The quantification of the muscular tissue reaction to implanted biomaterials

Unwanted tissue reactions are often observed resulting in events such as early resorption of the biomaterial, loosening of the implant, or a chronic (immunologic) response. From immunologic studies it is known that inflammatory reactions can be modulated by use of (anti)-growth factors or anti-infla

To evaluate soft tissue reactions and biofilm formation on percutaneous external fixator screws coated with diamond-like carbon (DLC) and hydroxyapatite (HA) coatings on stainless-steel (SS) pins in an ovine loaded osteotomy model, an Orthofix external fixator was used to stabilize a 3-mm tibial mid

Biomaterials are increasingly used for clinical applications. However, loss of function may occur owing to tissue reactions, which are mainly caused by a variety of inflammatory reactions. Recently, we demonstrated that macrophages (MO) and T cells play key roles in these reactions. Since immunologi

We examined the tissue reaction to three alumina implants-single-crystal alumina (SA), dense polycrystal alumina (DPA), and porous polycrystal alumina (PPA)-inserted transcortically, extending into the medullary canal of rat tibiae, and assessed the quantitative differences in bone reaction using an

## SEVEN FIGURES It is established that cortisone and hydrocortisone may prevent inflammation but their precise mode of action remains unknown. Therefore, it is desirable to examine the histological modifications which these hormones elicit in connective tissue under varied experimental conditions.