Vital Signs

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Vital Signs. Module 9. Temperature. Body Temperature. Body temperature is the balance between heat produced in the body and heat loss from the body . Body Temperatures. - PowerPoint PPT Presentation

Transcript of Vital Signs

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Body temperature is the balance between heat produced in the body and heat loss from the body.

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Core Temperature – temperature of the deep tissues of the body such as abdominal or pelvic cavities. It is relatively constant

Surface Temperature – temperature of the skin and subcutaneous tissue. It fluctuates depending on the blood supply to the skin and the amount of heat loss to the external environment.

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Physiologically ◦ Receptors in the skin, abdomen, and spinal cord send messages to

the autonomic nervous system that sends the message to the hypothalamus.

◦ The hypothalamus acts as a central thermostat, receiving input from sensors that detect hot or cold temperatures and initiates body responses mainly in the cardiovascular system via vasoconstriction or vasodilation that decrease heat production and increase heat loss.

 

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Behavioral◦ When an individual perceives he is hot or

cold, he changes his behavior such as: moves to the shade or sun, regulates the thermostat, removes extra clothes or puts on sweater.

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Radiation

◦Conduction

Evaporation

Convection

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◦ Transfer of heat from the surface of one object to the surface of another without contact

◦ Blood flows from the core internal organs carrying heat to skin and surface blood vessels.

◦ Amount of heat carried to the surface depends on the extent of vasoconstriction and vasodilation regulated by hypothalamus.

◦ 85% of body heat is loss via radiation to the environment

◦ Usually from the body to a cooler surface

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Transfer of heat from one object to another with direct contact.

When the warm skin touches a cooler object, the heat is loss

Increase amount loss by applying a ice pack, bathing with cool water

Decrease amount of heat loss by applying blankets

Gains heat via conduction when contact is made with a warmer object

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Transfer of heat when a liquid is changed to a gas.

When body temperature rises, hypothalamus signals the sweat glands to release sweat. Sweat evaporates from the skin, resulting in heat loss.

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Transfer of heat away by air movements.

Air currents carry away the heat

An electric fan promotes heat loss through convection

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Vasoconstriction◦ Decreases the amount of blood that reaches the

surface and thus is not lost.

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Increase Basal Metabolism Rate

◦ Movement / exercise

◦ Shivering

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Age Activity / Exercise / Sleep Hormones Stress Environment Medication Illness

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Children: 98.60 - 99.60 F, oral

Adults: 98.6 + /-1 degree F, oral

Older Adults: 97.6 + / -1 degree F, oral

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Rectal temperature is usually 1 degree higher than oral

Axillary temperature is usually 1 degree lower than oral

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Pyrexia, hyperthermia, fever – an elevation in body temperature

Hyperpyrexia – a very high fever such as: 1050 F

Febrile – having a fever; Afebrile – without a fever

Hypothermia – decreased body temperature below 970 F

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The nurse needs to look at the relationship of the vital signs to each other, to previous findings, and to other assessment data.

If the temperature is abnormal, the nurse should notify the physician.

Reassess the temperature more often than ordered – nursing intervention / judgment

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Oral

◦Rectal

Axillary

Tympanic

Temporal

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Most common and convenient

Sublingual pocket very vascular and responds to changes in core temperature

Disadvantage – varies with what the patient has had in their mouth, mouth breathers

Not safe for infants, children, elderly, disoriented, epileptic, or unconscious

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Most reliable

Disadvantage– unpleasant for the patient and inconvenient to gain access to the site

Does not respond to body temp changes

Cannot be used in rectal surgery, or stool in bowel

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Safest, Noninvasive, Easily accessible

Does not always give a true reading of core temperature

Used for infants, children, patients with oral problems or mouth breathers, and irrational patients.

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Utilizes the ear which is readily accessible, minimal discomfort, and reflects core temperature

Disadvantage – cost of the equipment and inaccurate reading because of incorrect positioning of the instrument.

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One of the newer methods for evaluating a person’s temperature is the temporal area of the forehead.

The temporal artery is a branch of the internal carotid artery, but courses within a millimeter or two of the skin's surface over the lateral forehead and is readily accessible.

