This document summarizes information about heart failure (HF), including:
1) HF is a major public health problem worldwide, affecting over 23 million people, with rates increasing with age.
2) Stages of HF range from risk factors to end-stage disease and influence treatment approaches.
3) Implantable devices like ICDs and CRT have been shown to improve symptoms and reduce mortality in HF, though guidelines around their use continue to be refined.
4) Ongoing research is exploring expanding the use of CRT to additional patient populations like those with narrow QRS complexes or milder disease.
RECENT ADVANCES IN THE MANAGEMENT OF REFRACTORY HEART FAILUREApollo Hospitals
Heart failure is a pathophysiological state in which structural or functional cardiac disorder impairs the ability of the heart to function as a pump to support the physiological circulation. The medical therapy remains the
mainstay of treatment in these patients. The medical therapy can improve the quality of life and the longevity in
these patients, but this becomes insufficient in refractory heart failure. The heart failure is considered refractory when patients continued to be symptomatic despite optimal dose of medications, characterized by advanced structural heart disease. These patients will need frequent hospitalizations and the overall prognosis is very poor.
RECENT ADVANCES IN THE MANAGEMENT OF REFRACTORY HEART FAILUREApollo Hospitals
Heart failure is a pathophysiological state in which structural or functional cardiac disorder impairs the ability of the heart to function as a pump to support the physiological circulation. The medical therapy remains the
mainstay of treatment in these patients. The medical therapy can improve the quality of life and the longevity in
these patients, but this becomes insufficient in refractory heart failure. The heart failure is considered refractory when patients continued to be symptomatic despite optimal dose of medications, characterized by advanced structural heart disease. These patients will need frequent hospitalizations and the overall prognosis is very poor.
Heart Failure with Preserved Ejection Fraction(HFpEF).ptxSarfraz Saleemi
Heart failure with preserved ejection fraction (HFpEF) is not one disease but a clinical syndrome presenting with symptoms of Heart Failure with a left ventricular ejection fraction (LVEF) ≥50 percent and evidence of cardiac diastolic dysfunction. (abnormal LV filling pattern and elevated filling pressures)
It is more common among older patients and women, and results from abnormalities of active ventricular relaxation and passive ventricular compliance. HFpEF should be part of differential diagnosis in patients with typical symptoms such as fatigue, weakness, dyspnea, orthopnea, paroxysmal nocturnal dyspnea, edema and clinical signs of chronic heart failure. Echocardiography features of normal ejection fraction with impaired diastolic function confirm the diagnosis.
Wolff–Parkinson–White syndrome (WPW) is one of several disorders of the conduction system of the heart that are commonly referred to as pre-excitation syndromes. WPW is caused by the presence of an abnormal accessory electrical conduction pathway between the atria and the ventricles. Electrical signals travelling down this abnormal pathway (known as the bundle of Kent) may stimulate the ventricles to contract prematurely, resulting in a unique type of supraventricular tachycardia referred to as an atrioventricular reciprocating tachycardia.The incidence of WPW is between 0.1% and 0.3% in the general population.Sudden cardiac death in people with WPW is rare (incidence of less than 0.6%), and is usually caused by the propagation of an atrial tachydysrhythmia (rapid and abnormal heart rate) to the ventricles by the abnormal accessory pathway.
La Dra. Ainara Lozano Bahamonde repasa las novedades incluidas en las últimas guías europeas en insuficiencia cardiaca presentadas en ESC Congress 2021.
Heart Failure with Preserved Ejection Fraction(HFpEF).ptxSarfraz Saleemi
Heart failure with preserved ejection fraction (HFpEF) is not one disease but a clinical syndrome presenting with symptoms of Heart Failure with a left ventricular ejection fraction (LVEF) ≥50 percent and evidence of cardiac diastolic dysfunction. (abnormal LV filling pattern and elevated filling pressures)
It is more common among older patients and women, and results from abnormalities of active ventricular relaxation and passive ventricular compliance. HFpEF should be part of differential diagnosis in patients with typical symptoms such as fatigue, weakness, dyspnea, orthopnea, paroxysmal nocturnal dyspnea, edema and clinical signs of chronic heart failure. Echocardiography features of normal ejection fraction with impaired diastolic function confirm the diagnosis.
Wolff–Parkinson–White syndrome (WPW) is one of several disorders of the conduction system of the heart that are commonly referred to as pre-excitation syndromes. WPW is caused by the presence of an abnormal accessory electrical conduction pathway between the atria and the ventricles. Electrical signals travelling down this abnormal pathway (known as the bundle of Kent) may stimulate the ventricles to contract prematurely, resulting in a unique type of supraventricular tachycardia referred to as an atrioventricular reciprocating tachycardia.The incidence of WPW is between 0.1% and 0.3% in the general population.Sudden cardiac death in people with WPW is rare (incidence of less than 0.6%), and is usually caused by the propagation of an atrial tachydysrhythmia (rapid and abnormal heart rate) to the ventricles by the abnormal accessory pathway.
La Dra. Ainara Lozano Bahamonde repasa las novedades incluidas en las últimas guías europeas en insuficiencia cardiaca presentadas en ESC Congress 2021.
ARTIFICIAL INTELLIGENCE IN HEALTHCARE.pdfAnujkumaranit
Artificial intelligence (AI) refers to the simulation of human intelligence processes by machines, especially computer systems. It encompasses tasks such as learning, reasoning, problem-solving, perception, and language understanding. AI technologies are revolutionizing various fields, from healthcare to finance, by enabling machines to perform tasks that typically require human intelligence.
Lung Cancer: Artificial Intelligence, Synergetics, Complex System Analysis, S...Oleg Kshivets
RESULTS: Overall life span (LS) was 2252.1±1742.5 days and cumulative 5-year survival (5YS) reached 73.2%, 10 years – 64.8%, 20 years – 42.5%. 513 LCP lived more than 5 years (LS=3124.6±1525.6 days), 148 LCP – more than 10 years (LS=5054.4±1504.1 days).199 LCP died because of LC (LS=562.7±374.5 days). 5YS of LCP after bi/lobectomies was significantly superior in comparison with LCP after pneumonectomies (78.1% vs.63.7%, P=0.00001 by log-rank test). AT significantly improved 5YS (66.3% vs. 34.8%) (P=0.00000 by log-rank test) only for LCP with N1-2. Cox modeling displayed that 5YS of LCP significantly depended on: phase transition (PT) early-invasive LC in terms of synergetics, PT N0—N12, cell ratio factors (ratio between cancer cells- CC and blood cells subpopulations), G1-3, histology, glucose, AT, blood cell circuit, prothrombin index, heparin tolerance, recalcification time (P=0.000-0.038). Neural networks, genetic algorithm selection and bootstrap simulation revealed relationships between 5YS and PT early-invasive LC (rank=1), PT N0—N12 (rank=2), thrombocytes/CC (3), erythrocytes/CC (4), eosinophils/CC (5), healthy cells/CC (6), lymphocytes/CC (7), segmented neutrophils/CC (8), stick neutrophils/CC (9), monocytes/CC (10); leucocytes/CC (11). Correct prediction of 5YS was 100% by neural networks computing (area under ROC curve=1.0; error=0.0).
