A randomized controlled preclinical trial on 3 interposal temporomandibular joint disc implants: TEMPOJIMS-Phase 2
- PMID: 34323386
- DOI: 10.1002/term.3230
A randomized controlled preclinical trial on 3 interposal temporomandibular joint disc implants: TEMPOJIMS-Phase 2
Abstract
The effort to develop an effective and safe temporomandibular joint (TMJ) disc substitute has been one of the mainstreams of tissue engineering. Biodegradable customized scaffolds could approach safety and effectiveness to regenerate a new autologous disc, rather than using non-biodegradable materials. However, it is still technically challenging to mimic the biomechanical properties of the native disc with biodegradable polymers. In this study, new 3D tailored TMJ disc implants were developed: (1) Poly(glycerol sebacate) (PGS) scaffold reinforced with electrospun Poly(εcaprolactone) (PCL) fibers on the outer surface (PGS+PCL); (2) PCL and polyethylene glycol diacrylate (PEGDA) (PCL+PEGDA); and (3) PCL. The TMJ implants were tested in a randomized preclinical trial, conducted in 24 black Merino sheep TMJ, perfoming bilateral interventions. Histologic, imaging, and kinematics analysis was performed. No statistical changes were observed between the PGS+PCL disc and the control group. The PCL+PEGDA and PCL groups were associated with statistical changes in histology (p = 0.004 for articular cartilage mid-layer; p = 0.019 for structure changes and p = 0.017 for cell shape changes), imaging (p = 0.027 for global appreciation) and dangerous material fragmentation was observed. No biomaterial particles were observed in the multi-organ analysis in the different groups. The sheep confirmed to be a relevant animal model for TMJ disc surgery and regenerative approaches. The PCL and PCL+PEGDA discs presented a higher risk to increase degenerative changes, due to material fragmentation. None of the tested discs regenerate a new autologous disc, however, PGS+PCL was safe, demonstrated rapid resorption, and was capable to prevent condyle degenerative changes.
Keywords: biomaterials; preclinical research; sheep; temporomandibular joint disc; temporomandibular joint disorders; tissue engineering.
© 2021 John Wiley & Sons Ltd.
References
REFERENCES
-
- Abramowicz, S., & Dolwick, M. F. (2010). 20-Year follow-up study of disc repositioning surgery for temporomandibular joint internal derangement. Journal of Oral and Maxillofacial Surgery, 68(2), 239-242. https://doi.org/10.1016/j.joms.2009.09.051
-
- Ahtiainen, K., Mauno, J., Ellä, V., Hagström, J., Lindqvist, C., Miettinen, S., Ylikomi, T., Kellomäki, M., & Seppänen, R. (2013). Autologous adipose stem cells and polylactide discs in the replacement of the rabbit temporomandibular joint disc. Journal of the Royal Society Interface/the Royal Society, 10(85), 20130287. https://doi.org/10.1098/rsif.2013.0287
-
- Alhadlaq, A., Elisseeff, J. H., Hong, L., Williams, C. G., Caplan, A. I., Sharma, B., Kopher, R. A., Tomkoria, S., Lennon, D. P., Lopez, A., & Mao, J. J. (2004). Adult stem cell driven genesis of human-shaped articular condyle. Annals of Biomedical Engineering, 32(7), 911-923. https://doi.org/10.1023/b:abme.0000032454.53116.ee
-
- Alonso, A., Kaimal, S., Look, J., Swift, J., Fricton, J., Myers, S., & Kehl, L. (2009). A quantitative evaluation of inflammatory cells in human temporomandibular joint tissues from patients with and without implants. Journal of Oral and Maxillofacial Surgery, 67(4), 788-796. https://doi.org/10.1016/j.joms.2008.09.010
-
- Ângelo, D. F., Gil, F. M., González-García, R., Mónico, L., Sousa, R., Neto, L., Caldeira, I., Moura, C., Francisco, L. C., Sanz, D., Alves, N., Salvado, F., & Morouço, P. (2018). Effects of bilateral discectomy and bilateral discopexy on black Merino sheep rumination kinematics: TEMPOJIMS-Phase 1-Pilot blinded, randomized preclinical study. Journal of Cranio-Maxillofacial Surgery, 46(2), 346-355. https://doi.org/10.1016/j.jcms.2017.11.022
Publication types
MeSH terms
Substances
Grants and funding
LinkOut - more resources
Full Text Sources
