Tissue engineering (TE) has become a primary research topic for the treatment of diseased
or damaged tendon/ligament (T/L) tissue. T/L injuries pose a severe clinical burden …

Mimicking the native three-dimensional microenvironment is of crucial importance when
biofabricating a new healthcare material. One aspect of the native tissue that is often omitted …

Three-dimensional (3D) printing technology has become a popular tool to produce complex
structures. It has great potential in the regenerative medicine field to produce customizable …

Collagen forms one-third of the body proteome and has emerged as an important
biomaterial for tissue engineering and wound healing. Collagen films are used in tissue …

In this work, we investigate differences in the mechanical and structural properties of tendon
fascicle bundles dissected from different areas of bovine tendons. The properties of tendon …

Additive manufacturing technologies and their ability to produce customized items have
gained interest in different fields, such as in the design of personalized scaffolds for tissue …

Infraspinatus tendon is the most affected tendon of the rotator cuff, being an important
posterior component of the shoulder joint. Hyperlipidemia is a predisposing factor in the …

Rotator cuff injury is the leading cause of shoulder pain. Hyperlipidemia is responsible in
depositing lipids in tendons and reduce the healing upon injuries or tears. In this study, we …

The development of scaffolds for tissue-engineered growth of the anterior cruciate ligament
(ACL) is a promising approach to overcome the limitations of current solutions. This work …

Decellularized adipose tissue (DAT) is a promising biomaterial for adipose tissue
engineering. However, there is a lack of research of DAT prepared from xenogeneic porcine …