Post on 10-Apr-2020
Atrial Fibrillation in the Rural Community – is it any different?
Dr Allison Morton
Heartcare WA
SJOG Bunbury
People? Spot the difference…
What about the location?
Equipment?
Hazards?
So… are there differences?
• People – No
• Location – Yes
• Equipment – Yes
• Hazards - Yes
Atrial Fibrillation
• What is AF and why does it happen
• Where are we at preventing AF
• How hard do we /should we look for AF • Does asymptomatic AF matter
• Balancing stroke risk and bleeding risk
• Rate v Rhythm how to decide
• What else is out there?
8
Ball et al. MJA 202 (1) · 19 January 2015
By 2034, AF prevelance expected to be over 600,000 patients
• 1 in 4 adults over age 40 develop AF in their lifetime
• Incidence increases with age: 2 to 3 cases per 1000/yr at age 55-64 y, and upto 35 cases per 1000/yr between age of 85-94
• AF is more common in whites than in black and Indo-Asian people
• First-ever ischemic stroke: prevalence of AF 15-25%, and incidence 5%
• New-onset AF 10% (AMI) and 20%(HF)
• Genetic pre-disposition
Epidemiology
Extracardiac
Factors:
Hypertension
Obesity
Sleep apnea
Hyperthyroidism
Alcohol/drugs
Atrial Structural
Abnormalities:
Fibrosis
Dilation
Ischemia
Infiltration
Hypertrophy
Inflammation
Oxidative stress
Atrial tachycardia
remodeling
Genetic Variants:
Channelopathy
Cardiomyopathy
RAAS activation
Autonomic
nervous system
activation
Atrial Electrical
Abnormalities:
↑Heterogeneity
↓Conduction
↓Action potential duration/refractoriness
↑Automaticity
Abnormal intracellular Ca++
handling
AFP
ath
op
hys
iolo
gy
What makes someone have AF?
Triggers
Substrate
Age, hypertension, OSA,alcohol, IHD,weight etc
alcohol, infection, ischaemia, post surgery, thyrotoxicosis
Diagnosis?
• Is this a clinical diagnosis?
• What do you need to be diagnosed with AF?
Detection of AF
• Get people into the habit of feeling their pulse
• Symptom based ECG recording • 12 lead, holter, PAR, 30 day recording
• Routine screening • B/P machines, Sports heart rate monitors, Smart phone apps
• Implantable devices • Pacemakers, ICDs
• Implantable loop recorders
Diagnosis of AF
• Conventional recording methods • Patient controlled devices
• I phone, hand held recorders
• 15 people identified with undiagnosed AF at risk of stroke (n=1000 screen)
• AF education/awareness raising • Cost-effective intervention
• Pharmacists well placed to deliver
education, screening and referral
AF prevalence 6.7% (67/1,000) Automated iECG for AF detection 98.5% sensitivity 91.4% specificity.
The incremental cost-effectiveness ratio* of extending iECG screening into the community $AUD5,988 per Quality Adjusted Life Year gained $AUD30,481 for preventing one stroke. * based on 55% warfarin prescription adherence
What investigations are needed once you think you have found AF? • ECG – remember its an ECG diagnosis – don’t forget the
masqueraders – the automatic analysis is often wrong…
• Bloods – exclude reversible causes e.g. intercurrent infection, thyrotoxicosis
• Assessment for causes
• Alcohol history and advice
• Echo – needed to determine valvular vs non-valvular, to assess LV function
• Can be hard to get • Clinical skills important here
Goals of Management in AF
Management of AF has two broad objectives:
• Relief of symptoms
• Prevention of complications, including thromboembolism (particularly stroke) and heart failure
These objectives can be achieved by:
• Lifestyle modification
• Risk-stratified antithrombotic therapy
• Rate control – Accept AF and make sure ventricular rate not to fast.
• Rhythm control- Strive to maintain SR with drugs, DC cardioversion and ablation
Management Principles of AF
20
Cornerstones of AF Management
Control of symptoms
Rate Control Anticoagulation Rhythm Control
Th
era
pe
uti
c G
oa
ls Control of symptoms
Treatment or prevention of Tachycardia Induced Cardiomyopathy (CMP)