CONCLUSIONS: 5YS of LCP after radical procedures significantly depended on: 1) PT early-invasive cancer; 2) PT N0--N12; 3) cell ratio factors; 4) blood cell circuit; 5) biochemical factors; 6) hemostasis system; 7) AT; 8) LC characteristics; 9) LC cell dynamics; 10) surgery type: lobectomy/pneumonectomy; 11) anthropometric data. Optimal diagnosis and treatment strategies for LC are: 1) screening and early detection of LC; 2) availability of experienced thoracic surgeons because of complexity of radical procedures; 3) aggressive en block surgery and adequate lymph node dissection for completeness; 4) precise prediction; 5) adjuvant chemoimmunoradiotherapy for LCP with unfavorable prognosis.
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NVBDCP.pptx Nation vector borne disease control programSapna Thakur
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Title: Sense of Taste
Presenter: Dr. Faiza, Assistant Professor of Physiology
Qualifications:
MBBS (Best Graduate, AIMC Lahore)
FCPS Physiology
ICMT, CHPE, DHPE (STMU)
MPH (GC University, Faisalabad)
MBA (Virtual University of Pakistan)
Learning Objectives:
Describe the structure and function of taste buds.
Describe the relationship between the taste threshold and taste index of common substances.
Explain the chemical basis and signal transduction of taste perception for each type of primary taste sensation.
Recognize different abnormalities of taste perception and their causes.
Key Topics:
Significance of Taste Sensation:
Differentiation between pleasant and harmful food
Influence on behavior
Selection of food based on metabolic needs
Receptors of Taste:
Taste buds on the tongue
Influence of sense of smell, texture of food, and pain stimulation (e.g., by pepper)
Primary and Secondary Taste Sensations:
Primary taste sensations: Sweet, Sour, Salty, Bitter, Umami
Chemical basis and signal transduction mechanisms for each taste
Taste Threshold and Index:
Taste threshold values for Sweet (sucrose), Salty (NaCl), Sour (HCl), and Bitter (Quinine)
Taste index relationship: Inversely proportional to taste threshold
Taste Blindness:
Inability to taste certain substances, particularly thiourea compounds
Example: Phenylthiocarbamide
Structure and Function of Taste Buds:
Composition: Epithelial cells, Sustentacular/Supporting cells, Taste cells, Basal cells
Features: Taste pores, Taste hairs/microvilli, and Taste nerve fibers
Location of Taste Buds:
Found in papillae of the tongue (Fungiform, Circumvallate, Foliate)
Also present on the palate, tonsillar pillars, epiglottis, and proximal esophagus
Mechanism of Taste Stimulation:
Interaction of taste substances with receptors on microvilli
Signal transduction pathways for Umami, Sweet, Bitter, Sour, and Salty tastes
Taste Sensitivity and Adaptation:
Decrease in sensitivity with age
Rapid adaptation of taste sensation
Role of Saliva in Taste:
Dissolution of tastants to reach receptors
Washing away the stimulus
Taste Preferences and Aversions:
Mechanisms behind taste preference and aversion
Influence of receptors and neural pathways
Impact of Sensory Nerve Damage:
Degeneration of taste buds if the sensory nerve fiber is cut
Abnormalities of Taste Detection:
Conditions: Ageusia, Hypogeusia, Dysgeusia (parageusia)
Causes: Nerve damage, neurological disorders, infections, poor oral hygiene, adverse drug effects, deficiencies, aging, tobacco use, altered neurotransmitter levels
Neurotransmitters and Taste Threshold:
Effects of serotonin (5-HT) and norepinephrine (NE) on taste sensitivity
Supertasters:
25% of the population with heightened sensitivity to taste, especially bitterness
Increased number of fungiform papillae
2. Prevalence and Incidence rates are alarmingly high
- Increasing HF hospitalizations
- Increasing HF-attributable deaths
- Spiraling cost of HF-care
Worldwide 23 million people affected
Prevalence increases with age (6-10% in > 65 yrs)
3. Heart Failure in the U.S - A Growing Public
Health Problem.
Approximately 5 million patients in this country have
HF (1.5 – 2% of population)
Over 550,000 patients are diagnosed with HF for the
first time each year
Primary reason for 12 to 15 million office visits and
6.5 million hospital days each year
In 2001, nearly 53,000 patients died of HF as a
primary cause
4. “HF is a complex clinical syndrome that can result from any
structural or functional cardiac disorder that impairs the ability of
the ventricle to fill with or eject blood” [ACC focused update 2009]
5. Stages of Heart Failure
At Risk for Heart Failure:
STAGE A High risk for developing HF
STAGE B Asymptomatic LV dysfunction
Heart Failure:
STAGE C Past or current symptoms of HF
STAGE D Refractory / End-stage HF
6.
7. Stages of Heart Failure
• Designed to emphasize preventability of HF
• Designed to recognize the progressive nature
of LV dysfunction
8. Stages of Heart Failure
COMPLEMENT, DO NOT REPLACE NYHA CLASSES
• NYHA Classes - shift back/forth in individual patient
(in response to Rx and/or progression of disease)
• Stages - progress in one direction due to cardiac
remodeling
9. Heart Failure as a Progressive Disorder
Principal manifestation of progression
• change in the geometry and structure of the LV
• chamber dilation and/or hypertrophy
• becomes more spherical
The collective process referred to as cardiac remodeling
10. Outcomes of Cardiac Remodeling
• Patients die before developing symptoms
(in Stage A or B)
• Patients develop symptoms controlled by treatment
• Patients die of progressive/refractory HF
*Sudden death can interrupt this course at any time
11. Refractory Heart Failure - Definition
Persistence of symptoms that limit daily life
(functional class III or IV of the New York Heart
Association [NYHA]) despite optimal previous
treatment with drugs of proven efficacy for the
condition, i.e. ACE inhibitors, angiotensin II receptor
antagonists (ARB), diuretics, digoxin, beta-blockers
and nitrate-hydralazine (esp. in blacks)
[Nohria A, JAMA 2002;287:628-40 and D. Feldman, Clin. Cardiol. 2008;31, 7, 297–301]
12. Terminal Heart Failure
“Terminal HF is the last step in refractory HF, where
there is a very poor response to all forms of treatment
(by definition, heart transplantation is no
longer indicated), with serious deterioration of
quality of life - both physical and emotional, frequent
hospitalization and life expectancy less than 6
months.”
