Clinmed - CVS PDF

Summary

This document provides an overview of the cardiovascular system (CVS), including its anatomy, clinical valvular areas, heart sounds, common symptoms, and physical examination. It also covers various associated conditions and disorders, such as skin conditions, lipid disorders, and congenital heart disease.

Full Transcript

CLINICAL MEDICINE Lecturer: Dr. Paul Lucas
Batch 2025

CVS
ANATOMY Angina Pectoris - Exertional chest pain with radiation to
PRECORDIUM the left side of the neck and down the left arm
Aortic Dissection - sharp pain radiating into the back or
The anterior surface of the chest overlying the heart and into the neck
great vessels
Pericarditis - Chest pain that improves when leaning
Extends vertically from 2nd-5th ICS and transversely from
forward
the right border of sternum to the left midclavicular line
o Base: corresponds to the right and left 2nd ICS close PALPITATION
to the sternum An unpleasant awareness of the heartbeat
o Apex: 5th L ICS at or within 1-2 cm medial to MCL or Described as skipping, racing, fluttering, pounding, or
7-9 cm lateral to MSL stopping of the heart
BORDERS OF THE HEART Clues in the history include:
RIGHT BORDER o Premature Contractions - Transient skips and
o Extends from the upper border of 3rd costal cartilage flipflops
o Paroxysmal Supraventricular Tachycardia - rapid
2cm lateral to its junction with the sternum to the 6th R
regular beating of sudden onset and offset
costochondral junction
o Sinus Tachycardia - a rapid regular rate of less than
Formed by the RIGHT ATRIUM
120 beats per minute, especially if starting and
INFERIOR BORDER
stopping more gradually
o From the 6th Right costochondral junction to the 5th L
ICS 1-2 cm medial to MCL SHORTNESS OF BREATH
Formed by the RIGHT VENTRICLE May be reported as dyspnea, orthopnea, or paroxysmal
LEFT BORDER nocturnal dyspnea
o Extends from the apex to the 2nd left costal cartilage o Dyspnea - Uncomfortable awareness of breathing that
1-2cm to the left of its articulation with the sternum is inappropriate to a given level of exertion
Formed by the LEFT VENTRICLE and o Orthopnea - Dyspnea that occurs when the patient is
superiorly by the LEFT ATRIUM lying down and improves when the patient sits up
§ Quantified according to the number of pillows the patient
CLINICAL VALVULAR AREAS
uses for sleeping
2nd ICS right PSL - AORTIC § Suggests left ventricular heart failure or mitral stenosis
2nd ICS left PSL – PULMONIC o Paroxysmal Nocturnal Dyspnea - Describes as
4th-5th ICS left lower sternal border (left xiphisterna episodes of sudden dyspnea and orthopnea that
junction) – TRICUSPID awaken the patient from sleep, usually 1 or 2 hours
5th left ICS 1-2cm medial to MCL - MITRAL after going to bed, prompting the patient to sit up, stand
o Atrioventricular valves - Mitral, Tricuspid up, or go to a window for air
o Semilunar valves - Aortic, Pulmonic Suggests left ventricular heart failure or mitral
HEART SOUNDS stenosis and may be mimicked by nocturnal
S1 - Closure of atrioventricular valves (M1, T1) asthma attacks
S2 - Closure of semilunar valves (A2, P2) EDEMA
S3 - Ventricular filling / gallop Accumulation of excessive fluid in the interstitial tissue
S4 - Atrial filling spaces and appears as swelling
COMMON OR CONCERNING SYMPTOMS Cause: congestive heart failure
Chest Pain o others: nutritional (hypoalbuminemia), renal and liver
Palpitations disease or maybe positional
Shortness of breath, orthopnea, or paroxysmal dyspnea THE GENERAL PHYSICAL EXAMINATION
Swelling or edema General appearance
CHEST PAIN Age
Posture
Think through the range of possible cardiac, pulmonary,
and extra thoracic etiologies Demeanor
Overall health status
Possible sources of chest pain
o Myocardium Is the patient in pain or resting quietly,
o Pericardium Dyspneic or diaphoretic?
o Aorta
o Trachea Does the patient choose to avoid certain
o large bronchi Body positions to reduce or eliminate pain?
o parietal pleura In case of
o Esophagus pericarditis,
o chest wall leaning
o Other extra thoracic structures such as the neck, forward
gallbladder, and stomach improve
CV causes: symptoms
o Angina Pectoris
o Myocardial Infarction, Pericarditis
o Dissecting Aortic Aneurysm

