Note: the following material is for personal use only see below for

Exam Findings

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  Elevated JVP
  
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  Pulmonary edema (see other)
  
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  Orthopnea
  

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  Paroxysmal nocturnal dyspnea (PND)
  

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  Leg Swelling
  
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  Pulsus alternans
  
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  S3
  

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  pro-inflammatory
  

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  CRP
  
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  FAS
  
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  TNF, IL1,6,18
  

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  oxidative stress
  
  • 
    MPO, others
    
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  neurohormones
  
  • 
    Renin, ATII, aldosterone, endothelin, others
    
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  myocyte injury
  
  • 
    troponins, light chain kinases, CKMB, others
    
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  myocyte stress
  
  • 
    BNP, NTProBNP, others
    

I – ACE inhibitors

II – ACE inhibitors + salt restriction + diuretics +/- B-blockers (metoprolol, carvedilol)

III – add inotropic agents and vasodilators

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  Anticoagulants with atrial fibrillation or other risk factors for thrombus formation (such as very low EF with severe hypokinesis)welling
  
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  Anti-arrhythmia agents vs. AICD
  
  • 
    Some patients may need anti-arrhythmia agents for chronic atrial fibrillation (B-blockers are safest and might be useful)
    
  • 
    Some studies favor AICD’s (+/- sotalol) over anti-arrhythmia agents alone for severe CHF with high-risk of ventricular tachycardia
    

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  Cardiac resynchronization therapy (CRT) or biventricular pacing may decrease mortality by decreasing sympathetic activation; consider for moderate to severe HF
  

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  75% five-year survival with transplant
  
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  peak oxygen uptake of 20 mL/min/kg is associated with a good 1-year prognosis
  

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  Left ventricle, carotid sinus, aortic arch, renal afferent  increased ADH, renin
  
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  Brain-derived natriuretic peptide (BNP) promotes diuresis
  

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  B₁ and B₂ are uncoupled (B₁ ↑ HR, B₂ ↑ TPR)
  
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  NE causes myocyte hypertrophy, direct myocyte toxicity / NE (over 4.7 nmol/L) carries poor prognosis
  

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  No escape from renal sodium retention / combination of NE and ATII stimulation increases Na transport in proximal tubule and decreases delivery to distal tubule (which helps explain lack of escape phenomenon in CHF, unlike Conn’s syndrome) / resistance to atrial natriuretic peptide may result from decreased distal delivery of Na
  
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  ACE inhibitors and ATII blockers also reduce mitogenic effect on cardiac muscle (which would crowd capillaries and decrease blood delivery) / they may actually reverse LVH
  
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  ATII receptors may stimulate thirst despite hyponatremia
  

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  ADH V₂ receptors in collecting duct principal cells  AC  aquaporin-2 translocation and production
  
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  ADH V₁ receptors constrict vascular smooth muscle
  
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  Baroreceptors override atrial receptors (Henry-Gauer atrial reflex)
  

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  Endothelin Prostacyclin and PGE2 counteracts (afferent?) renal vasoconstriction  NSAIDS can precipitate acute renal failure in severe CHF
  

• 
  Endothelin receptor antagonist BQ-123 (in development) may also counteract vasoconstriction
  

Inadequate filling during diastole / can be due to variety of causes

Treatment depends on cause

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  control heart rate and increase relaxation with B-blockers (1^st), Ca channel blockers (2^nd)
  
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  normalize any arrhythmias (i.e. atrial fibrillation, atrial flutter)
  

Young females, light-headed, palpitations, weakness, tremulousness upon standing / fatigue, sleep disturbance / heat and exercise worsens / ⅓ with abnormalities of autonomic function testing

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  vasoconstriction (ex. CF)
  
• 
  primary idiopathic
  
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  part of autoimmune disease (scleroderma)
  
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  chronic pulmonary embolism
  
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  parenchymal (sarcoidosis, ILD)
  
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  obesity hypoventilation syndrome
  

Other: pain!, hypervolemia (posttransfusion, renal failure), hypercalcemia, drugs (steroids, TCAs, sympathomimetics, NSAIDs, cocaine), coarctation of aorta, vasculitis, renovascular hypertension (RAS), fibromuscular dysplasia

 hyaline arteriolosclerosis: retinal, renal disease

 arteriolosclerosis: MI, CVA, renal failure

 fibroelastic hyperplasia

 retinal changes

grade III retinal changes (hemorrhages, cotton wool spots, hard exudates)

grade IV retinal changes (papilledema)
Other  2x risk of renal cell carcinoma
Initial work-up: CBC, chemistries (K, Ca, PO4, BUN/Cr), UA (protein, blood, glucose, micro), consider TSH / lipid profile / fasting glucose / EKG / consider CXR, head CT, echo

