ANESTHESIA FOR A PATIENT OF MITRAL STENOSIS DR.SANDEEP SAINI LLRM COLLEGE MEERUT U.P. INDIA
Mar 23, 2016
ANESTHESIA FOR A PATIENT OF MITRAL STENOSIS
DR.SANDEEP SAINI LLRM COLLEGE MEERUT U.P. INDIA
INDEX INTRODUCTION ETIOLOGY & PATHOLOGY PATHOPHYSIOLOGY SYMPTOMS AND SIGNS DIAGNOSIS ANESTHETIC MANAGEMENT
INTRODUCTION- Mitral stenosis is the narrowing of mitral orifice as a result of diffuse thickening of valve leaflets by fibrous tissue and calcific deposits.
ETIOLOGY AND PATHOLOGY-Most common cause of mitral stenosis is rheumatic heart disease.
Females are affected more than males. Less common – carcinoid syndrome, left atrial myxoma, cor triatriatum, rheumatoid
arthritis, systemic lupus erythematosus congenital. Thickening of valve leaflets and cusps become rigid. Fusion of mitral commissures. Shortening and fusion of chordae tendinae. All the changes leads to funnel shaped (fish mouth) valve. Calcification immobilize the leaflets and narrows the orifice further.
PATHOPHYSIOLOGY Cardiac changes- Normal valve area: 4-6 cm2
Mild mitral stenosis: MVA 1.5-2.5 cm2
Minimal symptoms Mod mitral stenosis MVA 1.0-1.5 cm2 usually does not produce symptoms at rest Severe mitral stenosis MVA < 1.0 cm2 Symptoms at rest
Mean gradient: >10 mmHg Severe 5-10 mmHg Moderate <5 mmHg Mild
Right Heart Failure:Hepatic Congestion
↑JVPTricuspid Regurgitation
RA Enlargement
Pulmonary HTNPulmonary Congestion
Atrial FibLA Thrombi
LA Enlargement LA Pressure
RV Pressure Overload RVH RV Failure
Obstruction of diastolic inflowProlonged early diastolic mitral inflow &delayed fillingPressure volume loops shifted to left so LVEDP and LVEDV are↓
Pathophysiology
Pulmonary changes Pulmonary arterial hypertension results as- 1)Increased left atrial pressure. 2)Pulmonary arterial constriction. 3)Interstitial edema in the wall of the small pulmonary
vessels. 4)Organic obliterative changes in the pulmonary vascular
bed. At last if there is severe pulmonary arterial
hypertension→Tricuspid regurgitation Pulmonary in competence Rt sided heart failure
HEMODYNAMIC CHANGES THAT OCCURS AT VARIOUS STAGES OF SEVERITY OF MITRAL STENOSIS
SEVERITY→ MILD (1.5-2.5 cm2)
MODERATE(1.1-1.5 cm2)
SEVERE( < 1cm2 )
Left atrial pressure
N
↑ ↑↑
Pulmonary arterial pressure N ↑ ↑↑ or ↑↑↑↑
Cardiac output N
N ↓ or ↓↓↓
Left atrial pressure ↑ ↑↑
Pulmonary arterial pressure ↑ ↑↑
Cardiac output ↑ ↑
AT
R E S T
E X E R C I S E
Symptoms o Breathlessness Fatigue Oedema, ascites Palpitation Haemoptysis Cough Chest pain Hoarseness Mitral facies or malar flush Symptoms of thromboembolic complications (e.g. stroke, ischaemic
limb)
Are worsened by conditions that demand increase in cardiac output.◦ Exertion,fever, anemia, pregnancy, thyrotoxicosis
NYHA FUNCTIONAL CLASSIFICATION OF PATIENT WITH HEART DISEASE CLASS Ι -Asymptomatic CLASS ΙΙ –Symptoms with ordinary activity but comfortable
at rest. CLASS ΙΙΙ –Symptoms with minimal activity but comfortable
at rest. CLASS ΙV – Symptoms at rest
Signs Palpation: Small volume pulse Tapping apex-palpable S1 Palpable S2 Atrial fibrillation Signs of raised pulmonary
capillary pressure Crepitations, pulmonary
oedema, effusions Signs of pulmonary hypertension
RV heave, loud P2
Auscultation: Loud S1 P2 component accentuated. A2-P2 Split. S2 to OS interval inversely proportional
to severity Diastolic rumble: length proportional to
severity In severe MS with low flow- S1, OS &
rumble may be inaudible
Lab examination Chest x-ray Straightening of left border of cardiac
silhouette. Prominent main pulmonary arteries. Dilation of the upper lob pulmonary
veins. Backward displacement of the
esophagus by enlarged left atria.
