1. Angina Pectoris – What to do when Standard Therapy Fails John C. Cedarholm, MD FACC
Interventional Cardiologist
Disclosures - None
2. Stable Coronary Artery Disease 6.4 million Americans with Stable CAD
400,000 new cases each year
Previous MI
Previous Acute Coronary Syndrome
Stable Angina Pectoris
CAD with Silent Ischemia
3. Angina Severity and Mortality
4. Stable CAD: Multiple treatment options
5. 55 yr old female with stable angina
6. Revascularization for Stable CAD 1 year after PCI or CABG
25 to 60% of patients still have ongoing angina
Many patients are deemed “inoperable”
Anatomy not suitable for PCI or CABG
Co-morbidities make procedure too high risk
7. 82 year old with stable angina, but anatomy not ideally amenable to PCI
8. 70 yr old with severe refractory angina
9. 62 year old with CABG 5 years ago and severe refractory angina
10. Persistent Ischemia (Angina) Despite Optimal Revascularization
11. Stable CAD: Multiple treatment options
12. Chronic CAD – Conventional Medical therapy Decrease Myocardial Oxygen demand
Decrease in HR (Beta blockers and some Calcium Channel Blockers)
Decrease in Myocardial Contractility (BB and some CCBs)
Increase Oxygen supply
Long Acting Nitrates
Calcium Channel Blockers
13. Chronic ischemic heart disease: Treatment gaps Many patients have relative intolerances to maximum doses of traditional antianginal agents (?-blockers, CCBs, and nitrates) Nitrates, beta-blockers, and calcium channel blockers (CCBs), the 3 major classes of antianginal/anti-ischemic agents, are the mainstay of angina treatment.
However, many patients, particularly the elderly, cannot tolerate full doses of beta-blockers, calcium antagonists, or nitrates.
Additionally, beta-blockers and many CCBs have similar (and, hence, additive) depressive effects on BP, heart rate, and atrioventricular conduction, limiting their use in combination to less-than-optimal doses.
Nitrates, beta-blockers, and calcium channel blockers (CCBs), the 3 major classes of antianginal/anti-ischemic agents, are the mainstay of angina treatment.
However, many patients, particularly the elderly, cannot tolerate full doses of beta-blockers, calcium antagonists, or nitrates.
Additionally, beta-blockers and many CCBs have similar (and, hence, additive) depressive effects on BP, heart rate, and atrioventricular conduction, limiting their use in combination to less-than-optimal doses.
14. Understanding Angina at the Cellular Level
Ischemia is associated with disruptions in cellular sodium and calcium homeostasis.
An enhanced late sodium current is likely to contribute to the sodium overload observed in ischemia. Late phase sodium channels have been shown to remain open longer in ischemic conditions. Sodium overload may result from decreased efflux and increased influx during ischemia, with greater intracellular accumulation of sodium as the duration of ischemia increases.
This is followed by an increase in intracellular Calcium through the Na/Ca exchanger on the myocyte wall.
Ju YK, Saint DA, Gage PW. Hypoxia increases persistent sodium current in rat ventricular myocytes. J Physiol. 1996;497 ( Pt 2):337-347.
Murphy E, Perlman M, London RE, Steenbergen C. Amiloride delays the ischemia-induced rise in cytosolic free calcium. Circ Res. 1991;68:1250-1258.
Jansen MA, van Emous JG, Nederhoff MG, van Echteld CJ. Assessment of myocardial viability by intracellular 23Na magnetic resonance imaging. Circulation. 2004;110:3457-3464.
Ischemia is associated with disruptions in cellular sodium and calcium homeostasis.
An enhanced late sodium current is likely to contribute to the sodium overload observed in ischemia. Late phase sodium channels have been shown to remain open longer in ischemic conditions. Sodium overload may result from decreased efflux and increased influx during ischemia, with greater intracellular accumulation of sodium as the duration of ischemia increases.
This is followed by an increase in intracellular Calcium through the Na/Ca exchanger on the myocyte wall.
Ju YK, Saint DA, Gage PW. Hypoxia increases persistent sodium current in rat ventricular myocytes. J Physiol. 1996;497 ( Pt 2):337-347.
Murphy E, Perlman M, London RE, Steenbergen C. Amiloride delays the ischemia-induced rise in cytosolic free calcium. Circ Res. 1991;68:1250-1258.
Jansen MA, van Emous JG, Nederhoff MG, van Echteld CJ. Assessment of myocardial viability by intracellular 23Na magnetic resonance imaging. Circulation. 2004;110:3457-3464.