Secondary: captopril-enhanced radionuclide renal scan, MRA, spiral CT / pheo labs /
Treatment:

Goal is to reduce BP by 10-15% or diastolic 110

Organ dysfunction usually at > 130 diastolic
Outpatient Treatment:
Clinical Trials
HOT showed 51% reduction in cardiovascular events with diastolic < 80 (not 90)

UKPD suggested systolic should be < 120

HOPE  ramipril ↓ MI (22%), ↓ CVA (33%), ↓ mortality (24%)

LIFER  losartan decreased mortality more than atenolol for DM with LVH
ACE inhibitors

B-blockers

Ca blocker

Diuretics (HCTZ)

Avoid B-blockers with asthma, CHF (depends), peripheral vascular disease, theoretical risk of increasing sugars with DM or hyperlipidemia (nobody really worries about that)

Avoid diuretics with gout (impairs urate excretion)

With pregnancy, ACE contraindicated (fetal kidney agenesis) and diuretics risky; use aldomet or hydralazine

6% of pregnancies / often last trimester (20 wks to 6 wks post-partum) /

Hypertensive encephalopathy	Labetalol, nicardipine, fenoldopam, nicardipine Avoid: b-blockers, clonidine, methyldopa
Subarachnoid Hemorrhage	Nimodipine, nitroprusside, fenoldopam, labetalol Avoid: beta-Blockers, clonidine, methyldopa, diazoxide
Intracerebral Hemorrhage	No treatment, nitroprusside, fenoldopam, labetalol Avoid: beta-Blockers, clonidine, methyldopa, diazoxide
Ischemic Stroke	Nitroprusside, labetalol, fenoldopam Avoid: beta-Blockers, clonidine, methyldopa, diazoxide
Acute MI/unstable angina	b-blocker + nitroglycerin Avoid: diltiazem, hydralazine, diazoxide
Acute LV failure	Nitroprusside, IV nitroglycerin Avoid: diltiazem, b-lockers, labetalol
Acute pulmonary edema	1st line Nitroprusside or fenoldopam + Lasix 2nd line nitroglycerin (up to 200 mug/min)
Acute aortic dissection	(B-blocker then nitroprusside) or labetalol or trimethaphan Avoid: Hydralazine, diazoxide
Acute renal failure	Fenoldopam, nitroprusside, nicardipine, labetalol Avoid: beta-blockers, trimethaphan
Sympathetic Crisis (pheochromocytoma)	Phentolamine, labetalol, nitroprusside, clonidine (for clonidine withdrawal only) Note: block  then  to avoid problems
Microangiopathic hemolytic anemia
Eclampsia	Magnesium sulfate, hydralazine, labetalol, calcium antagonists Avoid: ACE inhibitors, diuretics, trimethaphan
Postoperative crisis	Labetalol, fenoldopam, nitroglycerin, nicardipine, nitroprusside Avoid: trimethaphan

Atherosclerosis see below

Arteriolosclerosis

hyaline benign HT, DM / slow, stenosis / plasma proteins, thick BM

hyperplastic malignant HT / flea-bitten kidney

transplant accelerated 2 to 5-10 yrs

Atherosclerosis

abdominal aorta > coronary > popliteal > carotid

Pathology: diffuse intimal thickening (normal aging) / gelatinous lesions (focal edema) / microthrombi / fatty streaks (normal aging)

Causes: by hyperlipidemia (diet, DM, gout), chronic HTN, smoking, Fabry’s, elevated homocysteine

Markers: CRP is associated with increased risk / other markers are associated but not useful for screening: homocysteine, lipoprotein A, plasminogen activator factor 1 / C. pneumoniae and CMV also implicated
Coronary Artery Disease (see other)
Peripheral Vascular Disease [NEJM]

Presentation: < 20% report typical symptoms of intermittent claudication / leg fatigue, difficulty walking, other atypical leg pain

