ITE Review: Cardiovascular

ITE Review: Cardiovascular

Know ACLS

-meds that can be given through ET tube…..LEAN

-Lidocaine

-Epinephrine

-Atropine

-Nalaxone

-give 2-2.5 times normal dose dilute in normal saline

Dysrhythmias:

Know normal EKG morphology/intervals/etc

Hypothermia

-‘J wave’ or Osborn wave

-sinus brady and afib w/out RVR most commonly seen

-rewarm the patient

Hypokalemia

-U waves (best seen in V3)

- PROLONGED QT……LEADING TO RISK OF VFIB/TORSADES

Hyperkalemia

-peaked T’s (5.5-6.5)

-prolonged PR, flattened or absent P, wide QRS (6.5-8)

-sine wave, vfib, asystole (>8)

Hypocalcemia

-prolonged QT

Hypercalcemia

-shortened ST and QT intervals

Hypomagnesemia

-prolonged PR and QT

-usually associated with hypokalemia (if you don’t replace mag, K will stay low)

Digitalis Effects

-sagging ST, concave up (hockey stick)

-most prominent in lateral leads…..does not indicate toxicity

-toxicity

-poisoning of the Na-K-ATPase pump: tachydysrhythmias

-increasing vagal tone: bradydysrhythmias and AV blocks

-risk factors: hypoxia, lyte imbalance, drugs

-EKG: PVCs- most common

-paroxysmal atrial tach with AV block – pathognomonic

-Acute (think young OD) vs Chronic (think elderly, poor renal function)

-treatment: acute: multiple doses of charcoal, give FAB

-FAB: ventricular dysrhythmias, K >5, lethal intoxication

SVT

-regular

-vagal maneuvers

-adenosine (xanthines increase dose, benzos/carbamazepine decrease dose)

-Ca vs beta blockers to slow rate

Atrial Fibrillation

-irregularly irregular

-generally 160-180, >200 think WPW

-regular and slow, think digitalis

-normal cardiac function (CA/beta blockers)

-compromised cardiac function (dig/amiodarone)

->48 hr onset attempt to avoid cardioversion

-think about anticoagulation

WPW

-short PR (<0.12)

-delta wave

-Kent bundle is the accessory

-narrow regular complex treat like SVT

-wide complex procainamide vs. amiodarone

-afib or flutter, NO AV blockers, procainamide

Atrial Flutter

-sawtooth

-vagal maneuvers or adenosine

-rate control (beta/Ca block)

Multifocal Atrial Tachycardia

-irregularly irregular rhythm

-p waves varying shapes, at least three different types in one lead

-treat the underlying condition (COPD, CHF, theophylline toxicity)

-then Ca blockers (avoid beta block), try mag

Sick Sinus Syndrome

-combinations of brady and tachydysrhythmias, most commonly in elderly

-treatment based on brady or tachy

-need referral to cardiologist for pacer

Ventricular Tachycardia

-3 or more consecutive PVCs with rate >120

-PVC= earlier, wider, absent preceding P wave, ST/T wave opposite of QRS

-monomorphic: amiodarone, lidocaine, procainamide or sotalol

Torsades de pointes

-QRS axis swings from + to – in single lead

-precipitated by prolonged QT

-hypo K, hypomag

-1A and 1C antidysrhythmics, cyclic antidepressents, droperidol

-magnesium sulfate, then overdrive pacing (isoproterenol)

Ventricular Fibrillation

-fine or course, zigzag pattern, no Ps, QRS or t waves

-ACLS

***Remember cardiovert in cases of hemodynamic instability***

Know PEA and Bundle Branch Blocks

AV Blocks

-1st: pronlonged PR >0.20 sec

-no treatment

-Mobitz 1 (wenckebach): PR progressively lengthens and then drops beat

-asymptomatic no treatment (symptoms get atropine or pacing)

-Mobitz II: PR same duration, dropped beats

-require pacing, avoid atropine

-3rd : no atrial pulses conducted, no relationship between P and QRS

-require pacing, try atropine (except wide complex with inferior MI)

Pacemakers/AICD

-transcutaneous vs temporary transvenous

-used for unstable brady, overdrive pacing, early bradyasystolic arrest

-Tips for transvenous pacing

-apex of right ventricular ideal location

-right IJ preferred access (2nd in left subclavian)

-Pacemaker Failure

-screening EKG, CXR, use of pacemaker magnet

-magnet placement turns off sensing, turns pacer to fixed-rate

-battery depletion, wire fracture, oversensing, lead malposition

-runaway pacer: HR>200, usually from battery depletion, place magnet

-AICD

-indicated for pts who are high risk for fatal dysrhythmias

-think Brugada, Hx of sudden cardiac arrest, poor EF

-place magnet over to inactivate

-CPR and defibrillate then same (don’t place pads overtop generator)

