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Hypertrophic Obstructive Cardiomyopathy (Case Presentation)

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... Hypertrophy: in any region of left ventricle SAM: systolic anterior motion of anterior MV leaflet against hypertrophic septum (Bernoulli effect) ... – PowerPoint PPT presentation

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Title: Hypertrophic Obstructive Cardiomyopathy (Case Presentation)


1
Hypertrophic Obstructive Cardiomyopathy(Case
Presentation)
  • Ashraf Andrawis, MD
  • Norman Bolden, MD
  • Metrohealth medical center- CWRU
  • Department of anesthesiology

2
History (1)
  • 35 YO Hispanic female, 37 weeks pregnant
    Presented to OB ward on 02/ 2002 for OB f/u
  • H/O syncope Pt. Collapsed at home during last
    pregnancy, required emergency C/S, had
    complicated postoperative course, required ICU
    admission and CVP monitoring for 1 week
  • HOCM (IHSS) diagnosed
  • Cardiology recommendation to avoid future
    pregnancy and permanent sterilization

3
History (2)
  • CP and chest heaviness (like baby sitting on my
    chest)
  • SOB when doing household activities and when
    laying flat (use 3 big pillows or sleeping in a
    chair)
  • Atypical CP
  • Required hospital admission X 2 during pregnancy
  • CCU admission (11/01) to R/O (PE / MI), heparin
    24 h, negative serial ECG and cardiac enz. And
    V/Q scan.
  • O/B H/R admission (01/02) to R/O (MI / CHF)
  • Heaviness of Lt. Shoulder and Lt. Arm with
    exertion
  • Nausea and palpitations when walking

4
History(3)
  • PMHx
  • Anxiety
  • HOCM (IHSS) diagnosed 2000
  • OBHx
  • 37 Weeks Pregnancy, G6P3023, EDD 02/27/02
  • PSHx
  • Ectopic pregnancy 1987
  • Therapeutic abortion 2000
  • C- section ?
  • 1985 ? child with spina bifida
  • 1997 ? child with heart murmur
  • 2000 ? child with heart murmur

5
Physical
  • V.S BP 112/67, HR 83, RR 20
  • Wt 119 Kg, Ht 6 Ft
  • HEENT PEERL, EOMI
  • MP class 2, TMD 5 cm, mouth opening 3FB, good
    neck mobility, and own dentition
  • Lungs CTA B/L
  • Heart ejection systolic murmur grade 3/6 at Lt.
    sternal border radiates to the base and the
    apex, no JVD, no Gallop
  • Neurological AAO x 3, non focal
  • ASA class 3

6
Labs and studies (1)
  • CK-MB 1.0
  • Fetal lung maturity 77.3
  • CXR slight cardiac enlargement, no infiltrate

7
(No Transcript)
8
Labs and studies (2)
  • Transthoracic echocardiogram on 01/24/2002
  • Left ventricular systolic function EF 65,
    hyperdynamic
  • Right ventricular systolic function normal
  • Valves
  • AR mild
  • MR , PR trivial
  • PAP 34/12
  • Subaortic stenosis with fibrocalcific changes,
    peak gradient 70 mmHg, mean gradient 41 mmHg
  • Compared to prior study dated 11/08/01
  • (peak gradient 90, mean gradient 60)

9
Chronology
  • Feb. 06, 2002 Preoperative assessments, chart,
    cardiology consult and echocardiography results
    reviewed, Anesthesia plan D/W Pt.
  • Feb. 07, 2002
  • At 0930 AM, pt to OR, standard 5 ASA monitors
    applied
  • 18 G IV Line, Right Radial A-line and Right IJ 9
    Fr introducer placed, SG catheter placed,
    wedge at 49 cm, no complication
  • Defibrillator pads applied to treat possible
    arrhythmia
  • Left uterine displacement applied
  • Initial VS BP 130/70 HR 80 CVP 11
    PA 22/11 CO 4.6 SVO2 72

