cardio pathophys Flashcards
What factors increase cardiac contractility?
Exercise
Increased SS tone
Catecholamines
Increased HR
LaPlace’s Law
Wall stress = ((pressure x chamber radius)/2x wall thickness)
What factors decrease contractility?
Acidosis Ischemia SS blockade (Beta Blocker)
What is concentric hypertrophy?
Seen w/ high BP
increase in number of sarcomeres laid in parallel -> decreased cavity size and increased wall thickness -> decreased wall stress w/ preserved contractility
What is eccentric hypertrophy?
Occurs w/ chronically elevated preload
Increased sarcomeres in series -> increased chamber size + increased wall stress -> increased sarcomeres in parallel
proportional increases in cavity size and wall thickness
What is concentric remodelling?
Reversible, physiologic LV hypertrophy seen in athletes.
4 ways that IC Ca++ is recovered after cardiomyocyte contraction
1: SERCA - in SR, ATP dependent
2: Na/Ca exchanger - uses Na gradient to move Ca out
3: Plasma membrane Ca++ -ATPase
4: Mitochondrial Ca++ uniporter
What is preload?
Passive tension in cardiac myocyte at rest - length of cell prior to contraction
Greater length -> stronger contraction
What is afterload?
The force that a muscle cell must overcome in order to contract
What is isometric contraction?
Afterload > contraction force
sarcomere does not shorten
What is contractility?
contractility = inotropy
intrinsic ability of cardiac myocyte to alter ability to contract independent of preload and afterload
due to changes in biochemical environment of myocyte
due to increased actin-myosin interractions.
Stroke Volume
EDV - ESV = SV
Ejection Fraction
EF = SV / EDV
3 phases of ventricular filling
Early rapid filling
Slow mid-diastolic filling
Rapid filling from atrial contraction
2 factors that influence Preload
Venous return (blood volume, venous tone, posture, pericardial constraint, atrial contraction efficacy) Ventricular compliance
What is normal EF? What EF %s indicate mild, moderate, severe dysfunction?
Normal: 55-65%
Mild LV dysfunction: 45-54%
Moderate LV dysfunction: 30-44%
Severe LV dysfunction: <30%
2 methods of measuring CO
Thermodilution: most common - cath inserted, cold saline injected in RA, measured in PA, CO is calculated
Fick method: tedious
equation: CO = O2 consumption / AV O2 difference
What is a Wood Unit (WU)?
Used in calculations of TPR
WU = (dyne . sec . cm^-5) / 80
How is TPR calculated? Normal values?
measure of afterload
Mean pressure difference across vascular bed / mean blood flow
Systemic VR = (MAP - MRAP)/CO. Normal = 13-16 WU
Pulmonary VR = (MPAP - PCWP)/CO. Normal = 0.5-11 WU
What is initial treatment for STEMI?
PCI, CABG
If not immediately possible - thrombolytics
what anti-ischemic treatments are recommended for early hospital care of ischemic heart disease?
1: oxygen (maintain O2 sat >90%)
2: nitrates (SLx3 or IV for ongoing ischemia, HF, HTN)
3: Oral B-blocker in 1st 24 hrs if no contraindication
4: NDHP Ca++ channel blocker if B-blocker contraindicated
5: ACE inhibitor in 1st 24 hrs for HF or EF <40%
6: Statin
What are contraindications for Nitrate use?
Hypotension (present or likely)
Right ventricular infarct
Severe aortic stenosis
PDEi taken in last 24 hours
What are indications for Beta blocker use in Ischemic heart disease and what are the preferred agents?
Ongoing chest pain, hypertension or tachycardia not caused by HF
Metoprolol or atenolol are preferred
Should a patient w/ MI precipitated by cocaine use be treated with a beta-blocker?
No
Blockade of B2 mediated vasodilation may precipitate coronary artery spasm
What patients may receive IV beta blocker?
Patients with ischemic heart disease and significant hypertension
Afib with RVR
Contraindications for beta-blocker use
active bronchospasm
hypotension, bradycardia, heart block, pulmonary edema
MI assoc. w/ cocaine use
What is the recommended statin in treatment of ischemic heart disease?
Atorvastatin, 80mg / day
What studies demonstrated the efficacy of statin treatment in treatment of ischemic heart disease?