Acute Coronary Syndrome

-continuum from stable angina to unstable angina to acute myocardial infarction

-stable angina: transient, episodic CP, predictable and reproducible, improved with rest or nitro

-unstable angina: new in onset, occurs at rest or differs from stable angina, severely limiting or last longer

-AMI: STEMI or CP with elevated cardiac markers

-Atypical presentations: DM, elderly and women

-epigastric discomfort

-fatigue/SOB

-approx 12.5% of all MIs

-Risk Factors: smoking, HTN, DM, hyperlipidemia, FHx 1st CAD <55, Hx of CAD, PVD

EKG: Get one and know what a STEMI looks like

-Anterior (LAD)- V1-V4, reciprocals in inferior leads

-Lateral (LAD/circumflex)- I, avL, V5-6

-Inferior (right CA)- II, III, avF, depression in V1-4

-Right Ventricular Wall (right CA) – V3r and V4r, usually happens with inferior

-think hypotensive and cardiogenic shock

-Posterior (circumflex off right) – depression in anterior leads, abnormally tall R in V2

Treatment

-ASA: 160-325 mg, chewing gives max benefit

-Plavix: in STEMI or high risk NSTEMI

-Heparin/lovenox: for AMI and unstable angina

-Nitro: for pain, watch BP

-beta-blockers: usually given on floor, at some point within 24 hours

-Morphine: for pain after nitro

-Thrombolytics (STEMI)

-TPA/Alteplase, given within 30 minutes of ED arrival, if no CATH

-PCI > 60-90 minutes away

-no contraindications

-PCI- for STEMI

Complications

-Dysrhythmias

-vfib highest in first hour of infarct

-LV failure (CHF, pulmonary edema, cardiogenic shock)

->25% function loss = pulm edema

->40% loss of function = shock

-Conduction disturbances

-1st degree and Mobitz 1 with inferior

-Mobitz II with anterior – gets pacer

-BBB with AMI more likely to develop CHF, AV block and vfib

-new RBBB in AMI high risk of 3rd AV block and cardiogenic shock

Congestive Heart Failure/Acute Cardiogenic Pulmonary Edema

Etiology: left sided-ischemic heart disease. HTN, aortic/mitral valvular disease

Right sided- left sided failure, pulm HTN, tricuspid/pulmonic disease

Precipitating Factors

-ischemia

-afib

-sodium overload and non compliance

-increased hemodynamic demand

-HTN

-COPD (leading cause of cor pulmonale)

Signs and symptoms

-SOB, ‘cardiac asthma’, pleural effusion, S3, JVD, dependent edema

CXR/Symptom Progression

-Stage 1: cephalization, dyspnea, PAWP 8-12

-Stage 2: interstitial edema (kerley B lines), dry cough, PAWP 18-25

-Stage 3: alveolar edema (butterfly pattern), wet cough, pink frothy sputum

PAWP >25

Lab

-BNP-marker for CHF

-<100 reliably excludes diagnosis

Treatment

-place upright, get monitor strip

-Oxygen: most important, don’t forget about BiPAP, if intubated think PEEP

-meds: nitro, lasix, morphine

-think pressors if in shock (dobutamine, norepinephrine)

Cardiomyopathies

-dilated (most common), restrictive or hypertrophic

Idiopathic Dilated Cardiomyopathy

-dilatation of all four chambers, systolic pump failure

-get sings of left and right sided failure

-afib most common dysrhythmia

-treat with diuretic, vasodilators, (digitalis)

Restrictive Cardiomyopathy

-diastolic restriction of ventricular filling, mimics constrictive pericarditis

-right sided failure symptoms predominate

-exercise intolerance common

-dilated atria, mitral/tricuspid regurg

-treat with diuretics (avoid vasodilators)

Hypertrophic Cardiomyopathy

-left ventricular hypertrophy without dilation, usually septum greater

-50% inherited

-dyspnea on exertion, syncope and pre-syncope with exertion

-sudden death with exercise induced dysrhythmias (usually older pt)

-‘a wave’, systolic ejection murmur increased with valsalva, standing, exercise

-EKG with LVH and left atrial enlargement, giant negative T waves

-treat with propranolol, amio for ventricular dysrhythmias

-avoid increasing myocardial contractility and/or reducing ventricular volume

-septal myomectomy for severe cases (mortality of 3-8%)

-antibiotic prophylaxis for dental procedures

Deep Venous Thrombosis

-venostasis, hypercoagulability and vessel wall injury/abnormality (Virchow’s triad)

Presentation

-unilateral pain, swelling and edema (most reliable sign, >3cm)

Phlegmasia cerulea dolens

-ischemic form of venous occlusion

-tensely swollen, painful and cyanotic (bullae may be present)

