andre douen md,phd,frcpc,faha adjunct professor, university of ottawa director west gta regional...
TRANSCRIPT
Andre Douen MD,PhD,FRCPC,FAHAAdjunct Professor, University of Ottawa
Director West GTA Regional Stroke Program,Chief, Division of Neurology,
Trillium Health Partners, Mississauga
Clinical Stroke Update Etobicoke FHT 2014.06.19
Transient ischemic attack
• A forthcoming stroke is often preceded by a TIA
• Etiologic not different from definite stroke
• Clinically < 24-hour duration, but....
• New MRI lesions seen in up to 80% of patients with clinical course of TIA
• TIA and stroke have a similar risk for early recurrent stroke, ~ up to 14% within the first 2 weeks
• Opportunities for prevention – Rapid W/U in SPC
Johnston et al. JAMA 2000; 284: 2901–2906.Warach, Kidwell. Neurology 2004; 62: 359–360.
Mohr. Neurology 2004; 62 (8 Suppl 6): S3–S6.
Case 1 Mrs W.S., LLM
• 62 y/o obese lawyer with GERD
• PMH:o Smoking 1ppd x 30 yrso No HTN, No DM, No Cholesterol at her
last visit in Jan 2013
Douen
Case 1 Mrs W.S.• HPI
o Speaking with niece regarding a legal matter when..
o Slurred speech Loss of speecho Right facial droop, Right arm weak and
incoordinated
• EMS o Symptoms resolved with 15 mino Patient declines transfer to ERo Elects to wait overnight and call fam doc
in AM for a quick visit and head to office after to prepare for prosecuting a medico-legal case Douen
CaseExamination in office the next day:
BP = 160/90 ; HR 90 and regular. No neurological deficits, but with right carotid bruit
Current Meds: Losec, Tylenol prn for back pain
Next steps:– DDX ? [Is this a TIA, if not what could it be ?]– If TIA, what’s her risk of recurrent stroke ? – Is there a tool that can help assess this ? – What investigations is needed now ?– What should I do...panic ? [Will I get sued if I make
the wrong decision ? ]– Should I start Meds ?– Maybe the ER might be a safe bet ?
Stroke/TIA Mimics• Migraine (aura)• Vertigo • Syncope (vaso-vagal, cardiogenic, metabolic)• Seizure (simple, CPSz, grand mal with “Todd’s”)• Structural brain lesions (tumors, AVM, subdurals,
abscess)• Radiculopathies (focal numb/weak)• Neuropathies (focal (CTS, ulnar, radial) or diffuse
numb ± weak)• Dementia (confusion)• Neuroses• Stress/Anxiety• Malingering
Case 1 Mrs W.S.
• Needs to get back to office ASAP• Thinks this “TIA” thing is non-sense, as she
feels she was a bit stressed over the case and that caused her symptoms
• Not keen on extensive investigations for such a minor episode
• She might comply if she can schedule these in between her practice over the next 2 months
• If it was a “TIA” (she is skeptical) then she wants to estimate her risk of recurrence
Douen
Stroke Recurrence
• Antecedent stroke/TIA is the most significant indicator of a possible recurrent stroke
• High incidence of early recurrent stroke following either TIA or minor stroke
• Early recognition and treatment significantly reduces the risk of stroke recurrence
Johnston et al. JAMA 2000; 284: 2901–2906.Warach, Kidwell. Neurology 2004; 62: 359–360.
Mohr. Neurology 2004; 62 (8 Suppl 6): S3–S6.