Reduction in Hospitalizations
Reduction in Hospitalizations
Prevention of thromboembolism
Minimization of bleeding risk
Rate Control vs Rhythm Control
FAVOURING RATE CONTROL FAVOURING RHYTHM CONTROL
Persistant AF Paroxysmal AF or newly detected AF
Less symptomatic More symptomatic
Age ≥ 65 y Age < 65 y
Hypertension No hypertension
Previous failure of antiarrythmic drug
No previous failure of antiarrythmic drug
Patient preference Patient preference
Approach to selecting drug therapy for
ventricular rate control
The Causes of Ischaemic Stroke
25 Leyden JM, et al. Stroke. 2013;44(5):1226-1231.
Causes of Ischaemic Stroke
%
Small vessel disease 11
Large artery atherosclerosis
16
Cardio-embolic 42
Other causes 6
Undetermined 25
Strokes Due to AF: …are due to large artery cerebral occlusion and are associated with a doubling of poor outcome (death or non-fatal stroke) two weeks after
ischaemic stroke
International Stroke Trial. Lancet 1997; 349: 1569-1581
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
Dead at 2 weeks Dead at 6 months
Mo
rtal
ity without AF
with AF
Severe Disability Is Increased in Patients With Stroke due to AF
73.3
58.3
36.4
30 32.5
16.3 15.8
10.9
0
10
20
30
40
50
60
70
80
acute phase 3 months 6 months 12 months
Seve
re D
isab
ility
(%
of
stro
ke p
atie
nts
)
with AF
without AF
Lin HJ, et al. Stroke. 1996;27:1760-1764
Definition and Scores for CHADS2 and CHA2DS2-VASc
Score
CHADS2
Congestive HF 1
Hypertension 1
Age ≥75 y 1
Diabetes mellitus 1
Stroke/TIA/TE 2
Maximum score 6
CHA2DS2-VASc
Congestive HF 1
Hypertension 1
Age ≥75 y 2
Diabetes mellitus 1
Stroke/TIA/TE 2
Vascular disease (prior MI, PAD, or aortic plaque)
1
Age 65–74 y 1
Sex category (i.e., female sex)
1
Maximum score 9
CHA2DS
2-VASc Score
Stroke Risk %
0 0
1 1.3
2 2.2
3 3.2
4 4.0
5 6.7
6 9.8
7 9.6
8 12.5
9 15.2
Annual Stroke Risk
Stroke risk stratification in non valvular AF
Risk Factors Points
Hypertension (> 160 mm Hg systolic) 1
Abnormal renal or hepatic function 1-2
Stroke 1
Bleeding history or anemia 1
Labile INR (TTR < 60%) 1
Elderly (age > 75 years) 1
Drugs (antiplatelet, NSAID) 1-2
High risk (> 4%/year) ≥4
Moderate risk (2-4%/year) 2-3
Low risk (< 2%/year) 0-1
HAS-BLED Score Estimates risk of major bleeding for patients on anticoagulation for
atrial fibrillation
Risk of Major Bleeding Increases with the HAS-BLED Score1
0
2
4
6
8
10
12
14
0 1 2 3 4 5 6 7 8 9
Ble
ed
s p
er
10
0 p
ati
en
t-ye
ars
30 1. Pisters R, et al. CHEST. 2010;138(5):1093-1100. 2. Olesen JB, et al. J Thromb Haemost. 2011;9:1460-1467.
Bleeding Risk Category2
HAS-BLED Score
Low 0-1
Intermediate 2
High ≥ 3
What’s available?
• NOACs
• Warfarin
• LA appendage occlusion
• Surgery
Warfarin Complexity
• Multiple targets in clotting pathway (procoagulant and anticoagulant)
• Vitamin K interaction
• Genetic variability
• Near the centre of drug interaction universe
• Initiating dose is guesswork
• Narrow therapeutic window
Haemorrhage After Warfarin Initiation
• 125,195 patients with AF age 65 and over
• 5 year follow-up after commencing warfarin
• Overall haemorrhage rate was 3.8% (95% CI, 3.8-3.9%) per person-year
• First 30 days - major haemorrhage rate: • 11.8% (95% CI, 11.1-12.4%) per person-year, all patients
• 16.7 % (95% CI, 14.3-19.4%) - patients with CHADS2 of ≥ 4
• Subsequent follow-up period: • 8.7% (10,840) attended hospital for haemorrhage
• 18.1% (1,963) died in hospital, or within 7 days of being discharged 33 Gomes T, et al. CMAJ. 2013;185(2):E121-E127.
Simple things can be hard….
• Visiting for blood tests
• Phoning results through..
