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fundamentals of nursing lec transes, Summaries of Nursing

University of Perpetual Help (UPH)Nursing

transes about vital signs. includes proper techniques and normal range

Typology: Summaries

2022/2023

Uploaded on 02/16/2025

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chaisser-padasas 🇵🇭

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FUNDA-LEC
TOPIC: VITAL SIGNS
Time to Assess Vital Signs:
1. Upon admission.
2. Change in health status of the client.
3. Before and after surgery or an
invasive procedure.
4. Before and or after the administration
of a medication.
5. Before and after any nursing
intervention that could affect the vital
signs.
I. ASSESSING BODY TEMPERATURE
- Body temperature is the difference
between the amount of heat produced
by the body and the amount of heat
lost to the environment, measured in
degrees. There are individual variations
of these temperatures as well as
normal changes during the day, with
core body temperatures being lowest in
the early morning and highest in the
late afternoon (Porth & Matfin, 2009).
Core Body vs Surface Body Temperature
Factors Affecting heat production:
1. Basal Metabolic Rate (BMR)
2. Muscle Activity
3. Thyroxine output
4. Epinephrine and sympathetic
stimulation
5. Fever
Heat Loss
1. Radiation - Transfer of heat from the
surface of one object to the surface of
another without contact between the
two objects.
2. Conduction - Transfer of heat from one
molecule to a molecule of lower
temperature.
3. Convection - Dispersion of heat by air
currents
4. Evaporation - Continuous vaporization
of moisture from the respiratory tract
and from the mucosa of the mouth and
from the skin.
Regulation of Body Temperature
1. Shivering increases heat production.
2. Sweating is inhibited to decrease heat
loss.
3. Vasoconstriction decreases heat loss.
Factors Affecting Body Temperature
1. Age
2. Gender
3. Diurnal variation
4. Exercise
5. Stress
6. Environment
Alterations in Body Temperature
- Pyrexia: A body temperature above the
usual range is called pyrexia,
hyperthermia, or (in lay terms) fever.
- A very high temperature, e.g. 41C° (105
°F) is called hyperpyrexia.
Common Types of Fever
1. Intermittent - During this type of fever,
the body temperature alternates at
regular intervals between periods of
fever and periods of normal
temperatures.
2. Remittent - During this type of fever, a
wide range of temperature fluctuations
occurs over the 24 hour period, all of
which are above normal.
3. Relapsing - In a relapsing fever, short
febrile periods of a few days are
interspersed with periods of 1 or 2 days
of normal temperature.
4. Constant - constant fever, the body
temperature fluctuates minimally but
always remains elevated.
Clinical Manifestation of Fever
1. Onset
2. Course (Plateau Phase)
3. Defervescence (Fever Abatement/Flush
Phase)
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FUNDA-LEC

TOPIC: VITAL SIGNS

Time to Assess Vital Signs:

  1. Upon admission.
  2. Change in health status of the client.
  3. Before and after surgery or an invasive procedure.
  4. Before and or after the administration of a medication.
  5. Before and after any nursing intervention that could affect the vital signs. I. ASSESSING BODY TEMPERATURE
  • Body temperature is the difference between the amount of heat produced by the body and the amount of heat lost to the environment, measured in degrees. There are individual variations of these temperatures as well as normal changes during the day, with core body temperatures being lowest in the early morning and highest in the late afternoon (Porth & Matfin, 2009). Core Body vs Surface Body Temperature Factors Affecting heat production:
  1. Basal Metabolic Rate (BMR)
  2. Muscle Activity
  3. Thyroxine output
  4. Epinephrine and sympathetic stimulation
  5. Fever Heat Loss
  6. Radiation - Transfer of heat from the surface of one object to the surface of another without contact between the two objects.
  7. Conduction - Transfer of heat from one molecule to a molecule of lower temperature.
  8. Convection - Dispersion of heat by air currents
  9. Evaporation - Continuous vaporization of moisture from the respiratory tract and from the mucosa of the mouth and from the skin. Regulation of Body Temperature
  10. Shivering increases heat production.
  11. Sweating is inhibited to decrease heat loss.
  12. Vasoconstriction decreases heat loss. Factors Affecting Body Temperature
  13. Age
  14. Gender
  15. Diurnal variation
  16. Exercise
  17. Stress
  18. Environment Alterations in Body Temperature
  • Pyrexia: A body temperature above the usual range is called pyrexia, hyperthermia, or (in lay terms) fever.
  • A very high temperature, e.g. 41C° ( °F) is called hyperpyrexia. Common Types of Fever
  1. Intermittent - During this type of fever, the body temperature alternates at regular intervals between periods of fever and periods of normal temperatures.
  2. Remittent - During this type of fever, a wide range of temperature fluctuations occurs over the 24 hour period, all of which are above normal.
  3. Relapsing - In a relapsing fever, short febrile periods of a few days are interspersed with periods of 1 or 2 days of normal temperature.
  4. Constant - constant fever, the body temperature fluctuates minimally but always remains elevated. Clinical Manifestation of Fever
  5. Onset
  6. Course (Plateau Phase)
  7. Defervescence (Fever Abatement/Flush Phase)