[Rev Esp Cardiol 2004;57(9):869-83]
13. Refractory Heart Failure - Definition
• Corresponds to stage D heart failure
- refers to patients with advanced structural heart
disease and severe signs of HF at rest who are
candidates in the absence of contraindications for
other specialized interventions such as –
• heart transplantation
• ventricular remodeling
• implantation of mechanical assistance
devices
• intravenous inotropic drugs
14. ‘Interventional Heart Failure Therapy’
• Term coined by Daniel Burkhoff (2007)
• Vicious cycle of refractory HF -
- progressive cardiovascular remodeling
- deterioration of renal function
- decreased exercise tolerance
[Burkhoff D. SIS 2007 Yearbook;13:65-75]
15. Need for ‘Interventional HF Therapy’
• Even on max pharma therapy most patients exhibit
- disease progression
- repeated hospitalizations
- ultimately succumb to their disease
• Evidence indicates that additional neurohormonal
blockade may be detrimental
• The limit of neurohormonal and cytokine blockade
in CHF may be reached
• Heart transplantation as a final treatment option
also limited by the small number of donor hearts.
[Mann DL. (RENEWAL). Circulation 2004;109:1594-1602]
16. Basis of Interventional HF Therapies
• Strengthening of cardiac contraction with cardiac
contractility modulation
• Modification of ht rate with vagal nv stimulation
• Reduction of ventricular size with surgical
ventricular restoration
• ↑ renal perfusion with targeted renal therapy
↓ fluid overload with ultrafiltration
• Improving cardiac output with continuous aortic
flow augmentation (orqis)
• Reverse remodeling with ventricular assist
devices
[Burkhoff D. SIS 2007 Yearbook;13:65-75]
17.
18.
19. • Use of electrical pulse generators to deliver an electric
current to cardiac tissue
• ICDs & CRTs are the most important device-based
treatment currently FDA approved for use in CHF
• ICDs shown to reduce mortality
• CRT shown to reduce symptoms and mortality
• Newer types under investigation –
- Cardiac Contractility Modulators (CCM)
- Vagal Nerve Stimulation
20. Targets of Electrical HF Therapy
• Increased risk of ventricular arrhythmias
• Sudden death
• Intraventricular dyssynchrony
• Impaired cardiac contractility
• Unregulated sympathetic tone
21. Implantable Cardioverter Defibrillator
• Secondary prevention
– survivors of VF
- documented haemodynamically unstable VT
and/or VT with syncope, a LVEF of 40%, on
optimal medical therapy, and with an
expectation of survival with good functional
status for 1 yr
[ESC 2008, Class of recommendation I, level of evidence A]
[Meta-analysis of AVID, CASH and CIDS studies. Eur Heart J 2000;21:2071–2078]
22. Implantable Cardioverter Defibrillator
• Primary prevention is recommended to reduce mortality
in patients with non-ischemic dilated cardiomyopathy or
ischemic LV dysfunction due to prior MI who are at least 40
days post-MI, have an LVEF ≤35%, in NYHA functional
class II or III, receiving optimal medical therapy, and who
have a reasonable expectation of survival with good
functional status for 1 year
[ESC 2008, Class of recommendation I,
ICMP - level of evidence A
DCM - level of evidence B]
23.
24.
25. ICD – The Gender Bias!
• ICD therapy for the primary prevention of sudden
cardiac death may not provide a mortality benefit to
women with heart failure
• A recent meta-analysis of 5 large, RCTs including
934 women with HF revealed that primary
prophylaxis with ICDs did not significantly
decrease all-cause mortality (HR, 1.01; 95% CI,
0.76-1.33)
• Future guideline recommendations for the use of
ICDs in women is of ongoing interest
[Ghanbari H, Arch Intern Med.2009;169(16):1500-1506]
28. CRT - Issues
Impact on symptoms and exercise tolerance
• All RCTs have confirmed a significant alleviation of symptoms
and increase in exercise capacity conferred by CRT.
• On average, NYHA function class decreased by 0.5–0.8 points
• The 6 min walk distance increased by 20%
• Peak oxygen consumption increased by 10–15%
• The functional benefits and quality of life improvements were
sustained
1. Cleland JG. The effect of cardiac resynchronization on morbidity and
mortality in heart failure. N Engl J Med 2005;352:1539–1549
2. Linde C, MUSTIC study. J Am Coll Cardiol 2002;40:111–118.
3. Cleland JG, The CArdiac REsynchronization-Heart Failure (CARE-HF) trial
extension phase. Eur Heart J 2006;27:1928–1932.
29. CRT - Issues
Impact of CRT on morbidity
• In the COMPANION trial, CRT with or without an ICD, lowered
the combined endpoint of all-cause mortality and
rehospitalization for HF by 35–40%, mainly driven by the 76%
lower rate of hospitalizations.
• In CARE-HF, CRT-P lowered the proportion of unplanned
hospitalizations for worsening HF by 52%, and of unplanned
hospitalizations for major cardiovascular events by 39%.
1. Bristow MR, Cardiac-resynchronization therapy with or without an
implantable defibrillator in advanced chronic heart failure. N Engl J Med
2004;350:2140–2150.
2. Cleland JG, The effect of cardiac resynchronization on morbidity and
mortality in heart failure. N Engl J Med 2005;352:1539–1549.
30. CRT - Issues
Impact of CRT on mortality
• In COMPANION, CRT-D showed a significant decrease in all-
cause mortality (RR reduction: 36%; P = 0.003), while the 24%
RR reduction with CRT-P was nearly significant (P =0.059).
• In CARE-HF, (only CRT-P), a 36% RR reduction in the risk of
death (P , 0.002) was observed after a mean follow-up time of
29 months.
• In the CARE-HF extension study, a RR reduction of 40% (P =
0.0001) was observed, mainly due to ↓ HF-related deaths
1. Bristow MR, Cardiac-resynchronization therapy with or without an
implantable defibrillator in advanced chronic heart failure. N Engl J Med
2004;350:2140–2150.
2. Cleland JG, The effect of cardiac resynchronization on morbidity and
mortality in heart failure. N Engl J Med 2005;352:1539–1549.
3. Cleland JG, The CArdiac REsynchronization-Heart Failure (CARE-HF) trial
extension phase. Eur Heart J 2006;27:1928–1932
31. CRT - Issues
Impact of CRT on cardiac function & structure
• All RCTs have consistently shown up to 15% absolute reduction
in LVEDD and up to 6% increase in LVEF following CRT
• The effect was significantly greater in patients with non-
ischaemic than in those with ischaemic heart disease.
• These observations provide consistent evidence of a
substantial, progressive, and sustained reverse remodelling
effect conferred by CRT.
