Intramuscular temperature differences between the mid-point and peripheral effective radiating area with ultrasound

. 2008 Jun 1;7(2):286-91.

eCollection 2008.

Intramuscular temperature differences between the mid-point and peripheral effective radiating area with ultrasound

Michale G Miller¹, Janae R Longoria, Christopher C Cheatham, Robert J Baker, Timothy J Michael

Affiliations

PMID: 24149462
PMCID: PMC3761457

Intramuscular temperature differences between the mid-point and peripheral effective radiating area with ultrasound

Michale G Miller et al. J Sports Sci Med. 2008.

. 2008 Jun 1;7(2):286-91.

eCollection 2008.

Authors

Michale G Miller¹, Janae R Longoria, Christopher C Cheatham, Robert J Baker, Timothy J Michael

Affiliation

¹ Department of HPER, Western Michigan University, Kalamazoo, MI, USA.

PMID: 24149462
PMCID: PMC3761457

Abstract

The purpose of the study was to determine whether uniform intramuscular heating is achieved throughout a treatment area 2 times the transducer head at both 1 and 3 MHz. Seven male and three female subjects (Age: 23.6 ± 1.0 yrs, Weight: 83.8 ± 23.2 kg, Site Skinfold: 13.9 ± 7.3 mm) underwent two ultrasound treatments (1 and 3 MHz) in the triceps surae muscle group. Thermocouples were inserted at the midpoint and periphery of the treatment area. Ten minute baseline temperatures were recorded followed by a ten minute ultrasound treatment. Two (site) X 10 (time) repeated measures ANOVAs were separately used to determine significance for 1 and 3 MHz treatments. Post-hoc testing was performed using the Bonferroni adjustment. A significant site-by-time interaction was observed for both the 1 and 3 MHz treatments. From baseline to the end of the treatment, temperature increased approximately 2.62°C and 1.58°C for the midpoint and periphery of the 1 MHz treatment and 5.88°C and 3.64°C for the 3 MHz treatment. The differences in temperature suggest that uniform heating does not occur throughout the treatment area. Key points3 MHz is more effective in raising intramuscular temperature within ERA.Stroke count/rate of transducer may play a factor in heating tissue.Treatment size may alter uniform heating.

Keywords: Tissue; acoustical.; thermal effects.

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Figures

**Figure 1.**
Customized template for measuring depth on the triceps surae muscle group.

**Figure 2.**
Outline of treatment area template and markings for probe insertions on the triceps surae.

**Figure 3.**
**The response in temperature at the midpoint and the periphery during 1 MHz ultrasound treatment (M ± SD).** * denotes significant difference between midpoint and periphery at the respective time point, p < 0.0045.

**Figure 4.**
**The response in temperature at the midpoint and the periphery during 3 MHz ultrasound treatment (M ± SD)** denotes significant difference between midpoint and periphery at the respective time point, p < 0.0045.

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Gutierrez MI, Lopez-Haro SA, Vera A, Leija L. Gutierrez MI, et al. Biomed Res Int. 2016;2016:5484735. doi: 10.1155/2016/5484735. Epub 2016 Nov 23. Biomed Res Int. 2016. PMID: 27999801 Free PMC article.

References

1. Almeida T.F., Roizenblatt S., Benedito-Silva A.A., Tufik S. (2003) The effect of combined therapy (ultrasound and interferential current) on pain and sleep fibromyalgia. Pain 104, 665-672 - PubMed
1. Ashton D.F., Draper D.O., Myrer J.W. (1998) Temperature rise in human muscle during ultrasound treatments using flex-all as a coupling agent. Journal of Athletic Training 33(2), 136-140 - PMC - PubMed
1. Bishop S., Draper D.O., Knight K.L., Feland J.B. (2004) Human tissue-temperature rise during ultrasound treatments with the aquaflex gel pad. Journal of Athletic Training 39(2), 126-131 - PMC - PubMed
1. Burr P.O., Demchak T.J., Cordova M.L., Ingersoll C.D., Stone M.B. (2004) Effects of altering intensity during 1-MHz ultrasound treatment on increasing triceps surae temperature. Journal of Sport Rehabilitation 13, 275-286
1. Byl N.N., McKenzie A., Wong T., West J., Hunt T.K. (1993) Incisional wound healing: A controlled study of low and high dose ultrasound. Journal of Orthopaedic Sports Physical Therapy 18(5), 619-628 - PubMed

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[1] Almeida T.F., Roizenblatt S., Benedito-Silva A.A., Tufik S. (2003) The effect of combined therapy (ultrasound and interferential current) on pain and sleep fibromyalgia. Pain 104, 665-672 - PubMed

[2] Almeida T.F., Roizenblatt S., Benedito-Silva A.A., Tufik S. (2003) The effect of combined therapy (ultrasound and interferential current) on pain and sleep fibromyalgia. Pain 104, 665-672 - PubMed

[3] Ashton D.F., Draper D.O., Myrer J.W. (1998) Temperature rise in human muscle during ultrasound treatments using flex-all as a coupling agent. Journal of Athletic Training 33(2), 136-140 - PMC - PubMed

[4] Ashton D.F., Draper D.O., Myrer J.W. (1998) Temperature rise in human muscle during ultrasound treatments using flex-all as a coupling agent. Journal of Athletic Training 33(2), 136-140 - PMC - PubMed

[5] Bishop S., Draper D.O., Knight K.L., Feland J.B. (2004) Human tissue-temperature rise during ultrasound treatments with the aquaflex gel pad. Journal of Athletic Training 39(2), 126-131 - PMC - PubMed

[6] Bishop S., Draper D.O., Knight K.L., Feland J.B. (2004) Human tissue-temperature rise during ultrasound treatments with the aquaflex gel pad. Journal of Athletic Training 39(2), 126-131 - PMC - PubMed

[7] Burr P.O., Demchak T.J., Cordova M.L., Ingersoll C.D., Stone M.B. (2004) Effects of altering intensity during 1-MHz ultrasound treatment on increasing triceps surae temperature. Journal of Sport Rehabilitation 13, 275-286

[8] Burr P.O., Demchak T.J., Cordova M.L., Ingersoll C.D., Stone M.B. (2004) Effects of altering intensity during 1-MHz ultrasound treatment on increasing triceps surae temperature. Journal of Sport Rehabilitation 13, 275-286

[9] Byl N.N., McKenzie A., Wong T., West J., Hunt T.K. (1993) Incisional wound healing: A controlled study of low and high dose ultrasound. Journal of Orthopaedic Sports Physical Therapy 18(5), 619-628 - PubMed

[10] Byl N.N., McKenzie A., Wong T., West J., Hunt T.K. (1993) Incisional wound healing: A controlled study of low and high dose ultrasound. Journal of Orthopaedic Sports Physical Therapy 18(5), 619-628 - PubMed

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Intramuscular temperature differences between the mid-point and peripheral effective radiating area with ultrasound

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Intramuscular temperature differences between the mid-point and peripheral effective radiating area with ultrasound

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