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RESPIRATORY FAILURE

RESPIRATORY FAILURE. Nathir Obeidat University of Jordan. Definitions Hypoxemia is reduction in the oxygen content in the arterial system. Tissue hypoxia is reduction in the oxygen delivery to the tissue, caused by reduction oxygen content and or reduction in cardiac output.

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RESPIRATORY FAILURE

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  1. RESPIRATORY FAILURE Nathir Obeidat University of Jordan

  2. Definitions Hypoxemiais reduction in the oxygen content in the arterial system. Tissue hypoxiais reduction in the oxygen delivery to the tissue, caused by reduction oxygen content and or reduction in cardiac output.

  3. Respiratory FailureTypesType 1 Hypoxemic Respiratory failureType 2 Hypercapnic Respiratory failure

  4. Respiratory failure Is failure to maintain adequate arterial blood gas tensions. 1- PaO2 <60 mm Hg 2- PaCO2 >50 mm Hg Assume 1) breathing room air 2) awake and at rest

  5. Classification: 1) Lung Failure 2) Pump Failure 3) Defects of respiratory control

  6. Lung FailureHypoxemic respiratory failure due to lung pathology. - Affects gas transfer and ventilation /perfusion relationships. - Refractory arterial hypoxemia despite O2 therapy.

  7. 2) Respiratory pump failure : • Is hypercapnic respiratory failure. • Affects the respiratory pump. • PCO2 > 50 mm Hg

  8. 3) Defects of respiratory control- Affects. Regulation of gas exchange.. The respiratory pump.

  9. Pathophysiology of ARF Mechanisms which cause acute Hypoxemic respiratory failure 1) Hypoventilation 2) Ventilation/Perfusion mismatch 3) Shunt 4) Diffusion limitation 5) Low FiO2

  10. BLOOD GAS MEASURMENTS • Only became available in 1950s - respiratory failure can only be reliably diagnosed by measuring arterial blood gases. Respiratory failure and dyspnea are not synonymous .There may be no symptoms with ARF, or the reverse is true

  11. Indirect measurment of gas Tension Oximetry : Direct measurement of the arterial oxygen saturation from arterialised blood in ear lobe or finger. The Technique based on differential absorption of red and infra red light by haemoglobin molecule - Measure only saturation , not partial pressure - Useful in ICU, Sleep labs and ER. - Less sensitive in range 94-100%.

  12. Alveolar Hypoventilation Causes 1- Neuromuscular diseases 2- Neurological diseases 3- Diseases of respiratory control 4- Drug overdose 5- Sleep apnea

  13. Continue …Alveolar hypoventilationCharacteristics • Hypercapnia • Respiratory acidosis • PaCO2=(VCO2/AV) .K - Associated with hypoxemia due to reduced PAO2 - If hypoventilation is the only cause for hypoxia then the PA-a O2 gradient will be normal (5-15 mmHg)

  14. What is PA-aO2 • PA-aO2 = PAO2 –PaO2 • PaO2 is taken from ABGs • PAO2 = FiO2(atmosph pressure –H2O pressure) – PaCO2/k Room Air FiO2= o.21 Atmosph Pressure = 760 at sea level 680 at JUH. Water Pressure = 47 PaCO2= is taken from ABG K is constant value = 0.8

  15. Ventilation Perfusion mismatchCharacteristics - It is the major mechanism of hypoxia by which lung disease causes hypoxemia. - PaCO2 either normal or increased. - A-a gradient is increased. - Hypoxia is caused by under ventilated alveoli with respect to their blood flow. - Within a lung region : decrease PAO2 and increased PACO2 always occurs.

  16. - Good areas cannot compensate for bad areas of V/Q mismatch. - Hypoxemia usually corrected by relatively small increase in FiO2. This is because hypoventilated airways are open and alveolar O2 can be increased SO Increased PAO2 lead to increased PaO2

  17. Why in some case PaCO2 is normal?Because of hyperventilation in other normal lung region.

  18. Diseases causes V/Q mismatchAir Way DiseasesBronchial Asthma, COPD, Bronchiectasis, Bronchiolitis Obliterans. Intestitial Lung diseases Pulmonary embolism

  19. SHUNT • It is an extreme of V/Q mismatch • No ventilation but blood flow continues, so venous blood reaches arterial circulation without being oxygenated. • It causes high A-a gradient • PaCO2 low because of hyperventilation of normal well perfused areas.

  20. Small increase in FiO2 have no effect on PaO2 • It needs very high FiO2 to improve PaO2 - Usually associated with : -cardiac shunt - collapsed or fluid filled the alveoli • CXR usually shows pulmonary infiltrate. • PEEP may improves PaO2 by - opening collapsed lung units - keeping lung units at higher lung volume and allowing some ventilation

  21. Diagnosis Of Acute Respiratory Failure 1- Clinical Suspicion that ARF might be present 2- Confirmation by ABG analysis that ARF is present. 3- Diagnostic steps to identify specific etiology of ARF

  22. Clinical suspicion: Pre-existing chronic respiratory disease Acute illness with high incidence of ARF Symptoms of disease process - any respiratory symptoms - Hypoxaemia :cyanosis Signs : tachypnea, use of accessory muscles

  23. Signs of hypoxaemia and acidosis CNS signs anxiety,restlessness,confusion,seizures, coma and cerebral edema Confirmatiomn CXR ,ABG

  24. Signs of HypercapniaTachycardia . Asterixis. Distension of forearm veins. Clouding of consciousness. Pupil edema.

  25. PRINCIPLES OF MANAGEMENT 1) Maintain an adequate Airway 2) Correct inadequate oxygenation 3) Correct Respiratory acidosis 4) Maintain Cardiac output and Tissue 02 Delivery 5)Treate underlying condition by definitive management . 6) Avoid preventable complications

  26. Correction of Oxygenation Goal Of Therapy Improve PaO2 while avoiding O2 toxicity In COPD aim for PaO2 60 mmHg or O2 sat of 90% In trauma aim for PaO2 80mmHg

  27. OXYGEN TOXICITY In COPD, excess O2 may cause: increase hypercapnia and hypercapnic acidosis Parenchymal lung injury due to high levels of o2 , it is related to dose and duration So keep FiO2 to lowest level that achieves adequate PaO2

  28. Supplemental O2 Delivery Methods If slight increase in PaO2 is required - Nasl canula - Venturi mask (0.24, 0.28, 0.31, 0.35, 0.40, 0.50) Always check with repeat ABG

  29. Measures to Correct Respiratory Acidosis GOAL - Avert life threatening acidosis - Not to correct PaCO2 - Partial correction usually suffices PHARMACOLOGY THERAPY - Bicarbonate administration may lead to metabolic alkalosis

  30. MECHANICAL VENTILATION Non Invasive Ventilation Non-invasive ventilation refers to the ability to deliver ventilatory support without establishing an endotracheal airway. CPAP BiPAP Invasive Ventilation Needs intubation

  31. Treatment of Under lying Disease Bronchodilatation Removal of Secreations Antibiotics .

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