Abstract
Shockwave therapy is a noninvasive treatment technique used in multidisciplinary fields, such as sports medicine, physical therapy, and orthopedics. This method of treatment is recommended for medical conditions, such as muscle contractions, intramuscular hematoma, or Dupuytren’s contracture. The shockwaves are high-energy pressure waves characterized by nonlinearity, high frequency, and peak pressure followed by low-pressure amplitude which are transmitted through an applicator to the affected tissue. In the case of spinal muscles, the conventional applicator can only be used on one side of the spinal cord at a time. Taking this into consideration, the approach suggested in this paper involves the design of a dedicated dual-tip applicator. This process implied predesign, finite element analysis, statistical analysis of the data, and optimization. We analyzed the input factors, such as frequency, pressure, applicator tip distance, shape, flatness, and material along with their effects, namely induced stress, tissue contact pressure, total strain energy, and propagation velocity. The proposed final design of the applicator uses geometric features suggested by the optimization analysis and also mechanical design features.
Highlights
The effect of shockwaves on human tissue was first observed during World War II for severe lung crackles in people exposed to the detonation of bombs in water as the shockwaves transmit high amounts of energy [1]
The first one refers to the numeric values obtained from the finite element analysis (FEA) and the second one refers to the data obtained from the statistical analysis
We considered that for optimizing the tip distance, the maximum values for both input factor and responses had to be taken into consideration
Summary
The effect of shockwaves on human tissue was first observed during World War II for severe lung crackles in people exposed to the detonation of bombs in water as the shockwaves transmit high amounts of energy [1]. The transfer of this effect to a medical application has involved years of testing and research. Numerous investigations in sport-related injuries [6], knee osteoarthritis, upper limb diseases, treatment of plantar fasciitis, erectile dysfunction [4,7,8,9], musculoskeletal conditions, bone consolidation [10,11,12], human myofascial
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