The ABCD2 Score
Indicator Criteria Score
A Age 1 point for age 60 /1B Blood pressure 1 point for BP >140/90 mmHg /1
C Clinical features2 points for focal weakness or1 point for speech disturbance
/2
D Duration of symptoms1 point for duration 10-59 minutes2 points for duration >60 minutes
/2
D Diabetes 1 point for presence of diabetes /1 Total Score /7
The ABCD2 Score
Indicator Criteria Score
A Age 1 point for age 60 /1B Blood pressure 1 point for BP >140/90 mmHg /1
C Clinical features2 points for focal weakness or1 point for speech disturbance
/2
D Duration of symptoms1 point for duration 10-59 minutes2 points for duration >60 minutes
/2
D Diabetes 1 point for presence of diabetes /1 Total Score /7
1
1
2
1
0
5
Risk Factors for Stroke Within 90 Days of a TIAThe ABCD2 Score
0
5
10
15
20
25
0 1 2 3 4 5 6 7
2 Days7 Days30 Days90 Days
StrokeRisk(%)
ABCD2 Score
LowRisk
HighRisk
IntermediateRisk
Lancet 2007;369:283-92.
Case 1 Mrs W.S.
• After reviewing ABCD2 and showing her these charts, she is now more agreeable to comply with investigations
• She wants to know, how do stroke and TIA occur, and also what investigations she would need
• She also wants to know about how soon she can have the studies completed
• She will reluctantly cancel appointments to attend these investigations
• What can she take to prevent this from recurring?
Douen
Douen
(Anticoagulation)
Antiplatelet
Pathophysiology: Multiple Mechanisms requiring urgent W/U
Case
Next steps:– DDX ? [Is this a TIA, if not what could it be ?]– If TIA, what’s her risk of recurrent stroke ? – Is there a tool that can help assess this ? – What investigations are needed now ? How soon ?– What should I do...panic ? [Will I get sued if I make
the wrong decision ? ]– Should I start Meds ?– Maybe the ER might be a safe bet ?
What investigations would you consider for this patient (why, when)?
ECHO (TEE,TTE) Routine labs Carotid doppler CT scan ECG Holter Angiogram (CTA / MRA)
2. What priority would you give these investigations?
a) ECG > ECHO> Telemetry/Holter>Carotid Doppler>CT
b) CT>Telemetry/Holter>ECHO>Carotid Doppler> ECG
c) ECHO > Holter > CT>Carotid Doppler > ECG
d) CT> Carotid Doppler = ECG > Holter > ECHO
e) CT = ECG = Carotid Doppler > Holter > ECHO
2. What priority would you give these investigations?
a) ECG > ECHO> Telemetry/Holter>Carotid Doppler>CT
b) CT>Telemetry/Holter>ECHO>Carotid Doppler> ECG
c) ECHO > Holter > CT>Carotid Doppler > ECG
d) CT> Carotid Doppler = ECG > Holter > ECHO
e) CT = ECG = Carotid Doppler > Holter > ECHO
3. Which of the following statements about the management of patients with TIA or minor stroke are correct:a. If possible work-up should be completed within 2-3
days
b. Early treatment and intervention could reduce stroke recurrence by 80%
c. Early management through a stroke clinic is likely superior to routine out patient management.
d. For those with ipsilateral severe stenosis revascularization is recommended within 2 weeks
e. All of the above
3. Which of the following statements about the management of patients with TIA or minor stroke are correct:a. If possible work-up should be completed within 2-3
days
b. Early treatment and intervention could reduce stroke recurrence by 80%
c. Early management through a stroke clinic is likely superior to routine out patient management.
d. For those with ipsilateral severe stenosis revascularization is recommended within 2 weeks
e. All of the above
EXPRESSUrgent treatment of TIA and minor stroke
Outcome Phase 1 Phase 2
Time to clinic visit - 3 days ( 2 -5) 1 day (0-3)
Time to prescription- *20 days (8 -53) 1 day (0-3)
90 day risk of stroke- ~10.3% 2.1%**
*No prescriptions given. Patients advised to see family MD
** 80% reduction in risk of recurrent stroke
Timeliness of Care In Patients with TIA The OXVASC Study
Neurology 2005;65:371-5.
Neurology 2005;65:371-5.c
The Consequences of Delaying Access to CareThe OXVASC Study
Neurology 2005;65:371-5.
Stroke Patients
Neurology 2005;65:371-5.c
30.2
14.817.6
3.3
11.4
4
8.9
-2.9
-10
0
10
20
30
40 70-99% Stenosis
50-69% Stenosis
0-2 4-122-4 >12
Time From Event to Randomization (weeks)
5 Year ARRIn Stroke
(%)
Timing of Surgical InterventionThe NASCET and ECST Studies
Lancet 2004;363:915-24.