10
Intraoperative Management
  • 1215 PM Smooth IV rapid sequence induction with
    Sux 120 mg, STP 350 mg, ETT 7 placed, ETCO2
    BS B/L
  • IVF bolus maintenance fluid given to keep CVP
    11-15 cmH2O
  • Surgery started at 1222
  • Maintenance of anesthesia Enflurane 0.6-0.8, N2O
  • Labetalol ,Esmolol, Fentanyl titrated to keep BP
    130-140/60-70 and HR 70-90
  • Total IVF 3000 cc, EBL 1200 cc, UOP 300ml
  • Delivery Of fetus at 1229
  • Surgery end at 1322
  • Pt. successfully extubated ? high risk unit then
    to CCU
  • Postop VS HR 97 BP 140/75 CVP 15

    PA
    49/25 CO 4.5 SVO2 70
  • Postoperative course stable, Pt. D/C home POD
    4

11
Hypertrophic obstructive cardiomyopathy Overview
  • Background
  • Pathophysiology
  • Histology
  • Clinical picture
  • Diagnosis and Differential
  • Treatment
  • Anesthetic consideration
  • Therapeutic approach of pregnant Pt. With HOCM

12
Hypertophic cardiomyopathy (HOCM)Background
  • Genetic disorder
  • Autosomal dominant with variable penetrance
  • Molecular basis
  • Defect in sarcomeric protein genes as myosin
    heavy chain, actin, tropomyosin
  • Abnormal myocardial Ca kinetics
  • Increase Ca intracellular ? hypertrophy and
    cellular disarray
  • Other terms
  • Idiopathic hypertrophic subaortic stenosis (IHSS)
  • Asymmetric septal hypertrophy (ASH)
  • Leading cause of sudden death in preadolescent
    and adolescent

13
Hypertophic cardiomyopathy (HOCM)Pathophysiology
(1)
  • Hypertrophy in any region of left ventricle
  • SAM systolic anterior motion of anterior MV
    leaflet against hypertrophic septum (Bernoulli
    effect)
  • dynamic pressure gradient across LV outflow
    tract
  • midsystolic intraventricular obstruction of the
    flow
  • SAM - Septal Contact ? dynamic obstruction
    increased by
  • ? afterload
  • ? preload
  • ? contractility

14
Hypertophic cardiomyopathy (HOCM)Pathophysiology
(2)
  • Diastolic Dysfunction
  • Due to prolongation of isovolumic relaxation time
    (AV closure to MV opening)
  • ? LV filling pressure
  • ? Ventricular volume
  • Atrial contribution to ventricular filling 75
  • Poor Compliance
  • ? LVEDP for any LVEDV
  • ? CPP gradient
  • Subendocardial ischemia

15
Normal Anatomy
16
Hypertophic cardiomyopathy (HOCM)
17
Hypertophic cardiomyopathy FACTS
  • Sex Male gt female (younger, more symptomatic)
  • Age
  • Most common in 30s - 40s
  • Most common autopsy finding in previously healthy
    athletes
  • Recent study, elderly with severe mitral annular
    calcification ? sub-aortic obstruction
  • Frequency
  • 0.5 of outpatient population
  • Prevalence 0.05-0.2
  • 25 of first degree relative

18
Hypertrophic cardiomyopathy (HOCM) FACTS
  • Morbidity / Mortality
  • Sudden death younger Pt., aggressive genotype
  • Arrhythmia A- fib, A- flutter, v-tach. or v-fib
  • CHF MR and diastolic dysfunction
  • Angina adults gt children
  • Syncope and pre-syncope

19
Hypertrophic cardiomyopathy (HOCM)
20
Hypertophic cardiomyopathy (HOCM)Histologic
Findings (1)
Gross disorganization of the muscle bundles and
myofibrillar disarray
21
Hypertophic cardiomyopathy (HOCM)Histologic
Findings (2)
  • Abnormal intramural coronary arteries (see arrow)
  • Reduction in the size of the lumen
  • Thickening of the vessel wall
  • 80 of cases