Nursing Interventions for clients with fever

  • Monitor vital signs. •Assess skin color and temperature.
  • Monitor white blood cell count, hematocrit value, and other pertinent laboratory reports for indications of infection or dehydration.
  • Remove excess blankets when the client feels warm but provide extra warmth when the client feels chilled.
  • Provide adequate nutrition and fluids (e.g.. 2,500-3,000 mL/day) to meet the increased metabolic demands and prevent dehydration.
  • Measure intake and output.
  • Reduce physical activity to limit heat production, especially during the flush stage.
  • Administer antipyretics (drugs that reduce the level of fever) as ordered.
  • Provide oral hygiene to keep the mucous membranes moist.
  • Provide a tepid sponge bath to increase heat loss through conduction.
  • Provide dry clothing and bed linens. Nursing Interventions for Clients with Hypothermia ● Provide a warm environment. ● Provide dry clothing. ● Apply warm blankets. ● Keep limbs close to the body. ● Cover the client's scalp with a cap or turban. ● Supply warm oral or intravenous fluids. ● Apply warming pads. Procedures in Taking Body Temperature ● Oral ● Axillary ● Rectal ● Tympanic Sites for Assessing Temperature 1. Orally (Common Way) - 37 C° (3-5 min) 2. Axillary (Safe Way)- 36 C° + 0.5 C° (10 min) 3. Rectal (Accurate Reading) - 37 C° - 0.5 C° (2 - 3 min) 4. Tympanic Membrane (Quick and Minimally Invasive)- (<1 min) Different Types of Thermometer 1. Digital 2. Infrared 3. Tympanic 4. Mercury 5. Strip Advantages and Disadvantages of Sites Used for Body Temperature Measurements 1. Oral Advantages: - Accessible and Convenient Disadvantages: - Thermometers can break if bitten - Inaccurate if client has just ingested hot or cold food or fluid or smoked - Could injure the mouth following oral surgery 2. Rectal Advantages: - Reliable measurement Disadvantages: - Inconvenient and more unpleasant for clients; difficult for clients who cannot turn to the side. - Could injure the rectum - Presence of stool may interfere with thermometer placement 3. Axillary Advantages: - Safe and non-invasive Disadvantages: - The thermometer may need to be left in place a long time to obtain an accurate measurement. 4. Tympanic Membrane Advantages: - Readily accessible; reflects the core temperature; very fast. Disadvantages: - Can be uncomfortable and involves risk of injuring the membrane if the probe is inserted too far - Repeated measurements may vary. Right and left measurements can differ.
  • Monitoring Arterial Blood Gas
  • Using Pulse Oximeter Assessing Respiration
  1. Depth
  2. Rhythm
  3. Rate Normal range: 12-20cpm Characteristics of Normal and Abnormal Breathing Patterns
  4. Rate
  • Eupnea: Easy, normal (age-specific) breaths per minute.
  • Bradypnea: RR < 10cpm
  • Tachypnea: RR > 24cpm
  • Apnea: Cessation of breathing
  1. Volume
  • Hypoventilation: Shallow
  • Hyperventilation: Deep, rapid respirations.
  1. Rhythm
  • Cheyne-Stokes: rhythmic waxing and waning of respirations, from very deep to very shallow breathing and temporary apnea.
  1. Ease and Effort
  • Dyspnea: Difficult and labored breathing during which the individual has a persistent, unsatisfied need for air and feels distressed.
  • Orthopnea: Ability to breathe only upright sitting or standing position.
  1. Audible without amplification:
  • Stridor: a shrill, harsh sound heard, during respiration with laryngeal obstruction.
  • Stertor: Snoring or sonorous respiration, usually due to a partial obstruction of the upper airway.
  • Wheeze: Continuous, high-pitched musical squeak or whistling sound occurring on expiration and sometimes on inspiration when air moves through a narrowed or partially obstructed airway.
  • Bubbling: gurgling sounds heard as air passes through moist secretions in the respiratory time. Characteristics of Chest Movements
  • Intercostal retraction: indrawing between ribs.
  • Substernal retraction: indrawing beneath the breastbone.
  • Suprasternal retraction: indrawing above the clavicle. Characteristics of Secretions and Coughing
  • Hemoptysis
  • Productive Cough
  • Nonproductive Cough IV. ASSESSING BLOOD PRESSURE
  • Blood pressure refers to the force of the blood against arterial walls. When the heart rests between beats during diastole, the pressure drops. The lowest pressure present on arterial walls during diastole is the diastolic pressure (Taylor et al, 2011). Blood pressure is measured in millimeters of mercury (mm Hg) and is recorded as a fraction. The numerator is the systolic pressure; the denominator is the diastolic pressure. The difference between the two is called the pulse pressure. Determinants of Blood Pressure
  1. Pumping action of heart
  2. Peripheral vascular resistance
  3. Blood volume
  4. Blood viscosity Factors Affecting the Blood Pressure
  5. Age
  6. Gender/Sex
  7. Exercise
  8. Stress
  9. Race
  10. Medications
  11. Obesity
  12. Diurnal Variations
  13. Medical Conditions
  14. Temperature Brachial Artery Blood Pressure
  • The series of sounds for which to listen when assessing blood pressure are called Korotkoff sounds (1-5 phases). Systolic - known as the force pumps blood out of the arteries. Diastolic - known as the relaxation period of the heart pump (ventricles). Hypertension - refers to a systolic blood pressure more than 120 mmHg to 30 mmHg more than the client’s normal systolic pressure.

Hypotension - refers to a systolic blood pressure less than 90mmHg or 20- mmhg below the client’s systolic pressure. Normal Blood Pressure: 120/80 mmHg Categories For Blood Pressure Levels in Adults (Ages 18 and older). V. ASSESSING O2 SATURATION

  • Blood oxygen level is the amount of oxygen circulating in the blood. Oxygen saturation refers to the percentage of oxygen in a person’s blood. Medical professionals often use a device called a pulse oximeter for either a quick test or continuous monitoring. Factors Affecting Oxygen Saturation Readings:
  1. Hemoglobin
  2. Circulation
  3. Activity
  4. Carbon Monoxide Poisoning