NUR332 Exploring Complexity and Acuity PDF

Summary

This document is a textbook, NURS 332- Exploring Complexity and Acuity, for an undergraduate nursing course. It outlines modules covering trauma, respiratory, cardiovascular concepts, and includes acid-base balance and other topics.

Full Transcript

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NURS 332- Exploring Complexity and Acuity

Module 1: Trauma Concepts 2
Chapter 3- Overview of health concepts for medical surgical nursing 2
Chapter 12- Concepts of Emergency and Trauma Nursing 17
Chapter 12: Concepts of Disaster Preparedness 21
Module 2: Oxygenation & Ventilation (Respiratory) 25
Chapter 22: Assessment of the Respiratory System 25
Chapter 14: Concepts of Acid-Base Balance and Imbalance p.271-284 36
Chapter 24: Concepts of Carefor Noninfectious Lower Respiratory Conditions 42
Chapter 25: Concepts of Care for Patients with Infectious Respiratory Conditions 46
Chapter 26: Critical Care of Patients With Respiratory Emergencies 48
Module 3: Cardiovascular System 52
Chapter 27: Assessment of the Cardiovascular System and Hemodynamics 52
Chapter 29: Concepts of Care for Patients With Cardiac Conditions 58
Chapter 28: Concepts of Care for Patients with Dysrhythmias
Chapter 32: Critical Care of Patients with Acute Coronary Syndromes 65
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Module 1: Trauma Concepts

Chapter 3- Overview of health concepts for medical surgical nursing
Priority concepts nurses focus on when implementing and collaborating to improve
patients' needs
High acuity: short term, can become more serious if things aren't treated, OBS room/
ER/ ICU/ PICU, higher nursing ratio
- Caring for acutely ill adults who have complex disorders and require multiple
medical treatments
- Responds to immediate and life-threatening conditions
- Always have the potential to become unstable
Critical care: a specialty that exists to care for vulnerable patients who are experiencing
life-threatening health crises within a patient/family-centered model of care
- 1:1 nursing
- Continually monitored
- Lots of people around (doctors, specialties)
- Challenges for patients (sensory overload, impaired communication, delirium,
pain, sleeping problems, nutrition problems, and anxiety)
- Source of read available reference information (trends)
Continual assessment of patient status+ patient-centered care
Interdisciplinary approach (SBAR, know your role )
Ethical/ moral distress
Evidence-based nursing practice
- Patient values and priorities
- Clinical context
- Healthcare Resources
- Evidence
Clinical judgment model
1. Recognize cues
2. Analyze
3. Prioritize
4. Generate solutions
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5. Take actions
6. Evaluate outcomes
HIGH ACUITY CONCEPTS
1. Acid-base balance
The maintenance of arterial blood pH between 7.35- and 7.45 through
control of hydrogen ion production and elimination
Controlled by the lungs and kidneys
Hydrogen ions (acid) and Bicarbonate ions (base)
Interrelated with elimination, fluid and electrolyte balance, and nutrition
Acidosis occurs if the arterial blood pH falls BELOW 7.35 and is caused by
either too many hydrogen ions (respiratory acidosis) or too little
bicarbonate (metabolic acidosis)
Alkalosis occurs when the pH is GREATER than 7.45 and is caused by
either too few hydrogens or too much bicarbonate.
The most common risk factors for acid-base imbalance are
○ Poisoning such as excessive salicylate ingestion
○ Medical conditions such as chronic obstructive pulmonary disease
(COPD), uncontrolled type 1 diabetes mellitus, and chronic kidney
disease
○ Excessive emesis
○ Prolonged diarrhea
○ Hyperventilation
○ Electrolyte imbalances, especially potassium
When there is an imbalance the body has a mechanism which are
activated to attempt to correct the imbalance:
○ Compensation- ex: patient is acidotic (pH lower than 7.35), the
kidneys typically decrease the number of bicarbonate ions (base)
excreted through the urine. The lungs may try to rid the body of
carbon dioxide (directly related to hydrogen ions) through increased
and deeper respirations. In this case, both compensatory
mechanisms aim to restore acid-base balance by increasing the
blood pH to greater than 7.35
○ Occurs if the individual has healthy lungs and kidneys
Assessment of acid-base balance:
○ Hx of diabetes mellitus or COPD or experiences with an imbalance
○ Present of hx of S+S that could predispose patient of acidosis or
alkalosis (vomiting or diarrhea)
○ Current medications
○ Arterial blood gas monitoring informs HCP of pH level.
