The Mallampati score, or Mallampati classification, named after the Indian anaesthesiologist Seshagiri Mallampati, is used to predict the ease of endotracheal intubation.[1] The test comprises a visual assessment of the distance from the tongue base to the roof of the mouth, and therefore the amount of space in which there is to work. It is an indirect way of assessing how difficult an intubation will be; this is more definitively scored using the Cormack–Lehane classification system, which describes what is actually seen using direct laryngoscopy during the intubation process itself. A high Mallampati score (class 3 or 4) is associated with more difficult intubation as well as a higher incidence of sleep apnea.[2]
Technique
editThe score is assessed by asking the patient, in a sitting posture, to open their mouth and to protrude the tongue as much as possible.[1] The anatomy of the oral cavity is visualized; specifically, the assessor notes whether the base of the uvula, faucial pillars (the arches in front of and behind the tonsils) and soft palate are visible. Scoring is generally done without phonation. Depending on whether the tongue is maximally protruded and/or the patient asked to phonate, the scoring may vary.[3]
Modified Mallampati Scoring:[4]
- Class I: Soft palate, uvula, fauces, pillars visible.
- Class II: Soft palate, major part of uvula, fauces visible.
- Class III: Soft palate, base of uvula visible.
- Class IV: Only hard palate visible.
Original Mallampati Scoring:[1]
- Class 1: Faucial pillars, soft palate and uvula could be visualized.
- Class 2: Faucial pillars and soft palate could be visualized, but uvula was masked by the base of the tongue.
- Class 3: Only soft palate visualized.
Posture[5]
The assessment can be performed with the patient in both a sitting or supine position. With tongue maximally protruded, assessment in the either position has not been found to significantly change the provider's view and has been shown to change the predictive value of the Mallampati Scoring. It is, however, important to standardize the approach for airway trainees to limit any possible variation.
Phonation[5]
Phonation during the assessment includes the patient making an "Ah" sound with mouth open and tongue maximally protruded in either sitting or supine position. This action leads elevation of the soft palate, therefore, improving the Mallampati classification grade. Phonation has been shown to improve Mallampati classes III and IV to I and II in majority of assessments. Studies found that these improvements identified falsely classified difficult airways in most cases but have also falsely masked difficult airways in minority of cases. Given the morbidity and mortality associated with difficult airways, it is important to standardize the approach for airway trainees, and larger studies are needed to conclude whether phonation improves the predictive value of Mallampati scoring.
Further research may be needed to determine the most effective consistent and predictive approach on which to standardize Mallampati Scoring.
Clinical significance
editWhile Mallampati classes I and II are associated with relatively easy intubation, classes III and IV are associated with increased difficulty.
A systematic review of 42 studies, with 34,513 participants, found that the modified Mallampati score is a good predictor of difficult direct laryngoscopy and intubation, but poor at predicting difficult bag mask ventilation.[6][7] Therefore, the study concluded that while useful in combination with other tests to predict the difficulty of an airway, it is not sufficiently accurate alone.
In a systematic review of 133 studies with 844,206 participants, the use of multiple screening tests, including Thyromental distance, Wilson score, Mallampati score, neck mobility, Upper Lip Bite Test, is recommended in clinical practice to predict a difficult airway in patient with seemingly normal anatomy, although their predictive value alone was limited and variable.[7]
See also
editReferences
edit- ^ a b c Mallampati SR, Gatt SP, Gugino LD, Desai SP, Waraksa B, Freiberger D, Liu PL (July 1985). "A clinical sign to predict difficult tracheal intubation: a prospective study". Canadian Anaesthetists' Society Journal. 32 (4): 429–434. doi:10.1007/BF03011357. PMID 4027773.
- ^ Nuckton TJ, Glidden DV, Browner WS, Claman DM (July 2006). "Physical examination: Mallampati score as an independent predictor of obstructive sleep apnea". Sleep. 29 (7): 903–908. doi:10.1093/sleep/29.7.903. PMID 16895257.
- ^ Oates JD, Oates PD, Pearsall FJ, McLeod AD, Howie JC (November 1990). "Phonation affects Mallampati class". Anaesthesia. 45 (11): 984. doi:10.1111/j.1365-2044.1990.tb14639.x. PMID 2082969.
- ^ Samsoon GL, Young JR (May 1987). "Difficult tracheal intubation: a retrospective study". Anaesthesia. 42 (5): 487–490. doi:10.1111/j.1365-2044.1987.tb04039.x. PMID 3592174.
- ^ a b Tham EJ, Gildersleve CD, Sanders LD, Mapleson WW, Vaughan RS (January 1992). "Effects of posture, phonation and observer on Mallampati classification". British Journal of Anaesthesia. 68 (1): 32–38. doi:10.1093/bja/68.1.32. PMID 1739564.
- ^ Lee A, Fan LT, Gin T, Karmakar MK, Ngan Kee WD (June 2006). "A systematic review (meta-analysis) of the accuracy of the Mallampati tests to predict the difficult airway". Anesthesia and Analgesia. 102 (6): 1867–1878. doi:10.1213/01.ane.0000217211.12232.55. PMID 16717341. S2CID 23652343.
- ^ a b Roth D, Pace NL, Lee A, Hovhannisyan K, Warenits AM, Arrich J, Herkner H (May 2018). "Airway physical examination tests for detection of difficult airway management in apparently normal adult patients". The Cochrane Database of Systematic Reviews. 5 (5): CD008874. doi:10.1002/14651858.CD008874.pub2. PMC 6404686. PMID 29761867.
External links
edit- Mallampati score - fpnotebook.com