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Battery operated unit with an attached heat sensitive probe and disposable probe cover.

More rapid reading

Can be used in all methods of assessing the temperature

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Infrared light reflectance thermometer determines the temperature of the tympanic membrane by measuring heat radiated as infrared energy from that site

Tympanic membrane and hypothalamus share the same vasculature—reflects core temp

Accuracy depends on placement of the device

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Designed specifically to be completely non-invasive

Scanner captures naturally emitted infrared heat from the arterial blood supply, locking in the highest temperature it senses

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Measures the temperature by movement of chemical through the calibrated glass.

Must be shaken down to 950 before taking a reading.

Disadvantage – must follow hazard precautions if it should break.

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Shakes the thermometer to get below 960 or inserts into probe cover

Places in posterior sublingual pocket Remain in mouth for 3 - 5 minutes Remove and wipe from stem to bulb (clean to dirty) Reads at eye level, rotates slowly until mercury

visible and reads to nearest tenth of degree Shakes the thermometer down, cleans with soapy

cold water, or pushes ejection button to release probe cover

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Preparation: same

Places the patient in Sim’s position and drape

Apply gloves

Prepares thermometer- lubricates tip

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Dominant hand hold thermometer, other hand, separate buttocks to expose anus

Instruct patient to take a deep breath. Insert the thermometer gently into the anus: infant- ½ inch, adult 1 ½ inches.

Do not force insertion

Hold in place for 3-5 minutes

Wipe secretions, and discard tissue, read temp

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Gain access to the axillary area

Make sure area is dry

Place thermometer in the center of axilla. Fold patients arm straight down and place arm across chest

Leave in place 6-10 minutes

Remove, read, Write down

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Easy way to remember how long to take a temperature

5 min. = oral +3 min. = rectal 8 min. = axillary

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Position patient upright or on their side

Attach probe cover to the unit

Turn head to one side and insert into ear canal ◦ Adult – pull pinna upward and back◦ Child – pull pinna downward and back

Remove after reading displayed

Remove probe cover and place in storage unit

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With just a light stroke across the temporal artery area of the forehead, an accurate reproducible temperature is measured in about 3 seconds - eliminating any discomfort caused by thermometer inserted into the ear, mouth, or rectum.

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A wave of blood created by contraction of the left ventricle of the heart

Heart is a large pump that forces blood to enter the arteries with each heartbeat, causing pressure pulses or pulse waves

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The heart pumps 4-6 liters each minute.

This volume is the cardiac output

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Stroke volume- amount of blood that enters the arteries with each ventricle contraction◦ Normally heart empties about 70% of its volume

with each contraction. That is about 70 ml. of blood in an adult

Heart rate- beats per minute

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Rate of the ventricular contractions of the heart

Normal rate if 60 – 90 BPM with an extended range of 50- 100 BPM

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Tachycardia◦ Increased heart rate – over 100 BPM◦ Usually occur when sympathetic nervous

system is stimulated

Bradycardia◦ Decreased heart rate – below 60 BPM◦ Usually occur with parasympathetic nervous

system is stimulated

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Age Sex Exercise Temperature Medications Emotions / Stress Hemorrhage Illness Position

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Pattern of the beats and the intervals between the beats.

Equal time should lapse between beats of a normal pulse making a normal rhythm

An irregular rhythm is dysrhythmia

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May consist of an early beat, late beat, or missed beat

Irregular rhythm may be random, irregular rhythm or a predictable pattern of irregular beats.

Threatens the heart’s ability to provide adequate cardiac output.

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Etiology = A contraction of the heart that fails to transmit a pulse wave to the peripheral pulse sites

Assess by apical – radial pulse simultaneously for one minute, compare

Difference between the apical and radial pulse rates is the pulse deficit.

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Nurse A takes the apical pulse and gets a rate of 88.

Nurse B takes the radial pulse and gets a rate of 76.

The pulse deficit is 12.

88 – 76 = 12

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Strength of the pulse reflects the volume of blood ejected against the arterial wall with each heartbeat.

Usually the volume / strength is the same with each heartbeat.