22
Hypertophic cardiomyopathy (HOCM)
  • Dizziness
  • ? by
  • Exertion
  • Hypovolemia
  • Maneuver (rapid standing or valsalva)
  • Medication (diuretics, NTG and Vasodilator Meds)
  • Arrhythmia ? hypotension ? decrease cerebral
    perfusion
  • Dyspnea
  • Most common symptom, 90
  • ? Lt Ventricular Diastolic filling pressure ? ?
    PAP
  • Orthopnea and Paroxysmal Nocturnal Dyspnea
  • Pulmonary venous congestion
  • Early signs of CHF

23
Hypertophic cardiomyopathy (HOCM)
  • Angina
  • Common with no CAD
  • Impaired diastolic relaxation ? MVO2 ?
    Sub-endocardial ischemia
  • ? Capillary density leads to ? flow to
    hypertrophic muscle
  • Extramural compression of coronaries
  • ? Systolic ejection time leads to ? diastolic
    interval for coronaries perfusion
  • Syncope and pre-syncope
  • Very common
  • ? CO with exertion or arrhythmia
  • High risk of sudden death
  • Urgent work-up and aggressive treatment

24
Hypertophic cardiomyopathy (HOCM)
  • Palpitation
  • Ventricular Arrhythmia 75
  • SVT 25
  • A- fib 5-10
  • Sudden cardiac death (SCD)
  • 6 in children
  • Related to extreme exertion
  • MCC of SCD is arrhythmia
  • 80 V-fib

25
Causes of Ischemia in HOCM
  • ? Myocardial muscle mass
  • ? Myocardial oxygen demand (? wall stress)
  • ? Diastolic filling pressures
  • ? Coronary capillary density
  • ? Vasodilatory reserve
  • Abnormal intramural coronary arteries
  • ? Systolic compression of coronary arteries

26
Hypertophic cardiomyopathy (HOCM)Physical (1)
  • Double apical impulse
  • Forceful left atrial contraction against
    non-compliant ventricle
  • Triple apical impulse
  • Late systolic bulge near isometric contraction
  • S1 normal
  • S2 normal or paradoxical split
  • S3 gallop decompensated Lt. ventricle
  • S4 atrial systole against hypertrophic ventricle
  • Jugular venous pulse prominent a- wave
  • Double carotid arterial pulse declines in mid
    systole as gradient develop

27
Hypertophic cardiomyopathy (HOCM)Physical (2)
  • Systolic Ejection Murmur Crescendo - Decrescendo
  • Between apex and left sternal border
  • Radiate to suprasternal notch
  • ? by
  • ? Preload (volume loading)
  • ? Afterload (vasopressor)
  • ? by
  • ? Preload (nitrates, diuretic, standing)
  • ? Afterload (vasodilator)

28
Hypertrophic cardiomyopathy (HOCM)Physical (3)
  • Holosystolic Murmur of MR
  • Retrograde ejection of blood flow into low
    pressure left atrium
  • Best heard at apex and axilla
  • Pt. with SAM and significant LV outflow
    gradients
  • Diastolic Decrescendo Murmur of AR 10 of Pt.
  • Systolic anterior motion

29
Hypertophic cardiomyopathy (HOCM)
  • Lab studies
  • Blood test non specific
  • Genetic testing for high risk group
  • ECG
  • ST-T wave abnormalities
  • LV hypertrophy, LA enlargement
  • Axis deviation (left gt right)
  • Conduction abnormalities (P-R prolongation, BBB)
  • A-fib (poor prognostic sign)

30
Hypertophic cardiomyopathy (HOCM)
  • Two - Dimensional Echocardiography and Doppler
  • MR and Mitral prolapse
  • Flow velocity gt 4.0 m/s
  • LV outflow gradient gt 50 mm Hg
  • EF high to normal
  • Small LV cavity
  • Left atrial enlargement
  • Septal thickness 4-6 mm thicker than normal
  • The hallmarks
  • SAM of Mitral valve
  • Asymmetric septal hypertrophy

