Post on 18-Dec-2015
transcript
OMD - CE
Paul Hinchey MD, MBA, FACEPJose Cabanas MD, MPH, FACEP
The Plan
Update on important new EMS literature
Therapeutic hypothermia
EMS 12-lead ECG Discuss medication related events Understand the extent of medication errors and
their impact on patient care Discuss common strategies to prevent medical
errors Update on clinical performance improvement
activities
Science Update
What is optimal target temperature for
PCAC Therapeutic Hypothermia? Total 939 patients in randomized controlled
trial 36 International ICUs across Europe Study endpoint: mortality/neuro outcome 80% VF/VT; 20% Non VF/VT
NEJM (2013)
32-33 vs. 35-36 TH
Unwitnessed asystole cases not included
24% intravascular; 76% surface cooling
28 hours of total cooling
NEJM (2013)
Study Outcomes
36 3310
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20
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35
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60
52 535452
SurvivalPoor Neuro
NEJM (2013)
Study Outcomes
Conclusion
In unconscious survivors of OHCA of
presumed cardiac cause, TH at a targeted
temperature of 33°C did not confer a benefit
as compared with a targeted temperature of
36°C. Preventing Hyperthermia appears crucial. No changes in our current process for PCAC
Does Prehospital TH have benefits? Randomized clinical trial1,359 patients Seattle King County Medic 1 583 with VF; 776 non-VF Almost all patients cooled on ED arrival
JAMA (2013)
EMS cooling: up to 2L of 4C° LR Mean core temp decrease by 1.20 C° to ED EMS patients took 1 hr less to get to 34°C Study endpoints: mortality and neuro status EMS pts: 7-10mg pavulon + 1-2 mg valium
JAMA (2013)
Survival
No EMS TH EMS TH10
20
30
40
50
60
7064 63
1619
VFNon-VF
Neurological Status
No difference in Neuro Outomes
Important Results
• EMS TH higher cases of pulmonary edema. (p<.001)
• Remember Control group did NOT receive paralytics.
Conclusion
Prehospital TH reduced core temperature and reduced the time to reach a temperature of 34°C.
No improvement in survival or neurological status.
This is one study, no change in our system at this time.
How often are STEMI patients initial
ECG non-diagnostic?Do repeat ECGs have real value in
routine evaluation of CP patients? 41,560 STEMI patients in ACTION
Registry (2007-2010)
Results
For patients with an initial non-diagnostic
ECG (11%) , 72.4% (N= 3,305) had an ECG
diagnostic for STEMI within 90 minutes. No significant differences in the
administration of guidelines-recommended
treatments for STEMI.
Wait…..There’s more!
Do repeat 12-lead ECGs make a
difference?
Do repeat prehospital ECGs make
any difference in STEMI diagnosis?
Canadian Study
Prehosp Emerg Care 2012; 16:109-114
Retrospective Analysis of 325 consecutive prehospital STEMI’s
EKG on-scene, repeat en-route and pre ED entry 275 STEMI’s in First EKG (84.6%) 30 STEMI’s in second EKG (93.8%) 20 STEMI’s in third EKG (100%)
Prehosp Emerg Care 2012; 16:109-114
Take Home
1/10 STEMI cases not apparent in first 12-
lead ECG. ACS cases evolve – repeat 12-leads! Prehospital ECG’s save approx. 20-30
minutes in reperfusion time.
Patient Safety
Medical Errors
1999 Institute of
Medicine (IOM) report: 3-4% of hospital patients
are harmed by the health
care system 7% of hospital patients
are exposed to a serious
medication error 50,000 – 100,000 deaths/
yr from medical mistakes
Serious Safety Event Event that reaches the patient & results in (death, life-threatening consequences, or serious physical or psychological injury
Precursor Safety Event
Event that reaches the patient & results in minimal to no harm
Near Miss “Good Catch” An event that almost happened, but error caught by a detection barrier
PrecursorSafetyEvent
SeriousSafetyEvent
Near Miss Safety Event
“Good Catch”
Patient Safety Event
©2010 Healthcare Performance Improvement, LLC. ALL RIGHTS RESERVED.