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The PO2 level indicates how well the lungs are functioning
(normal value is 95 to 100 mm Hg)
The PaCO2 level indicates how well the lungs are
functioning in blowing off/ returning CO2 (normal value is 35
to 45 mm Hg)
The HCO3 level indicates how well the kidneys are excreting
or absorbing base as needed
The best ways for individuals to remain in an acid-base balance is to
promote healthy lifestyle choices and teach patients who are at high risk to
be monitored carefully by HCP to assess for fluid, electrolytes, and
acid-base imbalances
The four common types of imbalances are metabolic acidosis and
alkalosis and respiratory acidosis and alkalosis. Interventions are
dependent on the type of imbalance that is occurring
2. Cellular regulation
The genetic and physiologic processes that control cellular growth,
replication, differentiation, and function to maintain homeostasis
Cell replication refers to making a copy of a specific cell and cell
differentiation refers to the process of the cell becoming specialized to
accomplish a specific task
Interrelated with immunity and pain
When imparied with loss of control over cellular reproduction the result is
excessive and abnormal groth of tissue not needed for optimum whole
body function ( cancer,fibrosis and excessive scar tissue formation.
Inhibition of cellular regulation can reduce cell production for certain
substances (insulin or clotting factors
Common risk factos include:
○ Older age (55 years and older, with significant potential for
abnormal cell development at ages older than 70)
○ Smoking
○ Poor nutrition
○ Physical inactivity
○ Environmental pollutants (such as air, water, and soil)
○ Radiation
○ Selected medications (such as chemotherapy)
○ Genetic predisposition or risk
Impaired cellular regulation often results in benign or malignant cell growth
○ Benign masses do not spread to other organs but jabe the ability to
obstruct or compress other organs causing other health issues
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○ Malignant cells (cancerous) over time grow and invade healthy
cells, tissues and organs through tumor formation and invasion
Assessment of patients with impairments :
○ Diagnostic tests (MRI & CT)
○ Invasive tests such as colonoscopy or endoscopy
○ Laboratory tests such as tissue biopsies and cell cytology
○ Grading and staging help to explain the severity and growth for the
mass, and give insight to necessary diagnosis, test and prognosis
Interventions include primary and secondary prevention techniques
○ Primary- minimizing the risk of developing impaired cellular
regulation
○ Secondary- proper and regular screening to identify early risks or
hazards that could be present
○ Patients with impairments can do chemotherapy, hormonal therapy,
targeted therapy, radiation therapy, biologic therapy and bone
marrow or hematopoietic stem cell transplants. The course if
intervention depends or the severity and rate of growth
Excessive: abnormal growth of tissues not needed for optimum whole
body function
Inhibition: can reduce cell production to certain substances
3. Clotting
A complex, multistep process by which blood forms a protein-based
structure (clot) in an appropriate area of tissue injury to prevent excessive
bleeding while maintaining whole body blood flow (perfusion)
The major component of the process involves platelets (thrombocytes).
When injury occurs platelets stick together to form a temporary semisolid
plug which also triggers a complex process known as the clotting cascade
(enzymes and plasma proteins) working together to create a fibrin clot and
local blood coagulation. The other process is knwon as the fibrinolytic
system and is triggered to cause clot lysis (breakdown)
Primary interrelated to mobility and perfusion
The inability to form clots can result in bleeding and threaten a persons
life. Excessive clotting however can cause platelet stickiness which leads
to hypercoagulation which impairs blood flow (blood clots)
Common risk factors for increased clotting include immobility or decreased
mobility, health problems such as polycythemia, and smoking
Polycythemia causes excessive production of RBC which lead to multiple
clots. Atrial fibrillation causes the pooling of blood in the atria and leads to
embolic stroke
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Decreased clotting can occur because of an inadequate # of platelets
circulating (chemotherapy drugs, corticosteroids, patients with cirrhosis of
the liver all contribute to an increase for bleeding)
Patients with excessive clotting can form venous thrombosis either
superficial or deep vein. When a thrombus becomes dislodged it is known
as an embolus and can often travel to the brain causing a stroke or the
lungs causing pulmonary embolus
For patients with decreased ability to clot prolonged internal (systemic) or
external (localized) bleeding may occur (GI tract, hemorrhagic stroke,
urinary tracts, external bleeding from the nose, under the skin purpura or
prolonged bleeding at site of soft tissue trauma
Assessment:
○ Observe for S+S of decreased clotting
Purpuric lesions (hemmorhagic)
Ecchymosis (bruising)
Petechiae (pinpoint purpura)
Note prolonged bleeding because of injury or trauma.