31
Two- Dimensional Echocardiography
32
Two- Dimensional Echocardiography
33
Hypertophic cardiomyopathy (HOCM)
  • Radionuclide study
  • Absence of CAD
  • Defects of myocardial perfusion
  • Cardiac catheterization
  • Degree of outflow obstruction
  • Diastolic characteristics of the left ventricle
  • LV anatomy
  • Coronary arteries anatomy
  • Holter monitoring
  • Nonsustained atrial or ventricular arrhythmia /
    24 h

34
HOCM
35
Left-Side Cardiac Pressures
  • Aortic upstroke rates
  • Delayed
  • supravalvular AS
  • valvular AS
  • subvalvular AS
  • Rapid and parallel to the LV pressure
  • HOCM
  • (From Criley JM, Siegel RJ Subaortic stenosis
    revisited The importance of the dynamic pressure
    gradient. Medicine 72412, 1993.)

36
CXR HOCM
Cardiac enlargement gt 1/2 thoracic width
37
Hypertophic cardiomyopathy (HOCM)Differential
Diagnosis
  • Aortic Stenosis
  • Restrictive Cardiomyopathy
  • Glycogen Storage Disease, Type 2

38
Hypertophic cardiomyopathy (HOCM)
  • Goals
  • ? Ventricular contractility
  • Myocardial depression
  • ? Ventricular volume
  • Volume loading
  • ? Ventricular compliance and outflow tract
    dimensions
  • ? Pressure gradient across the LVOT
  • Vasoconstriction

39
Hypertophic cardiomyopathy (HOCM) Medical Care
  • Activity
  • Avoid Competitive level sports when
  • Significant outflow gradient
  • Significant arrhythmia
  • Marked LV hypertrophy
  • History of sudden death in relatives
  • Identified malignant genotype

40
Hypertophic cardiomyopathy (HOCM) Medical Care
  • The purpose of pharmacologic therapy
  • ? Inotropic state of left ventricle
  • ? ? pressure gradient
  • ? Compliance of the Lt.Ventricle
  • ? Diastolic dysfunction

41
Hypertophic cardiomyopathy (HOCM) Medications
  • Beta-Blockers (Metoprolol, Propranolol,
    Atenolol, Sotalol )
  • Calcium Channel blockers (Verapamil)
  • Antiarrhythmic amiodarone and disopyramide
  • Antitussives avoid coughing
  • Antibiotic prophylaxis against endocarditis
  • Anticoagulation Atrial fibrillation

42
Hypertophic cardiomyopathy (HOCM) Beta -
blockers
  • ? Pressure gradient across LVOT
  • ? Inotropic state of left ventricle.
  • ? Diastolic dysfunction
  • ? Lt. Ventricle compliance
  • ? HR
  • ? Myocardial oxygen consumption
  • ? Myocardial ischemia potential

43
Hypertophic cardiomyopathy (HOCM)
Antiarrhythmics
  • Amiodarone (Cordarone)
  • To date,
  • Only one pharmacological agent, has been shown
    to reduce the incidence of arrhythmogenic sudden
    cardiac death

44
Hypertophic cardiomyopathy (HOCM)
Contraindication
  • Inotropic
  • Sympathomimetic
  • Nitrates
  • Except in patients with CAD
  • Digitalis
  • Except with uncontrolled A-fib.
  • Diuretics
  • ? Preload and ventricular volume
  • ? Outflow gradient

45
Hypertrophic cardiomyopathy (HOCM) Surgical Care
(1)
  • Mitral Valve Replacement
  • Catheter septal ablation
  • 96 ethanol infusion of LAD to destroy
    myocardial tissue
  • Left ventricular myomectomy or septal myotomy
  • Indications
  • severe symptoms refractory to medical therapy
  • outflow gradient gt50 mm Hg
  • Verapamil (improve diastolic) and myomectomy
    (improve systolic)
  • 2 mortality overall
  • Retrospective study survival rate higher with
    surgical treatment