1. Gervais R. Surface electrocardiogram to predict outcome in candidates for
cardiac resynchronization therapy: a subanalysis of the CARE-HF trial. Eur J
Heart Fail 2009;11:699–705
32. CRT - Issues
Ambulatory patients in NYHA class IV
• COMPANION enrolled 217 NYHA class IV patients termed
‘ambulatory’ patients
• Patients with no scheduled or unscheduled admissions for HF
during the last month and with a life expectancy of 6 months.
• Time to all-cause mortality or first all-cause hospitalization was
significantly improved by both CRT-P and CRT-D vs OMT
• No significant benefit was observed on all-cause mortality.
• Data support the use of CRT to improve morbidity (but not
mortality) in ambulatory class IV patients.
1. Lindenfeld J. Effects of cardiac resynchronization therapy with or without a
defibrillator on survival and hospitalizations in patients with New York
Heart Association class IV heart failure. Circulation 2007;115:204–212
33. CRT - Issues
QRS morphology: LBBB vs RBBB
• ‘Favourable outcome’ in CARE-HF was defined as freedom
from death or major cardiovascular event
• Baseline typical LBBB pattern predicted a favourable outcome.
• By multivariable analysis, prolonged PR interval and right
bundle branch block (RBBB) were the only predictors of non-
favourable outcome.
1. Gervais R. Surface electrocardiogram to predict outcome in candidates for
cardiac resynchronization therapy: a subanalysis of the CARE-HF trial. Eur J
Heart Fail 2009;11:699–705.
34. CRT - Issues
CRT-D in patients with an indication for an ICD
• MIRACLE ICD and a large meta-analysis support the choice of
a CRT-D in patients in NYHA class III/IV, with LVEF of ≤35%,
QRS of ≥120 ms with a conventional indication for an ICD
1. Abraham WT. Effects of cardiac resynchronization on disease progression in
patients with left ventricular systolic dysfunction, an indication for an
implantable cardioverter-defibrillator, and mildly symptomatic chronic
heart failure. Circulation 2004;110:2864–2868.
2. Lam SK, Owen A. Combined resynchronisation and implantable defibrillator
therapy in left ventricular dysfunction: Bayesian network meta-analysis of
randomised controlled trials. Br Med J 2007;335:925
35. CRT - Beyond Current Guidelines
CRT in Patients With Narrow QRS Complex
• CONQUEST (Congestive Heart Failure and QRS Duration:
Establishing Prognosis) study, with 3,000 HF patients, showed
that 42% of the patients had a QRS duration < 120 ms
• Echo studies have shown that 40% - 50% of HF patients with a
narrow QRS complex may also exhibit LV dyssynchrony
• Echo predictors of response to CRT (small studies) –
- septal to lateral or opposing segment delay of 65 ms
- standard deviation of time to peak tissue velocity >32 ms
1. Abraham J. Is echocardiographic assessment of dyssynchrony useful to select
candidates for cardiac resynchronization therapy? Circulation: Cardiovascular
Imaging. 2008; 1: 79-85.
2. Bommel V. CRT Beyond Current Guidelines . JACC; 56:10, 2010 Aug 31,754–62
36. CRT in Narrow QRS Complex
CRT in Patients With Narrow QRS Complex
• CONQUEST (Congestive Heart Failure and QRS Duration:
Establishing Prognosis) study, with 3,000 HF patients, showed
that 42% of the patients had a QRS duration < 120 ms
• Echo studies have shown that 40% - 50% of HF patients with a
narrow QRS complex may also exhibit LV dyssynchrony
• Echo predictors of response to CRT (small studies) –
- septal to lateral or opposing segment delay of 65 ms
- standard deviation of time to peak tissue velocity >32 ms
1̊
VO2
2̊
NYHA
37. CRT in Patients With Narrow QRS Complex
• ESTEEM-CRT & RethinQ Trials –
- no improvement in primary endpoints peak Vo2 or LVEF
- significant improvement in 2̊ endpoint of NYHA class
• Limitations of ESTEEM-CRT and RethinQ –
- included few patients with limited follow-up (up to 6 months)
- did not focus on rehospitalization and long-term survival
• Results from ESTEEM-CRT & RethinQ make the expansion of
CRT to HF pts with narrow QRS complex currently unlikely
• Ongoing Echo-CRT trial with speckle tracking will determine
whether CRT is an effective Rx modality in this specific group
1. Leon AR. Evaluation of CRT in Narrow QRS Patients With Mechanical
Dyssynchrony From a Multicenter Study (ESTEEM-CRT). Paper presented at
Heart Rhythm Society Congress; May 15, 2008; SanFrancisco, CA
2. Beshai JF. RethinQ. N Engl J Med 2007;357:2461–71
38. CRT - Beyond Current Guidelines
CRT in patients with mild heart failure
• MIRACLE ICD II trial –
- 186 patients in NYHA class II with LVEF <35%, a QRS
width >130 ms and a Class I indication for an ICD
• At 6 months of follow-up, patients in the CRT-ON group had
a greater reduction in LV diastolic & systolic volumes (p<
0.05) and significant improvement in NYHA class (p=0.05)
• Similar results reported by the CONTAK-CD trial, with
significant reductions in LV dimensions
39. CRT - Beyond Current Guidelines
CRT in patients with mild heart failure
• Results of CONTAK-CD and MIRACLE ICD II showed that
LV reverse remodeling was a better predictor of long-term
survival than clinical improvement
• Effect - 2 large clinical trials were conducted to investigate
whether CRT could prevent or attenuate disease progression
and induce LV reverse remodeling in mild heart failure –
- The REVERSE (Resynchronization Reverses Remodeling in Systolic
Left Ventricular Dysfunction) [J Am Coll Cardiol 2009;54:1837–1846]
- The MADIT-CRT (Multicenter Automatic Defibrillator
Implantation Trial with Cardiac Resynchronization Therapy)
[Circulation 2010 10.1161/CIRCULATIONAHA.110.955039]
43. REVERSE Trial
• Inclusion criteria (N =610)
- patients treated with an optimal medical regimen
- NYHA function class I or II and NSR
- LVEF ≤40%, QRS duration ≥120 ms, LVEDD≥55 mm
- All patients had a history of HF symptoms
• Method - implantation of a CRT-D (85%) or CRT-P (15%)
and compared between activated (CRT-ON) vs CRT-OFF
• Primary endpoint was the percentage of clinically worsened
patients, ascertained by the use of a composite endpoint.