Bleeding to gums or nose
Check urine and stool
○ Observe for S+S of increased clotting
Localized redness/hyperpigmentation
Pain
Swelling
Warmth
○ Lab tests that can be completed to measure clotting factors include
prothrombin time (PT) and activated partial thromboplastin time
(aPTT), international normalized ratio (INR)
Be sure to teach patients at risk for increased clotting to:
○ Drink adequate fluids to prevent dehydration.
○ Avoid crossing your legs.
○ Ambulate frequently and avoid prolonged sitting.
○ Explore smoking-cessation programs as needed.
○ Call your primary health care provider if
redness/hyperpigmentation, pain, swelling, and warmth occur in a
lower extremity.
Interventions for patients at increased risk of clotting include
anticoagulants or antiplatelet drugs and the teaching of the importance of
obtaining these tests and monitoring for changing symptoms
A complex multistep process by which blood forms a protein-based
structure (clot)
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Thrombocytopenia =decreased platelet count
Polycythemia =abnormally shaped blood cells
4. Cognition
The complex integration of mental processes and intellectual function for
reasoning, learning, memory, and personality
○ Reasoning is a high-level thinking process that allows individuals to
make decisions and judgments
○ Memory is the ability of an individual to retain and recall information
for learning or recalling past experiences
○ Personality related to how and individual feels and behaves based
on how the individual thinks
Interrelated with fluid and electrolyte balance, gas exchange, and
perfusion
Impaired cognition may be classified into two major categories: global
cognitive disorders and focal cognitive disorders that affect a limited part
of the brain
○ Dementia (chronic mental confusion)- global
○ Delirium (acute fluctuating mental confusion) - global
○ Delayed intellectual functioning or amnesia (loss in memory caused
by acute health problems)- focal
Common risk factors include
○ Advanced age (although dementia is not a normal physiologic
change of aging)
○ Brain trauma at any age, including at birth
○ Disease or disorder such as brain tumor, hypoxia, or stroke
(infarction)
○ Environmental exposure to toxins such as lead
○ Substance use disorder
○ Genetic diseases such as Down syndrome
○ Depression
Common S+S of impaired cognition
○ Loss of short- and/or long-term memory
○ Disorientation to person, place, and/or time
○ Impaired reasoning and decision-making ability
○ Impaired language skills
○ Uncontrollable or inappropriate emotions such as severe agitation
and aggression
○ Delusions and hallucinations
Assessment
○ Mental status assessment (CAM or Mini-Cog)
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Interventions focus on safety of patient to prevent injury and foster
communication. HCP may prescribe psychoactive drug theraoy for
psychotic behaviours
5. Comfort
A state of physical well-being, pleasure, and absence of pain or stress
Interrelated with inflammation and pain
Pain and other uncomfortable sensations can disrupt a patient's ability to
function physically and mentally
Risk factors include physical, emotional and psychosocial causes
○ Decreased comfort can be acute and chronic
○ Persistent pain, nausea, vomiting, dyspnea and GI disturbance
The body's flight or fight mechanism helps the individual cope with the
source and manifestations of discomfort
Assessments:
○ Pain assessment
○ Emotional stress
Fight or flight is activated (sympathetic nervous system activated by
epinephrine)
6. Elimination
The excretion of waste from the body by the GI tract (as feces) and
renal/urinary system (as urine)
Urinary elimination occurs as a result of multiple kidney processes and
