O2
Surfactant
A liquid substance produced by the lung that reduces surface tension in the alveoli. Surfactants prevents lung collapse and decreases the effort needed to expand the lungs (inhale).
Anoxia
A total lack of oxygen availability to the tissues
Chemical Regulation =
Chemicals that respond to chemical changes of CO2, O2, and H+ in body
Compliance of Lungs
Ease with which lungs and chest wall expand and contract depends on elasticity of lungs and surface tension.
Hypercapnia
Excessive carbon dioxide in the blood
Suction Fact
Cant delegate Nasopharyngeal Suctioning to CNA
Chemoreceptors
Located in the medulla of the brainstem, the carotid arteries, and the aorta detect changes in blood pH, H+, O2, and CO2 levels, and they send messages back to the central respiratory center in the brain stem.
Environmental Factors
Location (Urban - pollution Rural - Fungal Resp Diseases ↑ Altitude = ↓ O2 & ↑ Resp, Heat/humidity = hard to breath, & allergens) Occupational Exposure (Paint, Glues, Aspestis)
Expectorants
Loosen bronchial secretions by reducing surface tension of secretions; used for dry nonproductive cough, used in many OTC cold remedies along with analgesics, antihistamines,decongestants, antitussives
Route of O2 Delivery to body
Lungs → Heart → Body
Transportation of CO2 & O2 is influenced by
Lungs, Pt Abilities, Hgb Content
High Flow Oxygen Therapy
Meets entire O2 needs; delivers higher concentration of O2 for Critically ill Ex) Venturi Mask, Face Tent, Aerosal Mask, Tracheostomy Mask
Ventilation Factors
Neural/Chemical Regulators Factors for work of breathing Degree of Compliance of Lings Ability of Active Expiration Airway Resistance Ability of Accessory Muscles
Respiration is controlled by
Neuro-regulation - Nerve supply that balances breathing
Nonrebreather Mask
Nonrebreather mask delivers oxygen concentrations of 95-100% O2 at flow rates of 6-10 L/min. CO2 exits mask upon exhalation and is not inhaled again. Low flow system & Short-Term. Covers mouth and nose. Used for unstable pt
Eupnea
Normal breathing
Lifestyle Factors
Nutrition (Iron/Adequate Fluids to thin secretions) Exercise Smoking (↓ cillia, ↑ sputum production, ↑ Bronchio Spasms, 10x more at risk for lung cancer) Substance Abuse (Alcohol depresses Resp system / risk for aspiration D/T vomiting) Stress (Emotion depress Resp; Anxiety - ↑ Resp, ↑ Metabolic Rate, ↑ O2 Demand)
Factors affecting Respiratory Function
Physiological Developmental Lifestyle Environmental
Decreased Diffusion
Pneumonia
Physiological conditions affecting chest wall movement
Pregnancy Obesity Musculoskeletal Abnormalities (Doesnt allow full expansion of lungs) Trauma NMS Disease CNS Alterations Chronic Disease Drugs (Narcotic/Sedative) Pain
NSAIDS for asthmatics
Prevent airway inflammation from occurring by stabilizing lung mucosa and prevent release of histamines, not for acute attacks, not to be taken on daily basis
General care for O2 devices
Provide good oral care, keep device clean (secretion in mask/tubes), change device as per protocol, disposable-can replace
Late Signs of O2 Toxicity
Pulmonary Edema & Progressive Fibrosis of Lungs
Kussmaul Respiration
Related to diabetic acidosis, Deep, rapid respirations, occurs in metabolic acidosis to decrease CO2 and thereby reduce carbonic acid.
Developmental Factors for School Age/Adolescents
Respiratory Infections Common, Start to Smoke
Oxygen Therapy
Room Air = 21% O2 Respiratory Device = 22 - 100% O2 Supplement
Phrenic Nerve
Supplies the Diaphragm muscle
Suctioning
Takes no longer than 15 seconds, Allow 20-30 between suctions, Insert Cath 4-6 inches
What O2 device delivers the most precise O2 concentration?
