Cardiac Assessment Lab 24-25 PDF

Summary

These notes detail a cardiac assessment lab, covering various aspects of physical examination, including the history of present illness, past medical history, general examination, local examinations like inspection and auscultation, and vital signs such as pulse and blood pressure. It also discusses the location of the point of maximum impulse (PMI), auscultation techniques, and extra heart sounds like murmurs and gallops.

Full Transcript

CARDIAC HISTORY AND PHYSICAL
EXAMINATION
History
– CHIEF COMPLAINT AND HISTORY OF PRESENT ILLNESS

– Chest Pain ,Dyspnea ,Edema of the Feet and Ankles, Palpitations and Syncope ,Cough
and Hemoptysis ,Nocturia ,Cyanosis, Intermittent Claudication

– PAST MEDICAL HISTORY

– CURRENT HEALTH STATUS AND RISK FACTORS

– FAMILY HISTORY

– SOCIAL AND PERSONAL HISTORY
Physical examination of the heart
GENERAL EXAMINATION

Vital signs

LOCAL EXAMINATION

Inspection & palpation

Auscultation
 GENERAL EXAMINATION
wash hands thoroughly with soap and water or clean them
with antibacterial wash.
introduce yourself to the patient, explaining that you are going
to perform a cardiac examination.
Have the patient undress down to the waist.
Position the patient on the examination table at a 30- to 45-
degree angle, and approach the patient from the right side.
Have a general look at the patient first. Note whether the
patient is comfortable or in any distress
 General Appearance
Body built (Obese/Cachectic)
Decubitus (Orthopnea- Prayers' position- Squatting)
Color: (Pallor- Cyanosis- Jaundice)
Pallor: may indicate hypovolemia or anaemia with a concomitant decrease in the red blood cells’
oxygen carrying capacity
Cyanosis : (bluish color)
Central cyanosis:
cyanosis is best observed in the lips, oral mucosa and the tongue.( in congenital
heart diseases, cor-pulmonale, and advanced heart failure).
– Peripheral cyanosis: low cardiac output. low blood flow to peripheries such as
cardiogenic shock
jaundice for example may present in the sclera as well as appearing in the lips,
hard palate, under the surface of the tongue and may be indicative of hepatic
engorgement as a result of right ventricular failure.
 Inspection
Nails (Finger clubbing ): (broadening of the distal phalanges of digits, giving
them a drumstick or club – like appearance accompanied by abnormally curved
and shiny nails ) indicates chronic poor oxygen perfusion to the distal tissues of
the hand and feet. (as in patients with chronic cardiac conditions, such as cyanotic
congenital heart disease).

Blue clubbing associated with cyanotic congenital heart disease.

The nails should also be inspected for other signs of cardiac disease
for example evidence of splinter hemorrhages (small linear
hemorrhages under the nail bed that are splinter like) and can indicate
the presence of infective endocarditis.
 Inspection
Subcutaneous nodules (subcutaneous
firm swelling in active Rheumatic fever
)
Lower extremities (Cardiac edema in
Right side heart failure)
Neck: (Vigorous pulsations)
Fever( Rheumatic fever, Infective
endocarditis)
Respiration (dyspnea may indicate
left ventricular heart strain
 Jugular venous distention
Its importance lies in the fact that the internal
jugular ( IJ) is in straight-line communication
with the right atrium.
The IJ can therefore function as a manometer,
with distention indicating elevation of Central
Venous Pressure (CVP).
This in turn is an important marker of
intravascular volume status and related cardiac
function
 The internal jugular veins are not directly visible, because they lie deep to the

sternomastoid muscles in the neck

The goals of the examination are

to determine the highest point of visible pulsation in the internal jugular veins,

to measure this point of visible pulsation as the vertical distance above the sternal angle.

The patient is placed in the bed supine with the head of the bed elevated 45 degree. The

patient is examined with the head slightly turned away from the examiner.

The nurse uses tangential light to observe for the highest point of visible pulsation.
 Next, the angle of Louis is located by palpating where the clavicle joins the

sternum (suprasternal notch).

The examining finger is slid down the sternum until a bony prominence is

felt. This prominence is known as the angle of Louis. A vertical ruler is placed

on the angle of Louis. Another ruler is placed horizontally at the level of the

pulsation. The intersection of the horizontal ruler with the vertical ruler is noted,

and the intersection point on the vertical ruler is read. Normal jugular venous

pulsation should not exceed 3 cm above the angle of Louis.
 Vital signs
Examination of the pulse
Pulse:
is the pressure wave in the walls of the arterial system
which are produced by left ventricular ejection and
transmitted in the arterial walls towards the periphery.