ends with the pasage of urine
Interrelated with fluid and electrolyte balance, tissue integrity, comfort and
nutrition
Incontinence of either the bowel or bladder can occur as a result of ahing
when the pelvic floor muscles become weaker, patients with neurological
disorders, excessive laxative, acute GI infections, irritable bowel
syndrome, UTI, spinal or brain injury and chronic kidney diseases
Chronic kidney disease can cause changes in the amount of urinary
output, depending on the stage of the disease. In the end stage, the
patient experiences oliguria (scant urine) or anuria (absence of urine)
because the kidneys have lost their ability to make urine
Patients with urinary or bowl incontinence are at risk for damage to tissue
○ If not removed promptly from skin stool and urine can cause
breakdown, fungal infection and skin irritation
Patients with bowel and urinary retention can result in a build-up of toxins
and waste products in the body. Common consequences include UTI and
partial/ total intestinal obstruction
Assessment:
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○ Hx of risk factors
○ Assess the perineal area and buttock for skin and tissue breakdown
○ Monitor frequency, amount, characteristics and consistency of urine
and stool
○ Lab tests include urinalysis, culture and sensitivity, radiologic
testing, and ultrasonography for stones and to detect UTIs; for
bowel incontinence stool culture and sensitivity may be done for
patients suspected to have C-dif
Issues: incontinence, retention, diarrhea or constipation
7. Fluid and electrolyte balance
the regulation of body fluid volume, osmolality, and composition and the
regulation of electrolytes by the processes of filtration, diffusion, osmosis,
and selective excretion
Water makes up 55-60% of the total body weight
Fluid occupies the inside of the cell (intracellular fluid) and the outside of
the cell (extracellular fluid)
○ Extracellular fluid is found in the vascular space (plasma) and
interstitial space (fluid in between cells, third space fluid)
Interrelated with acid-base balance, elimination, and nutrition
Fluid imbalance deficit is caused by dehydration, fluid excess often causes
edema
Hyponatremia (low serum sodium)
Hypernatremia (high serum sodium)
Hypokalemia (low serum potassium)
Hyperkalemia (high serum potassium)
Hypocalcemia (low serum calcium)
Hypercalcemia (high serum calcium)
Hypomagnesemia (low serum magnesemia)
Hypermagnesemia (high serum magnesium)
Risk factors that alter fluid and electrolyte balance
○ Acute illnesses (e.g., vomiting and diarrhea)
○ Severe burns
○ Serious injury or trauma
○ Chronic kidney disease
○ Major surgery
○ Poor nutritional intake
Consequences of fluid and electrolyte deficit imbalance
○ Lack of poor perfusion (arterial blood flow)
○ A decreased blood volume leads to hypotension
○ In an attempt to compensate the heart rate increases (tachycardia)
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○ Peripheral pulses become weak and ready
○ Fever, and delirium
○ For example, a decrease in serum potassium level (hypokalemia)
can result in cardiac dysrhythmias (abnormal heart rhythms) and
muscle weakness. A decreased sodium level (hyponatremia) can
result in changes in mental status and generalized weakness.
Consequences of fluid and electrolyte excess imbalance
○ Increased blood pressure to increased blood volume
○ Peripheral pulses are strong and bounding and the jugular vein is
distended
○ Peripheral edema and fluid from the vascular space shift to
interstitial space
○ For example, an increase in serum potassium (hyperkalemia) or
calcium (hypercalcemia) can cause cardiac dysrhythmias. In
addition, skeletal muscle spasms are likely.
