Respiratory Puzzle

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Across
  1. 2. This intelligent ventilator mode will adapt the support to the patient based on compliance and resistance.
  2. 3. A state of physical wasting, characterized by significant loss of muscle and fat mass leading to weakness and fatigue.
  3. 4. This pressure must remain negative to keep the lung open.
  4. 5. Tiotropium bromide and olodaterol
  5. 7. This nerve originates at C3-C5 and if damaged, can cause respiratory failure
  6. 11. In-line suctioning is always changed this day.
  7. 13. Increased airway resistance will generate this kind of flow.
  8. 15. The phase of a capnograph waveform that contains mostly all exhaled alveolar gas.
  9. 19. PaCO2-PeCO2/PaCO2
  10. 21. A pressure volume loop with a flattened bottom may indicate a need for this.
  11. 22. Why is my vent alarming?
  12. 23. This ECMO device is responsible for oxygen uptake, CO2 clearance, and temperature regulation.
  13. 24. Reciprocal of compliance.
  14. 25. This function provides pressure relief during the expiratory phase of a CPAP mode.
  15. 26. A clinical syndrome characterized by partially or completely reversible airway obstruction, airway inflammation, and airway hyperresponsiveness to various stimuli.
  16. 30. To improve oxygenation, the good lung should be in this position.
  17. 31. The volume left in the lungs after a forced exhalation.
  18. 33. When SVO2 falls below 40% causing anaerobic respiration, this is the result.
  19. 34. This may be administered on an anesthesia vent to a patient who fails heliox and requires intubation.
Down
  1. 1. This Resmed function will shut off the machine if a leak is present.
  2. 6. This device allows decreased oxygen liter flow without compromising oxygenation
  3. 8. UVMMC is one of the only hospitals in the country to have a protocol for RTs to independently do this.
  4. 9. V/Q=0
  5. 10. 802-863-1151
  6. 11. Used to predict the ease of oral intubation.
  7. 12. A decrease in the mean PA pressure of > 10 mm Hg to an absolute value of < 40 mm Hg and no decrease in CO/CI
  8. 14. Hamilton T1’s pneumatics are designed to permit a patient’s spontaneous breathing and never force a patient into a pre-set breathing pattern.
  9. 16. Must be included in your Code Blue note.
  10. 17. This Air-Q SP3 supports patients <2kg.
  11. 18. The largest study examining preoxygenation in critically ill patients undergoing tracheal intubation.
  12. 19. ____chest, characterized by hyperinflation and flattened diaphragms.
  13. 20. Type 2 Respiratory Failure.
  14. 21. With a PaO2/FIO2 <150 consider
  15. 22. The pressure added to PEEP to achieve the desired tidal volume.
  16. 24. Increasing this will lead to a shorter i-time for a spontaneous breath on the Hamilton T1.
  17. 27. If the Heliox blender is not meeting minimal flow, this needs to be activated.
  18. 28. Movement of gas across the A-C membrane due to a pressure gradient.
  19. 29. Forced expirations of the middle and lower lung with an open glottis followed by diaphragmatic breathing.
  20. 32. Draeger vent mode for NIV with a rate.