16. MARISA - Efficacy
17. RAN080 - Efficacy Reference: ISE Table 32, pg. 103; pg. 109Reference: ISE Table 32, pg. 103; pg. 109
18. CARISA: Ranolazine Increases Exercise Time, Time to Angina Onset, and Time to 1 mm ST Depression
19. ERICA
20. ERICA
21. Ranolazine – hemodynamic affects No affect of Blood Pressure or Heart Rate
Can be added to Conventional Medical therapy, especially when BP and HR do not allow further increase in dose of BetaBlockers, Ca Channel blockers, and Long Acting Nitrates
22. ROLE: Long-term safety and tolerability in stable CAD patients Most common adverse events:
Dizziness – 11.8%
Constipation – 10.9%
9.7% discontinued due to adverse events
ECG findings:
Mean QTc prolongation 2.4 ms (P < 0.001 vs baseline)
QTc >500 ms in 10 patients (1.2%)
No cases of Torsades de Pointes The ROLE trial involved >80% of the patients who completed the MARISA or CARISA trials and voluntarily agreed to participate in an open-label extension program.
The average exposure to the drug was 2.82 years. Of the 746 patients participating in the study, 571 (76.7%) completed 2 years of open-label therapy; only 9.7% of the 23.3% who did not complete 2 years of therapy stopped the study drug due to adverse effects.
Aside from angina, the most common adverse effects were dizziness (11.8%) and constipation (10.9%). Adverse events rates were similar in patients who received ranolazine for the first time (n = 197 formerly in the placebo group), and 549 patients who had previously taken the drug.
Electrophysiological complications were not a major determinant of study drug discontinuation.
The ROLE trial involved >80% of the patients who completed the MARISA or CARISA trials and voluntarily agreed to participate in an open-label extension program.
The average exposure to the drug was 2.82 years. Of the 746 patients participating in the study, 571 (76.7%) completed 2 years of open-label therapy; only 9.7% of the 23.3% who did not complete 2 years of therapy stopped the study drug due to adverse effects.
Aside from angina, the most common adverse effects were dizziness (11.8%) and constipation (10.9%). Adverse events rates were similar in patients who received ranolazine for the first time (n = 197 formerly in the placebo group), and 549 patients who had previously taken the drug.
Electrophysiological complications were not a major determinant of study drug discontinuation.
23. Chronic CAD – Medical Therapy Beta-Blocker, Ca Channel Blockers, LAN, and Ranolozine have not been shown to improve survival
Beta-Blocker, Ca Channel Blockers, LAN, and Ranolozine have only been shown to reduce angina
Only aggressive Risk factor treatment has been shown to improve survival
24. Stable CAD: Multiple treatment options
25. EECP = Enhanced External CounterPulsation
27. EECP – Sequential inflation of cuffs
Retrograde aortic pressure wave
Increased Coronary perfusion pressure
Increased Venous Return
Increased Preload
Increased Cardiac Output
28. EECP -Simultaneous deflation of cuffs in late Diastole� Lowers Systemic Vascular Resistance
Reduced Preload
Decreased Cardiac workload
Decreased Oxygen Consumption
29. EECP 35 total treatments
5 days per week x 7 weeks
1 hour per day
31. MUST-EECP trial Only randomized, “blinded”, controlled trial
139 patients randomized to EECP or “sham” EECP
CCS Class I, II, and III angina
Evidence of CAD
Positive ETT
Arora RR, et al. JACC 1999;33(7):1833-1840
35. 2 Year Outcomes after EECP for Stable Angina
37. EECP - Indications Disabling stable angina (CCS Class III or IV)
CAD not amenable to revascularization
Anatomy not amenable to procedures
High risk co-morbidities that create excessive risk
May be beneficial in treatment of refractory CHF too, but generally this is not an approved indication for Medicare / Private Insurance
38. EECP – Contraindications and Precautions Arrhythmias that interfere with machine triggering
Bleeding diathesis
Active thrombophlebitis
Severe lower extremity vaso-occlusive disease
Presence of significant AAA
Pregnancy
39. EECP Appears to reduce severity of Angina
Has not been show to improve survival or reduce myocardial infarctions
40. Transmyocardial Laser Revascularization (TMLR) High power CO2 YAG and excimer laser conduits in myocardial to create new channels for blood flow
Possible explanations for effect
Myocardial angiogenesis
Myocardial denervation
Myocardial fibrosis with secondary favorable remodeling
41. TMLR – Direct Trial Only major blinded study
298 pts with low dose, high dose, or no laser channels
No benefit to TMLR vs Med therapy to
Patient survival
Angina class
Quality of life assessment
Exercise duration
Nuclear perfusion imaging
