COMMUNICATION INFORMATICS. Enrico Coiera.
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Transcript of COMMUNICATION INFORMATICS. Enrico Coiera.
Communication informaticsCommunication informatics
A few problems to focus the mind
• Modern health systems still struggle to improve quality and safety despite genuine motivation and resource allocation
• While hope springs eternal, Health ICT does have a history of repeated large scale have a history of repeated large scale implementation failure
• Why after so many years is all this still so hard in health, when other sectors like finance seem to have moved to fully digital work processes?
Four levels of system analysis
1. Algorithms
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nuevo.
2. ComputerPrograms
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3. HumanComputer Interaction
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4. Socio-technical systems
How many possible conversations can happen in a health service?
nurse nurse
3doctor patient doctor patient
GP Labn!
r!(n-r)!m =
3
10
Patient
Nominated3rd party
DoctorLaboratory
Labstaff
Labclinician
Computerinterpretation
LabData store
Patient Doctor
Doctor’s office
Laboratoryoffice
Courieroffice
CourierPractice Data store
CourierData store
The communication space is large
• Covell et al. (1985): 50% info requests are to colleagues, 26% personal notes
• Tang et al (1996): 60% of clinic is talk• Tang et al (1996): 60% of clinic is talk
• Safran et al. (1998): ~50% information transactions face to face, EMR ~10%, remainder was e/v-mail and paper
What happens in the communication space?
• Wilson et al. (1995): communication errors cause 17% of system problems, 84% potentially preventable
• Donchin et al. (1995): doctor nurse communication in ICU is 2% of work, but figures in 37% of errors
• Bhasale et al. (1998): communication contributes to ~50% adverse events in primary care
The communication space
• is the largest part of the health system’s information space
• contains a substantial proportion of the health system information ‘pathology’system information ‘pathology’
• is largely ignored in our informatics thinking• is where most information is acquired and
presented
Consequences of interaction complexity
• Many tasks, Many teams, task heterogeneity, parallelism, lead to …
• Breakdowns at interfaces: incomplete, inaccurate, delayed or failed message transmissiondelayed or failed message transmission
• Multitasking: Concurrent execution of two or more different tasks. Individual has control of sequencing etc
• Interruption: Forced multitasking. Individual suspends current task with variable warning.
Communication breakdowns at interfaces of care
Transitions at the boundaries of care
• Communication breakdowns often occur at the interfaces or transitions between care
• E.g.: sign-off, hand-off, handover, shift changes, sign out of patient from EDout of patient from ED
• Involve the transfer of rights, duties and obligations for care of a patient
• Inverse relationship between shift length and n times care is transferred
• Patients admitted by one resident and transferred to another next day have more tests and longer stay
(J Gen Intern Med 1990;5:501-5)
Communication breakdowns
• 2007 Review of 444 US surgical malpractice claims:– 13% involved 81 communication ‘breakdowns’– 73% breakdowns verbal, and 64% involved just 2 people– Commonly associated factors with breakdowns:
• Status asymmetry (74%)• Ambiguity about responsibilities (73%)• Ambiguity about responsibilities (73%)
– Most common events:• Resident failing to notify attending surgeon of critical events• Attending to attending handoffs
– 43% breakdowns associated with patient handoffs– 39% breakdowns associated with transfer in patient location
(J Am Coll Surg 2007 204(4);533-40)
Managing talk at the boundaries
• 89.5% of US EDs report no formal policy on patient sign out, 50% sign out only verbally, and 43% ‘rarely’ documented transfer of attending responsibility
(Acad Emerg Med 2007;14(2):192-6)
• Strategies:– Communication triggers e.g. ‘two challenge rule’ if unsafe – Communication triggers e.g. ‘two challenge rule’ if unsafe
situation not dealt with– Read-backs e.g. confirm understanding at handover– Standardised sign-out templates, which include critical fields
such as resuscitation (“code”) status– Computerised rounding and sign out - can halve n patients
missed at resident rounds and improve allocation of resident time to seeing patients pre-round
(J Am Coll Surg 2005;200(4):538-45).
Multitasking
Multitasking in the primary care consultation room
• Doctor’s use of a desktop resulted in:– Shorten responses to patient– Delayed responses to patient– Dr looked less at patient because looking at screen– Dr looked less at patient because looking at screen– Dr not hearing patient comments– Patients tried to judge when to talk based upon Drs
interactions with the computer
– (Greatbatch et al., 1993; Booth at al., 2001)
Impact of task switching
• Switch costs: responses take longer to initiate cf repetitive tasks 200 vs 500 ms; higher error rates
• Preparation costs: advanced knowledge of a switch and time to prepare reduces switch cost
• Residual costs: Even with preparation (600 ms or • Residual costs: Even with preparation (600 ms or more) can’t avoid some baseline switch cost
• Mixing costs: Performance recovery after switch always slower for mixed cf single task repetition
(Trends Cog Sci 2003:7;134-140)
"If a teenager is trying to have a conversation on an e-mail chat line while doing algebra, she'll suffer a decrease in efficiency, compared to if she just thought about algebra until she was done. People may think otherwise, but it's a until she was done. People may think otherwise, but it's a myth. With such complicated tasks [you] will never, ever be able to overcome the inherent limitations in the brain for processing information during multitasking."
