Pulmonary Disease Lecture 7 Fall 2024 PDF

Summary

This lecture covers pulmonary disease, including pulmonary failure, acute respiratory distress syndrome (ARDS), and chronic obstructive pulmonary disease (COPD). It also discusses complications and management strategies.

Full Transcript

10/9/24

Pulmonary Disease
C LINIC AL NU TRITIO N ASSESSMENT AND INTERV ENTIO N
LEC TU RE 7: FAL L 2024

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Pulmonary Failure
v Insufficient ventilation and/or inadequate oxygenation of arterial
blood with or without elimination of CO2
o May be acute or chronic
v Acute respiratory failure
o Acute lung injury (ALI), e.g. smoke inhalation
o Pneumonia
o Acute respiratory distress syndrome (ARDS), associated with systemic
inflammation in the critically ill
o rapid onset of dyspnea (SOB) and severe deficits in gas exchanges

v Chronic respiratory failure
o Chronic obstructive pulmonary disease (COPD)
o Lung cancer
o airflow limitations (not fully reversible)

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Acute Respiratory Distress
Syndrome (ARDS)
v Patients with ARDS present with acute onset of SOB, tachypnea,
hypoxemia, which is refractory to oxygen supplementation
o Clinical conditions commonly associated with ARDS: sepsis, pneumonia,
aspiration, inhalation injury, near drowning, trauma, etc

v Principles of ARDS management:
o Treatment of underlying cause, such as sepsis, aspiration or bacterial pneumonia
o Mechanical ventilatory support
o Hemodynamic stability
o Prevention of complications, ie pressure injuries, DVT
o Provision of nutrition support for prevention of cumulative caloric deficits, loss of
lean body mass, malnutrition and deterioration of respiratory muscle strength
§ Underlying clinical events such as sepsis or trauma that lead to the
development of ARDS also result in hypermetabolic state
§ Malnutrition common in patients who require mechanical ventilation
§ Important not to overfeed à delayed weaning from mechanical vent

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Acute Respiratory Distress
Syndrome (ARDS)
Complications from Overfeeding and Underfeeding in ARDS
Underfeeding Overfeeding

o Nosocomial (ie hospital acquired) o Nosocomial infections
infections o Hypercapnia
o Immunosuppression o Immunosuppression
o Depressed respiratory muscle strength o Failure in weaning from mechanical
o Failure in weaning from mechanical ventilator
ventilator o Stress hyperglycemia
o Low ventilatory drive o Poor wound healing
o Electrolyte imbalance
o Azotemia

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COPD
v Chronic Obstructive Pulmonary Disease
o Chronic bronchitis
§ inflammation of bronchi
§ excess mucous production
§ chronic cough
§ difficulty breathing
§ may à cardiac enlargement with failure
o Emphysema
§ abnormal, permanent enlargement and destruction of alveoli
§ chronic mild cough
§ nutritional depletion greater in these patients
o These conditions may coexist in varying degrees
§ Those with primary emphysema have more dyspnea, cachexia
§ Those with bronchitis: hypoxia, hypercapnia (increased carbon dioxide),
more complications such as pulmonary hypertension, right heart failure

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COPD
v Third most common cause of death in the world
v Causes
o Smoking (cigarettes, pipes, cigars, …)
o Environmental: second-hand smoke, air pollution, chemical fumes, dust
o Rarely – genetic X environment
§ Alpha-1 antitrypsin deficiency + exposure to smoke or other lung irritants

v Airflow obstruction in COPD is irreversible
v Patients with COPD are more susceptible to nutritional depletion
o Dyspnea is significantly correlated with energy intake
o Increased work of breathing increases energy requirement
v Frequent acute exacerbations in COPD patients
o Increases the severity of chronic inflammation
o Malnourished individuals more likely to have exacerbations and shorter
survival time than those who are well-nourished

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COPD
v Malnutrition common with COPD: 30-60% prevalence rate
o Inadequate oral intake
§ Low appetite
§ Increased breathlessness while eating
§ Difficulty shopping and preparing meals
§ Dry mouth
§ Altered taste perceptions
§ Early satiety
§ Fatigue
o Increased metabolic rate
o Extra energy required for work of breathing
§ Normal breathing expends 36-72kcal/d, increases 10-fold with COPD
o Frequent and recurrent respiratory infections, +fever
vMalnutrition more likely with ventilated patients
o May make it difficult to wean off vent

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COPD
v Effects of malnutrition on pulmonary physiology
o Muscle compromise
§ diaphragm, intercostal muscles, accessory muscles
o Impaired immunocompetence
§ decreased IgA, cell medicated immunity, epithelial integrity, T/B cell dysfunction
o Surfactant deficit
§ surfactant lowers surface tension, prevents atelectasis

v Individuals with COPD and low body weight
o Impaired pulmonary status
o Lower exercise capacity
o Higher mortality than those adequately nourished
v May lead to cor pulmonale
o Increased blood pressure à enlargement of right ventricle of heart and right
sided heart failure à can result in fluid retention
§ “Weight gain” from fluids can mask weight loss, camouflage wasting

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Arterial Blood Gas Analysis
v pH/PCO2/PO2/HCO3/O2 sat
v Evaluation of ABGs determines pH, oxygen content, and carbon dioxide
content of blood, and can be used to measure pulmonary function
v PCO2
o Partial pressure of CO2
o Measures how much CO2 is dissolved in the blood and how well it is
able to move out of the blood into airspaces of lung
o Direct indicator of pulmonary function and effectiveness of
mechanical ventilation
o Normal values: 35-45 mm Hg

