The relationship between the pH value of a hydration solution and the biomechanical properties of Crosado-embalmed human iliotibial bands

Steel, S.; Pearcy, Q.; Li, K. C.; Scholze, M.; Zwirner, J.

doi:10.1016/j.jmbbm.2022.105266

The relationship between the pH value of a hydration solution and the biomechanical properties of Crosado-embalmed human iliotibial bands (bibtex)

by S. Steel, Q. Pearcy, K. C. Li, M. Scholze, J. Zwirner

Abstract:

Determining the biomechanical properties of human tissues commonly involves the immersion or spraying of the tissues to maintain them in a hydrated state. However, the influence of the pH value of these solutions on the biomechanical properties of the tissues is not well understood. This study investigated the effects of the pH value on the biomechanical properties of the collagen-rich human iliotibial band (ITB). A total of 124 samples were allocated to polyethylene glycol (PEG) solutions of pH values between 3 and 13 for 24 h, which is a frequently used immersion time prior to biomechanical tests. After this, the samples were biomechanically tested in a uniaxial tensile testing setup using an established testing routine. Similarly, 69 samples were allocated to pH groups of 6, 7 and 8 and biomechanically tested after 1, 2 and 3 weeks. The cross-sectional area of all samples was determined after immersion into the PEG solutions for the specified time frames. In the 24-h experiment, the elastic modulus (pH 12: p ≤ 0.045; pH 13: p ≤ 0.020) and the ultimate tensile strength (pH 12: p ≤ 0.031; pH 13: p ≤ 0.026) of the pH groups 12 and 13 were significantly lower and their cross-sectional areas were higher (pH 12: p ≤ 0.005; pH 13: p ≤ 0.003) compared to several groups of acidic to alkaline pH values. There was no difference in the maximum forces between the different groups within a 24-h immersion time (p > 0.999). In the 3-week-test, a decrease of the ultimate tensile strength was noted between the 24-h and 3 week values for the pH groups 7 (p = 0.034) and 8 (p = 0.029). It is concluded that pH-dependent tissue swelling influences the cross-sectional area-dependent biomechanical properties of the human ITB. Therefore, the pH value of storage and hydration solutions for the preparation of biomechanical tests should be recorded. From a biomechanical perspective, the collagen stability of the human ITB is largely unaltered in PEG solutions with pH values between 3 and 13 over 24 h.

Reference:

Steel, S., Pearcy, Q., Li, K. C., Scholze, M., Zwirner, J.: The relationship between the pH value of a hydration solution and the biomechanical properties of Crosado-embalmed human iliotibial bands, Journal of the Mechanical Behavior of Biomedical Materials 132, 105266, 2022.

Bibtex Entry:

@Article{Steel_2022,
  author    = {Steel, S. and Pearcy, Q. and Li, K. C. and Scholze, M. and Zwirner, J.},
  journal   = {Journal of the Mechanical Behavior of Biomedical Materials},
  title     = {The relationship between the pH value of a hydration solution and the biomechanical properties of Crosado-embalmed human iliotibial bands},
  year      = {2022},
  month     = aug,
  pages     = {105266},
  volume    = {132},
  abstract  = {Determining the biomechanical properties of human tissues commonly involves the immersion or spraying of the tissues to maintain them in a hydrated state. However, the influence of the pH value of these solutions on the biomechanical properties of the tissues is not well understood. This study investigated the effects of the pH value on the biomechanical properties of the collagen-rich human iliotibial band (ITB). A total of 124 samples were allocated to polyethylene glycol (PEG) solutions of pH values between 3 and 13 for 24 h, which is a frequently used immersion time prior to biomechanical tests. After this, the samples were biomechanically tested in a uniaxial tensile testing setup using an established testing routine. Similarly, 69 samples were allocated to pH groups of 6, 7 and 8 and biomechanically tested after 1, 2 and 3 weeks. The cross-sectional area of all samples was determined after immersion into the PEG solutions for the specified time frames. In the 24-h experiment, the elastic modulus (pH 12: p ≤ 0.045; pH 13: p ≤ 0.020) and the ultimate tensile strength (pH 12: p ≤ 0.031; pH 13: p ≤ 0.026) of the pH groups 12 and 13 were significantly lower and their cross-sectional areas were higher (pH 12: p ≤ 0.005; pH 13: p ≤ 0.003) compared to several groups of acidic to alkaline pH values. There was no difference in the maximum forces between the different groups within a 24-h immersion time (p > 0.999). In the 3-week-test, a decrease of the ultimate tensile strength was noted between the 24-h and 3 week values for the pH groups 7 (p = 0.034) and 8 (p = 0.029). It is concluded that pH-dependent tissue swelling influences the cross-sectional area-dependent biomechanical properties of the human ITB. Therefore, the pH value of storage and hydration solutions for the preparation of biomechanical tests should be recorded. From a biomechanical perspective, the collagen stability of the human ITB is largely unaltered in PEG solutions with pH values between 3 and 13 over 24 h.},
  doi       = {10.1016/j.jmbbm.2022.105266},
  publisher = {Elsevier {BV}},
}