Venturi Mask
Cerebral Cortex controls
Voluntary control of Breathing
Incentive Spirometry
a device that provides a visual goal encouraging the client to execute and sustain maximal inspiration. Opens airways, reduces actelectasis, stimulates coughing. Have client breath in deeply, hold for 3 seconds then exhale. Used frequently post-op. Use 5-10x while awake, Measures Inspiration volume
Pneumothorax
air in the pleural cavity caused by a puncture of the lung or chest wall
Corticosteroids
anti-inflammatory agents, Among the most widely used drugs in the world. Effective in many inflammatory and immune diseases. Most common use is in treatment of asthma where inhaled corticosteroids are used as first line therapy
Manifestations of O2 Toxicity
dry hacky cough, chest pain, N&V, parethesia, dyspnea, malaise (discomfort), sore throat, nasal stuffiness
FIO2
fraction of inspired oxygen
Oxygen Toxicity
this condition appears as tissue becomes soft/necrotic. it interferes with oxygen diffusion and reduces surfactant if too high of O2 level, Monitor ABGs to avoid this. It can result from prolonged exposure to O2, determined by pt's tolerance, exposure time, effective dose, can develop into Adult Resp Distress Syndrome →collapsed lung
Common causes of inaccurate pulse oximetry readings
not being properly attached to the patient's finger or ear lobe correctly, being placed on a patient who is shivering or frequently moving, being placed on skin with dark pigmentation, being attached to cold fingers or fingers with fake nails, bright room lighting and nail polish obstructing the laser.
Partial Rebreather Mask
patient to rebreathe 1/3 of exhaled air to conserve O2 by permitting it to be rebreathed from reservoir bag. Delivers 50-65% O2, 6-10 L/min. Shrot-Term
Route of Deoxygenated blood
Body → Heart → Lungs
Leukotriene modifiers
Used to reduce inflammation and ease bronchoconstriction. Inhibit inflammation. (Oral medications), Suppress the action of leukotrienes (substances that promote bronchocontriction, as wells as eosinophil infiltration, mucous production and airway edema
O2 Toxicity Fact
Can happen with delivery of >50% O2 concentration longer than 24 hrs
Where does Tissue Perfusion take place
Capillaries
Body needs adequate _____ to carry O2 and CO2
Hemoglobin
Venturi Mask
High Flow; Delivers fixed amounts of O2, meets all ventilation needs; May be used for extended period of time; use 4-12 L/min; 24-60% O2; have coded adapters that determine concentration; used with unstable COPD pt's
Safety with Oxygen
Is a drug, check liter flow, has necessary physiologic effects, Combustible, not stored in the body, Need an order, No Smoking Sign, H2O based lubricant/not oil, teach pt to use cotton clothes/blankets, avoid wool/synthetic materials that can cause a spark, have fire extinguisher, check electrical equipment is grounded
Face Tent
used with NICU/peds pts can replace O2 mask when they are poorly tolerated. Provides 30-50% concentration of O2 at 4-8L/min. Useful with fever pt b/c it has a cooling effect. High Flow
Developmental Factors for Older Adults
↓ Aveoli, ↓ Cough Reflex, ↓ Airway Reflex
What influences Transport of O2
-Amount of O2 coming into Lungs -Lung Tissue Perfusion -Pt ability to blow out CO2 -O2 carrying capacity of blood
Developmental Factors for Infants/Toddlers
2nd Hand Smoke, More Prone to Respiratory Infections, Risk for Aspiration (Toys in Mouth)
Bronchodilators
ACTION = Drugs used to increase airflow by dilating constricted airways through relaxation of the smooth muscles that surround the bronchioles and bronch
Hypovolemia
Abnormally low blood volume.
Bradypnea
Abnormally slow rate of respiration usually of less than 10 breaths per minute
Apnea
Absence of breathing
Antitussives
Act on the cough-control center in the medulla to suppress cough reflex; for nonproductive/irritating cough, Dextromethorphan (Robitussin DM, Contac Cold Formula), Codeine used in small amounts
Orthopnea
An abnormal condition in which a person must sit or stand to breathe deeply or comfortably.
Tachypnea
An abnormally rapid rate of respiration usually or more than 20 breaths per minute.
Medulla Regulates
Anomatic control of breathing
Hypoxemia
Arterial blood oxygen (paO2) level less than 60 mm Hg; low oxygen level in the blood.
