CV PV Lecture (1) PDF

Summary

This document provides notes on cardiovascular and peripheral vascular anatomy, including the structure of the heart, blood circulation, heart valves, and the cardiac cycle. It also includes questions and explanations related to the topic. The document covers basic cardiac function and examination.

Full Transcript

Cardiovascular and
Peripheral Vascular
KIMYA BARADARAN, MSPAS, PA-C
 Anatomy

 Most anterior cardiac surface
is R ventricle
 L ventricle lies behind R
ventricle except for apex
 Base is at the top, apex at the
bottom
 PMI (point of maximal impulse)
is at the 5th ICS, mid-clavicular
line
 Cardiac impulse best
palpated
 Circulation
 Blood enters the R side of the heart
through the vena cava
 Blood flows to the lungs via
pulmonary artery (deoxygenated)
 Blood returns to the L side of the
heart via pulmonary veins
(oxygenated)
 Blood flows to the systemic
circulation via the aorta
 Valves
 Mitral & Tricuspid valves
 between atria &
ventricles
 called atrioventricular
(AV) valves

 Pulmonic & Aortic valves
 between ventricles and
great vessels
 called semilunar valves
Putting it All Together…
Question 1

 A common heart arrhythmia called atrial fibrillation is when the top
chambers of the heart cause fast and irregular heartbeats. One
procedure to treat this is an ablation which involves burning tissue
most often around the blood vessel(s) that empty into the left atrium.
Where does this ablation occur?
 a. Pulmonary arteries
 b. Pulmonary veins
 c. Inferior vena cava
 d. Aorta
 Cardiac Cycle

 Systole  Diastole
 Ventricles contract  Ventricles relax
 Tricuspid and Mitral valves close (S1  Aortic and Pulmonary valves close (S2
LUBB) DUBB)
 Aortic and Pulmonic valves open  Tricuspid and Mitral valves open
 Blood pushed into pulmonary artery  Blood flows into ventricles
and aorta  Atria contract
S1 –systole S2- diastole

trIcuspid
mItral
 Heart Sounds
 Closure of valves responsible for heart sounds
 Heart sounds labeled S1 (lub) and S2 (dub)
 S1 is the start of systole: mitral & tricuspid close while aortic &
pulmonic valves open
 S2 is the start of diastole: aortic and pulmonic valves close while
mitral & tricuspid open
 Cardiac Cycle
 Systole (S1)
 Loudest at apex
 Correlates with carotid pulse & apical impulse
 Lower pitch
 Diastole (S2)
 Loudest at base
 Higher pitch
 Shorter duration than S1
 Splitting of S2
 Normal heart: S2 is heard as 1 sound on
expiration
 Normal heart: S2 plits into A2 and P2 on
inspiration
 More blood fills RV —> delayed PV closure
 Best heard in the 2nd left ICS with diaphragm
 Semi-recumbent position
 Expiratory splitting is abnormal!
 Extra Heart Sounds: S3

 S3 - ventricular gallop
 Lots of blood rushes into
compliant ventricle
 Can indicate fluid overload -
systolic heart failure
 Beginning of diastole right after
S2
 “Kentucky”
 Extra Heart Sounds: S4

 S4 - atrial gallop
 Blood pushed against stiff
ventricle
 Diastolic heart failure, LVH
 End of diastole right before S1
 “Tennessee”
Question 2