Assessment
○ Health hx
○ Current episodes of nausea, vomiting, or diarrhea
○ Medication hx
○ Monitor vitals (BP, PR, and quality)
○ Weight changes
○ Monitor lab tests ( electrolyte concentration, BUN, and serum
osmolality)
Interventions
○ For patients with fluid deficit: fluid replacement (orally or
parenterally)
○ For patients with fluid overload fluid restriction (diuretic therapy
***diuretics can also cause decreased serum sodium
(hyponatremia) and potassium (hypokalemia). If lower extremity
edema is present, teach patients the importance of elevating the
legs above the heart to promote venous return)
○ Electrolyte deficits are treated by replacing them with IV fluids
8. Gas exchange
Oxygen is transported to the
cells and carbon dioxide
transported away from the
cells through ventilation and
diffusion. This process begins
with ventilation triggered by
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neurons in the brain sensing the need for gas exchange
The neurons stimulate the contraction of skeletal muscles that expand the
chest cavity cueing inhalation of oxygen-containing air into blood and RBC
The oxygen in RBC bound to hemoglobin and is transported through the
blood by a cardiac effort to tissue cells (perfusion) where low oxygen
allows release of oxygen from hemoglobin and diffusion or cell metabolism
High concentrations of carbon dioxide waste resulting from cellular
metabolism allow the diffusion of gas into the blood and RBC
Gas exchange allows adequate perfusion and removal of waste gas
Adequate ventilation requires a normal functioning brain, spinal cord,
neurons, diaphragm, adequate skeletal muscle contractility, and chest
thorax
Consequences of decreased gas exchange:
○ Inadequate transportation of oxygen to body cells and organs
○ Retention of CO2 resulting in cell dysfunction (ischemia) and
possible cell death
○ A build-up of CO2 increases acid causing acidosis
Assessment
○ Health hx and focused respiratory assessment
○ Current and hx of lung disease or trauma
○ Assessment of patient breathing effort, rate, O2, cap refill, thoracic
expansion, and lung sounds
○ Monitor the presence of cough, SOB, dizziness, chest pain,
presence of cyanosis, and adventitious lung sounds
○ Lab results including arterial blood gases and complete blood count
○ When necessary a chest x-ray, CT or V/Q scan
Teach patient the importance of using infection control measures,
increased risk with smoking, and getting immunizations
Interventions
○ Finding underlying cause and treating it with drug therapy
(antihistamines, decongestants, glucocorticoids, bronchodilators,
mucolytic and antimicrobials
○ Chest expansion improves when the patient is sitting or in semi
fowlers positions. Teach the patient to deep breath and coughing to
enhance lung expansion further
○ Teach patient to use incentive spirometry and inhalers correctly
○ Administer oxygen and monitor oxygen saturation ti determine its
effectiveness
Glucose regulation
The process of maintaining optimal blood glucose levels
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Pneumonia =build uo of infection
High c-spine injury impaired your ability to breath, making your unable to
exchange
9. Immunity
Protection from illness or disease that is maintained by the body’s
physiologic defense mechanisms
Antibody-mediated immunity (humoral immunity)
Cell-mediated immunity involves the functions of numerous cells to fight
off the antigen, including white blood cells (WBCs), T-cells, natural killer
(NK) cells, and multiple cytokines
The thymus and lymph nodes contribute to the process
Consequences of altered immunity include a wide variety of infections that
the body's natural cells cant fight off
Assessment
○ Weight, adequate wound healing, cognition, allergic responses
(red, watery eyes; nasal congestion; swelling or rashes), and
potential or actual organ dysfunction (cardiovascular, respiratory,
renal, or musculoskeletal). Monitor laboratory tests such as
complete blood count (CBC) with differential, C-reactive protein
(CRP), erythrocyte sedimentation rate (ESR), and allergy testing to
identify any susceptibilities that may exist. A complete immune
panel, including antinuclear antibody (ANA) and rheumatoid factor
(RF) testing, helps to detect autoimmune disease
Acquired: immunity that develops during lifetime
○ Active; develops in response to an infection or vaccination
Natural; antibodies developed in response to an infection
Artificial; antibodies developed in response to vaccination
○ Passive: develops when you receive antibodies for someone or
somewhere else
Natural: antibodies received from the mother through breast
milk
Artificial: antibodies received from a medicine
Innate immunity: the immune system you're born with
○
10. Infection
The invasion od pathogens into the body that multiply and cause disease
or illness
Categories of infection
○ Bacteria
○ Viruses
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○ Fungi
○ Parasites or protozoa
Infections are also categorized as localized or systemic
○ Localized are limited to a specific area of the body
○ Systemic affect the whole body and can cause sepsis, life
threatening response of the body to infection and widespread
inflammation that can cause multiple organ dysfunction
Risk factors of infection
○ Immunocompromised
○ Having chronic illness
○ Advanced age
○ Weight problems
○ Tissue integrity
If localized infections arent treated they can spread to the rest of the body
and become systemic infections leading to sepsis and decreased
perfusion and eventually organ failure
Assessment
○ redness/hyperpigmentation, warmth, pain, and swelling. Elevated
temperature may be present in patients who have systemic
infection. Ask about changes in elimination
○ Elevated WBC count with differential (especially lymphocytes and
neutrophils), Increased erythrocyte sedimentation rate (ESR),
Increased C-reactive protein, Positive culture and sensitivity and
Positive antigen testing for infectious agents
11. Inflammation
Syndrome of normal responses to cellular injury, allergy or invasion of
pathogens
Can be categories as acute or chronic
○ Acute: cholecystitis (inflammation of the gallbladder) and
appendicitis (inflammation of the appendix)
○ Chronic: inflammatory bowel disease (e.g., ulcerative colitis) and
rheumatoid arthritis (RA)
Consequences
○ Redness, warmth, swelling, pain or discomfort
○ Severe inflammation; organ inflammation
Assessment
○ S+S of organ dysfunction, serum white blood cell count with
differential, C-reactive protein, and erythrocyte sedimentation (ESR)
indicate the presence of inflammation
○ Direct visualization using endoscopy
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Rest, Ice, Compression, Elevation +
Local or systemic

12. Mobility
The ability for an individual to perform purposeful physical movement of
the body
Patients who have dysfunction of the musculoskeletal or nervous system
are most at risk for decreased mobility or immobility
Any person who is bedridden or on prolonged bed rest is at risk for
immobility issues
13. Nutrition
The process of ingesting and using food and fluid to grow, repair and
maintain optimal body functions
Malnutrition occurs in adults who are underweight or overweight/obese.