Exam findings: cyanosis (with dependent rubor), decreased temperature, atrophic changes (shiny skin, thick nails, absence of hair), decreased pulses / ulceration usu. toes, heels, anterior shin and extended over malleoli

Risk factors: smoking, diabetes, HTN, hyperhomocysteinemia, hyperlipidemia

Diagnosis: [table]

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  ankle-brachial index (ABI) > 1.0 normal / 0.41 to 0.9 intermediate / < 0.40 critical
  
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  ultrasound – limited compression of calcified vessels, operator dependent
  
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  MRA/CTA – usual considerations
  
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  angiography – good because could also do stenting at same time
  

Ddx [table]: Buerger’s disease, fibromuscular dysplasia, Takayasu’s, acute arterial occlusion, compartment syndrome, venous congestion, spinal stenosis

Treatment: reduce contributing factors (smoking, DM, etc)  smoking cessation reduces related/CAD mortality 50% / exercise (as tolerated re: possible CAD) actually helps

Medical therapy

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  cilostazol – phosphodiesterase type 3 inhibitor  vasodilation + mild anti-platelet activity / shown to increase walking distance 50%
  
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  pentoxifylline (Trental)  immunomodulator  people doubt efficacy
  
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  ASA or plavix  more to prevent MI and CVA
  

Note: other vasodilators (CA blockers, a-blockers, hydralazine) may worsen symptoms by decreasing perfusion to affected area

Surgery: critical leg ischemia, persistent foot pain at rest, non-healing ulcers, disabling claudication

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  PTA (PCI) versus bypass / must take several factors into decision [table]
  

Leriche syndrome

claudication in buttock, buttock atrophy and impotence in men due to aortoiliac occlusive disease / treat with bypass

Acute arterial occlusion

embolic or in situ / consider source / consider HIT Ab

Treatment: heparin (to prevent propagation), limb placed below horizontal plane without pressure, urgent vascular consult

Hyperlipidemia

diagnose based on FH, blood tests (cholesterol not changed by fasting, TG are decreased) Friedwald formula: LDL chol = total - (HDL chol + TG/5) / 100 - 139 (mild) / >139 (severe)

Note: very severe hyperlipidemia can affect platelets causing elevated ESR
CARE trial  no benefit shown for lowering LDL < 125 mg/dL in post-MI patients

HPS trials  simvastatin reduced coronary or vascular events by 33% (regardless of lipid levels)

SSSS trial  simvastatin reduced MI (55%), mortality (43%)

VA-HDLIT  24% reduction in stroke/MI with gemfibrozil and LDL > 140 and HDL < 40

Combination of statin and fibrate is promising; fibrate alone probably not as good as statin alone
Current trend is treat CHD or CHD equivalents (DM, stroke, PVD) with goal of LDL < 100
Primary hyperlipidemias
FH AD / chol

Familial HTG AD / TG

combined AD / chol, TG

broad beta (rare disorder)

(85%) polygenic chol

sporadic TG

Secondary hyperlipidemia
elevated cholesterol

elevated TG (DM, other)

Hypolipoproteinemia

AR disorders

Diabetes Mellitus (see endocrine)
Drug-Induced: certain b-blockers, protease inhibitors

Coronary Artery Disease [chest pain Ddx] [angina] [MI]
1st COD in US / 90% of cardiac deaths

PDA to AV node – 90% L circumflex / 10% RCA

Risk Factors:

DM  extremely important risk factor [annals]

Family history (MI < 40 yrs)

Smoking

HIV

Male, post-menopausal

Age

Hypercholesterolemia (LDL > 100 / HDL < 50 / TG > 170)

Cocaine (vasospasm, promotes blood clotting)

Obesity (BMI > 27)

OCP/estrogens

HTN

LVH

Stress

Hyperthyroid

Initial testing guidelines:

Pt’s over 50 yrs old: LDL, smoking, fasting glucose

ankle-brachial index can be checked in patients over 55-60 yrs old
Second line tests (not part of any initial work-up)

• 
  low serum folate (required for homocysteine  methionine)
  
• 
  elevated CRP, homocysteine, ApoA, ApoB
  

Physical Exam

Retinal changes – AV nicking and/or copper-wire changes (HTN)

S4 (HTN)

Peripheral bruits

Absent/decreased peripheral pulses

Xanthomas (hyperlipidemia)
Common causes of chest pain (see Ddx)