OP CUTIE 1
 TRANS: CVS

shunting at the great vessel level (reversal of shunting)

Malar telangiectasias
Scleroderma with pulmonary hypertension
Mitral stenosis
Hemochromatosis
Hereditary iron overload
A common cause of restrictive cardiomyopathy
Chronically ill-appearing emaciated patient Jaundice
Causes: With advanced right heart failure and congestive
o Long-standing heart failure or hepatomegaly or late-term "cardiac cirrhosis."
another systemic disorder such as a
Cutaneous ecchymoses
malignancy
Seen in patients taking vitamin K antagonists or antiplatelet

Various genetic syndromes often with cardiovascular
involvement
Holt-Oram Syndrome
Marfan Syndrome LIPID DISORDERS ASSOCIATED WITH CVS DISEASES
Trisomy 21 (Down) Syndrome Xanthelasma – yellow growths on or near the eyelids
Height and Weight o When deposits of cholesterol build up under the skin
Height and weight should be measured Subcutaneous Xanthomas - particularly along the tendon
BMI should be calculated sheaths or over the extensor surfaces of the extremities.
Measure waist circumference and the waist to hip ratio Palmar Crease Xanthomas - specific for type III
hyperlipoproteinemia
Pseudoxanthoma Elasticum - a disease associated with
premature atherosclerosis
o Axilla and neck creases
HEAD AND NECK
SKIN CONDITIONS ASSOCIATED WITH CVS DISEASE Dentition and oral hygiene should be assessed in every
Central cyanosis patient both as a source of potential infection and as an
Significant right-to-left shunting at the level of the heart or index of general health
lungs High-arched palate is a feature of Marfan syndrome and
Peripheral cyanosis or acrocyanosis other connective tissue disease syndromes
Bifid uvula - Loeys-Dietz syndrome
Reduced extremity blood
flow due to small vessel EVIDENCE OF CONGENITAL HEART DISEASE
constriction Hypertelorism
o Severe Heart Failure Low-set ears
o Shock Micrognathia
o Peripheral Vascular Blue sclerae - feature of osteogenesis imperfecta
Disease FUNDUSCOPIC EXAMINATION
Assess the microvasculature
Atherosclerosis
Hypertension
Diabetes mellitus
Suspected endocarditis
Differential cyanosis
CHEST
isolated cyanosis affecting the lower but not the upper Midline sternotomy, left posterolateral thoracotomy, or
extremities infraclavicular scars at the site of pacemaker/defibrillator
o patient with a large patent ductus arteriosus (PDA) generator implantation
secondary pulmonary hypertension with right-to-left to Prominent venous collateral pattern
o Suggest subclavian or vena caval obstruction.

OP CUTIE 2
 TRANS: CVS

Thoracic cage abnormalities - connective tissue disease § The finding of an elevated JVP implies a cardiovascular
syndromes like Marfan Syndrome etiology
o Pectus carinatum – “pigeon chest”
o Pectus excavatum – “funnel chest”

Arterial Bruit
The presence of an arterial bruit over the abdomen
suggests high-grade atherosclerotic disease, though
precise localization is difficult.
EXTREMITIES
Clubbing
Presence of central right-to-left shunting
EVIDENCE OF OBSTRUCTIVE LUNG DISEASE Patients with endocarditis
Barrel chest deformity - ↑ AP diameter Appearance can range from cyanosis and softening of the
Tachypnea root of the nail bed, to the classic loss of the normal angle
Pursed - lip breathing between the base of the nail and the skin
Use of accessory muscles Loss of diamond-shaped window