The pressure waves expands the arterial wall
as it travels, this expansion can palpated as
arterial pulse.
 Vital signs
1-Taking the pulse
How to take your pulse
Rate (60-90 b/min)
Rhythm
Volume / Amplitude
Equality
Palpate all peripheral pulses : Carotid,
brachial, radial, femoral, popliteal,
posterior tibial, dorsalis pedis.
What is a normal pulse?
90 b/min, regular ,average volume ,and
equal in both sides
 examination of radial pulse
Hold the for arm of the subject while the hand is slightly flexed and pronated.
Press the radial artery ,at the wrist region ,against the bone using the three
middle fingers till you feel the maximal pulsation.
The use of the middle fingers offer a larger sensitive palpatory surface ,whereas
the use of the thumb should be avoided since it has its own pulsation.
Expressed as follow
Pulse is 75\min ,regular ,average volume ,equal on both sides, the arterial wall
is not palpable and no special characters.
Rating Scale Used for Assessing Strength of Pulses
0 Absent
1 Palpable but thready, weak, easily obliterated
2 Normal, not easily obliterated
3 Full, bounding, easily palpable, cannot obliterate
 Vital signs
Blood pressure
Definition
It is the lateral pressure exerted by blood on the arterial walls and it is
fluctuating during the cardiac cycle
Systolic blood pressure :
It is the highest pressure through out the cycle, it occurs in ventricular systole.
Normal range 100 – 140 mmHg
Average 120 mmHg
 Diastolic blood pressure
It is the lowest pressure through out the cardiac
cycle , it occurs during ventricular diastole
Normal range 60-90 mmHg
Average 80 mmHg.
The Mean arterial Pressure: is a the sum of
systole plus twice the diastolic pressure divided by
3
MAP = SBP + 2 (DBP)
3
Methods of blood pressure
measeurment
Invasive or direct methode:
using a catheter inserted into an artery
(which is used during cardiac surgeries)
Non invasive or indirect method :
Palpatory step
Auscultatory step
 Sphygmomanometer
 stethoscope
 1-Wash hands; identify client; explain procedure to client; assist
client to a comfortable position with forearm supported at heart
level and palm up.
Variations in blood pressure can occur with client in different
positions. Blood pressure increases when the arm is below heart
level and decreases when above heart level.
Expose the upper arm completely.
Wrap deflated cuff around upper arm with center of bladder
over brachial artery. Lower border of cuff should be about 2
cm above antecubital space
 I-Palpatory step :

✓Radial artery is palpated
✓ Cuff is inflated until radial pulse disappears Pressure is increased further
by 20 mm Hg Pressure is then released slowly through opening of valve
✓Mercury column is noted when the pulse reappears and is felt
✓Systolic pressure is obtained
 II-Auscultatory step :
✓ Stethoscope placed over the brachial artery in cubital fossa.

✓Pressure is raised by 20 mm Hg after pulse
disappears to occlude the Brachial artery.

✓ Pressure is released from cuff through opening of the valve
✓ first apearence of the sound indicates Systolic pressure

✓ When further deflated – amplitude and duration of oscillations is reduced---
Diastolic BP
 Korotkoff’s sounds
It is sounds heard during deflation of the cuff while
measuring the blood pressure

Causes
Change the stream (silent )flow into turbulent (noisy)flow
due to compression of brachial artery by inflated cuff
,increasing the velocity of blood through the constricted
segment
 Korotkoff’s sounds
1st phase:
1st appearance of low frequency clear ,sharp tapping sounds
It indicates Systolic pressure
2nd phase:
Softer and longer sounds.
3rd phase:
Clear louder sounds. Maximum intensity
 Korotkoff’s sounds

4th phase:
Initial muffling of the sounds.
5th phase
Complete disappearance of sounds.
It indicates Diastolic Blood pressure
LOCAL EXAMINATION

Location of Angle of louis.
PALPATION
skin can be palpated to also demonstrate the presence of oedema. Oedema can be
classified as either pitting or non-pitting. Non-pitting does not depress on palpation
and is indicative of a localised inflammatory response and the skin is also red, warm
and tender. Pitting oedema is found in the dependent body parts and the depression
made on palpation remains. Pitting oedema is indicative of congested cardiac failure.