PROVEIT-TIMI 22 and MIRACL
What is class III therapy for ischemic heart disease?
Contraindicated therapy
- Nitrates if Systolic pressure <90
- Nitrates if Sildenafil or Tadalafil w/in 24 hrs
- Immediate release Ca Channel blockers w/o B-blocker
- IV ACEi
- IV B-blocker if AHF, low output, long PR, 2nd or 3rd deg heart block, asthma or reactive airway disease
- NSAIDs and COX-2 inhibitors
What is the mechanism of aspirin’s anti-platelet activity?
inhibition of Thromboxane A2 (stimulates platelet aggregation)
Aspirin irreversibly inhibits COX inhibiting PGI2 and TxA2 production.
What is the recommended dosing for aspirin?
Initially: 325 mg non-coated, chewed
Prophylaxis: 75-100 mg/day inhibits TXA2 w/o significant impairment of PGI2
Name 4 P2Y12 receptor blockers and differentiate
Clopidogrel
Ticlopidine: worse side effect profile - not used
Prasugrel: greater anti-platelet activity, increased risk of bleeding
Ticagrelor: reversible blockade. greater anti-platelet activity
What is recommended anti-platelet therapy for a patient w/ ACS?
1 year of dual anti-platelet therapy: aspirin + P2Y12 receptor blocker
Clopidogrel dosing for pt. w/ NSTEMI ACS
300mg loading dose
75mg/day maintenance
Prasugrel vs. Clopidogrel
Prasugrel: faster onset, higher degree of platelet inhibition, effective for more patients (20-25% of pts are clopidogrel resistant)
What are contraindications for Prasugrel?
Hx of TIA or stroke
> or = 75 yoa
What are 2 classes of P2Y12 receptor blockers?
Thienopyridine - clopidogrel
Cyclopentyltriaolopyrimidines - ticagrelor
In treatment of ACS what patients are given GIIbIIIa inhibitors?
Those receiving early invasive therapy
examples of GIIaIIIb inhibitors
eptafibatide - preferred
abciximab
tirofiban - lowest preference
What are the anticoagulants of choice for ACS patients undergoing early invasive treatment? what about conservative treatment?
early invasive: bivalirudin or UFH
conservative: enoxaparin or fondaparinux
What ACS patients should receive fibrinolytic therapy?
STEMI patients w/in 12 hours of onset w/ no contraindications for whom reperfusion therapy cannot be performed w/in recommended timeframe.
Patients presenting after 12 hrs but before 24 hrs of symptom onset for whom reperfusion therapy is not available
3 fibrinolytics and differences
Alteplase (tPA)
Reteplase (rPA) - sim to tPA, longer half-life
Tenecteplase (TNK-tPA) - sim to tPA, lower incidence of noncerebral bleeding and easier to use, longer half-life
When is Ranolazine used and what is the dose?
Used in patients receiving max-dose of long acting nitrates with persistent symptoms. Decreases frequency of anginal events.
Dose: 500 mg bid (1000 mg bid w/ persistent symptoms)
Contraindications for Ranolazine
pre-existing QT prolongation
hepatic disease
use of diltiazem or verapamil
Note: inhibits degradatory path for simvastatin and digoxin - lower doses needed.
What is Cardiac X syndrome? Treatment?
Angina-like chest pain w/ exertion, positive ECG (ST depression during stress test), normal coronary angiography, no inducible vasospasm.
Treatment: reassure stable patients. B-blockers help, Nitro helps. Calcium channel blockers not very helpful.
What is the use of CRP in understanding risk of a CV event?
independently of questionable use, but can be used for stratification w/in risk groups
What inflammatory cells are primarily involved in atheromatous plaque formation?
Monocytes and Tcells (CD4)
What are two main causes of endothelial injury precipitating atheromatous plaque formation?
hemodynamic stress: HTN, turbulent flow
chemical / physical agents: hypercholesterolemia, smoking (free-rad and toxins), chronic inflamm, homocysteine
How do foam cells form in atherosclerotic plaques?
endothelial damage -> increased adhesion molecules (VCAM-1) and increased permeability -> increased lipid infiltration, cholesterol deposition and monocyte infiltration
local free radicals -> oxidized LDL -> activated macs phagocytosis of oxidized lipid via SCAVENGER RECEPTOR-> foam cells
How are smooth muscle cells recruited to atherosclerotic plaques?