Courtesy Dr. Edmond – SETON HRO
“Swiss cheese” model of accident causation
Some holes dueto active failures
Other holes due tolatent conditions
Successive layers of defences, barriers and safeguards
Hazards
Losses
System defences
Can you think about a particular patient safety event in our system?
Can you think of specific examples?
Wrong medication Wrong dose / route Unrecognized clinical deterioration Wrong procedure Tunnel vision / decision-making Treatment delay
What Kinds of Errors do Human Make?
3. Auto-Pilot
3 errors/1,000 acts25% of
healthcare errors
2.By the Rules
1 error/100 acts60% of
healthcare errors
1.Figuring it Out
30-60 errors/100 acts15% of
healthcare errors
Knowledge-based Rule-based Skill-based
Medication Related Events are common in prehospital care…
Medication Error
“Any preventable event that may cause or lead to inappropriate
medication use or patient harm while the medication is in the control of the health care professional, patient, or
consumer”
National Coordinating Committee-Medication Error Reporting and Prevention (NCC MERP); accessed at http://www.nccmerp.org/aboutMedErrors.html; Jan. 2012.
Medication Errors
Figure 2. Commonly studied medication errors as causes of adverse drug events (ADEs): percent of ADEs for each cause: Reducing and Preventing Adverse Drug Events To Decrease Hospital Costs. March 2001. Agency for Healthcare Research and Quality, Rockville, MD
Out-of-hospital environment
Emergency situationNo written orderNo external crosscheckNo electronic decision supportHigh‐risk medicationsDrug shortage issues and
constant substitutions
EMTPs completed pediatric patient
simulation scenarios Failure to use Broselow tape: 50% Incorrect use of Broselow tape: 47% Incorrect dosing:
Epinephrine: 68-73%
Diazepam: 47%;
Midazolam 60%
ATCEMS Medication Related Events
2012 20130
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ATCEMS Medication Related Events
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20122013
Fentanyl administration
We continue to see confusion with dosage calculation
1mcg/kg first dose (max 100mcg) 25mcg every 10 minutes if needed – max total
300mcg Goal is to reduce confusion Protocol committee looking at other
potential COG changes
Prevention of Medication Errors
Most providers have memorized the five
rights of medication administration Right patient, Right route, Right dose, Right
time and Right medication. These 5 “Rights” focus mostly on
individual performance. System-wide issues may impact the ability
for providers to perform the 5 “Rights”
Medication Safety Strategies
Standardization in medication administration
procedure Use of memory aids and checklists Risk-reduction strategies to minimize
opportunities for error Medication storage and packaging
Redundancies and independent backups Team-work crosscheck
Medication Errors
Performance improvement team actively
working in identifying additional ways to
eliminate medication related events in our
system More information to come with 2015 COG
update.
PI Updates
STEMI UpdateCardiac Arrest UpdateClinical Performance IndicatorsClinical Audits (Surveillance)
Reminder
PI Updates
Performance Improvement Activities
Performance Improvement Activities
17,730 PCR’s reviewed (2013) 560+ calls DMO Line
211 clinical events
45% self report rate Medical Director meetings
CY 2012 = 22
CY 2013 = 33
EMS Calls Reviewed (2013)
PCR’s Reviewed: (n=13,495) Trauma Activations (n=181) Stroke Activations (n=415) STEMI Activation/Feedback (n=271) ACS (n=2260) Altered Mental Status (n=5550) Seizure (n=3513) Stroke (n=635) Cardiac Arrest (n=670)
Clinical Audits (2013)
NTI (n=5) OTI (n=22) Surgical Airway (n=1) Diltiazem (n=42) Versed (n=605) Fentanyl (n=3,000)
Tourniquet (n=13) Pelvic Binder (n=3) Needle
Decompression (n=13) CPAP (n=305) Pacing (n=24) Cardioversion (n=5)
July-Dec 2013
High Risk Low Frequency Events (n=4,025)
Clinical Events Reviewed
Level 1 Level 2 Level 3 Near Miss Self Reports
2012 41 105 62 1 92
2013 53 134 23 1 93
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DMO Activity
Coun
t
STEMI
How important is to save
time if
the D2B time will beat the
90 minute goal?
