ABG Overview #1
(graphic #1)
ABG Overview #2
(graphic #2)
ABG Overview #3
(graphic #3)
Fully compensated:
– pH normal
Partially compensated:
– All values are abnormal
Uncompensated
– pH and one other value is abnormal
Measurements of Oxygenation:
– 80 – 100mmHG
Arterial Blood Gas Interpretation:
Alkalosis:
(see graphic)
Acidosis:
(see graphic)
Potassium Levels in Acidosis:
– K+ = Elevated
Respiratory Acidosis:
– low pH, high CO2
Respiratory Alkalosis:
– high pH, low CO2
Metabolic Acidosis:
– low pH, low HCO3
Metabolic Alkalosis:
– high pH, high HCO3
Interpret this ABG:
Rescue Breathing Position:
– Side lying position
Airway Management:
– Essential nursing skills that maintain natural or artificial airways for compromised clients
NPPV Machine:
– Non Invasive Positive Pressure Ventilation
CPAP/BiPap Machine Overview:
– Indications: acute COPD, cardiogenic pulmonary edema, early hypoxemic failure in immunocompromised patients, obstructive sleep apnea, and to prevent re-intubation
Endotracheal Intubation (ET):
– Insertion of endotracheal tube through the mouth or nose…preferred route to reduce infections
Intubation Equipment:
– Ambu Bag connected to oxygen
Rapid Sequence Intubation (RSI):
– Giving medications to sedate (induce) and temporarily paralyze a patient and then performing orotracheal intubation.
Securing ETT:
True/False: if the nurse suspects the ET tube is in the esophagus, pull out the tube and do the following…Bag-mask ventilation with an oropharyngeal or nasopharyngel or both
True, always maintain a high index of suspicion of esophageal intubation, particularly if the intubation was difficult. If in doubt, trust your instincts!!!
Tracheostomy Overview:
– Indications: Long-term mechanical ventilation, frequent suctioning, protecting the airway
Endotracheal Suctioning:
– Indicated by assessment (PRN): visible secretions, coughing, rhonchi, high pressure on vent, and ventilator alarm
Ventilator Settings:
– Uses positive pressure by mechanically filling the lungs with O2 and is the opposite of the physiology of breathing
Positive End Expiratory Pressure (PEEP):
– The amount of positive pressure (in cms of H20) applied to the airways during expiration; PEEP is meant to hold open the alveoli and prevent airway collapse between breaths
Positive End-Expiratory Pressure (PEEP)
PEEP
Alarms & Troubleshooting:
– NEVER shut alarms off; only silence
Types of Vent Alarms:
– High Pressure: Increased secretions, wheezing, bronchospasm, causing decreased airway, displaced ETT. Pt. gag, kinked, biting
Complications of Mechanical Ventilation:
– ETT out of position…right main stem bronchus, dislodged
Barotrauma:
– Injury caused by pressure to enclosed body surfaces, for example from too much pressure in the lungs. Eg. Pneumothorax, tension pneumothorax
Complications of Mechanical Ventilation – Infection:
– Normal protective mechanism bypassed by ETT tube; ventilator-associated pneumonia (VAP)
Stopping the Weaning Process:
– RR > 35 or < 8 breaths/min
Extubation:
– Removal of endotracheal tube
Respiratory Assessment:
– Cardinal signs of increased CO2/hypoxia; anxiety, restlessness (early sign), confusion
Testing:
– Serial Chest X-ray – for improvement or worsening of condition x1 daily
Interventions of Respiratory Failure:
– Goals: maintain a patent airway, optimize O2 delivery, minimize O2 demand, treat cause of ARDS, and prevent complications
Medical Management of Respiratory Failure:
– Oxygen
Acute Respiratory Failure in COPD – Interventions:
– Correct hypoxemia; cautious admin of O2, noninvasive positive-pressure vent, vent assistance
Acute Respiratory Failure – Asthma:
– Chronic inflammatory
Acute Respiratory Failure – Pneumonia:
– Types: community acquired, healthcare qcquired, or ventilator associated
Pneumonia S/S:
– Fever, cough, chills, sputum, hemoptysis, dyspnea, chest pain, tachypnea, and adventitious sounds
Ventilator Associated Pneumonia (VAP):
– a health care-acquired infection (HAI) that develops in a person requiring invasive mechanical ventilation (via endotracheal intubation or tracheotomy tube) for at least 48 hours
VAP Prevention:
– Hand washing, surveillance, ventilator bundle, prevention transmission via sterile water in circuit, drain condensate away from patient, and avoid normal saline during suctioning
Pulmonary Embolism (PE):
– Virchow’s triad: venous stasis, altered coagulability, and damage to vessel wall
PE Assessment:
(see graphic)
PE Diagnostic:
– CT angiogram /w contrast
PE Treatment:
– ABC; O2
Pulmonary Embolism
Hemodynamics Definition:
– the study of blood moving through the circulatory system
Hemodynamics Important Aspects:
– preload
Preload:
– Volume of blood in ventricles at end of diastole
Contractility:
– Ability of the heart to contract
Afterload:
– The force or resistance against which the heart pumps
True/False: To increase preload and cardiac output, fluid bolus of roughly 1L may be ordered by the provider
True, set the pump to 999ml/hr rate
What does dobutamine treat?