• Secondary endpoint was echocardiographic change in LV
end-systolic volume index
[Linde C. REVERSE trial. J Am Coll Cardiol 2008;52:1834–1843]
44. • After 12 months, no significant difference observed in the primary endpoint
• However, a significant degree of reverse LV remodelling was observed among
patients on CRT, manifested by decreases in the LVESVi (p < 0.0001) and
LVEDV, and an increase in LVEF(p < 0.0001)
• Significant reverse remodelling linked to reduced HF morbidity indicates
that CRT may potentially modify disease progression in mild HF patients.
45. Inferences from MADIT-CRT & REVERSE
• MADIT-CRT & REVERSE demonstrated reduced morbidity
• No significant improvement seen in NYHA I class pts at
baseline (18% of pts in REVERSE & 15% pts in MADIT-CRT)
• Improvement primarily in pts with QRS ≥150 ms and/or
typical LBBB.
• In MADIT-CRT, women with LBBB demonstrated a
particularly favourable response.
• Survival advantage is not established.
• In MADIT-CRT the extent of reverse remodelling was
concordant with & predictive of improved clinical outcomes
[ESC guidelines . Focussed update. European Heart Journal (2010) 31, 2677–87]
46.
47.
48. Electrical Therapy for CHF
Cardiac Contractility Modulation (CCM) Therapy
• Mech. - To enhance the strength of cardiac muscular
contraction, non-excitatory electrical signals are delivered
during the absolute refractory period of the cardiac cycle
• The CCM signals delivered by OPTIMIZER™device is via 3
cardiac leads (1 right atrial and 2 right ventricular septal)
49. Cardiac Contractility Modulation Therapy
• The OPTIMIZER system was studied in the FIX-CHF-4 trial -
enrolled 164 subjects; ineligible for CRT; EF <35%; NYHA class
II or III symptoms despite optimal medical therapy
• Significant improvements were found in peak VO2, Minnesota
Heart Failure scores, and the 6-minute walk test (6MW)
• A trend toward fewer deaths and hospitalizations
• CCM signals improve the strength of muscle contraction, it is
postulated to work equally well in patients with normal and
abnormal QRS duration and also in combination with CRT
1. Gottlieb SS. Scientific Sessions of the Heart Failure Society of America: Seattle,
Washington, September 10-13, 2006. J Am Coll Cardiol 2007;49:608-15.
2. Butter C. First use of CCM in a patient failing CRT therapy: clinical and technical
aspects of combined therapies. Eur J Heart Fail 2007 Jun 25
50. Vagal Nerve Stimulation
• Aim – to counteract the maladaptive increase in SNS activation
• CardioFit system device is implanted in chest wall and the
electrode is positioned around the vagus nerve in the neck. By
continuously monitoring an electrocardiogram, stimulation is
adjusted to the patient’s desired heart rate
• It will be of interest to see if heart rate modulation beyond that
of β-blockers can provide additional clinical benefit.
• The device is presently in early studies for treatment of class II
and III heart failure patients.
1. Schwartz PJ. Long term vagal stimulation in patients with advanced heart
failure - first experience in man. Eur J Heart Fail. 2008;10(9):884-891
2. De Ferrari GM. Chronic vagal stimulation in patients with congestive heart
failure. Conf Proc IEEE Eng Med Biol Soc. 2009;2009:2037-2039
51.
52. Ventricular support and restoration
• Surgical interventions aimed at altering left ventricular shape,
size, or contractility
• In ventricular support, the heart is wrapped with materials
that provide structural reinforcement to the cardiac muscle
• In ventricular restoration, the left ventricle is surgically
modified to a more natural shape and size
• Specific techniques include
- cardiomyoplasty,
- passive ventricular restraint
- surgical ventricular restoration (SVR)
1. Schwartz PJ. Long term vagal stimulation in patients with advanced heart
failure - first experience in man. Eur J Heart Fail. 2008;10(9):884-891
2. De Ferrari GM. Chronic vagal stimulation in patients with congestive heart
failure. Conf Proc IEEE Eng Med Biol Soc. 2009;2009:2037-2039
53. Cardiomyoplasty (active ventricular restraint)
• Surgical intervention for end-stage heart failure in which
skeletal muscle, traditionally latissimus dorsi, is wrapped
around the heart and stimulated to contract during systole,
via use of a pacemaker - assisting ventricular contractile force
• Results in improvements in NYHA class, ejection fraction,
quality of life, and in reduced hospitalizations
• A mortality benefit has never been established.
• Despite these benefits, postop mortality ranges from 3%-31%
& surgical risks are thought to be too high for NYHA IV pts
• Due to recruitment difficulties for large trials, the use of
cardiomyoplasty in the United States has almost ended
1. Leier CV. Cardiomyoplasty: is it time to wrap it up? J Am Coll Cardiol.
1996;28(5):1101-1102
54. Passive Ventricular Restraint
• The benefit of Cardiomyoplasty may be due to a girdling
effect on ventricle than a squeezing one as initially thought
• This theory forms the basis for PVR - in which a supporting
mesh is wrapped around the heart to reinforce the ventricles.
• In dog models, passive ventricular support shown to
- prevent progressive left ventricular dilation
- improve ejection fraction
- promote reverse remodeling & reduce systolic wall stress
- reverse chronic molecular and cellular abnormalities
• Two devices developed –
- CorCap cardiac support device (CSD; Acorn CV Inc., Minn.)
- Paracor HeartNet device (Paracor Medical, Sunnyvale, CA.)
55. The CorCap Cardiac Support Device
• Corcap was evaluated in a RCT - 300 patients with DCM,
ejection fraction < 35%, NYHA III-IV symptoms and OMT
• Compared with controls, those received a CSD had greater
reduction in LVEDV, LVESV and improved MLWHFQ and
clinical composite scores
1. Starling RC. Three years follow-up results
from the ACORN trial. Ann Thoracic Surg
2007;84:1236
• No difference in mortality
or rehospitalization rates
• Benefits additive to MVR / OMT
• Not yet approved by FDA
56. Paracor HeartNet device
• Data on the Paracor HeartNet device are available on 51
patients with heart failure, its use was associated with
- significant improvement in 6-minute walk test (P = 0.002)
- MLWHFQ score (P =0.002)
- improvement in echocardiographic findings
• A multicenter RCT, the PEERLESS-HF trial (Prospective
Evaluation of Elastic Restraint to Lessen the Effects of Heart Failure) to
evaluate efficacy of the HeartNet device is ongoing
1. Klodell CT Jr. Worldwide surgical experience with
the paracor HeartNet cardiac restraint device.
J Thorac Cardiovasc Surg. 2008;135(1):188-195.
57. Surgical Ventricular Restoration
• SVR describes invasive surgical procedures aimed at reducing
LV size and remodelling, creating a more natural, elliptical LV
• Dyskinetic scar (aneurysm) removal - aneurysmomorphy, is
already a clinically accepted procedure.