ELECTROCARDIOGRAPHY The ECG may show LA enlargement, Manifest as a P wave lasting> 0.12 msec with prominent
negative deflection of its terminal component (duration: > 0.04 msec; amplitude: >0.10 mV) in V1;
Broad, notched P waves in lead II; or both. Low voltage in V1, Right axis QRS deviation, and tall R waves in V1 suggest RV
hypertrophy
Echocardiography
Diagnosis of Mitral Stenosis Assessment of hemodynamic severity
◦ mean gradient, mitral valve area, pulmonary artery pressure Assessment of right ventricular size and function. Diagnosis and assessment of concomitant valvular lesions Reevaluation of patients with known MS with changing symptoms or
signs. F/U of asymptomatic patients with mod-severe MS
Diagnosis History Symptoms Signs on physical examination X-ray chest Electrocardiogram Echocardiography
Anesthetic management The main objectives are- To maintain sinus rhythm To avoid tachycardia To avoid large increase in cardiac output To avoid hypovolemia and fluid overload.
A thorough history and examination to be done.Investigation- Hemogram Blood sugar ,blood urea ,s.creatinine x-ray chest Electrocardiogram Echocardiography
PREOPERATIVE MEDICATIONS Antianxiety drugs decrease tachycardia associated with anxiety. Drugs used for heart rate control should be continued until the time of surgery. If diuretics are used treat hypovolemia and hypokalemia if associated. For minor procedures continue the anticoagulant therapy. For major surgery discontinue. For regional anesthesia anticoagulant tests should be performed.
ANESTHESIA TECHNIQUE-Patients may be very sensitive to the vasodilating effect of spinal and epidural anesthesia.
Epidural is preferable over spinal anesthesia because of the more gradual onset.
General Anesthesia Premedication -Avoid premedication with anticholinergics to avoid tachycardia.
opioiods like fentanyl are used to give analgesia.
Induction –Induction can be achieved with any available iv induction agent except KETAMINE as it increases heart rate and blood pressure.
For muscle relaxation agents that do not release histamine are preferred as histamine causes tachycardia and hypotension.
Steroidal group of muscle relaxants does not cause histamine release. Example are- VECURONIUM, ROCURONIUM, PANCURONIUM.
Benzylisoquinolinium group causes histamine release. Example are –ATRACURIUM, CISATRACURIUM, MIVACURIUM.
Succinylcholine also causes slight release in histamine.
Maintenance Accomplished by use of drugs with minimal effects on heart rate, contractility,
systemic and pulmonary vascular resistance. Achieved by –nitrous oxide & opioid. low conc. Of volatile anesthetic For muscle relaxation vecuronium is preferred. Avoid light anesthesia. Intra-op fluid administration should be carefully titrated because these patients are
very susceptible to volume overload and the development of pulmonary edema.
Monitoring Noninvasive monitoring like HR, BP , ECG, RR, SpO2. Invasive monitoring depends upon-Complexity of the operative procedure. -Magnitude of physiological impairment. Transesophageal echocardiography could be useful in patients with symptomatic
mitral stenosis undergoing major surgery.
In symptomatic patients and major surgery continuous monitoring of IBP , pulmonary artery pressure and left atrial pressure should be considered.
If there is intra-op tachycardia –deepen the plane β-blocker eg. Esmolol and propranolol. If hypotension occurs phenylephrine is preferred over ephedrine because it lacks
the β adrenergic activity. If atrial fibrillation occurs ventricular rate is controlled with diltiazem and digoxin. For sudden supraventricular tachycardia –cardioversion.
Reversal of anesthesia. Reversal nondepolarising muscle relaxants is achieved slowly with neostigmine and
glycopyrrolate to reduce drug induced tachycardia caused by glycopyrrolate.
Post operative management . Proper pain management to avoid tachycardia. Risk of pulmonary edema and right heart failure continue so cardiovascular
monitoring should be continued. Oxygen supplementation until adequate oxygenation is established. Management of post op hypothermia and shivering.
Thank You……….