ANKYLOSING SPONDYLITIS
Severe kyphosis and compensatory lumbar, pelvic, and
knee flexion
Should prompt careful auscultation for a murmur of aortic
regurgitation (AR)
Dilatation of aortic ring with valvular insufficiency Holt-Oram syndrome
STRAIGHT BACK SYNDROME Unopposable, "fingerized" thumb
Loss of the normal kyphosis of the thoracic spine Frequently associated with atrial septal defect
Seen in MVP and its variants.
Pulmonary artery may be compressed against the sternum
→ gradient across pulmonary outflow tract → ejection
murmur
Respiratory rate and pattern should be noted during
spontaneous breathing
o Depth
o Audible wheezing
o Stridor
Lung examination can reveal adventitious sounds indicative
of pulmonary edema, pneumonia, or pleuritis
ABDOMEN
The liver is frequently enlarged and tender in patients with
chronic heart failure.
Systolic pulsations over the liver signify severe tricuspid
regurgitation (TR)
Splenomegaly may be a feature of infective endocarditis
Spleen is palpable 2 cm below left costal margin on deep Marfan syndrome
inspiration Arachnodactyly “spider fingers” - abnormally long and
Ascites slender fingers
o Positive "wrist" sign (overlapping of the thumb and fifth
o Advanced Chronic Right Heart Failure
finger around the wrist)
o Constrictive Pericarditis
o Positive "thumb" sign (protrusion of the thumb beyond
o Hepatic Cirrhosis
the ulnar aspect of the hand when the fingers are
o Intraperitoneal Malignancy
clenched over the thumb in a fist) sign.

OP CUTIE 3
 TRANS: CVS

o Marfan syndrome are usually associated with MVP Has been used to discriminate between high and low
and aortic aneurysm central venous pressure (CVP)
o Mnemonic: (MARfan – Mvp, AneuRysm)

ENDOCARDITIS LESIONS Venous pressure
Janeway lesions The vertical distance between the top of the jugular venous
pulsation and the sternal inflection point (angle of Louis)
Nontender, slightly raised hemorrhages on the palms and
soles A distance >4.5 cm at 30°elevation is considered
abnormal.
Osler's nodes
Tender, raised nodules on the pads of the fingers or toes
Splinter hemorrhages
Linear petechiae in the mid position of the nail bed
o MNEMONICS:
JANEWAY – PAIN AWAY
OSLER – “OUCH”LER

AN ELEVATED JVP
Presacral edema in the setting of an elevated JVP Prognostic significance in patients with both symptomatic
Volume overload and may be a feature of chronic heart heart failure and asymptomatic left ventricular systolic
failure or constrictive pericarditis. dysfunction.
Lower extremity edema in the absence of jugular venous Associated with a higher risk of subsequent hospitalization
hypertension for heart failure, death from heart failure, or both.
Lymphatic or venous obstruction A distance >4.5 cm at 30°elevation is considered abnormal.
Venous insufficiency THE JUGULAR VENOUS PULSE WAVES
Pitting edema can also be seen in patients who use
dihydropyridine calcium channel blockers.

Muscular atrophy or the absence of hair along an
extremity
Severe arterial insufficiency or a primary neuromuscular
disorder.
CARDIOVASCULAR EXAMINATION
JUGULAR VENOUS PRESSURE AND WAVE FORM
Jugular venous pressure
The single most important bedside measurement from
which to estimate the volume status
Internal jugular vein
Preferred because the external jugular vein is valved and
not directly in line with the superior vena cava and right
atrium.
External jugular vein

