Right ventricular failure Anesthesia for the cardiac compromised patient Right ventricular failure Steffen Rex Dept. of Anesthesiology University Hospital, RWTH Aachen Germany [email protected]26th International Winter Symposium Update in Cardiothoracic Anesthesia January 7th - 8th, 2011 Leuven, Belgium
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Anesthesia for the cardiac compromised patient Right ... · Anesthesia for the cardiac compromised patient Right ventricular failure ... 50 60 70 80 90 100 110 120 130 140 150) RVV
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ventricle of the dog, with a discussion of the relation
between clinical congestive failure and heart
disease.
Am Heart J 1943; 26:291–301
Significance of the right ventricle
Right ventricular failure
Fontan-SurgeryPaul Khairy, Nancy Poirier and Lise-Andrée Mercier
Univentricular Heart.
Circulation 2007;115;800-812
Significance of the right ventricle
Right ventricular failure
RV-function independent predictor of morbidity und mortalityin patients with:
COPD Burgess MI: Comparison of echocardiographic markers of right ventricular function in determining prognosis in chronic pulmonary disease. J Am
Soc. Echocardiogr 2002; 15: 633-9
PPH D'Alonzo GE: Survival in patients with primary pulmonary hypertension. Results from a national prospective registry. Ann Intern Med 1991; 115: 343-9
Left-sided valvular heart disease Nagel E: Importance of the right ventricle in valvular heart disease. Eur.Heart J 1996; 17: 829-36
Inferior myocardial infarction Mehta SR: Impact of right ventricular involvement on mortality and morbidity in patients with inferior
myocardial infarction. J Am Coll.Cardiol 2001; 37: 37-43
Chronic Heart Failure de Groote P: Right ventricular ejection fraction is an independent predictor of survival in patients
with moderate heart failure. J.Am.Coll.Cardiol 1998; 32: 948-54
Congenital Heart Disease Graham TP: Long-term outcome in congenitally corrected transposition of the great arteries: a multi-institutional study.
J Am Coll Cardiol 2000; 36: 255-61
Pulmonary Artery Embolism Ghaye B: Severe pulmonary embolism:pulmonary artery clot load scores and cardiovascular
parameters as predictors of mortality. Radiology 2006 Jun;239(3):884-91
ARDS Monchi M: Early predictive factors of survival in the acute respiratory distress syndrome. A multivariate analysis. Am J Respir.Crit Care Med 1998; 158: 1076-81
Cardiothoracic Surgery Reichert CL: Prognostic value of biventricular function in hypotensive patients after cardiac surgery as assessed by transesophageal
• ↓ RV and septal expressions of Bcl-2 (antiapoptotic)
• No changes in expressions of Bax (proapoptotic)
↑ Bax/Bcl-2 ratio (proapoptotic)
• ↑ RV caspase-8, caspase-9 and caspase-3 (proapoptotic)
Dewachter C et al.
Activation of apoptotic pathways in experimental acute
afterload-induced right ventricular failure
Crit Care Med 2010; 38:1405–1413
Right ventricular failure
Pathophysiology of the right ventricle
The vicious cycle of RV failure
↓ RV Output
↓ Cardiac outputSystemic
hypotension
↓ RV O2Supply/Demand
↓ LV contractility
Acute RV Failureand Dilation
Leftward
septal shift
Right-Left-Shunting
↑ RV wall tension
↓ LV compliance
↓ LV preload
A. B.
↓ RV contractility
↑ RV Afterload↑ RV Preload
TricuspidRegurgitation
↓ RV coronaryperfusion
Right ventricular failure
Pathophysiology of the right ventricle
The vicious cycle of RV failure
↑ RV afterload
RV dilatation RV dysfunction
↑ RV wall tension
↓ RV contractility
RV ischemia
VenousCongestion
Gaynor et al.
Right Atrial and Ventricular Adaptation to Chronic Right Ventricular Pressure Overload.
Circulation. 2005;112[suppl I]:I-212–I-218
Tricuspid
Regurgitation
Liver Failure
Renal Failure
↑ RV diastolic dysfunction
Right ventricular failure
Etiology of RV failure
in the perioperative period
RV
Afterload
RV
PreloadTricuspid regurgitation
Pulmonary regurgitation
Ischemia
Postoperative contractile dysfunction
(Stunning, Air embolism)
PHT
CPB
Pulmonary Embolism
Mechanical Ventilation
ALI/ARDS
Pulmonary Valve Stenosis
Sepsis
Cardiac Surgery
„Adult congenital
heart disease“
Intracardiac shunt
RV Contractility
Right ventricular failure
• Air Embolism (RCA!)