Some individuals have generalized malnutrition; others have specific
nutrient deficiencies such as lack of vitamin D, iron, or protein
Decreased nutrition results in ack of specific nutrients such as vitamin D,
iron, and protein
14. Pain
Generally defined as an unpleasant sensory and emotional experience
Acute pain is short-lived, temporary, and typically confined to an injured
area of the body (localized). It serves a biologic purpose to activate the
sympathetic nervous system and other physiologic responses.
Persistent (chronic) pain does not serve this purpose and tends to last
more than 3 months. It is often described as diffuse and not confined to
one area of the body. The two major types of persistent pain are persistent
cancer pain and persistent noncancer pain
Nociceptive pain results from skin or organ damage or inflammation.
Neuropathic pain involves a set of mechanisms related to the nervous
system with or without tissue damage nerve is potentially compressed
15. Perfusion
Adequate arterial blood flow through peripheral tissues (peripheral
perfusion and blood that is pumped by the heart to oxygenate major body
organs (central perfusion)
Without perfusion, there would be cell death

Assessment
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○ Family hx, S+S of inadequate central perfusion, including dyspnea,
dizziness or syncope, and chest pain. Signs and symptoms of
decreased cardiac output include hypotension, tachycardia,
diaphoresis, anxiety, decrease in cognitive function, and
dysrhythmias
○ S+S of chronic decreased peripheral perfusion, including
decreased hair distribution, nonlocalized and diffuse pain or
discomfort, coolness, decreased capillary refill time, and pallor/ash
gray appearance and/or cyanosis of the extremities
Peripheral
○ Cool, pale, cyanotic distal extremities
○ Diminished/absent peripheral pulses
○ Skin ulcers
○ Gangrene
Central
○ Myocardial infarction
○ Stroke
○ Shock (central organs arent getting blood supply they need)
16. Sensory perception
The ability to perceive and interpret sensory input into one or more
meaningful responses
The 5 senses are vision, hearing, smell, taste and touch
Risk factors: aging, chronic diseases, mechanical or chemical trauma,
cranial nerves
17. Sexuality
a complex integration of physiologic, emotional, and social aspects of
well-being related to intimacy, self-concept, and role relationships.
18. Tissue integrity
the intactness of the structure and function of the integument (skin and
subcutaneous tissue) and mucous membranes
Tissue integrity changes can occur as a result of infections, burns, local
skin reactions, injury/trauma, growths or lesions, and inadequate
peripheral perfusion (decrease in oxygenated blood to a specific area of
the body)
Tissue integrity alteration can lead to localized (cellulitis) or systemic
(sepsis) infection. Both partial- and full-thickness wounds can be very
painful and difficult to heal, especially for patients with diabetes and other
diseases in which arterial perfusion is diminished
Degree of tissue damage: partial thickness or full thickness
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Summary
When the body has an impaired acid-base balance, several compensatory
mechanisms attempt to correct the imbalance.
Collaborative interventions for the patient who has impaired cellular regulation
can include surgery, radiation therapy, chemotherapy, hormonal therapy, targeted
therapy, biologic therapy, and bone marrow or stem cell transplants.