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Absent ◦ Not palpable

Weak, thready◦ Difficult to feel, readily obliterated with pressure

from the fingers

Normal◦ Easily detectable with moderate pressure

Bounding, full◦ Obliterated, only with difficulty

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A healthy normal artery should feel:◦ Straight◦ Smooth◦ Soft◦ Pliable

That makes it easy to assess the pulse

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If pulses on both sides of the body are equal, they are known as bilaterally equal

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Palpation◦ Middle two - three fingers used◦ Pads on fingers are sensitive areas for detecting a

pulse

Auscultation◦ Stethoscope used for auscultating an apical pulse

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Where arteries lie over bony surfaces:◦ Temporal

◦ Carotid artery - in the neck

◦ Brachial – inner aspect of the elbow

◦ Radial – inner aspect of wrist on thumb side

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◦ Ulnar – outer aspect of the arm

◦ Femoral- femoral artery passes along the inguinal ligament

◦ Popliteal – behind the knee

◦ Posterior tibial – medial surface of the ankle

◦ Dorsalis pedis –upper surface of the foot

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Taken with a stethoscope at apex of the heart S1- low pitched and dull, lub at apex of

heart, fifth intercostal space, just left of the midclavicular line

S2 – Higher and shorter, dub at the base of heart, second intercostal space, right or left of sternal border

Each lub-dub is one heart beat Counted for one full minute

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Record characteristics and any abnormal findings◦ ie. Radial pulses strong, regular, equal

bilaterally.

Apical / radial pulse unequal, with pulse deficit

of 12.

Radial pulse full, bounding at rate of 88.

Pedal pulses equal bilaterally.

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The act of breathing

Supplying oxygen to the body cells and removing carbon dioxide from the body cells

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Inhalation of air into the lungs and exhalation of gases from the lungs to the atmosphere

Three components:1. Ventilation – mechanical movement of air in and out

of the lungs2. Diffusion – movement of oxygen and carbon dioxide

between alveoli and RBC’s3. Perfusion – distribution of blood to and from the

pulmonary capillaries in the lungs

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Cellular level

Oxygen diffuses from hemoglobin in the RBC to the cells of the body for use in production of heat and energy

Carbon dioxide if given off from the body cell as waste by-product of metabolism

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Respiratory center in the brain stem and chemoreceptors in the carotid artery and aorta.◦ Regulated by levels of carbon dioxide, oxygen, and hydrogen ion

concentration (pH) in the arterial blood ◦ Most important is level of CO2. Elevation of carbon dioxide

causes the respiratory control system in the brain to increase the rate and depth of breathing to move out the carbon dioxide

If arterial oxygen levels drop, chemoreceptors signal the brain to increase the rate and depth of ventilation

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Accurate measurements requires observation of the patient’s chest wall movement

Best to assess when resting

Prior data collection:◦ Normal breathing pattern◦ Health problems◦ Medications or therapies◦ Relationship of respirations to

cardiovascular function

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Normally 12 – 20 breaths per minute

Terminology:◦Eupnea – normal rate and depth

◦Bradypnea – abnormally slow respirations

◦Tachypnea – abnormally fast respirations

◦Apnea – cessation or absence of breathing

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Exercise – increases the rate

Stress – increases the rate

Increased altitude – increases the rate

Medications – narcotics and analgesics lower the rates

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Regularity of expirations and inspirations

Normally, they are evenly spaced in an adult.

Normally, irregular in an infant

Irregular respirations in an adult should be reported.

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Degree of movement in the chest wall

Described as normal, deep, or shallow

Normal inspiration and expiration or volume of air exchanges with each breath in an adult is about 500 ml. of air. This in know as tidal volume

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Assess the chest◦ Does it expand symmetrically with inspiration◦ Is there retraction of intercostal spaces between the

ribs on inspiration◦ Are the respirations diaphragmatic or costal◦ Are accessory muscles used to augment

Difficulty with breathing is known as dyspnea

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Respirations should be quiet

Abnormal breathing sounds are:◦ Stridor – shrill, harsh, inspiratory crowing sounds that occurs with

upper airway obstruction

◦ Wheeze – high-pitched, musical, whistling sound that occurs with partial obstruction in the smaller bronchi

◦ Stertor- snoring respiration produced by secretions in the trachea and large bronchi

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Hypoventilation – rate and depth decreased

Hyperventilation – rate and depth increased

Cheyne-Stokes – irregular, alternating periods of apnea and hyperventilation

Kussmaul –abnormally deep, regular and increased in rate.