Narrow Therapeutic Range with VKA for AF
Target INR
(2.0-3.0)
<1.5 1.5–1.9 2.0–2.5 2.6–3.0 3.1–3.5 3.6-4.0 4.1-4.5 >4.5
0
20
40
60
80 Ev
ents
/ 1
00
0 p
atie
nt
year
s Intracranial haemorrhage
Ischaemic stroke
The anticoagulant effect of vitamin K antagonists are optimized when therapeutic doses are maintained within a very narrow range
Hylek EM, et al. N Eng J Med 2003; 349:1019-1026 International Normalised Ratio (INR)
Warfarin : a flawed and somewhat surprising survivor from the 60’s
Alternatives to Warfarin
• NOACS • Consider renal impairment
• Associated with lower risk of intracranial bleeding
• If INR is well controlled less benefit
• Left Atrial Appendage Occlusion • Numerous devices becoming available
• Two devices are TGA approved
• Only one has randomized data
• Growing registry data
LAA Closure (LAAC) Devices
LAA Clip
EXCLUDE Trial (completed)
• AtriClip Device was FDA
approved in 2010 for LAA closure • No specific indication for Stroke
Reduction ClinicalTrials.gov identifier: NCT00779857
PLAATO WATCHMAN™
Device ACP
Surgical Ligation
“Safety and Efficacy of Left Atrial
Appendage Occlusion Devices”
Observational Study (retrospective) • To compare LARIAT® vs. WATCHMAN™
• LARIAT currently does not have a specific
indication for LAA Closure or Stroke
Reduction ClinicalTrials.gov identifier: NCT01695564
Stroke Treatment Options: LAA Ligation,
LAA Clips and LAA Closure
• First LAAC
device
(2001)
• Device no
longer
available
• Only LAAC device with 2
Randomized Controlled
Trials
• FDA approved with specific
indication to reduce the risk
of thromboembolism ClinicalTrials.gov identifiers:
NCT00129545 (PROTECT AF)
NCT01182441 (PREVAIL)
• US Trial halted in
2013
• AMPLATZER™
Cardiac Plug
Clinical Trial
ClinicalTrials.gov identifier:
NCT01118299
SH-230506-AD June15
Meta-Analysis Shows Comparable Primary Efficacy Results to Warfarin
Source: Holmes DR, et al. Holmes, DR et al. JACC 2015; In Press. Combined data set of all PROTECT AF and PREVAIL WATCHMAN patients versus chronic warfarin patients
HR p-value
Efficacy 0.79 0.22
All stroke or SE 1.02 0.94
Ischemic stroke or SE 1.95 0.05
Hemorrhagic stroke 0.22 0.004
Ischemic stroke or SE >7 days 1.56 0.21
CV/unexplained death 0.48 0.006
All-cause death 0.73 0.07
Major bleed, all 1.00 0.98
Major bleeding, non procedure-related 0.51 0.002
0.01 0.1 1 10
Favors WATCHMAN Favors warfarin
Hazard Ratio (95% CI)
SH-230506-AD June15
Role of LA appendage occlusion
• Think about it for patients who: • Can’t have anticoagulation
• High CHADSVASC and High HASBLED score
• Stroke despite adequate anticoagulation
• Need referral to Cardiologist
42
Annual risk
of
stro
ke, %
Stroke Risk Persists Even in Asymptomatic/Intermittent AF
• The risk of stroke with asymptomatic or intermittent AF is comparable to that with permanent AF1,2
1. Hart RG, et al. J Am Coll Cardiol 2000;35:183–7 2. Flaker GC, et al. Am Heart J 2005;149:657–63
Observed rate of ischaemic stroke1
Stroke risk category Low Moderate High
0
2
4
6
8
10
12
14
Intermittent AF
Sustained AF
ESC 2012 Guidelines: Selection of Patients for Anticoagulation1
Non-valvular atrial fibrillation Valvular atrial fibrillation
< 65 years and lone AF including women
Stroke risk assessment using CHA2DS2-VASc
0 1 ≥2
Assess bleeding risk (HAS-BLED score);
consider patient values/preferences
Novel oral anticoagulants:
rivaroxaban, dabigatran
apixaban
Vitamin K antagonist No antithrombotic therapy
Oral anticoagulant
Yes
1. Camm AJ et al. Eur Heart J 2012;33:2719–47.
Adapted from Camm, 20121
Are the New Agents Better than Warfarin?