A patient’s clotting status can be assessed through laboratory testing and
monitoring for frank or occult bleeding.
Nursing interventions for patients who have impaired cognition focus on safety to
prevent injury.
Nurses assess patients for impaired comfort, such as pain, and participate in
planning collaborative interventions to alleviate it, depending on its cause.
Common elimination problems experienced by adults include constipation,
diarrhea, and incontinence.
Patients experiencing problems with fluid and electrolyte balance can have
potentially life-threatening complications, such as hypotension and dysrhythmias.
Nursing assessment of a patient’s gas exchange status includes breathing effort
and rate, oxygen saturation, capillary refill, thoracic expansion, and lung sounds.
Immunity is protection from illness or disease that is maintained by the body’s
physiologic defense mechanisms; infection is the invasion of pathogens into the
body that multiply and cause illness or disease; inflammation is the normal
response of the body to illness, disease, and injury.
Nurses collaborate with physical and occupational therapists to increase patient
mobility, including teaching patients how to use ADL and ambulatory aids.
Nurses collaborate with the registered dietitian nutritionist to promote nutrition for
patients at risk for and those who have inadequate nutrition.
Nursing assessment of perfusion includes monitoring patients for changes in
peripheral and central perfusion.
Visual and hearing impairments are the most common sensory-perception
problems; for most patients, these impairments can be improved or corrected
with devices, drug therapy, and/or surgery.
Changes in sexuality may result from a number of factors, including menopause,
aging, erectile dysfunction, chronic disease, and antihypertensive drugs.
Nurses collaborate with the interprofessional health care team to manage tissue
integrity problems; management includes drug therapy, wound débridement, and
the use of wound vacuum devices.
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Chapter 12- Concepts of Emergency and Trauma Nursing
Factors affecting response to injury
○ Comorbidities (decreased tissue perfusion, affect the way their bodies
recover
○ Substance abuse (drug interactions or symptoms patient showing)
○ Pregnancy (anatomic change, hemodynamic changes, blood volume, and
composition) -2 patients
○ Advancing age
Blunt trauma: can be less obvious than penetrating, object that doesn't break skin
Penetrating trauma: sharp objects and projectiles (shearing, acceleration/
deceleration
Primary Survey
A. Alertness Airway
a. Alertness= AVPU (alert, verbal, pain, unresponsive)
b. Airway (bony deformity, burns, edema, fluids, foreign objects, inhalation
injury, loose or missing teeth, sounds, tongue obstruction, vocalization)
c. *cervical spine stabilization or immobilization*
d. Airway interventions include
- Jaw thrust maneuver
- Oropharyngeal airway (OPA)
- Nasopharyngeal airway (NPA)
- Endotracheal tube (ETT)
e. Normal CO2 (capnography)= 35-45 mmHg
B. Breathing Ventilation
a. Breath sounds
b. Depth, pattern, rate
c. Increased work of breathing
d. Dyspnea
e. Open wounds
f. Skin color
g. Spontaneous breathing
h. Subcutaneous emphysema
i. Symmetrical chest rise and fall
j. Tracheal deviation
C. Circulation hemorrhage control
a. Inspect and palpate (color, temp, moisture)
b. Palpae pulse (check central pulse)
c. Control of hemorrhage
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D. Disability
a. Glasgow coma scale (out of 15)
- Best eye opening
- Best verbal response
- Best motor response
b. Pupils
c. Glucose
E. Exposure Environment
a. Remove all clothing and inspect injuries
b. Warming measures
F. Full set of vitals & family
G. Get adjuncts & give comfort
a. LMNOP
- Laboratory analysis
- Monitor cardiac; consider 12 lead ECG
- Naso or orogastric tube
- Oxygenation and capnography
- Pain assessment; consider analgesia and nonpharmacologic
comfort
Secondary survey
H. History
a. Signs &symptoms, Allergies, Medications, Past history, Last oral intake/
last menstrual period, Events leading up
H. Head to toes
a. Inspect, auscultate and palpate
- Head
- Face
- Neck
- Chest
- abdomen/flanks
- pelvis/perineum
- Extremities
I. Inspect posterior
a. Turn, inspect and palpate