Case: Mrs. S
► 56 y/o F with HTN, DM, Dyslipid (ASA, Crestor, HCTZ, Amlodipine, Januvia, Diamicron, Metformmin)
► Presents with ® hemisphere (MCA) mild stroke► CTA neck and head shows no significant ICA
stenosis but with severe stenosis (~ 70%) of right MCA
► Treatment Angioplasty/Stenting ? Continued aggressive medical management ?
SAMMPRIS Randomized Clinical trialRationale (NEJM 2011, 365:11-993)
Management of atherosclerotic intracranial arterial stenosis is an important cause of stroke that is
► Percutaneous transluminal angioplasty and stenting vs agressive medical management
► Patients with recent TIA or stroke due to 70 to 99% stenosis of a major intracranial artery
► The primary end point was stroke or death within 30 days after enrollment or after revascularization
SAMMPRIS Randomized Clinical trialResults (NEJM 2011, 365:11-993)
► Enrollment stopped after 451 patients underwent randomization, because the 30-day rate of stroke or death was 14.7% in the PTAS group (nonfatal stroke, 12.5%; fatal stroke, 2.2%) and 5.8% in the medical-management group (nonfatal stroke, 5.3%; non–stroke-related death, 0.4%) (P 0.002).
SAMMPRIS Randomized Clinical trialConclusions (NEJM 2011, 365:11-993 ; Lancet 2014, 383: 333 – 341)
► In patients with intracranial arterial stenosis, aggressive medical management was superior to PTAS because the risk of early stroke after PTAS was high and because the risk of stroke with aggressive medical therapy alone was lower than expected.
► Initial benefits maintained in a 32 month follow-up (Lancet 2014)
Case
CT brain: Nil acute
ECG: AF with HR of 95
Is a Doppler still required ??
Meds: …. ???
What is incidence of AF in acute stroke ??
Case
CT brain: Nil acute
ECG: AF with HR of 95
Is a Doppler still required ?? YES
Meds: …. ???
What is incidence of AF in acute stroke ??
Cardioemboli
• AF: o High incidence of paroxysmal AF in acute strokeo 13.5% detection of new onset AF using a
combination of serial ECG daily x 3 days plus Holtero Overall ~20 % of acute stroke patient have AF
(Douen et al, Stroke 2008)
• Up to 3 million people worldwide suffer strokes related to AF each year1-3
1. Atlas of Heart Disease and Stroke, World Health Organization, September 2004. Viewed at http://www.who.int/cardiovascular_diseases/en/cvd_atlas_15_burden_stroke.pdf
2. Wolf PA, Abbott RD, Kannel WB. Atrial fibrillation as an independent risk factor for stroke: the Framingham Study. Stroke 2. 1991:22(8);983-8
3. Lin HJ, Wolf PA, Kelly-Hayes M, et al. Stroke severity in atrial fibrillation: the Framingham study. Stroke 1996;27:1760-4
EMBRACE
Prolonged Ambulatory Cardiac Monitoring Improves the Detection and Treatment of Atrial Fibrillation in Patients with Cryptogenic Stroke: Primary Results from the EMBRACE Multicenter Randomized Trial Gladstone DJ, International Stroke Conference, Honolulu, 2013
n=572 (age 73±9yrs;); recent ischemic cryptogenic stroke/TIA, no known AF; 16 stroke centers
Randomized to wear either an event-triggered cardiac monitor up to 30 days or a repeat 24 h Holter
New AF detected among 16% of 30-day monitoring group, vs. 3% in the Holter group (p<0.001)
Presented by: Gladstone DJ, International Stroke Conference, Honolulu, HI
30-day Holter0%
2%
4%
6%
8%
10%
12%
14%
16%
18%16%
3%
New AF
P<0.001
AF increases the risk of stroke
• AF is associated with a pro-thrombotic stateo ~5- 17 fold increase in stroke risk
• Risk of stroke is the same in patients with chronic of PAF2,3
• There is a high 30-day mortality (~25%) following cardioembolic stroke4
• AF-related stroke has a 1-year mortality of ~50%5
1. Wolf PA, et al. Stroke 1991;22:983-988; 2. Rosamond W et al. Circulation. 2008;117:e25–146; 3.Hart RG, et al. J Am Coll Cardiol 2000;35:183-187; 4. Lin H-J, et al. Stroke 1996; 27:1760-1764; 5. Marini C, et al. Stroke 2005;36:1115-1119.