• Akinetic scar removal - Dor procedure, used in STICH trial
• Initial clinical data of SVR in humans showed improved
ejection fraction, NYHA class, reduced LVESV index, and
improved long-term survival
• STICH trial, a large RCT had less promising results
58. STICH Trial
• Patients with ICMP on OMT, randomized to undergo either
CABG alone (499 patients) or CABG plus SVR (501 patients)
• After a median follow-up of 48 months, there was no
significant difference in death from any cause, death within 30
days of surgery, hospitalization for any cause, MI, stroke,
anginal symptoms, NYHA class, or 6MWT between groups.
• Given these findings, SVR should not be used in patients with
ICMP who are amenable to CABG (debatable)
1. Jones R. Coronary bypass surgery with or without surgical ventricular
reconstruction. N Engl J Med. 2009;360(17):1705-1717
59.
60. Mechanical Circulatory Assist Devices
• Aim - assist failing ventricle, alter hemodynamics, improve CO
• Percutaneous therapies, indicated for short-term use in
- acutely decompensated heart failure
- cardiogenic shock
- support during PCI
- perioperatively
Eg: intraaortic balloon pumps (IABPs)
continuous aortic flow augmentation (CAFA)
catheter-based pumps
• Surgical therapies, intended for long-term CHF treatment
Eg: VADs and TAHs.
61. Intraaortic Balloon Pumps
• IABP rapidly improves hemodynamics in cardiogenic shock
• Technique - a percutaneous balloon catheter is inserted into
the femoral artery and advanced into the descending aorta
distal to the left subclavian artery
• Balloon is inflated during diastole and deflated during systole
• Effects - decreased mean systolic arterial pressures
- decreased ventricular outflow resistance
- increased diastolic pressure & coronary blood flow
- increased cardiac index.
1. Jones R. Coronary bypass surgery with or without surgical ventricular
reconstruction. N Engl J Med. 2009;360(17):1705-1717
62. Intraaortic Balloon Pumps
• Associated with a 2.8% rate of significant complications and
a 0.05% rate of IABP-related in-hospital mortality
• The ACC/AHA guidelines on STEMI recommend IABP as a
class I recommendation in patients with
- hypotension who do not respond to other interventions
- low-output state,
- cardiogenic shock not quickly reversed with treatment
- recurrent ischemic chest discomfort with unstable
hemodynamics
- poor left ventricular function
- large area of myocardium at risk
63. Continuous Aortic Flow Augmentation (CAFA)
• Investigational approach for acute
CHF exacerbations in patients
who are inotrope dependent or
refractory
• The CANCION® System (Orquis
Medical) consists of an
extracorporeal, magnetically
levitated centrifugal pump that
withdraws blood from both
femoral arteries and returns it to
the descending thoracic aorta in a
continuous, nonpulsatile manner
at rates between 1.1 and 1.5 L/min
64. Continuous Aortic Flow Augmentation (CAFA)
• MOMENTUM trial (Multicenter Trial of the Orqis Medical CRS for the Enhanced
Treatment of CHF, Unresponsive to Medical Therapy) assessed the Cancion
system in 109 patients
• CAFA has been associated with improvements in cardiac
index, clinical benefits have not been demonstrated and safety
(increased bleeding) remains a concern
• CAFA has not been approved for commercial use and is
currently only available for investigational purposes
1. Greenberg B. Results of the multicenter trial of the Orqis Medical Cancion
System for the enhanced treatment of heart failure unresponsive to medical
therapy (MOMENTUM). Circulation. 2008;118(12):1241-1249
65. Catheter-Based Pumps
• Percutaneous catheter-based pumps designed for short-term
hemodynamic support in patients with cardiogenic shock
• Available devices –
- Hemopump (Medtronic), which is no longer in use
- The Impella device (Abiomed, Danvers, Massachusetts)
- TandemHeart Percutaneous Transseptal Ventricular
Assist (PTVA) system (CardiacAssist, Inc, Pittsburgh, Pennsylvania)
• The Impella and the Tandem Heart are FDA approved to
provide partial circulatory support for up to 6 hours
66. The Impella device
• The Impella 2.5 is a minimally invasive catheter-based cardiac
assist device that can be inserted into the left ventricle via
femoral arterial access in the cath lab. An in-line microaxial
pump continuously pumps blood from the left ventricle into
the ascending aorta at a maximum rate of 2.5 L per minute.
• A small RCT comparing the Impella 2.5 system
and IABP in 25 patients with cardiogenic shock
due to MI demonstrated a more significant
increase in cardiac index in the Impella group
• 30-day mortality (46%) was not different
between groups
1. Seyfarth M. A randomized clinical trial to evaluate
the safety and efficacy of a percutaneous left
ventricular assist device versus IABP for treatment
of cardiogenic shock caused by myocardial
infarction. JACC. 2008;52(19):1584-1588.
67.
68. The Tandem Heart
• The Tandem Heart unloads the LV
and pumps blood from the LA to
the peripheral arterial circulation
• Consists of a percutaneous venous
inflow catheter that is inserted into
the LA via transseptal puncture, a
percutaneous outflow catheter in
the descending aorta, an
extracorporeal pump with a max
flow rate of 5.0 L/min, and a
controller unit
69. The Tandem Heart
• TandemHeart PTVA vs IABP has demonstrated
- significant improvement in CO & cardiac index
- significant reduction in PCWP and serum lactate
- no significant difference in 30-day mortality
• Adverse effects - risk of severe bleeding and limb ischemia.
1. Thiele H. Randomized comparison of intra-aortic balloon support with a percutaneous
left ventricular assist device in patients with revascularized acute myocardial infarction
complicated by cardiogenic shock. Eur Heart J. 2005;26(13):1276-1283
70.