• More effective
• Safer
• Good for Rural patients
• No blood tests
• Reversal agents available
48
Choosing between NOACs Characteristic Considerations Suggested NOAC
HAS-BLED ≥3 Agent/dose with lowest bleeding incidence
Dabigatran 110 mg Apixaban
Previous GI bleeding, or current high risk
Agent with lowest reported GI bleeding incidence
Apixaban
High risk of ischaemic stroke, low bleeding risk
Agent/dose with best ischaemic stroke reduction
Dabigatran 150 mg
Previous stroke Best-investigated agent or greatest reduction of secondary stroke
Rivaroxaban Apixaban
CAD, previous MI or high-risk for ACS/MI
Agent with a positive effect in ACS Dabigatran 150mg Rivaroxaban
Renal impairment Agent less dependent on renal clearance
Rivaroxaban Apixaban
Reversal Agent Rural communities Dabigatran
ACS: acute coronary syndromes; CAD: coronary artery disease; GI: gastrointestinal; MI: myocardial infarction Savelieva I & Camm AJ. Clin Cardiol 2014;37:32–47.
What is non-valvular AF?
• Atrial fibrillation in the setting of which valvular problem(s) is an example of non-valvular atrial fibrillation
• A) Mild tricuspid regurgitation
• B) Moderate to severe aortic regurgitation
• C) Mild mitral stenosis
• D) A bioprosthetic aortic valve
• E) All of the above
What is non-valvular AF?
• Atrial fibrillation in the setting of which valvular problem(s) is an example of non-valvular atrial fibrillation
• A) Mild tricuspid regurgitation
• B) Moderate to severe aortic regurgitation
• C) Mild mitral stenosis
• D) A bioprosthetic aortic valve
• E) All of the above
What is Non-valvular atrial fibrillation
• Valvular AF • Mechanical prosthetic valve
• Haemodynamically significant Mitral Stenosis (moderate or severe)
When Does the Risk of Bleeding Outweigh the Risk of Stroke?
• In more than 99% of patients the risk of ischaemic stroke is greater than the risk of bleeding on anticoagulants
• Anticoagulation may be associated with a net disadvantage in a small number of patients with a truly low risk of stroke (CHA2DS2-VASc = 0) who have a moderately elevated bleeding risk (HAS-BLED = 1-2)
Friberg L, et al. Circulation. 2012;125(19):2298-2307.
Who Not to Anticoagulate
• Definitely not1,2,3,4
• Clinically significant active bleeding • Drug allergy/hypersensitivity
• Probably or possibly not1,2,3,4
• CHA2DS2-VASc = 05
• Significant comorbid disease (cardiac, hepatic, renal) • Uncontrolled hypertension • Advanced age • Previous haemorrhagic event • Active drug / alcohol abuse 1. Product information, Eliquis® (apixaban), most recent amendment 29th of April 2013.
2. Product information, Pradaxa® (dabigatran etexilate), most recent amendment 25th January 2013. 3. Product information, Xarelto® (rivaroxaban), most recent amendment 3rd of April 2012. 4. Product information, Coumadin (warfarin), most recent amendment 11th of July 2006. 5. Friberg L, et al. Circulation. 2012;125:2298-2307.
54
Reversal agents – current and in development
• Idarucizumab (Praxbind) – Bunbury, Narrogin, Geraldton, Kalgoorlie
• Andexanet alfa (AnXa, PRT064445)
• Aripazine (Perosphere, PER977)
55
Idarucizumab • Anti-dabigatran humanized Fab
developed by Boehringer Ingelheim1
• Reduces blood loss and mortality in dabigatran-anticoagulated animal model2
• Phase III trial RE-VERSE AD: A Study of the RE-VERSal Effects of Idarucizumab on Active Dabigatran
• Real world experience is encouraging
FDA: Food and Drugs Agency (USA) 1. van Ryn J et al. Circulation 2012;126:A9928. 2. Honickel M et al. Crit Care 2014;18(Suppl 1):P99. 3. ClinicalTrials.gov NCT02104947.
Fully humanized antibody fragment
(Fab)
So… are there differences?
• All people are similar so treatment options are the same – i.e. same considerations and contraindications to medications regardless of where we live
• But…. • Access to healthcare is different
• Jobs are different and may be isolated without phone signal etc
• Simple things are harder
• Testing may be harder
Special Rural circumstances…
Simple advice can make the difference in emergencies
RFDS?
• Should all RFDS planes carry Idaruciximab?
• Give for industrial accidents when transfer to hospitals may take time – may be life saving
• Snake bites – may be life saving
What’s on the horizon?
One stop AF clinics from Heartcare
• Diagnosis
• Echo
• Testing for ischemia
• Management plans
• Same day DCCV if appropriate (pre-arranged after d/w GP)
ECG App
• Enables reliable live reporting of ECGs
• Advice while your patient still with you
So… When considering AF, is it a disadvantage to live in a Rural
community?
I know where I’d rather live…
Thank you