Stroke Severity in Patients with AF
Gladstone DJ et al. Stroke. 2009; 40:235-240
Effect of first ischemic stroke in patients with AF (n=597)%
of
pati
ents
Disabling(discharge mRS ≥ 2)
Fatal
60%
40%
0%
50%
30%
20%
10%
59.7%
20%
mRS=modified Rankin ScaleAF=atrial fibrillation
Ischemic Stroke Associated With AF is Typically More Severe Than Stroke due to Other Etiologies
% b
edri
dden p
ati
ents
on a
dm
issi
on (
mR
s* =
5)
(P < 0.0005)
40
30
20
10
0
50
41.2%
23.7%
With AF Without AF
Dulli DA, et al. Neuroepidemiology. 2003;22:118-123.
Odds ratio for bedridden state following stroke due to AF was 2.23 (95% CI, 1.87-2.59; P < 0.0005)
*mRS=modified Rankin ScaleAF=atrial fibrillation
Increased mortality after ischemic stroke in patients with AF persists for up to 8 years
•Population-based study of 3530 patients with ischaemic stroke•Marini C et al. Stroke 2005;36:1115–9
Patients with AF (n=869)
Patients without AF (n=2661)
Years after stroke
An
nu
al m
ort
alit
y ra
te (
%)
0
10
20
30
40
50
60 Mortality
1 2 3 4 5 6 7 8
AF associated with increased risk of recurrent stroke
Marini C et al. Stroke 2005;36:1115–9
Patients with AF
Patients without AF
Recurrent stroke after ischemic stroke
Months after first stroke
Cu
mu
lati
ve p
rob
abili
ty
of
recu
rren
ce (
%)
10
12
8
6
4
2
00 2 4 6 8 10
P=0.0398
Missed Opportunities for Stroke Prevention in AF:Registry of the Canadian Stroke Network 2003-2007
Gladstone Stroke 2009;40:235
No antithrombotics Dual antiplatelets Single antiplatelet Warfarin: therapeutic Warfarin: sub-therapeutic
Preadmission medications in patients with known AF admitted with acute
ischemic stroke (high-risk cohort, n=597)
Preadmission medications in patients with known AF and a previous ischemic
stroke/TIA admitted with acute ischemic stroke
(very high-risk cohort, n=323)
Need for greater efforts to prescribe and monitor appropriate antithrombotic therapy to prevent stroke in patients with AF
AF prevalence increases with age
1. Go AS, et al. JAMA 2001;285:2370-2375.Age
AF
pre
va
len
ce
(%)
General population
>60 years >80 years
9
8
7
6
5
4
3
2
1
0
10. Patients with AF who has spontaneous intracranial hemorrhage while using OAC should never be placed back on OAC
True
False
10. Patients with AF who have spontaneous intracranial hemorrhage while using OAC should never be placed back on OAC True False
Cause of bleed needs to be assessed: Elevated INR Concomitant use of antiplatelet agent Overdose of NOAC CrCl Drug abuse H/o trauma/fall HGB, plts etc Risk benefit ratio
CHADS 2
CHADS2 Score* Stroke rate
0 1.9 (1.2 -3.0)
1 2.8 (2.0-3.8)
2 4.0 (3.1-5.1)
3 5.9 (4.6-7.3)
4 8.5 (6.3 -11.1)
5 12.5 (8.2-17.5)
6 18.2 (10.5-17.4)
*Score 0: Patients can be administered aspirin*Score 1: Patients can be on aspirin and anticoagulant therapy*Score ≥2: Patients should be on anticoagulant therapy
• 1 point for Congestive Heart Failure
• 1 point for Hypertension
• 1 point for Age ≥ 75 years• 1 point for Diabetes Mellitus • 2 points for Prior Stroke or
TIA
CHA2DS2-VASc Score
• 1 point for Congestive Heart Failure/LV Dysfunction
• 1 point for Hypertension
