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

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).

Systematic review and meta-analysis of the biomechanical properties of the human dura mater applicable in computational human head models.

Accurate biomechanical properties of the human dura mater are required for computational models and to fabricate artificial substitutes for transplantation and surgical training purposes. Here, a systematic literature review was performed to summarize the biomechanical properties of the human dura mater that are reported in the literature. Furthermore, anthropometric data, information regarding the mechanically tested samples, and specifications with respect to the used mechanical testing setup were extracted.

Biomechanics of vascular areas of the human cranial dura mater.

Accurate biomechanical properties of the human cranial dura mater are paramount for computational head models, artificial graft developments and biomechanical basic research. Yet, it is unclear whether areas of the dura containing meningeal vessels biomechanically differ from avascular areas. Here, 244 dura mater samples with or without vessels from 32 cadavers were tested in a quasi-static uniaxial tensile testing setup.