OP CUTIE 4
 TRANS: CVS

o A - Atrial contraction (RA) Associated with
o C - Closure of tricuspid valve (bulging of tricuspid valve o Constrictive Pericarditis
with ventricular contraction) o Restrictive Cardiomyopathy
o X- atrial relaXation o Massive Pulmonary Embolism
o V – Villing (filling) of RA (blood from Vena cava) o Right Ventricular Infarction
o Y – atrial emptYing with opening of tricuspid valve o Advanced Left Ventricular Systolic Heart Failure.
A WAVE Normally, the venous pressure should fall by at least 3
Prominent a wave - Seen in reduced right ventricular mmHg with inspiration
compliance Y DESCENT
o Cannon a wave occurs with atrioventricular (AV) Follows the peak of the v wave
dissociation and right atrial contraction against a Can become prolonged or blunted with obstruction to
closed tricuspid valve. right ventricular inflow, as may occur with tricuspid
o Seen also in wide ventricular tachycardia stenosis (TS) or pericardial tamponade.
Not present with atrial fibrillation Pulsation
X DESCENT
Defines the fall in right atrial pressure after inscription of the
a wave
After atrial contraction there will be release of blood to the
right ventricle, so when there is relaxation of the atrium
there will now backflow of blood from the jugular vein going
back to right atrium
There will be now decrease in pressure and at the same
time, blood flows in the right ventricle
C WAVE
Interrupts this x descent and is followed by a further
descent.
It happens when there is closure of the tricuspid valve ABDOMINOJUGULAR REFLEX
and start of right ventricular contraction, so when right Elicited with firm and consistent pressure over the upper
ventricular contracts there will now be an increase in the portion of the abdomen preferably over the right upper
pressure and pushes the tricuspid valve to the right atrium quadrant, for at least 10 s.
It creates pressure going now to the jugular vein Positive response: sustained rise of more than 3 cm in JVP
V WAVE for at least 15 s after release of the hand.
Useful in predicting a pulmonary artery wedge pressure in
Represents atrial filling (atrial diastole) excess of 15 mmHg in patients with heart failure.
Occurs during ventricular systole.
ASSESSMENT OF BLOOD PRESSURE
The height of the v wave is determined by
o Right atrial compliance Accurate measurement depends on
o Volume of blood returning to the right atrium either o Body position
antegrade from the cava or retrograde through an o Arm size
incompetent tricuspid valve o Time of measurement
o Place of measurement
In Tricuspid Regurgitation
o Device
The v wave is accentuated o Device size
The subsequent fall in pressure (y descent) is rapid o Technique
With progressive degrees of TR, the v wave merges with o Examiner
the c wave (cv wave) Blood pressure is best measured
The right atrial and jugular vein waveforms become
o In the seated position
"ventricularized.“
o With the arm at the level of the heart
o Using an appropriately sized cuff
o After 5–10 min of relaxation
When it is measured in the supine position, the arm should
be raised to bring it to the level of the mid-right atrium.
The length and width of the blood pressure cuff bladder
should be 80% and 40% of the arm's circumference,
respectively.
Common source of error in practice
KUSSMAUL SIGN
Using an inappropriately small cuff resulting in marked
Defined by either a rise or a lack of fall of the JVP with Overestimation of true blood pressure
inspiration
OP CUTIE 5
 TRANS: CVS

Inappropriately Large cuff, resulting in Underestimation of BP MEASUREMENT
true blood pressure Blood pressure should be measured in both arms, and the
§ Solution: use appropriately sized BP cuff difference should be less than 10 mmHg.
§ MNEMONICS: SOLUtion: Small – Overestimate Large – A blood pressure differential that exceeds this threshold
Underestimate may be associated with
o Atherosclerotic Or Inflammatory
o Subclavian Artery Disease
o Supravalvular Aortic Stenosis
§ Higher BP on right due to streaming of jet straight up along
ascending aorta towards brachiocephalic artery
o Aortic Coarctation
o Aortic Dissection
Systolic leg pressures are usually as much as 20 mmHg
higher than systolic arm pressures.

The cuff should be inflated to 30mmHg above the
expected systolic pressure and the pressure released at
a rate of 2–3 mmHg/s.
Systolic and diastolic pressures are defined by the first
and fifth Korotkoff sounds, respectively.

Greater leg–arm pressure differences
o Chronic severe AR extensive and calcified lower
extremity peripheral arterial disease.
The ankle-brachial index
o Lower pressure in the dorsalis pedis or posterior tibial
artery divided by the higher of the two brachial artery
pressures
o Powerful predictor of long-term cardiovascular
mortality
The blood pressure measured in an office or hospital setting
may not accurately reflect the pressure in other venues.
“WHITE COAT HYPERTENSION"
At least 3 separate clinic-based & at least 2 non-clinic-
based measurements 20 mmhg or in diastolic pressure
>10 mmhg in response to assumption of the upright posture
from a supine position within 3 min.
Common cause of postural lightheadedness/syncope
Exacerbated by advanced age, dehydration, certain
meds, food, deconditioning, and ambient temperature
ARTERIAL PULSE
The carotid artery pulse occurs just after the ascending
aortic pulse.
Character and contour of the arterial pulse depend on
the:
o Stroke Volume
o Ejection Velocity
OP CUTIE 6
 TRANS: CVS