– Heart failure; stimulates heart muscle and improves blood flow by helping the heart pump better.
What does desmopressin do?
– decreases urine output in pts with DI
What does epinephrine do?
– Increase heart rate
What does norepinephrine do?
– Influences peripheral vasoconstriction and blood pressure
Cardiac Output (CO):
– Volume of blood in liters pumped by the heart in 1 minute (L/min). Cardiac index (CI) is the measurement of CO adjusted for body surface area (BSA). It is a more precise measurement of the efficiency of the heart’s pumping action.
What is ejection fraction?
– Stroke volume/end diastolic volume
What are the indications for an echocardiogram?
– Valvular disease or dysfunction:
What is MAP?
– Mean arterial pressure; what perfuses the body…the body likes a MAP of at least 65-70; below 65 is a major concern!
What organ begins to fail first with a low MAP?
– The kidneys
How To Calculate MAP:
– To calculate a mean arterial pressure, double the diastolic blood pressure and add the sum to the systolic blood pressure. Then divide by 3.
What is CVP?
– Central venous pressure which measures the amount of blood going into the right side of the heart; 2-6 mmHG
What does a CVP of 0 mean?
– Patient has fluid deficit = dehydrated; notify provider for order…fluid bolus is a possible order
What does a CVP of 18 mean?
– Patient has fluid overload; notify provider for order
What is PVR?
– Pulmonary vascular resistanc; is resistance that the right ventricle must overcome to eject a volume of blood, normally one sixth of SVR
What is blood pressure?
– Flow x resistance; force exerted on the liquid in mmHG
What is the Frank-Starling Law?
– the greater the diastolic filling (preload), the greater the quantity of blood pumped
What influences afterload?
– Vasodilation/ vasoconstriction
What is cardiogenic shock?
– Occurs when the heart is damaged and unable to supply sufficient blood to the body
True/False: Heart Failure produces an elevated preload value and decreased contractility
True; the value will be VERY high and contractility is poor
Hemodynamic Monitoring:
– the use of pressure monitoring devices to directly measure cardiovascular function
Invasive Hemodynamic Monitoring:
– Continuous monitoring of the cardiovascular status by intraarterial catheters and IV lines that measure pressure, volume, and temp.
FlowTrac Arterial Monitoring:
– A device uses arterial pressure waveform analysis to calculate stroke volume and cardiac output
What does an arterial line do?
– gives constant reading of BP /w every heart beat
Pressure Bags:
– 300 mmHG pressure ideal
Arterial Line Dampening:
– Occurs d/t air bubbles, kinks, distensible tubing, low flush bag, clots
Arterial Pressure Monitoring – Complications:
– Thrombosis – Proper flushing and possible hep or Lov
Central Venous Pressure (CVP) Monitoring:
-Normal CVP is 2-5mm Hg measures the pressure in the right atrium or vena cava intravascular blood volume Measures right ventricular preload
CVP Monitoring Complications:
– infection, pneumothorax, thrombosis, air embolism
Pulmonary Artery Pressure Monitoring:
– Pulmonary artery catheter (PAC), also called a Swan-Ganz
Level of Transducer:
– Each cm above phlebostatic point = below 1.86 mmHg (false low)
Shock Syndrome:
– Acute, widespread impaired tissue perfusion
What is MODS?
– Multiple organ dysfunction syndrome
What are the four stages of shock?