Cardiac: aortic dissection, myocarditis, pericarditis, valvular heart disease (MVP, AS, HOCM, MS)

Lungs: pulmonary embolism, pleurisy, pneumonia, pneumothorax, pulmonary HTN

GI: cholelithiasis, cholecystitis, GERD, esophageal spasm, PUD, pancreatitis

Musculoskeletal: costochondritis, chest wall trauma, cervical arthritis with radiculopathy, muscle strain, myositis

Other: Herpes zoster
Diagnosis of CAD (sensitivity/specificity of various criteria)
Exercise electrocardiography

>1 mm ST depression (70/75)

>2 mm ST depression (33/97)

>3 mm ST depression (20/99)

Perfusion scintigraphy

Planar (83/88)

SPECT (87/65)

Echocardiography

Exercise (85/76)

Pharmacologic stress (86-96/66-95)

Stress Test

adenosine / sestamibi (MIBI) / dobutamine (less bronchoconstriction, better for COPD)

Pt unable to exercise: can use persantine (vasodilates normal but not diseased vessels, inducing ischemia)

Contraindications: severe AS, HOCM, unstable angina, severe arrhythmias, EKG suggesting ischemia, severe COPD, active CHF, endocarditis, severe AV block, aortic dissection, severe HTN, recent cerebral hemorrhage

Bruce (fast) vs. Naughton (slower)

Note: females tend to have less reliable results on graded stress tests (use of thallium/nuclear imaging improves specificity)

Angina pectoris (see chest pain Ddx) Stable / Unstable / Variant / Syndrome X / Stress Test

Stable angina

Presentation: substernal or epigastric, usually radiates (usually left side, can be right) to shoulder, neck, jaw/teeth, and arm (ulnar distribution—4^th/5^th digit) / can be from exertion, emotional upsets, cold, eating

Note: noncardiac disorders often trigger angina from real CAD

Symptomatic with occlusion of 50% diameter or 75% cross-sectional area

EKG: may show ST depression, T wave flattening or inversion

Diagnosis: stress test or other
Treatment:

• 
  ASA and other newer anti-platelets to limit aggregation
  
• 
  Nitroglycerin SL or spray should work in 5-7 mins (if not, could be MI or other)
  

1. 
   coronary artery dilation improves blood flow to sub-endocardium
   
2. 
   venodilation reduces preload and wall tension
   

Isosorbide dinitrate / mononitrate (Imdur) is taken during daytime / can use patch to protect against night time MI

Note: tolerance develops to nitrates

Side effects: hypotension, light-headedness, HA

• 
  B-blockers
  

reduce myocardial oxygen demands (try to avoid worsening CHF)

• 
  Calcium channel blockers (Verapamil, Diltiazem)
  

Coronary vasodilation, variable peripheral vasodilation

can be used instead of B-blocker to reduce HR, BP and vasodilate [except in heart block, bradycardia, severe CHF (due to negative ionotrope/chronotrope activity]

Unstable angina

pre-MI (80%) / thrombus persists 15-20 mins (> 20 mins is MI) / chest discomfort at rest / decreased O2 delivery because plaque ruptures, thrombus formation /

Biological factors: thromboxane, 5HT, ADP, platelet activating factor, tissue factor (endothelium/macrophage), endothelin (potent vasoconstrictor), free radicals – vasospasm, vasoconstriction

mitogen – residual fibroproliferation -

elevated troponin I or CRP is a poor prognostic sign

Treatment: B-blockers and nitrates +/- Ca blockers (not Ca blockers as single agent)
Variant or Prinzmetal’s Angina

coronary artery spasm (causes similar EKG changes as STEMI) / majority of cases do have CAD and spasm occurs within 1 cm from lesion / RCA most common location / usu. younger age, do not have preceding stable angina and usu. risk factors

Presentation: similar to ACS, often occurs in early morning (4-11am) / sudden cardiac death (30% of heart attacks, most common COD post-MI, V-fib)

Diagnosis: may see spasm if active in catheterization / can provoke using hyperventilation ergonovine, acetylcholine, other agents

Treatment: nitrates, calcium antagonists (nifedipine, verapamil, diltiazem) / do not give B-blocker (may increase frequency); ASA also thought to worsen spasm / viral, sheer stress, smoking, catecholamines excess
Microvascular Angina (Syndrome X)

Defect in coronary microcirculation / normal angiogram, abnormal stress test / excellent prognosis

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