Excessive pronation motion during the stance phase of a gait cycle is frequently noted in adults with pronated foot, which has been believed to result in tibialis posterior tendon dysfunction due to repetitive microtrauma. The facts that poor shock absorption of the medial longitudinal arch during walking is found in patients with tibialis posterior tendon dysfunction and poor blood supply of the insulted tendon retards its healing process affect patients’ quality of life. Previous motion analysis or foot pressure studies showed that anti-pronation taping may control excessive pronation or decrease foot pressure on the medial area of the foot during the stance phase of a gait cycle in adults with pronated foot, but so far it is still lack of strong evidence due to no reliable direct measurements for this tendon. Recently, a newly invasive method, shear wave elastography, can measure the stiffness of tissues or organs in human bodies. If stiffness of a tissue presents significantly higher than its normal value, some pathological changes in this tissues can be noted. This research, therefore, used the shear wave elastography to measure the stiffness of the tibialis posterior tendon in order to compare the difference between adults with neutral and pronated foot and to investigate the effect of elastic anti-pronation taping on stiffness of the tibialis posterior tendon. The research was a prospective, convenience sampling, randomized-order, single-blinded, and pretest/ posttest design. There were 31 healthy adults recruited for the research, 17 adults with neutral foot and 14 with pronated foot, respectively. All participants received the elastic anti-pronation taping, and received three outcome measures, including stiffness of tibialis posterior tendon, foot posture index, and navicular drop test. To investigate the effect of taping, all variables were tested before and after the intervention. The shear wave elastographic measurement was performed at non-weight-bearing status that the body in side-lying position, non-taped weight-bearing status in standing position, and taped weight-bearing status in standing position. A 2 × 2 two-way mixed ANOVA measures was used to compare the differences before and after the intervention and the group effect. All statistical analyses were executed using SPSS version 20. The significant level was set at α=0.05 while the power was 0.8. The main results showed that: (1) there was no statistically significant difference in the stiffness of the tibialis posterior tendon between adults with pronated foot and those with neutral foot during stance, (2) the stiffness of the tibialis posterior tendon in the taped condition was lesser than that in the non-taped condition in adults with pronated foot. It demonstrated that elastic anti-pronation taping could change the foot type in adults with pronated foot through controlling the collapse of the arch and decreasing the stiffness of the tibialis posterior tendon. Again, the adults with neutral foot also presented similar effects, but did not show any changes in foot type. The excellent intra-rater reliability in measuring of the tibialis posterior tendon using shear wave elastography (ICC>0.75) was also establish in this research. The research quantified the changes of elastic anti-pronation taping in improving joint function, decreasing the stiffness of the tibialis posterior tendon. It can be used in clinical decision making in evidence-based practice.