 You often hear the heart sounds referred to as “Lub-dub”. In this
case, what does “lub” refer to?
 a. Opening of the mitral and tricuspid valves
 b. Opening of the aortic and pulmonic valves
 c. Closing of the mitral and tricuspid valves
 d. Closing of the aortic and pulmonic valves
 e. Sound of blood hitting the walls of the atria as they fill with
blood
 f. Sound of blood hitting the walls of the ventricles as they fill with
blood
Obtaining the
Cardiac-focused
History
What are some Cardiac ROS Qs?
 Chest Pain/discomfort  Orthopnea
 Dyspnea/SOB  Lower extremity edema
 Dyspnea on exertion  Palpitations
 Paroxysmal nocturnal  Syncope
dyspnea
 Chest Pain
 Think the worst first!
 History is crucial
 Rule out myocardial infarction (MI),
angina pectoris, dissecting aortic
aneurysm
 Differential Diagnosis
 Cardiac  GI
 MI  GERD/acid reflux
 Angina  Esophageal spasm
 Pericarditis  MSK
 Myocarditis  Muscle strain
 Pulmonary  Costochondritis
 Pleural effusion  Rib fracture
 Pulmonary embolism  Psychiatric
 Vascular  Anxiety/panic attack
 Aortic dissection
 History
 Open-ended —> specific questions
 “Do you have discomfort or pain in your
chest?”
Onset
 OLDCAAARTS Location
Duration/Progression
Character
Associated symptoms
Alleviating &
Aggravating
Radiation
Timing
Severity
 History

 Onset
 What were you doing when it started?
 Location
Sub-sternal, left-sided
 Duration
Seconds, minutes, hours
 Character
Pressing/squeezing/heaviness (MI/anginal)
Tearing/ripping (AA)
Burning (GERD)
 History

 Associated
symptoms  Alleviating factors
Diaphoresis  Rest, NTG
Dyspnea  Antacids

Nausea  Aggravating factors

Weakness  Exercise
 Emotional stress
Dizziness
 Big meals
 Lying down
 History

 Radiation  Timing
Shoulders/arms Constant

Neck, jaw When did it start?
Back Getting worse?
Intermittent
How often?
How long?
More frequent?
 Severity
 Scale of 1-10
 Risk factors
 Prior hx  Stress
 Smoker  Family hx
 Hyperlipidemia  Cocaine
 Hypertension  Sedentary
 Diabetes mellitus
Question 3

 Which of these chest pain descriptions sound MOST concerning for a
cardiac cause?
 a. Burning substernal pain that increases with lying down
 b. Sharp right-sided pain that increases with deep breathing and
palpation
 c. Bilateral chest wall pain that is associated with a recent onset
of productive cough
 d. Left sided squeezing pain that radiates to the jaw and worsens
with exertion
 e. Left sided chest pressure radiating down bilateral arms that
comes on during emotional stress
Understanding Cardiac
Sounds
 Stethoscope
 Diaphragm
 High pitched sounds: S1, S2, majority of murmurs
 Pericardial friction rubs
 Bell
 Low pitched sounds S3, S4 and some other murmurs
 Mitral stenosis (must be on PMI)
 If press too hard becomes a diaphragm
 The Physical Exam
 Patient position is supine with 30 degrees head elevation
 Examiner stands on right side of patient
 Other positions
 Left lateral decubitus (LLD)
 Sitting up and leaning forward
 Exam Components

 Jugular Venous Pressure (JVP)

 Carotid Pulse

 Heart
 Jugular Venous Pressure (JVP)

 JVP is measure of pressure on R side of
heart
 Heart can be thought of as two
separate pumps, R & L
 JVP measured by observations of
pulsations in internal jugular vein in
neck and measured level of blood
column observed in vein
 Jugular Venous Pressure (JVP)
 Jugular vein can be thought of as column of blood extending from
right atrium to neck
 JVP column noted > 4 cm above sternal angle is abnormal
 CHF —> R atrial pressure will be elevated —> JVP will be elevated
 Kussmaul's sign
Sternal angle/
Angle of Louis
 Carotid Pulse
 Inspect for pulsations
 Palpate pulse for amplitude, rate and
thrills
 Between sternocleidomastoid muscle
and trachea
 Thrill (vibration) - high flow of blood
 Carotid pulse occurs with the apical
impulse at S1
 One side at a time!!!
 Auscultate for bruits - turbulent blood flow
 Use bell
 Heart Examination
 Inspection
 Anterior precordium
Visible thrills
Point of maximum intensity (PMI) or apical impulse
 Palpation
 Right 2nd ICS, left 2nd ICS, LL Sternal border, apical
pulse
Lifts, heaves and PMI
Left Lateral Decubitus position accentuates PMI
 Heart Examination

