Obesity Clinical Trial
Official title:
Ultrasonography of the Patellar Tendon and Achilles Tendon in Children Adolescent and Adults
The aim of the current study is to evaluate the Patellar tendon and Achilles tendon structures among children, adolescents and adults with different weight status. That in order to improve our understanding on the impact of acute and overused loads on tendon structure; and, in developing strategies to reduce tendon's injuries following physical exercises.
Studies showed that the probability of tendon abnormalities is higher in obese subjects
compared to normal weight peer. Adiposity has been recognized as a risk factor for
alterations in load- bearing tendons; and, different impact of loading exercises on tendon
structure has been reported for obese individuals compared to normal weight individuals. The
aim of the current study is to evaluate the Patellar tendon and Achilles tendon structures
among children, adolescents and adults with different weight status. That in order to improve
our understanding on the impact of acute and overused loads on tendon structure; and, in
developing strategies to reduce tendon's injuries following physical exercises.
Tendon structure would be evaluated with UTC-imaging ultrasound device. UTC imaging allows
for three-dimensional imaging of the tendon, semi- quantification of structure, and
calculation of tendon dimensions. The resultant UTC analysis quantify the tendon into four
echo types (I-IV) based on the stability of pixel brightness over contiguous images allowing
inferences to be made on the alignment of tendon bundles. Briefly, echo types I and II
correspond with relatively high stability in gray-scale pixel brightness over contiguous
images due to one resulting US signal transmission. These echo types correspond with aligned
fibrillar structure (AFS) within the tendon. Echo types III and IV are generated by multiple
signal transmission that interfere as a consequence of multiple interfaces. These echo types
represent a disorganized amorphous fibrillar structure that has non parallel fiber
arrangement. For this study, the relative percentage and (muscle cross section area (mCSA) of
these parameters were the main outcomes investigated. A linear-array US transducer
(SmartProbe, A 10- megahertz (MHz) linear-array transducer, USA) mounted within a customized
tracking device with motor drive and built-in acoustic stand off pad (UTC Tracker, UTC
Imaging, Netherlands) was placed on the skin, perpendicular to the long axis of the tendon
(Achilles or patellar), ensuring that the calcaneus or inferior pole of the patella was
visible. Coupling gel was applied between the transducer, standoff pad, and skin to ensure
maximum contact. Once a clear transverse image of the tendon and bony landmark was
established, the motor drive automatically moved the transducer over the length of the tendon
capturing a transverse grayscale US image every 0.2 mm over a distance of 12 cm. By
compounding these images, a gray-scale US image data block is rendered that allows the tendon
to be viewed in three planes: transverse, sagittal, and coronal (UTC2010, UTC Imaging). From
this data block, each tendon was classified as either normal or pathological.
Each participant would be measured at both Achilles tendons and both Patellar tendons (total
time 10min) while prone position (for the Achilles tendon) and in sitting position (for
Patellar tendon). Each screening is for 45sec.
- Participants in different ages and different weight status would be measured for tendon
structure
- Tendon structure would be evaluated following single and multiple (up to 12 weeks)
aerobic and anaerobic exercises.
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