Abstract
Disorders affecting the temporomandibular joint (TMJ) are a long-standing health concern. TMJ disorders (TMJD) are often associated with an internal disc derangement accompanied by a suite of symptoms including joint noises, jaw dysfunction, and severe pain. The severity of patient symptoms and their reoccurrence can be alleviated to some extent with conservative therapy; however, refractory cases often require surgery that has shown only limited success. Bioengineered scaffolds with cell supportive surfaces an d nanoarchitectures that mimic TMJ tissue structure may offer an alternative treatment modality. In this study, titanium dioxide (TiO2) nanothin films, fabricated by layer-by-layer assembly, were examined as means for creating such a scaffold. The viability and growth of TMJ discal fibrochondrocytes (FCs) were assessed through MTT and DNA assays and total protein content over a 14-day experimental period. ELISA was also used to measure expression of types I and II collagen, decorin and aggrecan. Quantitative analyses demonstrated that FCs synthesized characteristic discal matrix proteins, with an increased production of type I collagen and decorin as opposed to collagen type II and aggrecan. A stimulatory effect on discal FC proliferation and extracellular matrix (ECM) expression with thicker nanofilms was also observed. The cumulative results suggest that TiO2 nanofilms may have potential as a TMJ scaffolding material.
Highlights
The temporomandibular joint (TMJ) disc is an elastic fibrocartilagenous tissue located between the head of the mandibular condyle and the squamous portion of the temporal bone [1,2,3]
The current study describes the first successful attempt to grow TMJ discal fibrochondrocytes on TiO2 nanoparticle substrates prepared through LBL nanoassembly
Increasing TiO2 nanofilm thickness was examined as a means for enhancing cell adhesion and functionality
Summary
The temporomandibular joint (TMJ) disc is an elastic fibrocartilagenous tissue located between the head of the mandibular condyle and the squamous portion of the temporal bone [1,2,3]. Fibrochondrocytes and fibroblasts are the two cell types found within the disc [2,4,6,7]. Fibrochondrocytes predominate within the disc itself, and fibroblasts are more numerous in the attachment tissues and the junction of the disc with surrounding tissues [6,7,8]. The disc consists of an extensive extracellular matrix (ECM) with type I collagenous fiber bundles predominating [2,4,5,6]. Interspersed between the collagenous fiber bundles are elastic and type II collagen fibers and the proteoglycans aggrecan and decorin [1,2,7,8,9,10,11]
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