71. Ventricular Assist Devices (VAD)
• VADs are surgically implanted mechanical pumps used to
support the failing ventricles in patients with refractory end-
stage heart failure
• Basic Principle -
- Improve arterial flow (end organ perfusion)
- Improve ventricular unloading
• Due to limited availability of donor
organs and urgency of cardiac
support in severe CHF – VADs
have the potential to play an
important role as a bridge-to-transplantation(BTT)
or even as destination therapy (DT)
72. Indications for VAD
Bridge to transplant (BTT)
most common
allow rehab from severe
CHF while awaiting
donor
Bridge to recovery (BTR)
unload heart, allow
“reverse remodeling”
can be short- or long-
term
“Destination” therapy (DT)
permanent device,
instead of transplant
currently only in
transplant-ineligible
patients
Bridge to candidacy
(BTC)
when eligibility unclear
at implant
Bridge to decision (BTD)
Potential for transplant
or recovery unclear
73. VAD -Classification
• Based on location of pump –
- Extracorporeal (outside the body)
- Intracorporeal (contained within the body)
• Based on ventricle supported –
- LVAD
- RVAD
- BiVAD
• Based on pump characteristics –
- pulsatile
- continous flow pumps (axial / centrifugal)
74. VAD -Classification
• First Generation
- uses volume displacement to invoke pulsatility
- large in profile
- preload dependent
- decreased durability
HeartMate VE/XVE Novacor LVAS
75. VAD -Classification
• Second Generation
- Continuous-flow pumps (axial)
- smaller
- similar degrees of pumping support (10 liters/min)
- more durable
- functionally dependent on both preload and afterload
76. VAD -Classification
• Third Generation
- Continuous-flow pumps (axial / centrifugal)
- use an impeller pump that is either magnetically or
hydrodynamically levitated
- smaller profile
- lower weight
- potential for greater durability
- early evidence suggests improvements in RV failure
and infection rates
80. VAD – Selection of Patients
• If a risk reduction rate of ACE inhibitor alone is 25%, and
spironolactone was 30% and carvedilol was 35%, the calculated
1-year mortality after combination therapy in ambulatory
NYHA class IV patients is approximately 11%
• CRT-D reduced the 1-year mortality to 30%, and 2-yr to 55% in
NYHA class IV HF (COMPANION)
• If the calculated 1- and 2-year mortality rates of patient exceed
38% and 61%, LVAD becomes a future treatment option
1. Kinugawa K. How to Treat Stage D Heart Failure? – When to Implant LVADs in
the Era of Continuous Flow Pumps? Circ J 2011; 75: 2038 – 2045
81. VAD – Selection of Patients
Calculation of mortality rates -
• Heart Failure Survival Score (HFSS) and Seattle Heart Failure
Model (SHFM) are widely used
• SHFM is a more convenient index and is available on the
internet, where patient data can be input and the mortality rate
is immediately calculated
• Age, sex, NYHA class, body weight, LVEF, SBP, medication
(including dose of diuretics), hemoglobin, %lymphocytes, uric
acid, total cholesterol, sodium, and CRT-D treatment, if any,
can be input and the model produces a graph of mortality with
information on how future interventions, such as additive
medication, CRT-D or LVAD, can modify the prognosis
82. Prognostic Categorization of Stage D HF
• Stage D HF can be further divided, based on the INTERMACS
(Interagency Registry for Mechanically Assisted Circulatory
classification) registry classification
• INTERMACS is a comprehensive VAD registry in USA that was
started in March 2006, and approximately 4,800 VADs have
been enrolled from 130 hospitals as of June 2011
• There are 7 major categories called Profiles and 3 modifiers
• Profile 1 represents the most severe status, and the least sick
profile is 7
1. Kirklin JK. Second INTERMACS annual report: More than 1,000 primary left
ventricular assist device implants. J Heart Lung Transplant 2010; 29: 1 – 10.
83. Prognostic Categorization of Stage D HF
Modifiers for Profiles Possible Profiles to Modify
TCS (temporary circ support) 1,2,3
A (arrhythmia) Any profile
FF (frequent flyer) – only opd 3(at home),4,5,6
84. INTERMACS Profile
Profile 1
• Profile 1 are in cardiogenic shock, often called “crash and burn”
• Hemodynamics have “crashed” and many end organs start
“burning”
• Often seen after large myocardial infarction by left main trunk
occlusion or with fulminant myocarditis
• Marked ↑ in liver enzymes & ↑total bilirubin may occur
• Treated with multiple intravenous catecholamines, intra-aortic
balloon pump (IABP), percutaneous cardiopulmonary support
(PCPS) or a ventilator
85. INTERMACS Profile
Profile 2
• Represents the second sickest status and is called “sliding on
inotropes”
• In these patients, end-organ damage is worsening despite high-
dose intravenous catecholamines.
86. INTERMACS Profile
Profile 3
• Is a stable condition on intravenous catecholamines without
progression of end-organ damage
• Referred to as “dependent stability”, requiring only a single
low-dose administration of an inotrope (2–3 μg · kg–1 ·min–1)
usually dobutamine in most cases
• To determine the dependency on catecholamines, tapering of
intravenous catecholamines should be tried several times, but
patients with Profile 3 must have significant symptoms or
hemodynamic deterioration at withdrawal or very low dose
87. INTERMACS Profile
Profile 4-7
• Profile 4 is defined as resting symptoms that do not necessarily
require intravenous inotropes. In order to maintain euvolemic
status, patients usually need high-dose diuretics, resulting in
their deteriorating renal function.
• The less sick Profile 5 is called “house-bound”, because the
patient’s daily life is limited to inside the house
• Profile 6 represents “walking wounded” status, and patients
with this profile can barely walk 1 block
• Patients with Profiles 5–6, easily fall into Profile 4, depending
on comorbidities
• Profile 7 represent advanced NYHA class III, and not currently
been considered as candidates for transplantation or VAD
implantation in any country.
88. INTERMACS & VADs - Summary
• The prognosis of stage D HF varies with each patient’s clinical
status, now widely known as INTERMACS profiles
• The best indication of implantable VADs is Profiles 2–4
• Extracorporeal VADs still play a crucial role as an emergency
device in Profile 1 patients or during a VT storm
• Patients with modifier A can be candidates for implantable
VADs even if their profile is 5 or 6.
89. INTERMACS & VADs - Summary
• Continuous flow VADs are state-of-the-art and have numerous
superiorities over pulsatile VADs
• But some complications specific to continuous flow VADs –
- (1) de novo aortic insufficiency
- (2) decreased level of high-molecular weight vWF
- (3) gastrointestinal bleeding from arteriovenous malformation
1. Hatano M. Less frequent opening of the aortic valve and a continuous flow
pump are risk factors for postoperative onset of aortic insufficiency in patients
with a left ventricular assist device. Circ J 2011; 75: 1147 – 1155
2. Demirozu ZT. Arteriovenous malformation and gastrointestinal bleeding in
patients with HeartMate II LVAD. J Heart Lung Transplant 2011; 30: 849 – 85
90.
91. Interventional Medical Therapy
Continous Inotropic Support
• Long-term inotropes in refractory HF has remained controversial
• Associated with ventricular arrhythmias, sudden cardiac death,
and increased mortality
• More recent studies evaluating long-term use of inotropes in
patients who have ICDs and are awaiting heart transplant have
demonstrated promising results
• Several groups of heart failure specialists have reevaluated long-
term inotropic therapy and are using it with increasing frequency,
especially in patients with end-stage disease, where alternative
treatment options are limited
1. O’Connor CM. Continuous iv dobutamine is associated with an increased risk of
death in pts with advanced heart failure: insights from the Flolan International
Randomized Survival Trial (FIRST). Am Heart J. 1999;138(1 pt 1):78-86
2. Jimenez J. Long-term (>8weeks) home inotropic therapy as destination therapy
in patients of advanced heart failure or as BTT. Int J Cardiol. 2005;99(1):47-50.
