Diego Turo1, Paul Otto1, Murad Hossain1, Tadesse Gebreab1, Katherine Armstrong1, William F Rosenberger1, Hui Shao1, Jay P Shah1, Lynn H Gerber1, Siddhartha Sikdar2. 1. Departments of Bioengineering (D.T., T.G., S.S.), Electrical and Computer Engineering (P.O., M.H.), and Statistics (W.F.R., H.S.) and Center for the Study of Chronic Illness and Disability (K.A., L.H.G.), George Mason University, Fairfax, Virginia USA; and Department of Rehabilitation Medicine, National Institutes of Health, Bethesda, Maryland USA (J.P.S.). 2. Departments of Bioengineering (D.T., T.G., S.S.), Electrical and Computer Engineering (P.O., M.H.), and Statistics (W.F.R., H.S.) and Center for the Study of Chronic Illness and Disability (K.A., L.H.G.), George Mason University, Fairfax, Virginia USA; and Department of Rehabilitation Medicine, National Institutes of Health, Bethesda, Maryland USA (J.P.S.). ssikdar@gmu.edu.
Abstract
OBJECTIVES: To compare a mechanical heterogeneity index derived from ultrasound vibration elastography with physical findings before and after dry-needling treatment of spontaneously painful active myofascial trigger points in the upper trapezius muscle. METHODS: Forty-eight patients with chronic myofascial pain enrolled in a prospective interventional trial of 3 weekly dry-needling treatments for active myofascial trigger points. Trigger points were evaluated at baseline and at treatment completion using palpation, the pressure-pain threshold, and the mechanical heterogeneity index. Thirty patients were reevaluated at 8 weeks. Trigger points that "responded" changed to tissue that was no longer spontaneously painful, with or without the presence of a palpable nodule. Trigger points that "resolved" changed to tissue without a palpable nodule. The mechanical heterogeneity index was defined as the proportion of the upper trapezius muscle that appeared mechanically stiffer on elastography. Statistical significance for comparisons was determined at P < .05. RESULTS: Following 3 dry needle treatments, the mechanical heterogeneity index decreased significantly for the 38 myofascial trigger points (79% of 48) that responded to treatment. Among these, the baseline mechanical heterogeneity index was significantly lower for the 13 trigger points (27% of 38) that resolved, but the decrease after 3 dry needle treatments did not reach significance. The pressure-pain threshold improved significantly for both groups. At 8 weeks, the mechanical heterogeneity index decreased significantly for the 22 trigger points (73% of 30) that responded and for the 10 (45% of 22) that resolved. The pressure-pain threshold improvement was significant for trigger points that responded but did not reach significance for resolved trigger points. CONCLUSIONS: The mechanical heterogeneity index identifies changes in muscle tissue properties that correlate with changes in the myofascial trigger point status after dry needling.
OBJECTIVES: To compare a mechanical heterogeneity index derived from ultrasound vibration elastography with physical findings before and after dry-needling treatment of spontaneously painful active myofascial trigger points in the upper trapezius muscle. METHODS: Forty-eight patients with chronic myofascial pain enrolled in a prospective interventional trial of 3 weekly dry-needling treatments for active myofascial trigger points. Trigger points were evaluated at baseline and at treatment completion using palpation, the pressure-pain threshold, and the mechanical heterogeneity index. Thirty patients were reevaluated at 8 weeks. Trigger points that "responded" changed to tissue that was no longer spontaneously painful, with or without the presence of a palpable nodule. Trigger points that "resolved" changed to tissue without a palpable nodule. The mechanical heterogeneity index was defined as the proportion of the upper trapezius muscle that appeared mechanically stiffer on elastography. Statistical significance for comparisons was determined at P < .05. RESULTS: Following 3 dry needle treatments, the mechanical heterogeneity index decreased significantly for the 38 myofascial trigger points (79% of 48) that responded to treatment. Among these, the baseline mechanical heterogeneity index was significantly lower for the 13 trigger points (27% of 38) that resolved, but the decrease after 3 dry needle treatments did not reach significance. The pressure-pain threshold improved significantly for both groups. At 8 weeks, the mechanical heterogeneity index decreased significantly for the 22 trigger points (73% of 30) that responded and for the 10 (45% of 22) that resolved. The pressure-pain threshold improvement was significant for trigger points that responded but did not reach significance for resolved trigger points. CONCLUSIONS: The mechanical heterogeneity index identifies changes in muscle tissue properties that correlate with changes in the myofascial trigger point status after dry needling.
Authors: Lynn H Gerber; Jay Shah; William Rosenberger; Kathryn Armstrong; Diego Turo; Paul Otto; Juliana Heimur; Nikki Thaker; Siddhartha Sikdar Journal: PM R Date: 2015-02-04 Impact factor: 2.298
Authors: Jeffrey J Ballyns; Diego Turo; Paul Otto; Jay P Shah; Jennifer Hammond; Tadesse Gebreab; Lynn H Gerber; Siddhartha Sikdar Journal: J Ultrasound Med Date: 2012-08 Impact factor: 2.153
Authors: Luca Maria Sconfienza; Domenico Albano; Georgina Allen; Alberto Bazzocchi; Bianca Bignotti; Vito Chianca; Fernando Facal de Castro; Elena E Drakonaki; Elena Gallardo; Jan Gielen; Andrea Sabine Klauser; Carlo Martinoli; Giovanni Mauri; Eugene McNally; Carmelo Messina; Rebeca Mirón Mombiela; Davide Orlandi; Athena Plagou; Magdalena Posadzy; Rosa de la Puente; Monique Reijnierse; Federica Rossi; Saulius Rutkauskas; Ziga Snoj; Jelena Vucetic; David Wilson; Alberto Stefano Tagliafico Journal: Eur Radiol Date: 2018-06-06 Impact factor: 5.315
Authors: Lynn H Gerber; Siddhartha Sikdar; Jacqueline V Aredo; Katee Armstrong; William F Rosenberger; Hui Shao; Jay P Shah Journal: PM R Date: 2016-06-11 Impact factor: 2.298