Interruptions
Communication in the Emergency Department
• Face-to-face conversation 89.6%. • 30% of communication events were interruptions,
rate of 11.2 per hour• 10% of communication time involved two or more • 10% of communication time involved two or more
concurrent conversations (multitasking). • 12.7% of all events involved formal information
sources like the medical record.
(MJA, 2002;176:415-8)
Task and Role effects
ED interruption rates vary according to:
• Task loads measured by ‘shift intensity’ or time to see patients
(Isr J Emerg Med 2005;5:35-42)(Isr J Emerg Med 2005;5:35-42)
• Clinical role (and presumably task)– 15 interruptions/hr average– Registrars - 23.5/hr, 35% time– Nurse shift co-ordinators - 24.9/hr
• Most interruptions f2f and related to patient management
(Ann Emerg Med 2004;44:268-273)
ICU Ward rounds - conversation interrupted
• 75% time in communication• Conversation initiating interruptions
– 14/hr, 37% communication time– 14/hr, 37% communication time
• Turn-taking interruptions– 20/hr, 5.3% communication time
(IJMI, 2005;74:791-6)
Why the Interruptions?
• Poor asynchronous channels (email, voice mail), and reliance on synchronous ones (face to face, phone) and pager.
• Synchronous bias amongst staff• Synchronous bias amongst staff– pressure of work and ‘ticking-off’ the list– need for acknowledgement– face to face is high bandwidth– selfish local, not global reasoning
• A multitasking environment (requirement for parallel task execution) (BMJ, 1998;316:673-677)
Communication Policies
• UK Medical staff generated 2x as many interruptions as they received (43 vs 23)
• Policies are tactics to filter and prioritise messages (e.g. secretary).
• “I want to always be available…”• “I want to always be available…”• “...but I don't want to be interrupted.”• Receivers tried to assess urgency, caller, task based
upon poor information• Callers had no information about availability and so
either interrupted or failed to contact
Interruption and Error
• WM = those mechanisms involved in control, regulation and active maintenance of task information
• Interruptions challenge working memory (WM) capacitycapacity
• New tasks given during an interruption may interfere with existing tasks leading to disruption of WM processes:– forgetting of tasks.
– believing events have occurred, repeating forgotten events– decreased performance of original task
Resumption lag
• Time to restart a task after interruption double for an interrupted vs initiated task resumption (1.9 vs 3.8 s)
• Cue availability prior to interrupt reduces resumption laglag
• Suggests preparatory cognitive processes to mitigate interruption, similar to multitasking
• “interruption lag” - brief period prior to interrupt provides opportunity to prepare to resume and encode retrieval cues to facilitate resumption of primary task
(Altman, Trafton Cog Sci 2004)
The true costs of interruption
• Time penalty?– Experimentally, resumption lag can double when a task
switch is externally forced via an interruption.– Empirically, clinicians spend 29-55% shorter amount of – Empirically, clinicians spend 29-55% shorter amount of
time on interrupted tasks (Westbrook, Coiera et al., QSHC, 2010 in press)
– The clinical risk is cutting corners on tasks because of reduced available time
• Errors?– increase risk and severity of medication administration errors
(Westbrook, Day et al, Arch Int Med 2010 in press)
Reducing interruptions
• Shift from synchronous to asynchronous– Training clinicians to understand impact of interruptions and
costs of multitasking– More voice and e-mail + acknowledgment eg asynchronous
notification of lab results BUT unintended consequence is that if poorly designed, can result in more interruptionsthat if poorly designed, can result in more interruptions
– How? requests: e-directories - locally maintainable, rapidly updated, clinically oriented, personally annotated
– Who? Requests: Role-based call forwarding via programmable switch
– Making work ‘visible’ - whiteboards, active signs -> reduce memory load, recover from memory disruptions.
The Sacred and the Profane
Sacred (classic) making• The computer• The EMR• Terminologies
Profane (in the wild)• Paper• Communication • To-do lists • Terminologies
• System architectures• Intelligent decision
support technologies
• To-do lists • System implementation• System failures• Local customisation
Design challenges for health services
1. Clinicians operate with scarce cognitive resources, multiple team interfaces, multitasking and interrupting, leading to inefficiency and error.
2. We need to understand the current cognitive science literature about communication and task handling e.g. multitasking and about communication and task handling e.g. multitasking and interruption
3. We need to study communication and reasoning “in the wild” to discover just how it impacts clinical work
4. We need to start designing clinical environments which minimise boundaries, multitasking and interruption, and support clinicians becoming more effective at task management and resumption
Thank You
Cape Town International Convention Centrewww.medinfo2010.org