b. Remove backboard
Keep reevaluating
- V: vital signs
- I: injuries
- P: primary survey
- P: pain
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➔ Chest injuries
◆ Rib fracture
◆ Fail chest
◆ Pulmonary contusions
◆ Tension pneumothorax
◆ Open pneumothorax
◆ Massive hemothorax
➔ Cardiac injuries
◆ Cardiac tamponade
◆ Vascular trauma
◆ Blunt cardiac injury
➔ Abdominal injury
◆ Spleen injury
◆ Liver injury
◆ Hemostasis; temporary closure; prevention of contamination
➔ Head injuries
◆ Direct impact injury
◆ Acceleration- deceleration injury
◆ Shock wave injury
➔ Pelvic injury
◆ Symptoms
Perineal ecchymosis
Pain on palpation of iliac crests
Hematuria
Lower extremity rotation
◆ Diagnosis; CT scan
◆ Initial management
Treatment of life-threatening hemorrhage
Stabilization
Trauma triad of death: Lethal triad
- Hypothermia: up to 66% of patients arrive with it (blood loss, state of shock,
weather)
- Blood should be at 36.5- 37.5
- Coagulopathy: too much or too little clotting (usually at the start there is too much
clotting, {inflammatory process}, decreased perfusion, cells go into anaerobic
metabolism, creating lactic acid, no more clotting factors left leading to bleeding
out +++blood loss)
- Acidosis; pH of less than 7
➔ Decreased coagulation
➔ Increased lactic acid in the blood
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➔ Decreased heart performance
Clotting lots: labs INR, PPT; neuro changes, lower BP, aspirin, heparin
Bleeding stage: cyanosis, bruising, increased RR, bleeding out (trauma area and stool, gums);
give them platelets, clotting factors, and more blood;

Primary survey interventions conducted on a
patient suffering a life-threatening injury
include which of the following?
Select ALL that apply:
a) Examining the face, neck and head for lacerations or deformities ( part of head-toe;
assessment)
b) Initiating or continuing CPR
c) Ventilate with bag/ valve mask
d) Open airway/ intubate
e) Pain assessment (assessment)
f) Insert two large-bore IV’s (circulation, to give fluid and blood)

Zoe, age 18, is brought to the emergency department
following a motor vehicle collision. BP is 80/70 and her
pulse is 120 and irregular. Her respirations are 20/
minute Sp02 saturation is 80% on room air. She is alert
and responds to simple commands. What is your FIRST
nursing action? Why?
SELECT ONE ONLY
1. Assess for uncontrolled bleeding
2. Assess GCS &Pupil response
3. Administer supplemental oxygen
4. Palpate for peripheral pulses
5. Auscultate lungs

General impression: uncontrolled bleeding, apnea, unresponsiveness
ABCDEFG- primary survey
Secondary survey
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Chapter 12: Concepts of Disaster Preparedness

Triage: prioritization of care
Prioritization; deciding which needs or problems require action immediately and which ones can
be delayed till later
➔ Condition change
➔ Changes in stability: vitals, labs (potassium), symptoms
➔ Changes in assessment findings
➔ Sudden acute changes
➔ Diagnoses
- How to decide
- Nursing process- assessment
- Maslow's hierarchy of needs
- ABCs
Priotization systems
MEWS: modified early warning system
○ RR, HR, BP, conscious level, temp, hourly urine for 2 hours
★ Outreach teams: team with extensive care, EMERG nurses, and RT to help prevent
something major from happening
Triage CTAS, Canadian triage, and acuity scale
Triage process: clients with life-threatening problems enter the emergency department.
Helps bring order and organization to a chaotic scene
CTAS: 5 levels, based on presenting conditions in addition to ‘modifiers’
○ Level 1: Resuscitation (life-threatening to life or limbs requiring immediate
intervention) { serious motor vehicle injury, heart stopping}
○ Level 2: Emergent ( potential threat to life, limb, or function requiring rapid
medical interventions) {heart attack and stoke}
○ Level 3: Urgent (potentially progress to a serious problem requiring emergency
intervention) {moderate traumas, head injuries, asthma, abdominal pains}
○ Level 4: Less urgent (conditions related to a potential for deterioration that would
benefit from intervention)
○ Level 5: Non-urgent (conditions that may be acute but nonurgent and
interventions can be safely delayed
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Disaster Management
Resources