 Auscultation
Entireprecordium with Diaphragm
R sternal border @2nd ICS (aortic)
Left sternal border @2nd ICS (pulm)
Left sternal border @ 3rd/4th ICS(tricusp)
Left 5th ICS, mid-clavicular line (mitral) or
apex
 Auscultation
Auscultate the aortic valve at the right
sternal boarder 2nd intercostal space

Auscultate the pulmonic valve at the
left sternal boarder 2nd intercostal
2nd intercostal space
space

Auscultate the tricuspid valve at the
left sternal boarder 3rd and 4th 3rd/4th ICS
intercostal space 5th ICS

Auscultate the mitral valve at the 5th
intercostal space, midclavicular line
Apple Pie Tastes Marvelous
Positional
Murmurs
 Positional Murmurs

Sitting up and leaning forward
exhale completely
Accentuates aortic murmurs
Left lateral decubitus
Accentuates mitral murmurs
 Positional Murmurs:
Left Lateral Decubitus

 Ausculate with the Bell
Light pressure - low pitched sounds
L3rd ICS, L 4th ICS, and 5th ICS @
MCL(apex)
---Accentuates Mitral Stenosis
Question 4

 An 65-year old female patient presents to your office due to increasing
dyspnea on exertion x 1 month. During your cardiac examination you notice
a 2/6 systolic murmur that is loudest over the left 5th intercostal space. It is
louder in the left lateral decubitus position and when listening with the
diaphragm. What is the most likely cause of the patient’s symptoms?
 a. Tricuspid regurgitation
 b. Tricuspid stenosis
 c. Mitral regurgitation
 d. Mitral stenosis
 e. Pulmonary regurgitation
 f. Pulmonary stenosis
 Heart Sounds
 Heart sounds caused by closure of valves (and
blood flow)
 Opening of valves silent except when pathology
present
 On L side of heart S1 = MV closure and S2 = AV
closure
 On R side of heart S1 = Tricuspid closure and S2 =
Pulmonic closure
 Heart Sounds
 S1 usually loudest at apex

 S2 usually loudest at base

 Systole – interval between S1 and S2

 Diastole - interval between S2 and S1

 The interval between S1 and S2 (systole) shorter than interval
between S2 and S1 (diastole) until HR gets to 120 bpm
 Look at it in action…
https://www.youtube.com/watch?v=dBwr2GZCmQM
Peripheral Vascular
Exam
Peripheral Vascular Disease

 Any disease of the
circulatory system outside of
the brain or heart
 Any of the blood vessels
 Often synonym for
peripheral artery disease
(PAD)
Peripheral Arterial Disease (PAD)
 Atherosclerotic occlusion of arteries in lower
extremities
 Presents chronically as claudication: “angina
in the legs”
 Presents acutely as critical limb ischemia
 Femoral & popliteal arteries most commonly
involved
 Ankle-brachial index: arterial doppler
Chronic or Acute
 Risk Factors for PAD

 Advanced age
 Smoking
 Diabetes
 Hyperlipidemia
 Hypertension
 Anatomy

 Two Parts of circulatory system

Arteries: carry oxygen-rich blood from the
heart to the organs

Veins: carry oxygen-depleted blood/wastes
through the kidneys & liver, and filtered out
Systems interconnected by web-like
vessels called capillaries
Venous blood
Anatomy
 Arteries--UE
 Brachial
 Medial antecubital space
 Radial & Ulnar
 Flexor surface
 Radial - lateral
 Ulnar - medial
 Interconnected by vascular
arches
 Anatomy
 Arteries--LE
Femoral
Midway between ASIS and
pubic symphysis
Popliteal
Behind the knee
Posterior Tibialis (posterior)
Behind medial malleolus
Dorsalis Pedis (anterior)
Dorsal, lat to big toe extensor
tendon
 Anatomy
 Venous system – removes fluids, toxins,
wastes, CO2 from tissues
Deep veins: carry 90% blood return
Superficial: not well supported
Thin walled, no contractility
One way valves
Communicating veins in between
Veins from UE —> SVC
Veins from LE —> IVC
Both empty into RA
 Anatomy
 Veins--LE
Femoral (deep)
Great
Saphenous
(superficial)
Small
Saphenous
(superficial)
 Anatomy