o Vascular Compliance Described in patients with hypertrophic obstructive
o Systemic Vascular Resistance. cardiomyopathy (HOCM)
Best appreciated at the carotid level o HOCM: bifid pulse with
Normal: predominantly monophasic two systolic peaks.
The second peak (tidal
wave has lower
amplitude than the initial
percussion wave)

Easily
appreciated in patients on
Abnormalities of pulses: intra-aortic balloon counter
o A weak and delayed pulse (pulsus parvus et tardus) pulsation (IABP), in whom
defines severe aortic stenosis (AS). the second pulse is
diastolic in timing
o IABP or Sepsis:
bifid pulse with systolic
a and diastolic peak

PULSUS PARADOXUS
A fall in systolic pressure >10 mmHg with inspiration
AORTIC PULSE Seen in patients with:
Best appreciated in the epigastrium o pericardial tamponade
Just above the level of the umbilicus o massive pulmonary embolism
PERIPHERAL ARTERIAL PULSES o hemorrhagic shock
Subclavian, brachial, radial, ulnar, femoral, popliteal, o severe obstructive lung disease
dorsalis pedis, and posterior tibial o tension pneumothorax
o In patients in whom the diagnosis of either temporal First Korotkoff sound heard only at expiration + First
arteritis or polymyalgia rheumatica is suspected, the Korotkoff sound heard both on expiration and inspiration
temporal arteries also should be examined. (118-92 = 26mmHg)
o Although one of the two pedal pulses may not be PULSUS ALTERNANS
palpable in up to 10% of normal subjects, the pair Defined by beat-to-beat variability of pulse amplitude.
should be symmetric. Present only when every other phase i korotkoff sound is
The pulses should be examined for their: audible as the cuff pressure is lowered slowly
o Symmetry Typically, in a patient with a regular heart rhythm
o Volume Independent of the respiratory cycle.
o Timing Seen in severe left ventricular systolic heart failure
o Contour AUSCULTATION
o Amplitude Auscultation for carotid, subclavian, abdominal aortic, and
o Duration femoral artery bruits should be routine.
Simultaneous auscultation of the heart can help identify a Cervical bruit = weak indicator of the degree of carotid
delay in the arrival of an arterial pulse artery stenosis;
The carotid upstrokes should never be examined o The absence of a bruit does not exclude the presence
simultaneously or before listening for a bruit. of significant luminal obstruction
Light pressure should always be used to avoid precipitation The likelihood of significant lower extremity peripheral
of carotid hypersensitivity syndrome and syncope in a arterial disease increases with presence of:
susceptible elderly individual. o Claudication
PULSE IN AORTIC REGURGITATION o Cool skin
With chronic severe AR, the carotid upstroke has a sharp o Abnormalities on pulse examination
rise and rapid fall-off (Corrigan's or water-hammer pulse). o Presence of a vascular bruit
Some patients with advanced ABNORMAL PULSE OXIMETRY
AR may have a bifid or A >2% difference between finger and toe oxygen
bisferiens pulse, in which two saturation)
systolic peaks can be Used to detect lower extremity peripheral arterial disease
appreciated. Comparable in its performance characteristics to the ankle
brachial index.
INSPECTION AND PALPATION OF THE HEART

