding protocol 202.sub.1; ventilator medical data domain 212.sub.2 is assimilated into a ventilator rounding protocol 202.sub.2; laboratory result data domain 212.sub.3 is assimilated into a laboratory-result rounding protocol 202.sub.3; imaging medical data domain 212.sub.4 is assimilated into an imaging rounding protocol 202.sub.4; nursing medical data domain 212.sub.5 is assimilated into a nursing rounding protocol 202.sub.5; and pharmacy medical data domain 212.sub.6 is assimilated into a pharmacy rounding protocol 202.sub.6.

[0054] A profession-specific presentation schedule includes presentation of rounding protocols 202.sub.1, 202.sub.2, 202.sub.3, 202.sub.4, 202.sub.5, and 202.sub.6, of which rounding protocols 202.sub.1, 202.sub.2, 202.sub.3, and 202.sub.4 are presented at IP patient rounds by a rounding professional credentialed as a physician, physician's assistant, or nurse practitioner; nursing rounding protocol 202.sub.5 is presented at IP patient rounds by a rounding professional credentialed as a nurse practitioner, a registered nurse, licensed practical nurse, or clinical nurse specialist; and pharmacy rounding protocol 202.sub.6 is presented at IP patient rounds by a rounding professional credentialed as a registered pharmacist.

[0055] FIG. 9 is a diagram showing IP patient rounds taking place with use of computer display support structure 10 at a patient's bedside 242. IP patient rounds in the ICU begin when an inter-profession team of rounding professionals 240 arrives at patient's bedside 242 with a computer display support structure 10 configured to have workstations 244.sub.1, 244.sub.2, and 244.sub.3. Workstation 244.sub.1 is assigned to a rounding leader 240.sub.1, who is an attending physician. Workstation 244.sub.2 is assigned to an order-entry rounding professional 240.sub.2. Workstation 244.sub.3 is reserved for a presenting rounding professional 240.sub.3, who is scheduled to present on the case of a patient 254 according to the profession-specific presentation schedule.

[0056] Workstations 244.sub.1, 244.sub.2, and 244.sub.3 each have respective pairs of video displays 58.sub.1a/58.sub.2a, 58.sub.1b/58.sub.2b, and 58.sub.1c/58.sub.2c, a keyboard tray 70; a keyboard 72; and a computer mouse 74. Video displays 58.sub.1a, 581.sub.1b, and 58.sub.1c of each pair are designated as personalized video displays 256. Video displays 58.sub.2a, 58.sub.2b, and 58.sub.2c of each pair are designated as shared video displays 258. The EHR System distributes video sources 230 through a wireless network 260 to workstations 244.

[0057] Workstations 244.sub.1, 244.sub.2, and 244.sub.3 access video sources 230.sub.1, 230.sub.2, and 230.sub.3 (FIG. 6), respectively, as the video source of personalized video displays 256. Rounding-leader workstation 244.sub.1 has a video display source controller 94 that selects any one of video sources 230.sub.1, 230.sub.2, or 230.sub.3 as the video source of shared video displays 258 that are simultaneously viewable on video displays 58.sub.2a, 58.sub.2b, and 58.sub.2c.

[0058] Order-entry rounding professional 240.sub.2 takes position at workstation 244.sub.2 and initiates an order-entry dialog box in the EHR System on workstation 244.sub.2, using video source 230.sub.2. The order-entry dialog box (not shown) is an EHR System-based graphical control element that allows an EHR System user to modify the case-relevant medical data. These modifications include the addition of chart notes, requests for new laboratory orders, imaging orders, medication orders, transfer or discharge planning notes, and requests for consultation with medical professionals not part of the inter-professional team.

[0059] Rounding leader 240.sub.1 takes position at workstation 244.sub.1 and uses video display source controller 94 to select video source 230.sub.3 as the video source for shared video displays 258 and instructs the scheduled presenting rounding professional 240.sub.3 to take position at workstation 244.sub.3. Scheduled presenting rounding professional 240.sub.3 takes position at workstation 244.sub.3 and initiates vitals rounding protocol 202.sub.1 in the EHR System on workstation 244.sub.3 using video source 230.sub.3 to display vitals rounding protocol 202.sub.1.