43, 801 STEMI PCI patients
Median D2B of 83 min (IQR 6-109
min)
Examined D2B time vs. Mortality
2005-2006; 600 US Centers
Consecutive Patients
No Transfers
No Pre PCI thrombolytic treatments
Analysis repeated excluding patients
in shock
Analysis repeated using only D2B <
6 hours
Key Take Home Message for STEMI:
•Limit Scene Time•Identify STEMI early•Activating the PCI team makes a difference
We need to work harder…
Minimize on scene interventions Shorten time-to-First 12-lead Minimize total Scene Time
Remember prehospital STEMI Bundle▪ ASA, 12-lead (activation), PCI Center (< 90
balloon)
▪ NNT = 15 Harm avoided: Stroke, 2nd MI or Death
Cardiac Arrest
Cardiac Arrest Data, Analysis & CPR Quality
84,625 in hospital arrests 2000-2009 79.3% AS or PEA 20.7% VF or VT Survival to D/C 13% to 22.3%
In-Hospital Cardiac Arrest
Asystole and PEA survival about 13-
14% 40% significant, 17% severe
disability VF / VT survival 40% 25% Significant, 8% Severe Disability
New Engl J Med 2012; 367:1917-20
AHA Consensus Statement addressing four key areas: Metrics of CPR Performance Monitoring and feedback Team-level logistics issues Emphasis on CQI for resuscitation
Components of High Performance CPR
Chest compression fraction (CCF),
Chest compression rate
Chest compression depth
Chest recoil (residual leaning)
Ventilation.
Minimize Interruptions
Goal is to maximize the amount of time chest compressions generate blood flow
CCF is the proportion of time that chest compressions are performed during a cardiac arrest
Data on out-of-hospital cardiac arrest indicate that lower CCF is associated with decreased ROSC and survival
Chest
2013 Non-VF patients from ROC Network
64% Asystole, 28% PEA Median Compression Rate: 110/min ROSC 24.2% 2% Survival to D/C Increasing CCF = ROSC Target a CCF of 80%
Our EMS System Compression Fraction
89%
Compression Fraction
Janu
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Febr
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Mar
chAp
rilMay
June Ju
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Sept
embe
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Octob
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Novem
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91 9190
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2013 CPR Compression Fraction (Median)
Manual W/ Mechanical
Compression Fraction
Janu
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Febr
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chAp
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June Ju
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Sept
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87 8891 91
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88 88 8885
87
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91 91 90 90 9091
83
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2013 CPR Compression Fraction (Average)
Manual W/ Mechanical
Our System’s Cardiac Arrest Survival Rates
Current CARES Sites
As of January 2014
The clinical measures presented above have been approved by the EMS System Medical Director
* *Indicates incomplete quarter
National
CARES 10.1%
The clinical measures presented above have been approved by the EMS System Medical Director
* *Indicates incomplete quarter
National
CARES 30.8%
Performance improvement updates
Clinical Performance Indicators
Trauma Scene Time
16:39
09:42
Stroke Scene Time
15:32
10:57
STEMI Scene Time
19:02
11:52
Delays STEMI Scene Time
19 minutes on-scene, 10 minutes to first 12 lead.
NTG OS 23 minutes, 15 minutes to 12 lead, 19 minutes on-scene, 9 minutes to obtain12 lead 19 minutes, 5 minutes to 12 lead.
3 NTG on the scene prior to transport 15:35 on-scene, 10 minutes to 1st 12 lead 16 minutes on the scene, 6 minutes to the first 12 lead.
IV initiated prior to leaving the scene
Aspirin in ACS
96%
BGL in Altered Mental Status
94%
BGL in Seizure
94%
BGL in Stroke
96%
AHA Mission lifeline EMS System
Recognition Measures
D2B of ≤ 90 minutes now reads “an ideal of FMC -to-
device time. STEMI System goal of ≤ 90 minutes”
(1B)
FMC of 120 minutes or less is new target for patients
who arrive at a non-PCI center (1B)
D2B now officially transitioning to “E2B”
Mission Lifeline EMS RecognitionFMC to Device < 90 Minutes
88%
Mission Lifeline EMS Recognition
92%
Questions??
Paul.hinchey@austintexas.gov Jose.cabanas@austintexas.gov