Pulses
Precordium
Carotid Artery Palpation
 LOCAL EXAMINATION
Palpation of the Precordium to Determine the Location of the
Point of maximum Pulse (PMI).
The PMI is normally located in the fifth intercostal space medial to the
midclavicular line
The palm of your right hand is placed across the patient's left
chest so that it covers the area over the heart. The heel should rest along
the sternal border with the extended fingers lying below the left nipple.
Once you have located the PMI assess the location ,diameter and
amplitude of the impulse. A normal impulse is felt as a light tap extending
over 1cm. An area greater than 3cm should be considered pathological
and usually reflects left ventricular enlargement.
 Causes of shifted apex:
1.Causes outside the heart
-Chest and abdominal diseases which may pull or push the heart
-Fibrosis and collapse pull the heart towards the lesion
-Pleural effusion and pneumothorax push the heart away from the lesion
-Deformities of the chest such as kyphoscoliosis or funnel sternum may
displace the apex beat.
-Mediastinal lesions ; e.g; tumors or aortic anueurysm , may cause
downward displacement.
-Abdominal distension by pregnancy, ascitis etc can displace the apex
upwards and to the left side.
2.Causes from the heart ( cardiac enlargement)
Left ventricular hypertrophy shifts the apex downwards and outwards.
Right ventricular hypertrophy shifts the apex mainly outwards.
 LOCAL EXAMINATION
Palpation:
Carotid Artery Palpation: The
carotid artery should be inspected
and palpated The carotids can be
located by sliding the second and third
finger of either hand along the side of
the trachea at the level of the thyroid
cartilage (i.e. adams apple). The
pulsations should be easily palpable.
Auscultation
 Auscultation
The four areas where sounds are best heard are
The aortic area: auscultated best in the second
intercostal space close to the sternum on the right
of the sternum
The pulmonary area: auscultated best at the
second intercostal space to the left of the sternum
The tricuspid area: located at the lower left
sternal border, approximately the fourth to fifth
intercostal space
The mitral area (apex of heart): located in the
fifth left intercostal space, medial to the
midclavicular line
 Auscultation

Firstly with the diaphragm of the stethoscope listen over the
2nd right intercostal space close to the sternum - the region of
the aortic valve.

Then move the stethoscope to the other side of the sternum
and listen in the 2nd left intercostal space - the location of the
pulmonic valve.

Move the stethoscope down along the sternum and listen over
the left 4th intercostal space: the region of the tricuspid valve.

Finally, position the stethoscope over the 5th intercostal
space, left midclavicular line and auscultate the mitral area at
the apex of the heart.
Repeat this sequence with the bell of the stethoscope
 Auscultation
The first heart sound, S1 :
(the lub of the lub-dub), is associated with the closure of the mitral and tricuspid valves
and corresponds with the onset of ventricular systole. The S1 sound is normally louder
and longer and lower pitched when auscultated at the apex or even in the tricuspid
region.
The second heart sound, S2:
(the dub of lub-dub), is associated with the closure of the aortic and pulmonary valves
and corresponds with the start of ventricular diastole. The S2 sound has greatest
intensity when auscultated at the aortic or pulmonary regions.
 Extra Heart Sounds
A third heart sound (S3) S3 is most commonly associated with left
ventricular failure and it occurs early in diastole while the ventricle is
rapidly filling as the blood enters a non compliant left ventricle
(immediately following S2 and sounding like lub-de-dub). The S3
sound is low pitched and must be auscultated with the bell of the
stethoscope. It is often called a ventricular gallop.
It is considered to be normal in healthy children or young adults up to
the ages of 20-30 and it is called a physiologic third heart sound.
 Extra Heart Sounds

The fourth heart sound : S4 is a sound created by blood trying to enter a stiff,
non- compliant left ventricle during atrial contraction.
It's most frequently associated with left ventricular hypertrophy that is the
result of long standing hypertension. (just before S1 and sounding like la-
lub-dub) S4, is known as the atrial gallop
 Extra Heart Sounds

Either sound can be detected by gently laying the bell
of the stethoscope over the apex of the left ventricle
and listening for low pitched "extra sounds" that
either follow S2 (i.e. an S3) or precede S1 (i.e. an S4).
both an S3 and S4 simultaneously is referred to
as a summation gallop.
 Murmurs
These are sounds that occur during systole or diastole as a
result of turbulent blood flow. and fall into 2 broad groups:
– Leaking backwards across a valve that is supposed to be closed.
These are referred to as regurgitant or insufficiency murmurs (e.g.
mitral regurgitation, aortic insufficiency).
– Flow disturbance across a valve that will not open
fully/normally. These valves suffer from varying degrees of
stenosis (e.g. aortic stenosis).