AI Article Synopsis
- Around 30 million tendon injuries occur each year in the U.S., costing around $114 billion, with traditional treatments like dry needling showing inconsistent success.
- Focused ultrasound (fUS) therapy utilizes bubble dynamics through a process called histotripsy to try and break down tough collagenous tissues like tendons, which are typically resistant to such mechanical disruption.
- This study tested fUS on rat tendons and found that while bubbles were consistently created, not all samples sustained histological injury; successful disruption was most evident with specific pulse durations and treatment parameters, indicating potential for fUS in treating tendon injuries.
Article Abstract
Around 30 million tendon injuries occur annually in the U.S. costing $ 114 billion. Conservative therapies, like dry needling, promote healing in chronically injured tendons by inducing microdamage but have mixed success rates. Focused ultrasound (fUS) therapy can noninvasively fractionate tissues through the creation, oscillation, and collapse of bubbles in a process termed histotripsy; however, highly collagenous tissues, like tendon, have shown resistance to mechanical fractionation. This study histologically evaluates whether fUS mechanical disruption is achievable in tendons. Ex vivo rat tendons (45 Achilles and 44 supraspinatus) were exposed to 1.5-MHz fUS operating with 0.1-10 ms pulses repeated at 1-100 Hz for 15-60 s with peak positive pressures <89 MPa and peak negative pressures <26 MPa; other tendons were exposed to dry needling or sham. Immediately after treatment, tendons were flash-frozen and stained with hematoxylin and eosin (H&E) or alpha-nicotinamide adenine dinucleotide diaphorase ( α -NADH-d) and evaluated by two reviewers blinded to the exposure conditions. Results showed successful creation of bubbles for all fUS-treated samples; however, not all samples showed histological injury. When the injury was detected, parameter sets with shorter pulses (0.1-1 ms), lower acoustic pressures, or reduced treatment times showed mechanical disruption in the form of fiber separation and fraying with little to no thermal injury. Longer pulses or treatment times showed a combination of mechanical and thermal injury. These findings suggest that mechanical disruption is achievable in tendons within a small window of acoustic parameters, supporting the potential of fUS therapy in tendon treatment.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8547257 | PMC |
| http://dx.doi.org/10.1109/TUFFC.2021.3075375 | DOI Listing |
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