1. Initial
Initial Stage of Shock:
– first stage when cells are deprived of oxygen, which inhibits their ability to produce energy
Compensatory Stage of Shock:
– decrease in CO
Progressive Stage of Shock:
– State of shock that begins when the compensatory mechanisms fail to maintain cardiac output. Tissues become hypoxic, cells switch to anaerobic metabolism, lactic acid builds up, and metabolic acidosis develops.
Refractory Stage of Shock:
– This stage of shock is irreversible. Severe acidosis and organ failure occur. Cell death and tissue damage occurs from too little O2 reaching the tissues. There is no response to fluids or vasopressors, and multiple organ failure results.
Hypovolemic Shock:
– Inadequate fluid volume in intravascular space
Hypovolemic Hemodynamic Assessment:
– HR increase, CO decreased, CI decreased, CVP decreased, PAOP decreased, and SVR increased
Hypovolemic Shock Management:
– Correct cause, correct hypovolemia via NS or LR, PRBCs
Cardiogenic Shock:
– Failure of heart to pump blood efficiently
Cardiogenic Shock Hemodynamics Assessment:
– HR increase, sustained hypotension (systolic blood pressure < 90 mm Hg for ≥30 min) and a reduced cardiac index (< 2.2 L/min/m2) in the presence of normal or elevated pulmonary capillary wedge pressure (>15 mm Hg) or right ventricular end-diastolic pressure (RVEDP) (>10 mm Hg)
Cardiogenic Shock Management:
– Treat underlying cause, enhance effectiveness of the pump with inotropic like dopamine, dobutamine (may drop BP), and diuretics
Intraortic Balloon Pump (IABP):
– Rest = inflate; pumps = deflates
Ventricular Assist Device (VAD):
– A mechanical pump that helps a weakened ventricle to pump blood throughout the body so that the heart does not have to work as hard; temporary method to buy people time while waiting for a heart transplant
Obstructive Shock:
– Circulating blood flow is blocked
Anaphylactic Shock:
– A severe systemic hypersensitivity reaction characterized by multisystem involvement
Categories of Shock:
(see graphic…TPR stands for temperature, pulse, and respirations)
Three Most Common Anaphylatic Causes:
– Antibiotics, food, and insects
Neurogenic Shock:
– Circulatory failure caused by paralysis of the nerves that control the size of the blood vessels, leading to widespread dilation; seen in patients with spinal cord injuries
Spinal Shock:
– Physiologic response that occurs between 30 and 60 minutes after trauma to the spinal cord and can last up to several weeks. spinal shock presents with total flaccid paralysis and loss of all reflexes below the level of injury.
Sepsis:
– toxic inflammatory condition arising from the spread of microbes, especially bacteria or their toxins, from a focus of infection; 28-50% chance of dying…sepsis is NOT GOOD
Sepsis Steps:
1. SIRS
What is SIRS?
– systemic inflammatory response syndrome
Sepsis Six:
– high flow oxygen
Severe Sepsis and Septic Shock:
– Microorganisms invade the body, initiating a systemic inflammatory response
Sepsis Bundle:
(see graphic)
True/False: MAP of <60 we will start to observe multiple organ failure
True, even anything below 65 we have to be cautious of
Sepsis Hemodynamic Assessment:
– HR inc.
Sepsis Management:
– Recognize early!!!
Prevention of Sepsis:
– Prevent nosocomial infections: ventilator associated pneumonia, catheter-related infections, surgical site infections, and UTI infections
Acute Respiratory Distress Syndrome (ARDS):
– noncardiogenic pulmonary edema
ARDS Causes:
– chest trauma
ARDS:
(see graphic)
What ABG abnormality would you see with ARDS?
– Respiratory alkalosis due to hyperventilation
True/False: Pts. who survive ARDS will have some lasting lung compliance issues for up to one year and its lasting affects might be for life
True, the damage to the lungs may be permanent
ARDS S/S:
– tachypnea
Phases of ARDS:
1. Injury/exudative phase
ARDS Interventions:
– Mechanical Ventilation – Oxygenate!
ARDS Interventions:
– Ventilator settings as appropriate
ARDS – Prevention:
– Ventilator Bundles, Oral Care…PEEP early, pump cardiovascular treatments, and fluid management
Train of Four:
– series of four twitches at 2 hz, every half second for 2 sec.
ARDS Complications:
– Renal failure
nr 341 exam 2 questions