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Arterial Blood Gas Analysis
v HCO3 (chemical buffer)
o Reflection of renal regulation of acid-base balance
o Reacts more slowly than pulmonary regulation of acid base balance via
PCO2 exchange
o Normal values: 21-28 mEq/L
v PO2
o Indirect measure of O2 content of the arterial blood and how well O2 is
able to move from the lungs into the blood
o Normal values: 80-100 mmHg
v O2 saturation
o Reflects the percentage of hemoglobin saturated with O2
o Normal Values: adult 95-100%, elderly 95%

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Arterial Blood Gas Analysis
o In respiratory disorders, pH and PaCO2 change in opposite directions
o In metabolic disorders the pH and PaCO2 change in the same direction

Acidosis Respiratory pH ↓ PaCO2 ↑
Acidosis Metabolic pH ↓ PaCO2 ↓
Alkalosis Respiratory pH ↑ PaCO2 ↓
Alkalosis Metabolic pH ↑ PaCO2 ↑

Disorder pH Primary problem Compensation
Metabolic acidosis ↓ ↓ in HCO3- ↓ in PaCO2
Metabolic alkalosis ↑ ↑ in HCO3- ↑ in PaCO2
Respiratory acidosis ↓ ↑ in PaCO2 ↑ in [HCO3-]
Respiratory alkalosis ↑ ↓ in PaCO2 ↓ in [HCO3-]

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Etiology
v Metabolic acidosis v Respiratory acidosis (CO2 retention)
◦ Diabetic ketoacidosis ◦ COPD
◦ Uremia ◦ Asthma
◦ Lactic acidosis ◦ OSA
◦ GI loss of HCO3 ◦ Neuromuscular impairment
◦ diarrhea, ileostomy ◦ Incorrect mechanical vent settings
◦ Renal loss of HCO3
v Respiratory alkalosis (CO2 loss)
◦ Renal tubular disease
◦ Hyperventilation
v Metabolic alkalosis
◦ CNS stimulation
◦ GI loss of H+ ◦ Fear, pain, anxiety, head trauma,
◦ vomiting, gastric suction brain tumor, CVA, CNS infection
◦ Renal loss of H+ ◦ Incorrect mechanical vent settings
◦ loop, thiazide diuretics

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Blood Gas
Interpretation in COPD
v Early disease: amount of oxygen in arterial blood is WNL
v As disease progresses (middle stage): PO2 drops (< 60 mm Hg)
hypoxemia* → hyperventilation → respiratory alkalosis
v Later stages: Not enough energy to hyperventilate, CO2 builds up
o Hypoxemia with Chronic Respiratory Acidosis
§ Lower pH
§ Increased PCO2
§ Respiratory depression
↓ oxygen in and carbon dioxide out

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deficiency of oxygen in arterial blood

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Management of COPD
v Assess and monitor disease
o Manage exacerbations

v Treatment
o Pulmonary rehabilitation programs
o Oxygen therapy
o Medications
§ Bronchodilators
§ Glucocorticosteroids
Ø Osteoporosis (long-term use)
§ Mucolytic agents
§ Antibiotics
Ø When bacterial infection suspected cause of exacerbation

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Management of
Respiratory Failure
v O2 supplementation (nasal)
v Non invasive ventilation
o Bilevel positive airway pressure (BiPap)
o Continuous positive airway pressure (CPAP)

v Invasive (mechanical) ventilation
o Continuous mechanical ventilation
o Intermittent mandatory ventilation

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MNT
v Goal: adequate intake to prevent loss of lean body mass (LBM)
o Small frequent meals (5-6x/day) that are nutritionally dense
o Consumption of main meal when energy level is at its highest
§ Typically in the morning; early in the day
o Provision of adequate calories and protein
§ Determine individual needs
§ Protein: 1.2-1.5g/kg (possibly higher)
Ø Requirements at higher end with malnutrition/muscle wasting
§ Calories: indirect calorimetry (gold standard); or 25-35kcals/kg
Ø On vent: 25-30kcals/kg, or use predictive formula
o Availability of foods that require less preparation, can be heated easily
o Eating slowly and having period of rest before mealtimes
o Use of oral supplements between meals to optimize intake
o Limit fluids intake at mealtime; fluids between meals can help to
increase ability to consume nutrient-dense foods at mealtimes

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MNT
v Enteral nutrition initiation may be indicated when oral intake is
insufficient (for prolonged period) and patient has adequate GI function
o Standard polymeric enteral formula (1 kcal/cc)
o Maintain aspiration precautions
§ Monitor position of head
§ HOB minimum 30 degrees (45 degrees is preferable)
v COPD patients are particularly vulnerable to re-feeding syndrome
o Monitor closely; hallmark of re-feeding: ↓ levels of P, K and Mg
o Typically occurs within 3 days of feeding
o Other signs
§ Hyperglycemia and hyperinsulinemia
§ Interstitial fluid retention
§ Cardiac decompensation and arrest
v Hypercaloric feeding may ↑ CO2 production à hypercapnia
o DO NOT OVERFEED while weaning from mechanical vent

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MNT
v Additional considerations
o Provide adequate fluids / hydration to help sputum consistency
§ Recommended fluid intake 35ml/kg for 18-60 years old
§ Recommended fluid intake 30ml/kg for >60 years old
§ Exception: patients with cor pulmonale and subsequent fluid retention
may require sodium and fluid restriction
o Vitamins and minerals
§ Individualize
§ Vitamin C supplement for smokers
§ Assess Ca/vitamin D adequacy, particularly with poor overall intake
v Osteoporosis
§ Consider potential medication side effects
o Consider factors that can be affecting intake
§ Individualize feeding strategies, interdisciplinary team
§ Difficulty preparing food because of fatigue
§ Lack of financial resources

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