PDGF from platelets, macs, endothelium, and other sm.m. cells
FGF and TGF-a
What are the most common sites of atherosclerosis?
Large elastic and medium sized muscular arteries
abdominal aorta, coronary aa., popliteal, carotid aa.
What is a fatty streak?
Pre-atherosclerotic lesion. Present in childhood, may not lead to atherosclerosis.
Aggregate of lipid filled macrophages w/in intima.
What is an atheroma and what are its components?
An uncomplicated fibrofatty plaque
fibrous cap
lipid core
inflammation at periphery - Tcells and macs, granulation tissue
What is hypertension?
Elevation of arterial BP that results in adverse health effects
Generally: systolic >140 or diastolic > 90
4 targets of Angiotensin II
- Vasculature -> vasoconstriction
- Post. Pituitary -> Vasopressin (ADH) production
- Kidney -> Na+ and H2O retention
- Adrenal glands -> Aldosterone release
What are the underlying causes of Primary Hypertension?
Poorly understood:
1) genetic predisposition - multifactorial, familial hx
2) environmental influences - stress, obesity, Na+ intake
Potential mechanisms of primary HTN
Genetic defects in
1) renal Na excretion -> increased CO
2) vascular sm. muscle Na / Ca transport -> increased peripheral vascular resistance
5 major causes of Secondary HTN
- Renal disease (renal artery stenosis)
- Pheochromocytoma
- Endocrine disorder
- Aortic coarction
- Pregnancy
What is the mechanism underlying renovascular HTN?
Reduction in renal perfusion due to atherosclerosis (or other process) -> persistent activation of renin-angiotensin-aldosterone system
What is fibromuscular dysplasia?
Irregular thickening of the intima and most often the media of the renal artery -> renal artery stenosis
Most common in young women (30-40s)
2 types of arteriolosclerosis
- hyaline: endothelial damage -> leakage of plasma protein and sm. m. matrix synth -> luminal narrowing
- hyperplastic: malignant HTN. concentric thickening of vessel walls - sm. m w/ thickened reduplicated basement membrane
What defines malignant HTN?
Diastolic pressure >130
What is the pathogenesis of hyperplastic arteriolosclerosis?
endothelial damage -> plasma protein leakage (esp. fibrinogen) and thrombosis -> PDGF -> intimal hyperplasia and luminal narrowing -> deceased renal perfusion -> increased renin production -> vasoconstriction and exacerbation (self-perpetuating cycle)
What kind of necrosis is associated with hyperplastic arteriolosclerosis?
fibrinoid necrosis - vessel walls replaced by smudgy fibrin deposits.
Where is cerebral hemorrhage most likely to occur secondary to HTN?
Putamen, thalamus, pons
What are 2 changes that can occur to the kidney due to HTN
1) benign nephrosclerosis - normal w/ aging, exacerbated w/ HTN, diabetes: fibroelastic hyperplasia of larger aa, hyaline arteriolosclerosis, ischemic changes in parenchyma (fibrosis), mild reduction of GFR
2) malignant nephrosclerosis - malignant HTN: “flea-bitten” kidneys, hyperplastic arteriolosclerosis, infarction, ischemic atrophy, papilledema, encephalopathy, cardiac complications, proteinuria, hematuria, acute RF
What are the differences between flame shaped and dot shaped retinal hemorrhages in the setting of HTN?
flame: closer to the inner limiting membrane (more superficial) - due to nerve fiber lying parallel to membrane
dot: deeper
What are cotton wool spots seen on retinal exam?
Cytoid bodies: due to arteriolar occlusion (vascular damage / HTN related) swollen dammaged axons distal to occlusion
What is a macular star and what is it associated with?
Due to intraretinal lipid deposition in plexiform layer due to breakdown or blood-retinal barrier
Seen in malignant HTN +/- increased intracranial pressure
What cardiac cells produce “fast response” action potentials and what is the respective conduction velocity of each?
Regular atrial and ventricular cardiomyocytes: 0.3-1 m/s
Purkinje fibers: 1-4 m/s
What cells produce “slow response” action potentials and what is the respective conduction velocity of each?
