1 / 57

Airway evaluation and Management

Airway evaluation and Management. By :Dr. Adel Elshimy. Lecture Objectives. Students at the end of the lecture will be able to : Describe the applied anatomy of the airway. Conduct a preoperative airway assessment . Identify a potentially difficult airway.

becka
Download Presentation

Airway evaluation and Management

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Airway evaluation andManagement By :Dr. Adel Elshimy

  2. Lecture Objectives Students at the end of the lecture will be able to : • Describe the applied anatomy of the airway. • Conduct a preoperative airway assessment . • Identify a potentially difficult airway. • Learn about management of airway obstruction. • Become familiar with airway equipment. • Understand issues around aspiration prophylaxis. • Become familiar with controlled ventilation. • Appreciate ways of monitoring of ventilation and oxygenation.

  3. AIRWAY CONTROL Opening the Airway Jaw thrust Head tilt–chin lift

  4. AIRWAY CONTROL Oropharyngeal Airway

  5. Mask Ventilation • Oral airway • Two-handed technique

  6. AIRWAY CONTROL Oropharyngeal Airway (cont.)

  7. AIRWAY CONTROL Nasopharyngeal Airway (cont.)

  8. OXYGENATION AND VENTILATION Bag-Valve-Mask (cont.) With oxygen reservoir

  9. Esophageal-Tracheal Combitube A = esophageal obturator; ventilation into trachea through side openings = B C = tracheal tube; ventilation through open end if proximal end inserted in trachea D = pharyngeal cuff; inflated through catheter = E F = esophageal cuff; inflated through catheter = G H = teeth marker; blindly insert Combitube until marker is at level of teeth E Distal End A C H Proximal End B D F G

  10. L M A

  11. Usage L M A

  12. Indications of intubation • Resuscitation (CPR) • Prevention of lung soiling • Positive pressure ventilation (GA) • Pulmonary toilet • Patent airway (coma or near coma) • Respiratory failure(CO2 retention )

  13. Airway Anatomy • Innervation • Vagus n. • Superior laryngeal n. • External branch – motor to cricothyroid m. • Internal branch – sensory larynx above TVC’s • Recurrent laryngeal n. • Right – subclavian • Left – Aortic arch (board question) • Motor to all other muscles, Sensory to TVC’s and trachea

  14. Airway

  15. Management I-History: previous history of difficulty is the best predictor Inquire about:-Nature of difficulty -No of trials -Ability to ventilate bet trials -Maneuver used -Complications II-Snoring and sleep apnea( prdictors of DMV)

  16. LEMON -Look for any obvious anomaly • Morbid obesity(BMI) • Skull • Face • Jaw • Mouth,teeth • Neck

  17. Examination I-The 3 joints movements • A-O joint(15-20 degrees) Presence of a gap bet the Occiput and C1 is essential • The cervical spine(range>90) • T.M joint: • Subluxation (1 finger)

  18. Examine Airway The 3 – 3 – 2 rule • Mouth open: 3 fingers • Mentum to hyoid: 3 fingers • Floor of mouth to thyroid cartilage: 2 fingers LEMON

  19. Mallampatti Mallampatti test: Based on the hypothesis That when the base of the Tongue is disproportionally Large it will overshadow the larynx

  20. -Simple easy test,correlates with what is seen during laryngoscopy or Cormack-Lehene grades ,but 1-moderate sensitivity and specificity(12% false +ve) 2-Inter observer variation 3-Phonation increases false negative view

  21. II-Wilson test -Consists of 5 easily assessed factors • Body wight(n=0 ,>90=1,>110=2) • Head and neck movement • Jaw movement • Receding jaw • Buck teeth Each factor assigned as o ,1 ,2 max is 10

  22. Obstruction • Apparent cause e.g. goitre • OSA • Noisy breathing or stridor • Signs of upper airway obstruction • Other causes

  23. Neck Mobility Prior condition • Surgery • Rheumatoid arthritis • Osteoarthritis • Others LEMON

  24. Proper Equipment -Bag and mask,oxygen source -Airways oro and nasopharyngeal -Laryngosopes different blades -ETT different sizes -suction on

  25. Airway gadgets

  26. Mask Ventilation • Induction of anesthesia produces upper airway relaxation and possible collapse • Downward displacement of mask with thumb and index finger

  27. Requirement of successful intbation • 1-Normal roomy mandible • 2-Normal T-M, A-O , and C-spine

  28. Positioning for successful intubation 3-Alignment of 3 axes or Assuming sniffing position -Any anomaly in these 3 joints A-O, T-M or C-spine can result In difficult intubation