[0060] Video displays 58 are independently positioned by rounding professionals 240.sub.1, 240.sub.2, and 240.sub.3 to locations in space that avoid obstructing eye-contact sightlines 262.sub.1, 262.sub.2, and 262.sub.3. Rounding professionals 240.sub.1, 240.sub.2, and 240.sub.3 periodically make eye contact while facing computer display support structure 10 in order to enhance communication during IP Patient Rounds. Personalized video displays 58.sub.1a, 58.sub.1b, and 58.sub.1c have display screens 60.sub.1a, 60.sub.1b, and 60.sub.1c, respectively. Display screens 60.sub.1a, 60.sub.1b, and 60.sub.1c are tilted to generally align with the sightlines of rounding professionals 240.sub.1, 240.sub.2, and 240.sub.3. Shared video displays 58.sub.2a, 58.sub.2b, and 58.sub.2c have display screens 60.sub.2a, 60.sub.2b, and 60.sub.2c, respectively. Display screens 60.sub.2a, and 60.sub.2b are selectively tilted to be viewable by rounding professional 240.sub.1 and rounding professional 240.sub.2, respectively. Display screen 60.sub.2c, is selectively tilted to be generally viewable by rounding professionals 240 (two shown in FIG. 9) not stationed at workstations 244, patient 254, or any other individual located near patient bedside 242.

[0061] Presenting rounding professional 240.sub.3 verbalizes to the inter-professional team the case-relevant medical data as prompted by rounding protocols 202, beginning with the vitals rounding protocol and then continuing in a consecutive order of the ventilator rounding protocol, the laboratory-result rounding protocol, and the imaging rounding protocol. After the imaging rounding protocol is completed, rounding leader 240.sub.1 instructs the rounding professional 240 who is assigned to present the nursing rounding protocol to take position at workstation 244.sub.3 and begin presenting and verbalizing the nursing rounding protocol. After the nursing rounding protocol is completed, rounding leader 240.sub.1 instructs the rounding professional 240 who is assigned to present the pharmacy rounding protocol to take position at workstation 244.sub.3 and begin presenting and verbalizing the pharmacy rounding protocol. Rounding leader 240.sub.1 ensures that the vitals checklist, ventilator checklist, laboratory-result checklist, imaging checklist, nursing checklist, and pharmacy checklist are completed.

[0062] If an EHR System-based flowsheet presents a rounding cue, rounding leader 240.sub.1 instructs the scheduled presenting rounding professional 240.sub.3 to pause the presentation to allow for the inter-professional team of rounding professionals 240 to investigate and respond. Rounding leader 240.sub.1 and order-entry rounding professional 240.sub.2 access the EHR System on workstations 244.sub.1 and 244.sub.2, respectively, to investigate or verify case-relevant medical data relevant to the rounding cue. Rounding leader 240.sub.1 uses video display source controller 94 to select either video source 230.sub.1 or 230.sub.2 to display information on shared video displays 258 to show the investigation and response in real-time to rounding professionals 240 not stationed at workstations 244. Rounding leader 240.sub.1 listens to questions and comments from rounding professionals 240 regarding the investigation, allowing them to offer medical opinion on what clinical decisions should be made.

[0063] If the case-relevant medical data need to be modified in order to include additional chart notes, requests for new laboratory orders, imaging orders, medication orders, transfer or discharge planning notes, or requests for consultation with medical professionals not part of the inter-professional team, the orders or modifications will be made by order-entry rounding professional 240.sub.2. Rounding leader 240.sub.1 will use video display source controller 94 to select video source 230.sub.2 as the video source to display information on shared video displays 258 to allow rounding professionals 240 to simultaneously review the modifications to the case-relevant medical data in real-time.

[0064] After the vitals rounding protocol, ventilator rounding protocol, laboratory-result rounding protocol, and imaging rounding protocol, nursing rounding protocol, and pharmacy rounding protocol are complete, rounding leader 240.sub.1 uses video display source controller 94 to select video source 230.sub.2 as the video source to display information on shared video displays 258 and instructs the order-entry rounding professional 240.sub.2 to complete an order-readback step. An order-readback step includes a verbalization by the order-entry rounding professional 240.sub.2 to the rounding professionals 240 of new chart notes, laboratory orders, imaging orders, medication orders, transfer or discharge planning notes, or requests for consultation with medical professionals not part of the inter-professional team. Rounding professionals 240 simultaneously review the order-readback step graphically on shared displays 258 in real-time.

[0065] Once rounding professionals 240 have completed rounding protocols 202, modifications to the case-relevant medical data 210, and an order-readback step, all modifications and orders will be signed by rounding leader 240.sub.1.

[0066] It will be obvious to those having skill in the art that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. The scope of the present invention should, therefore, be determined only by the following claims.