Pacemaker cells in the SA and AV nodes: 0.02 - 0.1 m/s
4 phases of fast myocyte AP cycle and ion flow associated w/ each
0: inward Na+ (depolarization)
1: Na+ close, outward K+ open
2: inward Ca++ balance outward K+ (plateau)
3: Ca++ close, outward K+ (repolarization)
4: Na+/K+ ATPase restores normal [ion] (resting membrane potential)
If measuring EKG deflection in terms of voltage, what is the scale?
1mV = 10mm vertically
What is the time scale on EKG paper?
Small square = 1mm = 0.04s
Large square = 5 small squares = 5mm = 0.2s
5 large squares = 25 mm = 1.0s
What is Einthoven’s Triangle?
Orientation of EKG leads I - III
I: RA (-), LA (+)
II: RA (-), LL (+)
III: LA (-), LL (+)
What are the lateral leads on 12 lead EKG?
I and aVL
What are inferior leads in 12 lead EKG?
II, III, aVF
What is placement of the precordial leads?
V1: 4th intercostal, R of sternum V2: 4th intercostal, L of sternum V3: between V2 and V4 V4: 5th intercostal, mid clavicular line V5: between V4 and V6 V6: 5th intercostal, mid axillary line
What areas of heart do the precordial leads look at?
V1 and V2: Right
V3 and V4: septal
V5 and V6: Left
What does a biphasic deflection on EKG indicate?
Wave of depolarization is moving perpendicularly to (+) electrode
What is the normal rate of sinus rhythm?
60 - 100 bpm (sinus rhythm - set by SA node)
What is the normal amplitude of a P wave on EKG?
<2.5mm
What leads record a biphasic Pwave?
III and V1
What leads record positive and negative P waves?
Positive: I, II, V6
Negative: aVR
What structures insulate the ventricles from electrical activity of the atria?
Atrio-ventricular valves (tricuspid and mitral)
What does the PR interval represent?
Delay between the onset of atrial depolarization and ventricular depolarization.
Beginning of P wave -> beginning of QRS
Normal: <0.2 s
What structures are composed of Purkinje fibers?
Bundle of His
L and R bundle branches
Terminal Purkinke filaments
What is a QS wave?
Depression missing an R wave. R wave divides and defines Q and S waves, so minus the R it appears as a single depression. Generally considered a Q wave.
What do the components of the QRS complex represent?
Q: Septal depolarization
R: Apical ventricular depolarization
S: Basal (near valves) ventricular depolarization
What is the directionality of septal depolarization?
Right, Forward, and Down
What is the directionality of early ventricular depolarization?
Left, down, forward
How is early ventricular depolarization seen on EKG in each lead?
Frontal: positive R wave in I and II, negative QS in aVR
Horizontal: positive R wave w/ progressive intensity from V1-6
What is the directionality of late ventricular depolarization?
Left and upward
How is late ventricular depolarization seen on EKG?
Frontal: positive in I and aVL -> increased R wave amplitude, negative in aVF -> S wave
Horizontal: negative in V1 and 2 (S) and positive in V5 and 6 (+R)
What is the R wave Transition Zone?
in precordial leads, the point at which the positive R amplitude = negative S amplitude.
Usually in V3 or 4
In what leads should the Q wave be most apparent?
aVL and I
What is a normal QRS duration?
0.06 - 0.1 s
What is the direction of the ventricular repolarization vector?
Right and up
How is the T wave seen on EKG?
Frontal: positive in I, II, aVF; negative in aVR
Horizontal: positive V6, negative V1
What is a normal QT interval? What is it used for clinically?
0.30 - 0.44s (0.45 in women): at normal HR, < 1/2 of R-R interval.
Majority of QT is ventricular repolarization - clinical indicator of this.
What is QTc?
QT corrected for HR. > 0.44 is considered prolonged.
QTc = QT/sq. rt (R-R)
What are the rates of 3 ectopic pacemakers?
atrial: 60-80
junctional (w/in AV node): 40-60
ventricular: 20-40
What is a normal mean QRS vector?
0 - +90 degrees
Right deviation: > 90
Left deviation: < 0
In what settings are vertical and horizontal mean electrical axi seen?