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Unobtrusively observes the patient’s respirations while seeming to be involved in another activity

Counts the rate for 30 seconds unless otherwise indicated

Washes hands if contact made with the patient or furnishings in the room

Documents

Reports abnormalities

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A measure of the pressure exerted by the blood on the walls of an artery as it flows through the arteries.

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Systolic Pressure◦ The pressure of the blood as a result of contraction

of the ventricles, that is the pressure of the height of the blood wave

Diastolic Pressure◦ The pressure when the ventricles are at rest.

Diastolic pressure in the minimal pressure exerted against the arterial walls at all times

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The difference between the systolic and diastolic pressure

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Systolic 100 – 120 mm. Hg.

______________Diastolic 60-80 mm. Hg.

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The volume of blood pumped by the heart (stroke volume) during one minute (heart rate).

The blood pressure depends on the cardiac output and peripheral resistance

B/P = CO X R

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Resistance of blood flow determined by the tone of vascular musculature and diameter of blood vessels

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Volume of blood circulating with the vascular system

Normal is about 5000 ml.

If volume increases, the B/P goes up; if volume decreases, the B/P drops.

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Thickness of blood Hematocrit– percentage of RBC’s in blood

compared to plasma.

When hematocrit rises, the blood is thicker and the heart must work harder to push it around. This causes the B/P to go up.

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Vessels walls normally have elasticity and can adjust (dilate and constrict) to accommodate the needs of the body.

When vessels lose their elasticity and is replaced by fibrous tissue that does not stretch, there is greater resistance to blood flow, and the B/P rises.

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1. Age

2. Stress and emotions

3. Gender

4. Medications

5. Disease / Illness

6. Body position and exercise

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Hypertension is an elevated B/P◦ Occurs on two or more occasions◦ Diastolic pressure if 80 mm.Hg. or above◦ Systolic pressure is 120 mm Hg or above

Hypotension is a lowered B/P◦ Systolic pressure is 90 mm.Hg or below

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Insertion of a thin catheter into an artery that is connected to electronic monitoring equipment.

Mainly used in intensive care units

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Measured by auscultation or palpation

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Sphygmomanometer

Stethoscope

Cuff

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Aneroid—glass enclosed circular gauge containing a needle that registers millimeters calibrations

Mercury – Upright tube containing mercury. Pressure created by inflation of cuff moves column of mercury upward against gravity.

Cuff – come in various sizes and must have the correct size

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Used to hear sounds on which you base the B/P

Be sure the earpieces point toward the nose and not the back of the head

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Brachial is the most common

Alternative sites:◦Lower extremities—popliteal artery behind the knee.

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Cuff too wide Cuff too narrow Cuff wrapped too

loosely Deflating cuff too

slowly Deflating cuff too

quickly Stethoscope that

fits poorly Inaccurate

inflation level

False low reading False high reading False high reading

False high diastolic reading

False low systolic and false high diastolic

False low systolic and false high diastolic

False low systolic reading

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Assessment◦ Reviews chart for data RT blood pressure◦ Evaluates size of arm and accessibility◦ Explains to patient

Washes hands Positions patient and removes any

clothing Extends the arm with palm facing up Applies the cuff 1-2 inches above

inner aspect of elbow with bladder over brachial artery

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Palpates the brachial pulse, places the stethoscope over the brachial pulse area

Tightens the valve on the cuff and inflates about 30-40 mm. over normal or inflate to about 180 –200 mm.

Releases valve slowly controlling rate of descent which will deflate the cuff.

Watch the calibrations on the gauge as the air is released and note changes in the sounds.

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Removes the cuffAssists patient to comfortable position

Documents Reports unusual findings