1 / 36

Analyzing Muscle Function During Mastication

Analyzing Muscle Function During Mastication. BioResearch Associates, Inc. John C. Radke. 3 Patterns of Mastication (These “Categories” are Parts of a Continuum). Normal Movement Pattern + Normal Muscle Activity = Ideal Function

aric
Télécharger la présentation

Analyzing Muscle Function During Mastication

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. Analyzing Muscle Function During Mastication BioResearch Associates, Inc. John C. Radke

  2. 3 Patterns of Mastication(These “Categories” are Parts of a Continuum) • Normal Movement Pattern + Normal Muscle Activity = Ideal Function • Normal Movement Pattern + Abnormal Muscle Activity = Effective Adaptation • Abnormal Movement Pattern + Abnormal Muscle Activity = Difficult/Poor Adaptation

  3. Normal Masticatory Movements Bilateral ACP (29 normals*) • All Convex • Turning Point Working Side • Clockwise (frontal and horizontal) • All Within 2 SD (no fat lines) * Matches 500 normals from Maruyama in Japan

  4. Normal Masticatory Movements Bilateral Horizontal ACP (29 normals*) • All Convex, Clockwise (frontal and horizontal) • Turning Point Working Side, All Within 2 SD • Affected most by “Yaw” in the mastication pattern * Matches 500 normals from Maruyama in Japan

  5. Normal Masticatory Movements Left Vs Right Velocity ACP (29 normals) Closing a little faster and more variable

  6. Normal Masticatory Movements Sagittal ACP (29 normals) Some separation between opening and closing • Angle of closure varies a lot • Least diagnostic view of mastication

  7. Normal Masticatory Movements Right Side ACP • All Convex (Frontal & Hor.) • Turning Point Working Side • Clockwise (frontal and horizontal - R) • All Within 2 SD (no fat lines) • Closing Velocity > Opening • Straight Closing in Sagittal

  8. Abnormal Masticatory Movements Right Side ACP • Not Convex • Turning Point on Midline • Counterclock-wise (frontal and horiz.) “Reversed Sequence” • All of closing is fat lines! > 2 SD • ClosingVel. < OpeningVel. • Sagittal closing deviation

  9. Raw Frontal Mastication Frontal View • Consistency -Randomness • Asymmetrical Shape – all over the place • Clearly left sided or not Note: Even the RAW frontal movement pattern conveys a sense of much greater variability in the abnormal chewing pattern. Normal variation is more organized.

  10. Raw Horizontal Mastication • Abnormal Chewing Gum • Inconsistency – Random • Angular lines w- corners • Normal Chewing Gum • Consistency w-Variability • Smooth lines w/o corners

  11. Raw Masticatory Velocity Fast, SmoothCycles Closing > Opening Slow,EraticClosing (faster, but still relatively slow open) Note: Abnormal opening can be relatively smooth, but closing … not so much!

  12. Comparing Normal Subjects to some with TMJ Internal Derangements

  13. The Quality of Chewing is Continuous, not Dichotomous! • You can recognize Good Function, • When function is compromised, you can improve it • Well adapted patients don’t realize how bad their function is until you improve it • Poorly adapted patients can struggle with what would otherwise be only minor impediments to good function • Improving masticatory function can have global effects

  14. What about Muscle Function? TEMPORALIS • 16 normals • Chewing Gum • Working Ta Vs non-working Ta • The amplitudes of the contractions are only significantly different above 25 – 50 % of the maximum level • Max difference = 40%

  15. What about Muscle Function? MASSETER • 16 normals • Chewing Gum • Working Mm Vs non-working Mm • The amplitudes of the contractions are significantly different above 20 – 30 % of the maximum level • Max difference = 140%

  16. What about Muscle Function? Note: Graph colors yellow and cyan, the muscle levels are significantly different

  17. Mastication Sweep(Asymptomatic “Normal” Subject – right side) Initial Recording of Chewing Gum – Right Side Note: The even, consistently uniform pattern

  18. Mastication Sweep - Zoom(Asymptomatic Subject – right side) Note the consistency again

  19. Mastication Sweep & ACP(Asymptomatic Subject – right side – 15 cycles) See how closely the ACP matches normal

  20. EMG RMS Sweep(Asymptomatic Subject – right side – same 15 cycles) Zoom View of Cycle 2

  21. Mastication Sweep & ACC(Asymptomatic Subject – right side – same 15 cycles)

  22. Average Chewing Cycle(Normal Pattern – Right Side – 15 cycles)

  23. Average Chewing Cycle(Normal Pattern – Left Side – 15 cycles)

  24. Average Chewing Cycle(Normal Patterns – Left & Right Sides – 15 cycles) Note: The pattern for left mastication is the inverse of right mastication pattern.

  25. Non-normal Chewing Cycle(Abnormal Subject – Left Side – 11 cycles) Left Side Chewing F2 ACP = R-DDR Note: R-DDR = Right Displaced Disk with Reduction

  26. Non-normal Chewing Cycle(Abnormal Subject – Left Side – same 11 cycles) Left Side Chewing F2 ACP R-DDR Weak Muscle Function Note: There is very weak muscle activity shown in the Zoomed View

  27. Non-normal Chewing Cycle(Abnormal Subject – Left Side – same 11 cycles) Left Side Chewing F2 ACP R-DDR Weak Muscle Function Weak ACC Note: The Average Chewing Cycle (ACC) muscle pattern is temporalis dominant and weak overall. This is evidence of an accommodative dysfunction in centric.

  28. Appliance - Chewing Cycle(More normal result – Left Side – 12 cycles) Left Side Chewing No F2 ACP Note: This is the same patient with a full coverage lower appliance. Occlusal morphology is lacking, but right TM Joint function is improved.

  29. Appliance - Chewing Cycle(More normal result – Left Side – 12 cycles) Left Side Chewing No F2 ACP Strong Muscle Function Note: Minutes later, three times stronger function. Activity is less temporalis dominant, but working masseter function is not completely restored yet.

  30. Appliance - Chewing Cycle(More normal result – Left Side – 12 cycles) Left Side No F2 ACP Strong Muscle Function Strong ACC Note: Nearly normal activity distribution on the appliance. Working (left) masseter and temporalis levels are approximately reversed. Non-working temporalis is low.

  31. ACC Without Vs With Appliance (More normal result – Left Side – 12 cycles) Dramatic improvement in muscle function with the addition of an occlusal appliance Note: Intercuspal Chewing Left side Chewing on appliance (1 minute later)

  32. ACP Without Vs With Appliance (More normal result – Left Side – 12 cycles) Dramatic improvement in the Consistency Note: Quantitative differences between chewing in ICP and on an Appliance

  33. X-Y Without Vs With Appliance (More normal result – Left Side – 12 cycles) Note: Changes in the movement pattern are not as dramatic as changes in muscle function

  34. ACC Without Vs With Appliance (More normal result – Left Side – 12 cycles) Dramatic improvement in the strength of the ACC pattern with an occlusal appliance Increase (100%) no difference decrease increase (300%) increase no change increase no change Working Mm and Ta closer Not perfect but better

  35. ACC Without Vs With Appliance (More normal result – Left Side – 12 cycles) Dramatic improvement in the strength of the ACC pattern with an occlusal appliance

  36. ACC Normal Vs With Appliance (More normal result – Left Side – 12 cycles) Normal ACC pattern Vs occlusal appliance (This could be a “sufficient” result, but room exists for improvement) Improved, but not perfect!

More Related