Vertical: axis is vertically downward - heart is shifted toward right - variant of normal seen in tall, slender, healthy people
Horizontal: axis is leftward horizontally - apex of heart is pressed up by diaphragm in obese individual
What two settings could a deviated MEA be seen on EKG?
- Ventricular hypertrophy: increased electrical activity of hypertrophied ventricle dominates
- MI: infarcted area is dead. Deviation away from infarcted region.
What leads are used for evaluation of atrial enlargement?
V1: perpendicular to wave -> biphasic EKG tracing
LII: parallel -> positive deflection
What is normal P wave amplitude?
<2.5mm
What are signs of RV hypertrophy seen on EKG?
Precordial: Large R wave on V1, rightward movement of transitional point, shrinking R wave from V1-6 w/ persistence of S wave in 5 and 6.
Limb: Right MEA axis deviation.
What signs of LV hypertrophy can be seen on EKG?
Precordial: V1: deep S, V5: tall R
Sokolow Index: depth of S in V1 (mm) + height of R in V5 > 35mm - diagnosis of LVH
Limb: Lewis Index: LI R (mm) + LIII S (mm) > 25mm - diagnosis of LVH
What is an indication of ventricular strain seen on EKG?
Usually coupled w/ LVH:
Inverted T wave in V5 and V6 w/ gradual down slope and rapid upslope.
3 Stages of EKG changes seen in STEMI
1: Large T wave peaks followed by symmetrical inversion
2: ST elevation
3: Q wave emergence (pathological Q waves longer than 0.04s and at least 1/3 the amplitude of R wave of same complex)
ST and T wave changes may disappear w/ time, but Q wave will remain and is a marker of previous MI
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What is seen on EKG in acute anterior infarction?
ST elevation and Q waves in V1-4
What is seen on EKG in lateral infarction?
ST elevation and Q waves in LI and aVL
What is seen on EKG in inferior infarction?
ST elevation and Q waves in LII, LIII, and aVF
What is seen on EKG in acute posterior infarction?
Large R waves and ST depression in V1, 2, and sometimes 3
What are 2 methods of EKG evaluation to assist in cases of suspected posterior infarction?
Transillumination: flip EKG paper and hold in front of a strong light - if what originally looked like ST depression looks like ST elevation, supports posterior MI.
Mirror test: look at tracing in a mirror.
Is EKG diagnosis of infarction valid in a patient w/ left bundle branch block?
Naw, bitch!
What modifiable risk factors have a causal relationship to CAD?
Elevated LDL
Hypertension
What effect does raising HDL levels have on CAD risk?
Does not reduce risk
What is positive remodeling in CAD?
Expansion of vessel wall outward to accommodate growing plaque and maintain vessel integrity.
After this process exhausts -> luminal narrowing
At what point does a fixed coronary obstruction become critical? What happens at this point?
70% diameter stenosis
90% reduction in cross-sectional area
1. resistance vessels are maximally dilated at rest
2. O2 supply threshold reached - if demand exceeds -> symptoms
3 factors that determine myocardial O2 demand:
HR
Contractility
Wall stress (preload, LV hypertrophy)
Formula for approximating myocardial O2 demand
Rate Pressure Product
HR x SBP
2 factors determining myocardial O2 supply
Coronary BF
O2 carrying capacity (Hgb)
How is pre-test probability for Angina determined?
Clinical history
Other tests to confirm or refute (ECG, Stress test +/- imaging, coronary angiography)
How is a stress test w/ imaging performed?
Thalium or Technetium injected at peak exercise and hours later at rest.
Isotope concentrates in metabolically active cells.
Cells that are ischemic w/ exercise do not concentrate isotope.
Perfusion defect w/ exercise compared to rest.
Gold standard for diagnosis of CAD
coronary angiography
Treatments for chronic stable Angina
Pharm: TNG, B-blocker, Ca++ channel blocker
Mechanical: PCI, CABG
Most important components of chronic stable angina treatment
ASA (anti-platelet) HMG-CoA reductase inhibitor (statin) - treats causal factor BP control - treats causal factor Diabetes control Smoking cessation Diet and exercise - lower LDL
What is the pathophysiology of ACS?
Thrombus overlying disrupted plaque obstructs blood flow
-transient or persistent
What are the clinical symptoms of ACS?