BIFID PULSE

OP CUTIE 7
 TRANS: CVS

o Pressure overload of the left ventricle (e.g., aortic
stenosis)
o Volume overload of the left ventricle (e.g., mitral
regurgitation).
Sustained, high-amplitude impulse (normally located): left
ventricular hypertrophy from pressure overload (ex.
hypertension)
Sustained high amplitude impulse displaced laterally:
volume overload
Sustained low-amplitude (hypokinetic) impulse: dilated
cardiomyopathy.
Palpable presystolic impulse (S4)
Corresponds to the fourth heart sound (S4)
The left ventricular apex beat may be visible in the Indicative of reduced left ventricular compliance and the
midclavicular line at the fifth intercostal space in thin- forceful contribution of atrial contraction to ventricular filling.
chested adults. Palpable third sound (S3)
Visible pulsations anywhere other than this expected Indicative of a rapid early filling wave in patients with heart
location are abnormal. failure
The left anterior chest wall may heave in patients with an May be present even when the gallop itself is not audible.
enlarged or hyperdynamic left or right ventricle.
RIGHT VENTRICLE
A visible right upper parasternal
pulsation may be suggestive of Marked increase in amplitude with little or no change in
ascending aortic aneurysm duration: chronic volume overload of the right ventricle
disease. (atrial septal defect)
o Thrill: palpable heart Impulse with increased amplitude and duration: pressure
murmur felt as a 'shudder' overload of the right ventricle (pulmonic stenosis or
under the hand pulmonary hypertension)
Best felt with distal Left 2nd Interspace—Pulmonic Area.
palm Prominent pulsation accompanies dilatation or increased
o Heave: thrusting sensation flow in the pulmonary artery
often used to describe A palpable s2 suggests increased pressure in the
large area and amplitude pulmonary artery (pulmonary hypertension)
with sustained movement Right 2nd Interspace—Aortic Area
PALPATION OF HEART Palpable S2 suggests systemic hypertension
Pulsation suggests a dilated or aneurysmal aorta
Thrills may accompany loud, harsh, or rumbling murmurs
as in:
o Aortic Stenosis
o Patent Ductus Arteriosus
o Ventricular Septal Defect
o Mitral Stenosis
LV IMPULSE Thrills are palpated more easily in patient positions that
Less than 2 cm in diameter and moves quickly away from accentuate the murmur
the fingers HEART SOUNDS
Better appreciated at end expiration, with the heart closer Ventricular systole is defined by the interval between the
to the anterior chest wall. first (S1) and second (S2) heart sounds
Enlargement of the lv cavity is manifested by a leftward and The first heart sound (S1) includes mitral and tricuspid valve
downward displacement of an enlarged apex beat. closure.
APEX BEAT/ POINT OF MAXIMAL IMPULSE
The apical impulse may be displaced upward and to the left
by pregnancy or a high left diaphragm.
Lateral displacement may be due to:
o Cardiac enlargement in congestive heart failure
o Cardiomyopathy
o Ischemic heart disease
o Displacement in deformities of the thorax
o Mediastinal shift
Dextrocardia—a heart situated on the right side
The apical impulse is on the right.
Situs inversus – the heart, stomach and liver are on the
opposite side from normal.
A right-sided heart with a normally placed liver and stomach
is usually associated with congenital heart disease.
NORMAL SOUNDS
In the left lateral decubitus position, a diameter greater than S1 – Closure of MV and TV; loudest at apex
3 cm indicates left ventricular enlargement. S2 – Closure of AV and PV; loudest at base
Increased amplitude may also reflect FIRST HEART SOUND (S1)
o Hyperthyroidism The intensity of S1 is determined by
o Severe anemia

OP CUTIE 8
 TRANS: CVS

o The distance over which the anterior leaflet of the mitral
valve must travel to return to its annular plane
o Leaflet mobility,
o Left ventricular contractility
o PR interval
SPLIT S1
Young patients
Right bundle branch block
Tricuspid valve closure is relatively delayed REVERSED OR PARADOXICAL SPLITTING
Pathologic delay in aortic valve closure
o Left bundle branch block
o Right ventricular apical pacing
o Severe AS
o HOCM
o Acute Myocardial Ischemia
With reversed or paradoxical splitting, the individual
components of S2 are audible at end expiration, and their
interval narrows with inspiration
THIRD HEART SOUND (S3)
Occurs during the rapid filling phase of ventricular
LOUD S1 diastole
Early phases of rheumatic mitral stenosis Can be a normal finding in children, adolescents, and young
Hyperkinetic circulatory states adults
Short PR intervals In older patients, it signifies heart failure
o PR interval: from the beginning of P wave until the A left-sided S3 is a low-pitched sound best heard over the
beginning of QRS left ventricular (LV) apex.
o