Leon MB, et al. JACC 2005; 46:1812
42. TMLR High Surgical Risk (Mortality 5%)
Mainly used as adjunct therapy during CABG to treat myocardial that cannot be bypassed
43. Chelation Therapy IV EDTA infusions
30 treatments over about 3 months
Cost – about $3,000
Aggressive Marketing
500 to 1000 physicians offering this treatment
44. Chelation Therapy - �claimed pathophysiologic affects
Liberation of Calcium in plaque
Lower LDL, VLDL, and Iron stores
Inhibit platelet aggregation
Relax vasomotor tone
Scavenge “free radicals”
45. Chelation Therapy –�Summary of trials Many case reports of benefit
Only 2 small double blind placebo controlled trials of 9 and 16 patients each
Both control and treatment groups showed similar subjective and physical performance improvements
PLACEBO effect only
ACC/AHA – Class III indication, with level C evidence
46. Stable CAD: Multiple treatment options
47. SAFE-LIFE: Evaluation of intensive lifestyle intervention Michalsen et al randomized 101 patients with established CAD to a 1-year lifestyle intervention program (n = 48) or to a group that received printed lifestyle advice only �(n = 53).
The lifestyle intervention program began with a 3-day nonresidential retreat, followed by weekly 3-hour meetings for 10 weeks, and finally 2-hour meetings every other week for �9 months.
Participants in the lifestyle intervention program received advice on the Mediterranean diet in one-on-one sessions, group discussions, and cooking classes. Regular exercise and increased daily physical activity were strongly recommended. Subjects in this group also practiced various relaxation techniques according to personal choice, including mediation, guided imagery, and yoga. They also practiced techniques to reduce cognitive and affective components of stress.
Michalsen et al randomized 101 patients with established CAD to a 1-year lifestyle intervention program (n = 48) or to a group that received printed lifestyle advice only (n = 53).
The lifestyle intervention program began with a 3-day nonresidential retreat, followed by weekly 3-hour meetings for 10 weeks, and finally 2-hour meetings every other week for 9 months.
Participants in the lifestyle intervention program received advice on the Mediterranean diet in one-on-one sessions, group discussions, and cooking classes. Regular exercise and increased daily physical activity were strongly recommended. Subjects in this group also practiced various relaxation techniques according to personal choice, including mediation, guided imagery, and yoga. They also practiced techniques to reduce cognitive and affective components of stress.
48. SAFE-LIFE: Reduction in angina at 1 year with intensive lifestyle intervention The severity of chest pain (as assessed by the 6-point Likert scale) decreased by 31% in the lifestyle intervention group and by 13% in the advice-only group (P = 0.015).
Frequency of angina attacks decreased by 54% in the lifestyle intervention group and increased by 11% in the advice-only group (P = 0.01).
This study provides further evidence for inclusion of comprehensive lifestyle modification in a CV prevention program.
The severity of chest pain (as assessed by the 6-point Likert scale) decreased by 31% in the lifestyle intervention group and by 13% in the advice-only group (P = 0.015).
Frequency of angina attacks decreased by 54% in the lifestyle intervention group and increased by 11% in the advice-only group (P = 0.01).
This study provides further evidence for inclusion of comprehensive lifestyle modification in a CV prevention program.
49. Stable CAD: Multiple treatment options
50. Invasive Treatment of CAD Acute Coronary Syndrome and Acute MI
Aggressive treatment unquestionably shown to save lives and reduce future MIs!!
Stable Angina Pectoris
What is the role of Coronary Revascularization?
51. Revasculariz ation for Stable CAD�Survival Benefit? CABG better than Medical Therapy for LM disease (VA Coop Study)
CABG better than Medical Therapy for 3 vessel
CAD than involves Prox LAD (European Coronary Surgery Study)
CABG better than Medical Therapy for 3 vessel CAD with low EF (CASS)
52. What is the definitive role of PCI in chronic angina and stable CAD? PCI improves angina and exercise capacity
However, compared to optimal medical therapy, �does PCI
Prolong survival?
Reduce risk of subsequent MI?
Reduce hospitalization for unstable angina?
Decrease need for subsequent CABG?
Improve quality of life? While PCI relieves angina and improves exercise capacity in the short term, its long-term benefits are less certain.
Its impact on disease progression and thromboembolic events is not known.