 Lymphatic system
 Drain lymph fluid —> venous
circulation
Key player in immune function
Lymph nodes digest cellular debris
and produce antibodies
 Anatomy
 Epitrochlear nodes
 Ulnar surface of forearm and
hand
 Axillary nodes
 Rest of the arm
 Femoral nodes
 Horizontalgroup: low and,
buttocks, ext genitalia, anal/
perianal
 Vertical group: thigh, leg, and
foot
 Anatomy
 Fluid Exchange
 Capillary bed - blood circulates from
arteries to veins
 Arterial end fluid: from artery to tissue
 Hydrostatic pressure gradient
 Venous end fluid: from tissues to vein
 Colloid
oncotic pressure of
plasma protein
 Disturbance in forces can disrupt
equilibrium
 Anatomy
 Lymph capillaries drain
extracellular fluid
 Lymphatic dysfunction
causes increased
interstitial fluid —>
edema
 Can be primary
(genetic) or
secondary (trauma,
surgery, cancer, etc)
Lymphedema

Usually not dependent!
 Review of Systems

 Pain in extremities  Hair loss
 Claudication  Skin color &
 Tenderness texture changes
 Cold
 Skin lesions
 Numbness
 Swelling
 Discoloration
 Pallor or
erythema
 Review of Systems
 Pain in arms or legs?
 Other potential causes: MS, skin, nervous system, referred
pain
 Pain with activity that resolves with rest?
Intermittent claudication – exercise induced pain
 Results from decrease in (arterial) blood supply
 Reproducible
 Vs neurogenic claudication
(spinal stenosis)
 Review of Systems
 Coldness, numbness or pallor
 Decrease in arterial blood flow to extremity
 Acute or gradual onset
 Hair loss: chronic PAD
 Non-healing ulcers
 RF: smoking, HTN, DM, HLD, hx MI or CVA
 Review of Systems
 Color change of fingers in cold weather?
 Raynaud’s disease: arterial
vasoconstriction
 Color changes: pallor —> cyanosis —>
rubor
 +/-swelling, pain, tingling
 Review of Systems
 Swelling of distal extremities - venous cause
 Timing - end of day?
 Provoking/alleviating
factors - After being
on feet? Decreases with elevation?
 Skin color - hyperpigmentation (brownish),
cyanosis
 Texture changes - thickening, dryness
 Lesions - ulcers (but no gangrene)
 Arterial Insufficiency
 Acute or chronic
 Symptoms
 Intermittent
claudication, pallor,
pain, coldness,
numbness, ulcers,
gangrene
 Acute Arterial Insufficiency
 Sudden arterial occlusion due to an embolus or
thrombus
 Sudden onset of painful, cold, pale extremity
 +/- numbness, paresthesia, weakness
 Decrease or absence of pulse
 Concern – gangrene
ACUTE PAD IS
A LIFE OR LIMB
SITUATION!
 Chronic Arterial Insufficiency
 Gradual decrease in blood  Pallor, thin shiny skin,
flow to extremity thickened nails
 Atherosclerosis  Hair loss
 Intermittent claudication  Painful ulcers
 Cool extremity  Toes, pressure points
 Dependent rubor  Gangrene can result
 Decreased pulses
 DR EP:
Dependent Rubor
Elevation Pallor
 Screening for PAD
 Ankle Brachial Index (ABI)
 Ratio of the systolic BP in the lower
legs to the systolic BP in the arms
 ABI = SBP-Ankle / SBP-Arm
 Doppler ultrasound registers pulse
 BP cuff is inflated until the pulse
ceases
 BP cuff is deflated until pulse
returns = SBP
 PAD Interventions
 Foot care/well fitting
shoes
 Stop smoking!!!
 Treatment of underlying
disease
 Antiplatelets, statins
 Revascularization
 Venous Insufficiency
 Acute or chronic
 Signs/symptoms
 Edema (pitting)
 Skin darkening
 Skin thickening
 Ulcers
 Pain? (aching/none)
 Chronic Venous Insufficiency