Prolonged chest discomfort at rest, radiation
-variable between pts.
Dyspnea, diaphoresis, N/V, HTN, hypotension
Who is more likely to have atypical symptoms of ACS?
Elderly, diabetic, females, history of CABG
Symptoms of proximal LAD occlusion
hypotension, reciprocal tachycardia
S3 - increased LVEDP
S4 and rales - pulmonary congestion (decreased diastolic compliance)
Exam findings suggestive of RCA occlusion
hypotension, tachycardia JVP elevation No pulmonary congestion, no S4 bradycardia, variable heart block murmur of mitral valve regurgitation
Primary diagnosis of STEMI
Persistence of ST elevation - indicates occluded epicardial artery or distal embolization obstructing microvascular perfusion
What is seen on NSTEMI EKG? How is NSTEMI diagnosed?
No ST elevation - may be ST depression (ischemia). Chest pain persists at rest.
Diagnosis: biochemical markers - elevated Troponins
What are the two main causes of cardiovascular disease related deaths?
Coronary Heart Disease: >50%
Stroke: ~20%
According to the Framingham study, what are the major risk factors for cardiovascular disease?
Smoking Elevated total or LDL cholesterol HTN Low HDL Family history (male: 1st deg <65 yoa) Age (men 45, women 55)
What BMI is considered obese? What is abdominal obesity?
30+
25-29 = overweight
Abdominal obesity: men: waist 40+; women: waist 35+
What patients should have a 10-year risk assessment for CHD?
Those with 2+ major risk factor.
Not required for those with fewer than 2, most have 10 year risk of <10%.
What factors are considered in Framingham CHD risk assessment?
Age
Total Cholesterol
HDL
Systolic BP
Smoking Status
After 10 points (men), risk grows rapidly from 6%
After 18 points (women), risk grows rapidly from 6%
What are primary, primordial, and secondary disease prevention?
Primary: prevention of disease onset in asymptomatic
Primordial: prevention of causative risk factors to prevent disease
Secondary: preventing recurrence or death in symptomatic pts.
How do gerontologists define “old”?
Young old: 60-74
old-old: 75-85
very old: >85
How do the WHO and US Task Force define old?
WHO: >60
US Task Force: >65
What is the leading cause of death in the elderly?
CVD
What is the most frequent hosiptal discharge diagnosis in older adults?
CHF
Usually diastolic dysfunction w/ preserved EF
More common in women
What are the 4 most common chronic medical conditions seen in addition to CVD in older adults?
Arthritis Cancer Diabetes Dementia (13% @65, 40% @80) **50% of pts >80 have at least 2 other chronic conditions
What CV parameters increase w/ aging?
Systolic BP Pulse Pressure PWV LV mass incidences of CAD and afib
What CV parameters decrease w/ age?
early diastolic filling (EF more dependent on atrial contraction)
max exercise HR
max CO
max aerobic capacity and O2 consumption
HR response to B agonist
Vasodilator response to endothelium dependent vasodilators
What causes changes in PWV changes w/ age and what is the end effect?
Arterial stiffening -> increased PWV (from 5m/s in youth - 12 m/s in elderly)
young: reflected wave augments diastolic pressure -> increased coronary perfusion
Old: reflected wave augments systolic pressure -> high systolic BP and pulse pressure
What changes in cardiac Ca++ handling occur w/ aging?
L-type receptor: reduced and delayed inactivation
Decreased and delayed SERCA reuptake
Reduced and delayed outward K+ rectifier current
-> prolonged AP, prolonged contraction, prolonged relaxation
What 3 factors are considered in the Unifying Hypothesis of Age Related Changes in CV Function?
Cumulative oxidative stress from increased superoxide anions
Inflammatory cell response to stress / infection
Programmed cell death
What type of HTN is particularly prevalent in the elderly population and what medication is it most responsive to?
Isolated systolic HTN
Responds to diuretics
In an older patient w/ diabetes, what HTN med is recommended?
ACE inhibitor to delay nephropathy
What causes post-prandial hypotension?
Shunting of blood to digestive tract. Occurs 30-120 min after meal.
May be symptomatic in elderly pop.
What % of elderly population may have silent cardiac ischemia and why?
25-50% due to decreased pain perception, dementia, memory impairment.