In addition, PCI does not abolish the need for a second coronary revascularization procedure.
While PCI relieves angina and improves exercise capacity in the short term, its long-term benefits are less certain.
Its impact on disease progression and thromboembolic events is not known.
In addition, PCI does not abolish the need for a second coronary revascularization procedure.
53. ACIP: Two-year cumulative all-cause mortality rates for the treatment strategies At 2 years, all-cause mortality rates were 6.6%, 4.4%, and 1.1% in the angina-guided, ischemia-guided, and revascularization strategies, respectively. The revascularization strategy was significantly different from the other two strategies.
There was no significant difference in all-cause mortality between the angina-guided and ischemia-guided strategies.
At 2 years, all-cause mortality rates were 6.6%, 4.4%, and 1.1% in the angina-guided, ischemia-guided, and revascularization strategies, respectively. The revascularization strategy was significantly different from the other two strategies.
There was no significant difference in all-cause mortality between the angina-guided and ischemia-guided strategies.
54. SWISSI II: Treatment effect on primary outcome During the 10.2-year mean follow-up, the primary endpoint occurred in 28% and 64% of the PCI and anti-ischemic therapy groups, respectively (adjusted HR 0.33, 95% CI 0.20-0.55, �P < 0.001).
During the 10.2-year mean follow-up, the primary endpoint occurred in 28% and 64% of the PCI and anti-ischemic therapy groups, respectively (adjusted HR 0.33, 95% CI 0.20-0.55, P < 0.001).
55. COURAGE: Treatment effect on primary outcome As an initial management strategy in patients with stable CAD, PCI added to optimal medical therapy did not reduce the primary composite endpoint of death and nonfatal MI, or reduce major cardiovascular events, as compared with optimal therapy alone during follow-up.
The primary outcome (a composite of death from any cause and nonfatal MI) occurred in 211 patients in the PCI group and 202 patients in the medical therapy group.
The estimated 4.6-year cumulative primary-event rates were 19.0% in the PCI group and 18.5% in the medical-therapy group (unadjusted HR for the PCI group 1.05, 95% CI 0.87-1.27, P = 0.62).
As an initial management strategy in patients with stable CAD, PCI added to optimal medical therapy did not reduce the primary composite endpoint of death and nonfatal MI, or reduce major cardiovascular events, as compared with optimal therapy alone during follow-up.
The primary outcome (a composite of death from any cause and nonfatal MI) occurred in 211 patients in the PCI group and 202 patients in the medical therapy group.
The estimated 4.6-year cumulative primary-event rates were 19.0% in the PCI group and 18.5% in the medical-therapy group (unadjusted HR for the PCI group 1.05, 95% CI 0.87-1.27, P = 0.62).
56. COURAGE: Treatment effect on angina Both treatment groups had a substantial reduction in the prevalence of angina during �follow-up.
The only significant difference between the 2 treatment strategies was a reduced prevalence of angina in the PCI group at 1 and 3 years; however, by 5 years there �was no significant difference between groups in freedom from angina.
Most of the increase in freedom from angina in the medical-therapy group took place �at 1 year, with a further improvement at 5 years.
Both treatment groups had a substantial reduction in the prevalence of angina during follow-up.
The only significant difference between the 2 treatment strategies was a reduced prevalence of angina in the PCI group at 1 and 3 years; however, by 5 years there was no significant difference between groups in freedom from angina.
Most of the increase in freedom from angina in the medical-therapy group took place at 1 year, with a further improvement at 5 years.
57. COURAGE: Change in quality-of-life scores Assessments of quality of life were based on questionnaires, with data collected at 1, 3, 6, and 12 months, then annually thereafter.
Results of the SAQ pointed to a slight advantage of PCI over optimal medical therapy out to 3 years of follow-up, with similar results thereafter.
Assessments of quality of life were based on questionnaires, with data collected at 1, 3, 6, and 12 months, then annually thereafter.
Results of the SAQ pointed to a slight advantage of PCI over optimal medical therapy out to 3 years of follow-up, with similar results thereafter.
58. 60 year old banker with 4 months of stable angina
59. Revascularization with PCI and CABG Acute Coronary Syndrome and Acute MI
Clearly shown to improve survival
Chronic Stable Angina
Goal may be to just reduce symptoms and improve quality of life
“INOPERABLE” or “Not a Candidate” for PCI – these are relative terms
60. 64 year old with refractory angina�Pre and post Stenting
61. 60 year old plumber with stable angina
62. Stable CAD: Multiple treatment options