46
Hypertrophic cardiomyopathy (HOCM)
47
Hypertophic cardiomyopathy (HOCM) Surgical Care
(2)
  • Implantable Cardioverter Defibrillator (ICD)
  • Prevents sudden death
  • Automatically detects, recognizes, and treats
    arrhythmia
  • Many prospective studies
  • In adults with CAD and ? EF, the ICD has been
    demonstrated
  • to be superior to antiarrhythmic drug therapy

48
Hypertophic cardiomyopathy (HOCM) Anesthetic
considerations (1)Pre-operative period
  • Pre-medication
  • Avoid anxiety producing tachycardia
  • ?-blocker and/or Ca channel blocker
  • Continue untill the day of surgery and
    postoperative
  • Avoid arrhythmia
  • Aggressive treatment of arrhythmia
  • Antiarrhythmic Meds
  • Cardioversion
  • Maintain adequate intravascular volume and
    preload

49
Hypertophic cardiomyopathy (HOCM) Anesthetic
considerations (2) Intra-operative Monitoring
  • Contractility and HR avoid direct or reflex
    increase
  • Arterial BP
  • Avoid hypotension
  • Bifid shape waveform "spike-and-dome"
  • CVP high normal - elevated / vasoactive meds.
  • PAC
  • PCWP high normal - elevated
  • Overestimates pt. true volume status
  • PAC with pacing capability
  • CPP use vasoconstrictor / avoid inotropes

50
Hypertophic cardiomyopathy (HOCM) Anesthetic
considerations (3) Inhalation Anesthetics
  • Negative inotropy
  • Decrease SAM-Septal contact
  • Ideal for dose dependant myocardial depression
  • (Halothane gt Enflurane gt Isoflurane gt Desflurane,
    Sevoflurane)
  • Avoid hypotension due to underlying hypovolemia

51
Hypertophic cardiomyopathy (HOCM) Anesthetic
considerations (4) Regional anesthesia
  • Relatively contraindicated
  • Continuos spinal/epidural
  • Avoid bolus administration
  • Avoid hypotension
  • Replace intravascular volume
  • Vasopressor

52
Hypertophic cardiomyopathy (HOCM) Anesthetic
considerations (5) IV Vasopressors
  • Phenylepherine
  • Low risk / high yield choice for hypotension
  • Augment perfusion and CPP
  • Decrease pressure gradient
  • Increase vagal reflex

53
Hypertrophic cardiomyopathy (HOCM) Anesthetic
considerations (6)
  • MR with HOCM
  • Inotropes and Vasodilators worsen ventricular
    ejection
  • Vasoconstrictors improve ventricular ejection

54
Hypertophic cardiomyopathy (HOCM) Pregnancy
  • Reported 100 pregnancies in patients with HOCM
  • Favorable outcome in most cases
  • New onset or worsening CHF reported in 20 of
    cases
  • SVT and A - fib. with fetal distress reported,
    leading to hemodynamic deterioration and
    direct-current cardioversion
  • Sudden death in one Pt. at 28 weeks
  • Fetal outcome in most cases is not affected by
    maternal HOCM

55
Hypertophic cardiomyopathy (HOCM) Therapeutic
Approach of Pregnancy
  • Indications for drug therapy during gestation
    include
  • Arrhythmias
  • Elevated left ventricular filling pressure
  • beta - blocker and calcium antagonists
  • Dual-chamber pacing
  • before pregnancy in symptomatic patients.
  • ICD
  • syncope or life-threatening arrhythmias

56
Hypertophic cardiomyopathy (HOCM) Therapeutic
Approach of Pregnancy
  • Induction of labor
  • Prostaglandin ? risky because of vasodilator
    effect
  • Oxytocin ? well tolerated
  • Tocolytic agents
  • ?-agonist ? LVOT obstruction
  • MgSO4 is preferred
  • Avoid
  • Blood loss
  • Vasodilators
  • Sympathetic stimulation

57
Hypertophic cardiomyopathy (HOCM) Therapeutic
Approach of Pregnancy
  • Continous spinal and epidural anesthetics
  • Avoid vasodilator effect by bolus administration
  • Antibiotic prophylaxis
  • higher risk for infective endocarditis

58
Thank You ,
  • The End
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