• Suboptimal myocardial protection (Stunning)
• RV Ischaemia
• Protamine
• CPB-associated PHT
• Release of pulmonary vasoconstrictors
• Depression of pulmonary vasodilators
0
2
4
6
8
10
12
Baseline Pre-CPB Post-CPB 6h ICU 24h ICU
Art
eri
al E
nd
oth
elin
(fm
ol/m
L)
CPB
Off Pump
CPB and NO
CPB and Endothelin
Courtesy P. Wouters
Etiology of RV failure
Post-Cardiotomy
Right ventricular failure
CVP
PAP
RVP
Pulmonary Artery Catheter
Monitoring the right ventricle
in the perioperative period
Right ventricular failure
• RV Shape
• Relative Size
• IVS
• IAS
• RVSP
• RVEDA < 0.7 LVEDA
• RVFAC > 40%
Echocardiography
Monitoring the right ventricle
in the perioperative period
Right ventricular failure
Echocardiography: Longitudinal Function!
Monitoring the right ventricle
in the perioperative period
TAPSE =
Tricuspid Anular Plane Systolic
Excursion
Vogel et al.
Validation of Myocardial Acceleration During Isovolumic Contraction
as a Novel Noninvasive Index of Right Ventricular Contractility.
Circulation. 2002;105:1693-1699
Misannt, Rex et al.
Load-sensitivity of Regional Tissue Deformation in the Right Ventricle:
Isovolumic versus Ejection-phase Indices of Contractility.
Eur Heart J 2008
Tissue Doppler
Imaging
IVA
Right ventricular failure
Mw
(m
Wa
tt s
ml-1
)
0
1
2
3
4
5
Control
TEA
Mw
(m
Wa
tt s
ml-1
)
0
2
4
6
8
10
12
14
Control
TEA
Baseline Hypoxia Baseline
°
*
°°
*
Hypoxia
RV
Rex et al.
Thoracic epidural anesthesia impairs the hemodynamic response to acute pulmonary hypertension by deteriorating right ventricular–pulmonary arterial coupling.
Crit Care Med 2007; 35:222–229
Therapy/Prevention of RV failure
in the perioperative period
Maintain RV intrinsic protective mechanism:
Homeometric Autoregulation:
Adaptation of RV contractility to match an increase in afterload
Avoid/Stop Sympathicolysis
Right ventricular failure
Missant C., Rex S. et al.
Differential effects of lumbar and thoracic epidural anaesthesia on the haemodynamic response to acute right ventricular pressure overload.
British Journal of Anaesthesia 104 (2): 143–9 (2010)
Maintain Homeometric
Autoregulation:
Avoid/stop cardiac
sympathicolysis
Therapy/Prevention of RV failure
in the perioperative period
Right ventricular failure
Therapy/Prevention of RV failure
in the perioperative period
Hypoxic Pulmonary Vasoconstriction
Avoid Hypoxia
Hypoxia
β-NADH ↑
cADP-Ribose
SR
Ca++
KATP
Ca++-
Channel
Ca++
Contraction
Ca++
K+
(-)
(+)
Depolarization
0
10
20
30
40
50
60
50 60 70 80 90 100 110 120 130 140 150
RV
P (m
mH
g)
RVV (ml)
40%
21%
15%
FiO2
Right ventricular failure
Therapy/Prevention of RV failure
in the perioperative period
Extra-alveolar vessels
Avoid hypoxia
HPV
Alveolar vessels
Compression by overinflation
Avoid high airway pressures/
high tidal volumes
Total PVR
Pu
lmo
na
ryV
as
cu
lar
Re
sis
tan
ce
Lung Volume
FRC TLCRV
Adjust the ventilator
PEEP
Right ventricular failure
↑ RV Afterload
RV Dilatation RV Dysfunction
↓ RV Output Leftward septal
shift
↓ LV Preload
↓ CO Hypotension
↓ Coronary
perfusion
pressure
↓ RV DO2
↑ RV VO2
↑ RV wall tension
RV Ischemia
RV diastolic
dysfunction
Venous Congestion Shunt (R-L)
Vasodilation
Vasopressors
↓ RV
contractility
InotropyInodilators
Vasopressors
Optimization Preload
Pharmacological Therapy of RV failure
in the perioperative period
Right ventricular failure
Therapy of RV failure
in the perioperative period
No RCT‘s!
Therapeutic concepts derived from LV failure
Volume: Caution!• Tricuspid regurgitation
• Wall tension
Inotropy• Poor contractile reserves of RV
• Inodilator (levosimendan, milrinone) vs. Inopressor (epinephrine)