 Gradual development of pitting edema
 Gradual skin changes to dark brown(“brawny”)
thickened, dry
 Ulcers around ankles – medial, often painless
 Dependent edema +/- aching
 LE is warm to touch, pulses present
 Chronic Venous Insufficiency
 Often due to DVT or thrombophlebitis
1. Vein inflammation
2. Valves of veins destroyed
3. Valvular reflux
4. High venous pressures
5. Skin darkens & thickens
6. Dermatitis & ulcers
 Other causes: cancer, trauma, varicose veins
 Chronic Venous Insufficiency

 Venous stasis ulcers
 Painless, large, irregular borders
 Shallow moist granulation bed
 Usually medial ankle
 Acute Venous Insufficiency
 Sudden onset of pain, swelling, redness of lower extremity
 Causes: DVT or thrombophlebitis
Deep venous thrombosis
Painful, swollen leg, calf tenderness, palpable
cords
Concern: pulmonary embolism….FATAL!
Superficial thrombophlebitis
Localized warmth, induration, redness,
tenderness, superficial palpable cord (no edema)
Varicose Veins
 Dilated & tortuous
 Failure of valve within veins
 Primary or secondary
 Can affect both deep and
superficial
 May be asymptomatic or
achy
 Mimics
 Cellulitis
 Acute bacterial infection of the skin
 Localized redness over extremity
 No palpable cord
 Erythema Nodosum
 Inflammatory, painful, red lesions on the anterior
lower legs
 Pregnancy, sarcoidosis, TB, strep infection
 Others: nocturnal leg cramps, generally cold extremities
Question 5

 An 80-year old patient with hx of HLD presents with “right leg pain”.
States the pain has been 5/10 severity and occurring intermittently
for 6 months. It usually occurs when he walks but for the past day, he
has had the pain at rest and it is now 8/10. On examination, the
patient’s right leg is colder and more pale than his left and you
cannot identify a pulse. What is the next best step?
 a. Order an urgent right lower extremity arterial ultrasound w/ABI
 b. Order an urgent right lower extremity venous doppler
 c. Advise the patient to go to the ER
 d. Message your vascular surgery PA colleague
 Physical Exam
 Divide into upper and lower extremities
 Full exposure of extremities
 Inspection
 Size
 Symmetry
 Swelling
Color
Nail beds
 Upper Extremity Exam
 Palpation
 Pulses
Radial, brachial (compare bilaterally)
3+ (bounding), 2+ (expected), 1+(weak), 0
(absent)
 Temperature
 Epitrochlear nodes
swelling, tenderness
 Special Test: Allen Test (ulnar artery)
 Lower Extremity Exam
 Inspection
 Full exposure – groin to toes
 Color & texture of skin and nails
Rubor, pallor, cyanosis
Lesions, rashes, scars
 Swelling of calf
 Edema in lower leg or foot
 Distribution of hair
 Varicose veins
 Lower Extremity Exam

 Palpation
 Pulses: femoral, popliteal, dorsalis pedis,
posterior tibialis
 0-2+: absent, weak, full, bounding
 Temperature
 Inguinal nodes
 Pitting edema?
 Girth of extremity
 Tenderness of calf
 Lower Extremity Exam

 Special tests
 Postural color changes
 Elevate - pallor
 Dependent - rubor
 Homan’s sign (DVT)
 Pain with dorsiflexion
 Poor sensitivity
 THANK YOU!

*Powerpoint slides were made in collaboration with Jan Stottlemeyer