Neuro muscular monitoring
- 1. NEUROMUSCULAR MONITORING Manish Jagia
- 2. Objectives of NM Monitoring • Monitoring onset of NM Blockade. • To determine level of muscle relaxation during surgery. • Assessing patients recovery from blockade to minimize risk of residual paralysis.
- 3. Why do we Monitor? • Residual post-op NM Blockade • Functional impairment of pharyngeal and upper esophageal muscles • Impaired ability to maintain the airway • Increased risk for post-op pulmonary complications • Difficult to exclude clinically significant residual curarization by clinical evaluation
- 4. Who should be Monitored ? • Patients with severe renal, liver disease • Neuromuscular disorders like myasthenia gravis, myopathies, UMN and LMN lesions • Patients with severe pulmonary disease or marked obesity • Continuous infusion of NMBs or long acting NMBs • Long surgeries or surgeries requiring elimination of sudden movement
- 5. Principles of Peripheral Nerve Stimulation • Each muscle fiber to a stimulus follows an all-or- none pattern • In contrast, response of the whole muscle depends on the number of muscle fibers activated • Response of the muscle decreases in parallel with the numbers of fibers blocked • Reduction in response during constant stimulation reflects degree of NM Blockade • For this reason stimulus is supramaximal
- 6. Electrodes • Surface electrodes • Pregelled silver chloride surface electrodes for transmission of impulses to the nerves through the skin • Transcutaneous impedance reduced by rubbing • Conducting area should be small(7-11mm) • Needle electrodes • Subcutaneous needles deliver impulse near the nerve
- 7. Electrode placement: • Ulnar nerve: place negative electrode (black) on wrist in line with the smallest digit 1-2cm below skin crease • positive electrode (red) 2-3cms proximal to the negative electrode • • Response: Adductor pollicis muscle – thumb adduction
- 8. • Facial nerve: place negative electrode (black) by ear lobe and the positive (red) 2cms from the eyebrow (along facial nerve inferior and lateral to eye) • • Response: Orbicularis occuli muscle – eyelid twitching
- 9. • Posterior tibial nerve: place the negative electrode (black) over inferolateral aspect of medial malleolus (palpate posterior tibial pulse and place electrode there) and positive electrode (red) 2- 3cm proximal to the negative electrode • • Response: Fexor hallucis brevis muscle – planter flexion of big toe
- 10. Patterns of Stimulation • Single-Twitch Stimulation • Train-of-Four Stimulation • Tetanic Stimulation • Post-Tetanic Count Stimulation • Double-Burst Stimulation
- 11. Single-Twitch Stimulation • Single supramaximal stimuli applied to a nerve at frequencies from 1.0Hz-0.1Hz • Height of response depends on the number of unblocked junctions • Prerelaxant control value is needed • Does not detect receptor block of <70% • Used to assess potency of drugs • Stimulation dependent onset time
- 13. Train-of-Four Stimulation • Four supramaximal stimuli are given every 0.5 sec • “Fade” in the response provides the basis for evaluation • The ratio of the height of the 4th response(T4) to the 1st response(T1) is TOF ratio • In partial non- depolarizing block T 4/T1 ratio and is inversely proportional to degree of blockade • In partial depolarizing block, no fade occurs in TOF ratio • Fade, in depolarizing block signifies the development of phase II block
- 15. Tetanic Stimulation • Tetanic Stimulation is 50-Hz stimulation 50Hz given for 5 sec • During normal NM transmission and pure depolarizing block the response is sustained • During non- depolarizing block & phase II block the response fades • During partial non- depolarizing block, tetanic stimulation is followed by post-tetanic facilitation
- 17. Post-Tetanic Count Stimulation • Used to assess degree of NM Blockade when there is no reaction single-twitch or TOF • Number of post-tetanic twitch correlates inversely with time for spontaneous recovery • Tetanic stimulation(50Hz for 5sec.) and observing post-tetanic response to single twitch stimulation at 1Hz,3sec after end of tetanic stimulation • Used during surgery where sudden movement must be eliminated(e.g., ophthalmic surgery) • Return of 1st response to TOF related to PTC
- 19. Double-Burst Stimulation • DBS consist of two train of three impulses at 50Hz tetanic stimulation separated by 750msec • Duration of each impulse is 0.2msec • DBS allow manual detection of residual blockade under clinical conditions • Tactile evaluation of fade in DBS 3,3 is superior to TOF • However, absence of fade by tactile evaluation to DBS does not exclude residual NM Blockade
- 22. Non-depolarizing blockade • Intense NM Blockade • This phase is called “Period of no response” • Deep NM Blockade • Deep block characterized by absence of TOF response but presence of post-tetanic twitches • Surgical blockade • Begins when the 1st response to TOF stimulation appears • Presence of 1 or 2 responses to TOF indicates sufficient relaxation
- 23. Contd… • Recovery • Return of 4th response to TOF heralds recovery phase • presence of spontaneous respiration is not a sign of • adequate neuromuscular recovery. • T4/T1 ratio > 0.9 exclude clinically important residual NM Blockade • Antagonism of NM Blockade should not be initiated before at least two TOF responses are observed
- 25. Depolarizing NM Blockade • Phase I block • Response to TOF or tetanic stimulation does not fade, and no post-tetanic facilitation • Phase II block • “Fade” in response to TOF in depolarizing NM Blockade indicates phase II block • Occurs in pts with abnormal cholinesterase activity and prolonged infusion of succinylcholine
- 26. Clinical tests of Postoperative Neuromuscular Recovery Reliable Unreliable Sustained head lift for 5 sec Sustained eye opening Sustained leg lift for 5 sec Protrusion of tongue Sustained handgrip for 5 sec Arm lifted to the opposite shoulder Sustained “tongue depressor test” Normal tidal volume Maximum inspiratory pressure 40 to 50 cm Normal or nearly normal vital capacity H2O or greater Maximum inspiratory pressure less than 40 to 50 cm H2O
- 27. Limitations of NM Monitoring • Neuromuscular responses may appear normal despite persistence of receptor occupancy by NMBs. • T4:T1 ratios is one even when 40-50% receptors are occupied • Patients may have weakness even at TOF ratio as high as 0.8 to 0.9 • Adequate recovery do not guarantee ventilatory function or airway protection • Hypothermia limits interpretation of responses
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