-may result in venous gangrene (irreversible)

Phlegmasia alba dolens (milk leg)

-massive iliofemoral thrombosis associated with arterial spasm

-swollen not tense, doughy, white skin, petechiae often present

-temporary, as arterial spasm resolve leg become cyanotic appearing

Risk Factors

-PRIOR DVT, carcinoma, pregnancy/post partum, estrogen therapy

-immobility, trauma/surgery, AIDS/SLE, inherited coagulopathies

-KNOW WELLS! And when to use d-dimer for exclusion

Diagnosis

-duplex Ultrasonography (with repeat testing usually in 7 days)

Treatment

-aimed at preventing PE

-anti-coagulate with heparin/lovenox and start Coumadin

-thrombolytic therapy for <60 yo pts with massive limb threatening clot

ie cerulea dolens

-greenfield filter if can not anti-coagulate or have failed

-admit those who: need close monitoring for bleeding

-poor compliance/inadequate assistance

-circulatory compromise

-require IV heparin

Pulmonary Embolism

-third most common cause of death in US

-primarily a complication of a DVT

Risk Factors

-DVT, obesity, prior DVT/PE, surgery (orthopedic), carcinoma, prolonged bed rest

Presentation

-DYSPNEA, pleuritic CP, apprehension, syncope (massive)

-TACHYPNEA, tachycardia, hypotension (massive)

-classic triad: dyspnea, pleuritic CP or tachypnea (present in at least 95%)

-once again know WELL’s

CXR

-atelectasis, elevated hemidiaphragm, small pleural effusion: most common

-hampton’s hump and westermark’s sign

-dyspnea and hypoxia with normal CXR very suggestive

EKG

-nonspecific ST/T wave and sinus tach are most common finding

-look for right heart strain

-peaked P in lead II

-new RBBB, S1Q3T3

D-dimer

-remember Well’s, negative test can not exclude moderate or high pretest!

V/Q scan

-need interpretation in the context of clinical suspicion

-low-moderate pretest prob with normal study, excludes significant PE 98%

-indeterminate or non-diagnostic will need further testing

-high prob with high pretest is considered confirmatory

-remember limited in lung disease

sCTA

-95% sensitivity for segmental or large PE, 75% for subsegmental

-per Rivers: negative test with high pretest requires angiography

Pulmonary Angiography

-gold standard

-can still miss small peripheral clots, also 2.5 mm w/out augmentation

Duplex US

-nondiagnostic VQ, use this as next step, if + treat

Treatment

-heparin/lovenox with Coumadin

-Fibrinolytic

-hemodynamic instability

-RV dysfunction on bedside echo

-TPA preferred, 100mg over 2 hours

Pericardial Disorders

Pericarditis

-most common cause: idiopathic and viral

-diagnosis

-Hx: sharp precordial pain, relieved by sitting up and leaning forward

-PE: friction rub is pathognomonic (triphasic, lower left sternal border)

-EKG: diffuse concave up ST elevation with PR depression

-echo: to look for effusion

-BUN/Crt: important to r/o uremia

-treatment

-outpatient for idiopathic/viral if reliable with NSAIDs

-inpatient for others and treat underlying cause

(dialysis for uremia, cessation of drug, antimicrobials for infection)

Pericardial Tamponade

-Beck’s triad: hypotension, JVD, muffled heart tones (happens just prior to arrest)

-tachycardia is earliest finding

-diagnosis

-EKG: low voltage, electrical alternans (pathognomonic)

-echo: gold standard

-large effusion, diastolic collapse of RV and RA

-swinging motion

-treatment

-monitor, IV, O2

-aggressive volume resuscitation and pressors if needed

-cardiac/CT consult and pericardiocentesis (under US)

Myocarditis

-inflammation of the heart muscle

Presentation

-range from nonspecific fatigue to florid CHF

-usually preceded with viral illness

-watch for tachycardia disproportionate to fever

Diagnosis

-EKG: non specific, most common sinus tach

-CXR: usually normal (could see signs of CHF)

-Echo: dilated chambers with diffuse or focal hypokinesis

-Labs: mild to moderate leukocytosis, elevated ESR

-trop rise and fall slowly

-endomyocardial biopsy for definitive

Etiology

-virus is most common cause

-also remember drugs, parasites and systemic disease (SLE, Kawasaki)

Treatment

-supportive, admit to ICU, bed rest

-treat CHF like CHF (ACE inhibitors particularly helpful)

-immunosuppressives and NSAIDs contraindicated

-IVIG for Kawasaki

Endocarditis

-localized infection of the endocardium with hallmark of vegetation

-congenital/acquired valvular disease and prosthetic are most commonly affected

Causative Organisms: most commonly bacteria

-native valves: non-viridan strep

-prosthetic valves: coag-neg staph (<60 day post-op), staph aureus/strep epi (>60)