  29. Endotracheal Intubation • Look for epiglottis • If initially not found insert laryngoscope further • If this maneuver does not work slowly pull laryngoscope back • Once epiglottis visualized, push laryngoscope into vallecula and apply traction at 45 degree angle to “push” epiglottis up and out of the way

  30. Confirm tube position • Direct visualization of ETT between cords • Bronchoscopy ;carina seen • Continuous trace of capnography • 3 point auscultation • Esophageal detector device • Other as bilateral chest movement,mist in the tube,CXR

  31. Rapid sequence induction • Indications • Technique: -Preoxygenation -IV induction with sux -Cricoid pressure -Intubate, inflate the cuff ,confirm position -Release cricoid and fix the tube

  32. Cricoid pressure Cricoid Pressure

  33. Complications of intubation 1-Inadequate ventilation 2-Esophageal intubation 3-Airway obstruction 4-Bronchospasm 5-Aspiration 6- Trauma 7-Stress response

  34. Problems with ETT and Cuff ❏ Too long - endobronchial intubation ❏ Too short - accidental extubation ❏ Too large - trauma to surrounding tissues ❏ Too narrow - increased airway resistance ❏Too soft - kinks ❏ Too hard - tissue damage ❏ Prolonged placement - vocal cord granulomas, tracheal stenosis ❏ Poor curvature - difficult to intubate ❏ Cuff insufficiently inflated - allows leaking and aspiration ❏ Cuff excessively inflated - pressure necrosis

  35. Difficult airway • Causes -Congenital -Acquired

  36. Airway gadgets

  37. Bullard Wu Scope Rigid Fiberoptic Scope Fiberoptic

  38. Upsher GlideScope Rigid Fiberoptic Scope Fiberoptic

  39. L M A

  40. Difficult airway • Expected from history,examination Secure airway while awake under LA • Unexpected different options Priority for maintenance of patent airway and oxygenation

  41. Transtracheal Jet Ventilation TTJV

  42. Ventilation • Spontaneous ventilation • Controlled ventilation Pressure cycled and volume cycled ventilator -Tidal volume 10 mls/kg -Respiratory rate to maintain normocarbia -I:E ratio -PEEP

  43. Recommendations • Adequate airway assessment to pick up expected D.A to be secured awake • Difficult intubation cart always ready • Pre oxygenation as a routine • Maintenance of oxygenation not the intubation should be your aim • Use the technique you are familiar with • Always have plan B,C,D in unexpected D.A

  44. EXTUBATION General guidelines: • check that neuromuscular function and hemodynamic status is normal • check that patient is breathing spontaneously with adequate rate and tidal volume • allow patient to breathe 100% O2 for 3-5 minutes • suction secretions from pharynx • deflate cuff, remove ETT on inspiration (vocal cords abducted) • ensure patient breathing adequately after extubation • ensure face mask for O2 delivery available • proper positioning of patient during transfer to recovery room, e.g. sniffing position, side lying.

  45. Oxygen Therapy • Aim • to prevent or at least minimize tissue hypoxia. • Indications: • When oxygen tension is less than 60 mmHg in a healthy patient. • N.B If patient has chronic lung disease may accept a lower oxygen tension before treatment. • Post operatively supplemental oxygen may be given if SaO2<92% especially if anemic, hypotensive, septic • Delivery of medication (e.g. nebulized salbutamol) • Treatment of carbon monoxide poisoning

  46. Hypoxemia Causes of tissue hypoxia: • Low inspired oxygen tension • Hypoventilation • Poor matching of ventilated areas of lung with those areas being perfused • Impaired blood flow to tissues: • Low cardiac output -Hypotension -Arterial occlusion • Impaired oxygen carrying capacity: Low hemoglobin concentration • Abnormal hemoglobin (e.g. sickle cell) • Poisoned hemoglobin (methemoglobin, carboxyhemoglobin) • Impaired oxygen utilization by tissues: cyanide poisoning • Excess oxygen utilization: Thyrotoxicosis - Malignant hyperthermia

  47. Delivery systems: • Nasal cannulae • inspired oxygen concentration is dependent on the oxygen flow rate, the nasopharyngeal volume and the patient’s inspiratory flow rate. • Increases inspired oxygen concentration by 3-4%. • Oxygen flow rates greater than 3 liters are poorly tolerated by patients due to drying and crusting of the nasal mucosa.

More Related