• 2 points for Age ≥ 75 years
• 1 point for Diabetes Mellitus
• 2 points for Prior Stroke or TIA1 or TE2
• 1 point for Vascular Disease3
• 1 point for Age 65-74 years
• 1 point for Sex category (female gender)
CHA2DS2-VASc Score*
One year event rate (95% CI) of hospital admission and death due to thromboembolism† per 100 person
year
0 0.78 (0.78 – 1.04)
1 2.01 (1.70 – 2.36)
2 3.71 (3.36 – 4.09)
3 5.92 (5.53 – 6.34)
4 9.27 (8.71 – 9.86)
5 15.26 (14.35 – 16.24)
6 19.74 (18.21 – 21.41)
7 21.5 (18.75 – 24.64)
8 22.38 (16.29 – 30.76)
9 23.64 (10.62 – 52.61)
*Score 0: Patients can be administered aspirin*Score 1: Patients can be administered aspirin or anticoagulant therapy*Score ≥2: Patients should be administered anticoagulant therapy†Includes peripheral artery embolism, ischemic stroke, and pulmonary embolism
1TIA = Transient ischemic attack; 2TE = Thromboembolism3Prior myocardial infarction, peripheral artery disease, aortic plaque1. Lip GY et al. Chest 2010;137:263-272
2. Olesen JB, et al. BMJ 2011;342:d1243. Task Force or the Management of Atrial Fibrillation of the ESC.
Eur Heart J 2010;31:236902429
CHA2DS2-Vasc score Mrs W.S. = 4 (hypertension, age 65-74 yr, female)
CCS 2012 Update to AF Guidelines
CHADS2 = 0
*Aspirin is a reasonable alternative in some as indicated by risk/benefit
CHADS2 = 1 CHADS2 ≥ 2
No anti-thrombotic
Assess Thromboembolic Risk (CHADS2)
No additional
risk factors for stroke
Increasing stroke risk
ASA OAC* OAC* OAC*
Either female sex or vascular
disease
Age ≥ 65 yrs or combination
of female sex and vascular
disease
*OAC = Oral anticoagulant ASA = Aspirin
Consider stroke risk vs. bleeding risk
Only when the stroke risk is low and bleeding risk is high does the risk/benefit ratio favor no antithrombotic therapy
1. Skanes AC, et al. Can J Cardiol 2012;28:125-136.
Case - Mrs W.S. Risk:
62-year-old - < 75 : 0HTN : 1No h/o CHF : 0No DM : 0TIA symptoms : 2
CHADS Risk = 3
CHADS-VASC Risk = 4 (HTN, F, Stroke symptoms)
11. For patient with cardioembolic (AF) stroke/TIA which of the following Antitrhombotic Agents is recommended for secondary prevention
a. Warfarin
b. Dabigatran (Pradax)
c. Rivaroxaban (Xaralto)
d. Apixaban (Eliquis)
e. Clopidogrel + ASA
f. ASA/ER Dipyridamole
11. For patient with cardioembolic (AF) stroke/TIA which of the following Antitrhombotic Agents is recommended for secondary prevention
a. Warfarin
b. Dabigatran (Pradax)
c. Rivaroxaban (Xarelto)
d. Apixaban (Eliquis)
e. Clopidogrel + ASA
f. ASA/ER Dipyridamole
1. Haas S. J Thromb Thrombolysis. 2008;25:52-60.2. Adapted from Ezekowitz MD et al. Mayo Clin Proc. 2004;79:904-913.
Narrow efficacy window + multiple interactions
Challenges of Oral Anticoagulation Therapy (OAC)
hard to use/take1=
ISCHEMIC STROKE INTRACRANIAL BLEED
Od
ds
Rat
io
05.0 6.0 8.0
INR
1.0 2.0 3.0 4.0 7.0
5.0
15.0
10.0
1.0
20.0
INR control: clinical trials v. clinical practice
INR* control in clinical trial versus clinical practice (TTR**)
1. Kalra L, et al. BMJ 2000;320:1236-1239 * Pooled data: up to 83% to 71% in individualized trials; 2. Matchar DB, et al. Am J Med 2002; 113:42-51.