Most common Antihistamine
Benadryl
Decongestants
Block Alpha receptors which cause vasoconstriction of capillaries of nasal mucosa, Shrinks nasal mucosa membranes, Reduce fluid secretions (runny nose), act promptly, cause few side effects.
Antihistamines
Block H1 receptors : block dilation of vessels; block increased thin mucus (runny nose), dryness of mouth, nasal itching/tickling that causes sneezing, In many OTC drugs, may cause drowsiness
Pulmonary Perfusion
Blood flow through pulmonary vessels
Aspiration
Breathing fluid, food, vomitus, or an object into the lungs
Theophylline
Bronchodilator - requires drug concentrations drawn
Nail Clubbing =
Chronic Hypoxia
Atelectasis
Collapsed lung; incomplete expansion of alveoli
What is Worst DAR or DOE?
DAR
Pulse Oximetry
Determines % of Hgb saturated by O2 via sensor over translucent area of arterial pulsation (finger, toe, & earlobe)
Dyspnea
Difficult or labored breathing
Tissue Perfusion takes place in the Body by
Diffusion
Diffusion Fact
Diffusion can be decreased if have thick secretions that impair O2 & CO2 exchange
Hypoxia
Diminished O2 availability to body cells R/T deficiency in use of O2 or delivery of O2 to body
Low Flow Oxygen Therapy
Doesnt supply all O2 for needs / Partial supply w room air Ex) Nasal Cannula, Simple Face Mask, Partial Rebreather Mask, Non-Rebreather Mask
DAR
Dyspnea at Rest
DOE
Dyspnea on exertion
Basic Nursing Respiratory Measures
Encourage Vaccinations (Flu/Pne) Encourage Life Changes Teach ways to Prevent Occupational Exposures Dyspnea Management (Pursed Lip Breathing) Airway Maintenance Pt Mobilization (Up & About, TCDB - Turn/Cough/Deep Breath, Re/Positioning - Head of Bed up) Maintain O2 Devices (Incentive Spirometry, Nasal Cannula, Mask)
Most Common Expectorant
Guaifenesin -(Mucinex)
Oxygen Subjective Assessment
Hx Resp Disease, Resp Problems, Chest Pain, Fatigue, Cough, Wheezing, Dyspnea, Smoking Hx, Environment factors,Meds that effect Resp, Allergies, Resp Infections, Health Risk
Mobilization of Pulmonary Secretions
Hydration (6-8 glasses/day) Humidification (O2 Flow Rate > 2 L = Bubbler) Aerosolization Nebulation (Med w O2 = mist that soothes irritated airway) Oropharyngeal Suction Chest physiotherapy Meds
Airway Resistance
Increase in pressure that occurs as the diameter of the airways decreases from the mouth or nose to the alveoli Ex: Vasoconstriction from Asthma attack
Developmental Factors for Young/Mid Adult
Increases Respiratory Problems; Lifestyle Choices
Oxygen Objective Assessment
Inspection, Auscultation, Dx Test, Pulse Ox, Throat/Sputum Culture, CBC, ABG,
CNS Alterations Fact
Spinal Cord injuries at the C3/C4 level can effect phrenic nerve (Diaphragm); Lower than C5 level effects inner costal muscles between ribs
Suction Fact
Too much suctioning can cause irritation to resp system due to Cath - puts pt at risk for hypoxemia (suctioning away O2) ↓ B/P, arrhythmias
General Rule of using O2
Use lowest O2 concentration or flow rate to reach acceptable blood O2 levels
Simple Face Mask
covers nose and mouth allows room air to enter mask through air holes, for flows greater than 5 L/min. usually runs at 5->8 L/min. 40-60% oxygen. short-term < 12 Hrs
Alveoli Collapse =
↑ O2 = ↓ Nitrogen
Physicological Factors
Cardiac Disorders (Effect conduction, cardiac output, valves, Ischemia) Respiratory Disorders (Hyper/Hypo-ventilation, Hypoxia) Disorders causing ↓ O2 Carrying Capacity (Anemia) Decreased Inspired O2 Hypovolemia Increased Metabolic Rate - Fever / Infection (↑ O2 Demand)
Nasal Cannula
Low flow system; May be used for extended period of time; Use only 1-6 Liters; Usually apply up to 4 L; Provides 24-44% O2
