Indian Journal of Radiology and Imaging Indian Journal of Radiology and Imaging

MUSCULOSKELETAL RADIOLOGY
Year
: 2011  |  Volume : 21  |  Issue : 4  |  Page : 267--269

Technical note: Real-time sonoelastography evaluation of achilles tendon


Lalitha Palle1, MCH Balaji Reddy1, K Jagannath Reddy1, M Vijaya Kumari2,  
1 Department of Radiology, Focus Diagnostics, Hyderabad, Andhra Pradesh, India
2 Department of Radiology, Osmania General Hospital, Hyderabad, Andhra Pradesh, India

Correspondence Address:
Lalitha Palle
Department of Radiology, Focus Diagnostics, Dwarakapuri Colony, Punjagutta, Hyderabad- 500 082, Andhra Pradesh
India

Abstract

Sonoelastography (SE) is a new USG-based technique that is being used to assess the elasticity and pliability of various tissues and lesions. We evaluated normal and abnormal Achilles tendons and correlated SE findings with those of high-resolution USG. This article briefly discusses the principle and technique of sonoelastography and the variations in elasticity and pliability between normal and abnormal Achilles tendons.



How to cite this article:
Palle L, Reddy MB, Reddy K J, Kumari M V. Technical note: Real-time sonoelastography evaluation of achilles tendon.Indian J Radiol Imaging 2011;21:267-269


How to cite this URL:
Palle L, Reddy MB, Reddy K J, Kumari M V. Technical note: Real-time sonoelastography evaluation of achilles tendon. Indian J Radiol Imaging [serial online] 2011 [cited 2021 Feb 28 ];21:267-269
Available from: https://www.ijri.org/text.asp?2011/21/4/267/90685


Full Text

 Introduction



Sonoelastography (SE) is a new imaging technique that provides information on the elastic properties and stiffness of tissues. SE was first described by Ophir et al. in 1991. [1] Elasticity or hardness of tissue is the physical and mechanical property that prevents displacement when pressure is applied on it. [2] This inherent property varies between different tissues in the body and in the same tissue in different pathologies. [2] SE has shown promising results in the evaluation of the breast, [3] thyroid, [4] prostate, [5] and lymph nodes. [2]

There are a few publications regarding the applications of SE in the musculoskeletal system. [6],[7],[8] In this article we aim to discuss our experience with SE of the Achilles tendon in healthy adults, in the asymptomatic geriatric population, and in geriatric patients with achillodynia; we discuss the differences between the elasticity/stiffness of the tendon in these three groups.

 Sonoelastography Principle



SE is based on the principle that structures/lesions deform according to their molecular makeup and consistency when external pressure is applied on them. Free-hand real-time SE can be performed for superficial accessible structures and lesions that are amenable to compression by an ultrasound probe. In general, structures with a soft consistency show a slight deformation when pressed with the probe. The amount of deformation can be automatically computed by specialized software, which displays the information on the monitor as a color-coded image superimposed on the B-mode image. Hard structures that show no significant deformation on application of pressure are represented in shades of blue, while soft deformable structures are represented in shades of red. Structures with intermediate firmness/consistency are represented with green color. During SE, in order to prevent artifacts, care must be taken to apply minimal, uniform, and repetitive free-hand pressure on the structure in a direction perpendicular to its long axis. No strain ratios or quantification methods have been described as yet for musculoskeletal SE, unlike for breast SE where a few vendors provide quantification methods of strain/deformability calculations.

 Sonoelastography Technique



For evaluation of the Achilles tendon, the patient is placed in the prone position with the leg hanging from the edge of the bed. We perform ultrasound and SE with an elastography-compatible linear probe of 10-12 MHz frequency (Voluson E8® ; GE Healthcare Technologies, Milwaukee, WI, USA). The probe is held perpendicular to the tendon to avoid anisotropy. The tendon is first assessed on B-mode ultrasound for bulk, echotexture, and other changes that may be present. A real-time SE is then performed by applying mild, repetitive, uniform manual pressure on the distal one-third of the Achilles tendon. Care is taken to avoid tissue shifting or application of lateral pressure as this can produce color artifacts. The adequacy of the compression is standardized with the help of a graph that appears on the right side of the bottom of the screen. This graph depicts the amount and the uniformity of the pressure applied. The quality of the image and the adequacy of color pickup are standardized with the help of a color bar that appears on the left side of the screen. The same color scale is used in all patients. Artifactual color depiction in the image is identified with the help of this scale and images that have such artifacts are discarded. SE is performed in both the transverse and the longitudinal planes. SE information is obtained as a color-coded image overlaid on the B-mode image. Red represents areas of relative softness, green indicates areas of firmness/intermediate consistency, and blue represents hard areas.

 Findings



Normal Achilles tendons with a normal B-mode appearance (i.e., uniform fibrillar appearance, with normal bulk and echotexture) show predominant blue color on the SE, indicating the hard nature/consistency of normal young tendons [Figure 1]. Small variable patches of green color may also be seen in normal tendons. Achilles tendons in the asymptomatic geriatric population appear mildly bulky on the B-mode (an age-related change) and may show early changes of tendinosis. On the SE these tendons reveal a predominantly green color, with small variable patches of either blue or red; this indicates a predominantly firm consistency [Figure 2] and [Figure 3]. Patients with frank clinical and B-mode ultrasound features of Achilles tendinitis (i.e., bulky tendon, with hypoechoic texture and loss of the fibrillary pattern on B-mode ultrasound) reveal predominantly red color on the SE; this indicates a soft tendon, with loss of the normal hard/firm consistency [Figure 4].{Figure 1}{Figure 2}{Figure 3}{Figure 4}

De Zordo et al., evaluated 80 asymptomatic Achilles tendons in volunteers and reported that 86.7% of the tendons had a hard structured pattern, with predominant blue color on SE. [6] Our findings are consistent with the findings of De Zordo et al.

 Conclusion



Real-time SE provides useful information regarding the consistency of the tendons and can supplement the information obtained on B-mode ultrasound. Given the fact that SE can differentiate between normal and abnormal tendons, further work is required to assess its efficacy and usefulness in the management of such patients, using randomized control trials.

 Acknowledgment



My heartfelt sincere thanks Dr. M. Ch. Balaji Reddy, Dr. K. Srinivas, all my colleagues, technicians and staff at Focus Diagnostics for their constant support, trust and encouragement for all my academic endeavors. Your contributions to my career will always be remembered.

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