** TTR = Time in Therapeutic Range (INR2.0-3.0)
66%
44%
9%
18%
38%
25%
<2.0 2.0 – 3.0 >3.0 INR
% o
f e
ligib
le p
ati
en
ts
rec
eiv
ing
wa
rfa
rin
Clinical trial1
Clinical practice2
*INR = International normalized ratio
12. Despite the challenges of using warfarin, the lack of antidote for the NOAC makes them less valuable than warfarin in cardioembolic prophylaxis in acute stroke
True
False
12. Despite the challenges of using warfarin, the lack of antidote for the NOAC makes them less valuable than warfarin in cardioembolic prophylaxis in acute stroke
True
False
New OAC• Dabigatran Etexilate (Direct thrombin inhibitor)
in Atrial Fibrillation (RE-LY)
• Rivaroxaban (Factor Xa inhibitor)in Atrial Fibrillation (ROCKET-AF)
• Apixaban (Factor Xa inhibitor)in Atrial Fibrillation (AVERROES; ARISTOTLE)
• Dabigatran Etexilate (Direct thrombin inhibitor) in Atrial Fibrillation (RE-LY)
• Rivaroxaban (Factor Xa inhibitor)in Atrial Fibrillation (ROCKET-AF)
• Apixaban (Factor Xa inhibitor)in Atrial Fibrillation (AVERROES; ARISTOTLE)
Pros: No MonitoringRapid onset of actionSimilar or better bleeding profile to warfarin
Con: No antidote, no clear way of measuring effect
Prevention of Stroke
Connolly N Engl J Med 2010;363:1876; Patel N Engl J Med 2011;365:883; Granger N Engl J Med 2011;365:981
0.50 0.75 1.00 1.25 1.50
Dabigatran 110 mg BID
Dabigatran 150 mg BID
HR (95% CI)Warfarin betterComparator better
Rivaroxaban 20 mg QD
Apixaban 5 mg BID
Stroke or Systemic Embolism
Ischemic StrokeDabigatran 110 mg BID
Dabigatran 150 mg BID
Rivaroxaban 20 mg QD
Apixaban 5 mg BID
Superiorityp-value
0.29<0.001 0.12 0.01
0.350.03 0.59
0.42
0.90
0.65
1.11
0.76
0.88
0.79
0.94
0.92
Cross-trial comparisons must be interpreted with caution due to differing methodologies and patient populations.
Reducing the Bleeding Risk
HR (95% CI)Warfarin betterComparator better
0.50 0.75 1.00 1.250.25
Dabigatran 110 mg BID
Dabigatran 150 mg BID
Rivaroxaban 20 mg QD
Apixaban 5 mg BID
Intracranial Hemorrhage
ISTH Major BleedingDabigatran 110 mg BID
Dabigatran 150 mg BID
Rivaroxaban 20 mg QD
Apixaban 5 mg BID
Superiorityp-value
<0.001
<0.001
0.02 <0.001
0.0030.31 0.58
<0.001
Connolly N Engl J Med 2010;363:1876; Patel N Engl J Med 2011;365:883; Granger N Engl J Med 2011;365:981
0.80
0.93
0.30
0.41
0.67
0.42
1.04
0.69
Cross-trial comparisons must be interpreted with caution due to differing methodologies and patient populations.