92. Continous Inotropic Support
• Continuous intravenous infusion of a positive inotropic agent may
be considered for palliation of symptoms in patients with
refractory end-stage HF (ACC Class IIb / Level of Evidence: C)
• The use of continuous IV support to allow hospital discharge
should be distinguished from the intermittent administration of
infusions of such agents to patients who have been successfully
weaned from inotropic support
• Intermittent outpatient infusions of vasoactive drugs such as
nesiritide or positive inotropic drugs have not shown to improve
symptoms or survival in patients with advanced HF
1. Jessup M. 2009 Focused Update: ACCF/AHA Guidelines for the Diagnosis and
Management of Heart Failure in Adults: Developed in Collaboration With the
International Society of Heart and Lung Transplantation. Circulation.
2009;119(14):1977-2016..
93.
94. Interventional Fluid Removal
• Decompensated HF is comlicated by sodium and fluid retention
• Limitations of loop diuretics have led to the development
of interventional approaches to fluid removal such as
- Interventional vasodilatation
- Ultrafiltration
95. Interventional Vasodilatation
• A novel technique that aims to target the kidneys directly, with
drugs administered directly into the renal arteries
• One approach called Targeted Renal Therapy (TRT) can be
achieved with the Benephit Renal Infusion System
• A bifurcated femoral catheter that can be advanced through the
ascending aorta and into the renal arteries
• This catheter can then be used to deliver vasodilators directly into
the renal arteries in attempts to improve renal perfusion & GFR
thus limiting the systemic effects of the medication
96. Interventional Ultrafiltration
• Ultrafiltration is currently a class IIa recommendation by the
ACC/AHA guidelines and is indicated for patients with
refractory congestion not responding to medical therapy
• One type of ultrafiltration device, the Aquadex system
consists of a peripheral venous access catheter, a disposable
0.12 m2 polysulphone filter circuit and a console unit
97.
98. The Aquadex Ultrafiltration System
• Can be used by a trained cardiologist, does not require a
nephrologist or use of a dialysis unit
• Can remove fluid at a max rate of 500 mL/h for up to 8 hours
• Compared to intravenous diuretic therapy, the Aquadex system
resulted in greater weight loss, net fluid loss, decreased
frequency of hypokalemia at 48 hours, and with reduced heart
failure rehospitalizations at 90 days
1. Wertman B. Ultrafiltration for the management of acute decompensated
heart failure. J Cardiac Fail. 2008;14(9):754-759
99. Treatment of Valvular Disease
• HF leads to enlargement of the mitral annulus, displacement of
the papillary muscles, and tethering of the mitral valve
• Benefit of treating functional MR in HF is not well established -
class IIb recommendation according to the ACC/AHA guideline
• Despite lack of evidence surgical correction of functional MR is
sometimes performed in patients with end-stage HF
• Minimally invasive tech for the treatment of MR have also been
developed (Mitra clip) & may provide additional treatment
options
100. Tissue Transplantation
• Tissue transplantation uses living cells or tissue to restore
cardiac pump function
• It includes
- cellular therapy
- stem cell therapy
• - heart transplant
101. Cellular Cardiomyoplasty
• Cellular therapy or cellular cardiomyoplasty is an
investigational approach to the treatment of ischemic
cardiomyopathy
• Transplanted cell include –
- fetal and neonatal cardiomyocytes; - skeletal myoblasts
- vascular endothelial cells; - bone marrow-derived stem cells
- cardiac-derived stem cells; - embryonic stem cells
• Methods of delivering stem include
- injection during an invasive procedure (CABG / VAD)
- injection directly into the coronary arteries,
- injection directly into the myocardium with the use of
transcutaneous endoventricular catheters such as MyoCath
102. Cellular Cardiomyoplasty & Stem Cells
• Cellular cardiomyoplasty remains a promising
interventional approach for the treatment of ischemic
cardiomyopathy and has been associated with modest
improvements in LV function in several human studies
• Future research is necessary to optimize selection of cell
source, cell culture technique, method of cell delivery, and also
to determine the long-term clinical benefit of therapy
• Stem cell therapy is also promising; however, their use is
currently limited by scientific (increased arrhythmia) and
ethical concerns (MAGIC trial, 2009)
103. Human Heart Transplant (HHT)
• Allogeneic HHT is a therapeutic option for patients with
refractory end-stage HF, who have failed other options
• According to the 2009 update on heart disease and stroke from
the AHA and Stroke Statistics Subcommittee, the 5-year
survival after HHT is 72.3% for males and 67.4% for females
• Despite success, heart transplant is limited by the number of
hearts available for transplant each year
• This limitation in resources reinforces the need for the
development of other interventional therapies for the
treatment of end-stage heart failure.
104. Palliative Care
• Palliative care describes a multidisciplinary approach to
patient care that targets both the symptomatic and
psychosocial issues associated with a disease
• Being recognized as an essential aspect of HF therapy because
of the extreme physical and emotional symptoms that patients
with HF experience
• Although the ultimate goal of interventional heart failure
therapy is to prolong life and reduce symptoms, many of these
therapies are associated with unique emotional complications
that should be addressed with the principals of palliative care
described by Goodlin in his state-of-the-art review article
1. Goodlin SJ. Palliative care in congestive heart failure. J Am Coll Cardiol.
2009;54(5):386-396
105. Self Care
• Self-care is defined as a naturalistic decision-making process
involving the choice of behaviors that maintain
- physiologic stability (self-care maintenance)
- response to symptoms when it occurs (self-care management)
• Self-care maintenance includes adhering to LSMs such as taking
prescribed medications, eating a low-sodium diet, restricting
fluid intake, exercising and by recognizing signs of worsening HF
• Self-care management includes - reducing sodium or fluid
intake, taking an extra dose of diuretic, or seeking medical help
• Chronicle (Medtronic), an implantable continuous hemodynamic
monitor (ICHM) measures & stores information for outpatient
monitoring
1. Bourge RC. Randomized controlled trial of an implantable continuous
hemodynamic monitor in patients with advanced heart failure: the COMPASS-
HF study. J Am Coll Cardiol. 2008;51(11):1073-1079
106.
107. Conclusions and Future…
• The treatment options for patients with refractory end-stage
heart failure are currently limited
• At this advanced stage, the goals of treatment frequently change
from prolonging life to hospice / end-of-life care
• The role of interventional therapy promises additional treatment
options to these patients
• Currently available interventional options include heart
transplant, interventional medical therapy, VADs, TAHs.
• Future treatment options include the interventional treatment of
mitral valve disease, cellular and stem cell therapy, and use of
next generation VADs or TAHs & ambulatory monitoring devices