-IVDA/immunocompromised: staph aureus

Left vs Right: IVDA on right (pulmonary)

Clinical Presentation

-fever: most common

-signs of metastatic infection

-Roth spots (retinal hemorrhage), Osler nodes (tender nodules on volar finger)

-Janeway lesions (non tender macular on fingers, palms, soles), splinter hemorrhages

Diagnosis

-blood cultures most useful, + in >90%

-Duke Criteria

-Major: positive blood culture, evidence of endocardial involvement

-Minor: predisposition, fever, vascular and/or immunologic phenomenon,

Microbiologic evidence, echo evidence

-need two major, or one major and 3 minor, or 5 minor

Treatment

-native valve: ampicillin/nafcillin + gent or vanc + gent

-prosthetic: vanc + gent + rifampin

Conditions needing Prophylaxis

-prosthetic valve

-hx of endocarditis

-cyanotic congenital heart lesions (unrepaired, most CHD need it)

-acquired valvular disease (ie rheumatic fever)

-hypertrophic cardiomyopathy

-indicated for procedures with significant manipulation of infected tissue

-not needed for foley, routine dental cleaning, intubation (ie clean procedures)

Aortic Dissection and AAA

Dissection (most common lethal aortic disease, 2-3 times more common than AAA)

-male predominant, age 50-70

-Risk factors: HTN (don’t forget connective tissue disorders, syphilis)

-Classification: Stanford (and Debakey)

-type A (I&II) more deadly

-Presentation

-pain most common symptom (abrupt, sharp, tearing/ripping)

-unequal pulses

-Diagnosis

-CXR: upright, widened mediastinum, calcium sign

-right side: deviation of trachea

-left side: pleurapical cap, depressed left mainstem bronchus, effusion

-EKG: usually abnormal

-STEMI most common misdiagnosis (usually inferior)

-Definitive Testing

-TEE: most expedient, S&S about 100%, ‘unstable’ pts

Contraindicated with esophageal disease

-Aortography: traditional gold standard, S&S =90%, not done in ED

-CTA: almost 100% S&S, may miss rapidly moving flap

-Treatment

-10-15 units of blood on standby, surgical consultation

-control HR and BP, esmolol first then nitroprusside

-treat pain with IV narcotics

Expanding and Ruptured AAA

-true aneurysm involves all three layers of the arterial wall, 95% infrarenal

-most often occur with atherosclerotic disease

-males >60 (Caucasian….heavy smoker)

-Presentation:

-think middle age to elderly white male with syncope or near syncope and

-severe abdominal and back pain (might have scrotal hematoma, look)

-PE with classic pulsatile abdominal mass +/- tenderness

-Diagnosis and management

-high likelihood in Hx and PE is enough for OR

-IVs, monitor, 10 units of blood on standby, surgical consultation -bedside echo or if ‘stable’ CTA with close supervision

HTN Emergency and Urgency

Emergency

-(severely elevated DBP >140), END ORGAN DAMAGE

-Presentation: encephalopathy, acute intracranial events, dissection, pulmonary

edema, ischemia, eclampsia, AKI

-Treatment: arrest and reverse the end organ damage by lowering BP rapidly

-do so in controlled manner

-use IV meds, goal reduce BP by 30% in first hour

-Encephalopathy: nipride

-ischemic stroke: only treat >220/120 (180 for TPA), labetalol

Nicardipine

-ICH: labetalol, nicardipine

-SAH: nimodipine or nicardipine

-dissection: nipride (in combo with esmolol)

-MI: nitro

-Pulmonary Edema: nitro

-Eclampsia: magnesium and hydralazine

Urgency

-DBP >115 with no end organ damage

-asymptomatic patient discharge to follow up with PCP

-use oral agents to gradually lower BP over 24-48 hrs

Valvular Heart Disease

Prosthetic Valves

-Mechanical

-lifespan >20 yrs

-loud metallic click

-LIFE LONG ANTICOAGULATION (> hemolysis, more thombogenic)

-Bioprosthetic

-lifespan 8-10 years

-sounds similar but louder than native valve

-anticoagulation optional (ASA sufficient)

-Complications

-thromboembolic events

-paravalvular leak: immediate-suture rupture, delayed-endocarditis

-more common in mechanical

-endocarditis: <2 mo post-op staph/strep epi, after strep viridans

Mitral Valve Prolapse (click murmur syndrome)

-most common, 5-10% of population, young women

-presentation: young women-palpitations, athlete and elderly-syncope

-high-pitched, late systolic murmur with mid-systolic click

-treat only symptomatic pts with….

Beta blockers for CP or dysrhythmias

ASA or anticoagulation with hx of TIA/stroke