AF Trials: Elements of Primary Endpoint:*Annual Event Rates
0.92
1.210.97 1.05
1.401.52
0.10
0.38
0.240.47
0.260.44
0.15
0.10
0.09
0.100.04
0.19
0
0.5
1
1.5
2
2.5
3Systemic EmbolismHemorrhagic StrokeIschemic/Unspecified Stroke
Dabi 150 mg Warfarin Apixaban Warfarin Rivaroxaban Warfarin
RELY ARISTOTLE ROCKET AF
%/y
ear
Connolly N Engl J Med 2010;363:1876; Patel N Engl J Med 2011;365:883; Granger N Engl J Med 2011;365:981
In recent trials, the majority of AF strokes were ischemic
Cross-trial comparisons must be interpreted with caution due to differing methodologies and patient populations.
†
*Patients experiencing multiple endpoints are included in multiple categories.†Systemic embolism result reported for RELY refers to pulmonary embolism.
CCS 2012 Update to AF Guidelines
When oral anticoagulant therapy is indicated, most patients should receive dabigatran, rivaroxaban, or apixaban, in
preference to warfarin
• Dabigatran and apixaban have greater efficacy and rivaroxaban has similar efficacy for stroke prevention
• Dabigatran and rivaroxaban have no more major bleeding and apixaban has less
• All three new oral anticoagulants have less intracranial hemorrhage and are much simpler to use
1. Skanes AC, et al. Can J Cardiol 2012;28:125-136.
Poor Prognosis in Warfarin-Associated Intracranial Hemorrhage
Despite Anticoagulant Reversal
Dowlatshahi D, et al. Stroke 2012. DOI: 10.1161/STROKEAHA.112.652065
Hematoma Growth
Significant hematoma growth despite INR correction with PCC.
This patient was treated with 1000 U of PCC and 10 mg vitamin K 98 minutes after baseline CT scan.
Repeat INR was 1.3, 42 minutes after PCC treatment and 1.2 the next day.
INR = international normalized ratio;
PCC = prothrombin complex concentrate
Dowlatshahi D, et al. 2012. DOI: 10.1161/STROKEAHA.112.652065
Poor Outcomes
Intracranial hemorrhage type Number In-hospital mortality*
Discharge mRS(Median IQR)†
Intraparenchymal 71 30 (42.3%) 5 (3)‡
Subdural 61 21 (34.4%) 3 (4)§
Epidural 1 0 3
Subarachnoid 8 1 (12.5%) 3 (3)
ICH = intracranial hemorrhage; mRS = modified Rankin Scale; IQR = interquartile range
*P = 0.3; †P=0.012; ‡mRS missing in 9; §mRS missing in 2
Outcome by anticoagulant-associated ICH
Dowlatshahi D, et al. 2012. DOI: 10.1161/STROKEAHA.112.652065
30 Day Mortality Associated with Intracranial vs Extracranial Bleeds
• Data from The AnTicoagulation and Risk Factors In Atrial Fibrillation (ATRIA) Study- a cohort of 13,559 adults with diagnosed nonvalvular atrial fibrillation who received care within Kaiser Permanente of Northern California, a large integrated
• health care delivery system. Risk of death 30 days after hospitalization for warfarin-associated intracranial hemorrhage versus major extracranial hemorrhage; 95% confidence intervals (CIs) (vertical bars). P value refers to the chi-square comparison of mortality rate of intracranial versus extracranial hemorrhage.
Fang et al, The American Journal of Medicine (2007) 120, 700-705
Intracranial Extracranial0
20
40
60
80
100
48.6
5.1
IntracranialExtracranial
Mo
rta
lity
at 3
0 d
ays
(%
)
P<0.001
• Prothrombin complex concentrates (PCC) therapy rapidly corrected INR in the majority of patients with anticoagulant-associated ICH, yet mortality and morbidity rates remained high
• Outcomes after anticoagulant-associated ICH can be devastating even with a reversal strategy
Conclusion
Dowlatshahi D, et al. 2012. DOI: 10.1161/STROKEAHA.112.652065
12. Despite the challenges of using warfarin, the lack of antidote for the NOAC makes them less valuable than warfarin in cardioembolic prophylaxis in acute stroke
True
False