Litcius/Paper detail

IGF‐1 TMJ injections enhance mandibular growth and bone quality in juvenile rats

S. K. Joshi, Nan Hatch, Takayuki Hayami, Andrew H. Jheon, Sunil Kapila

2021Orthodontics and Craniofacial Research16 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Dentofacial orthopaedic treatment of mandibular hypoplasia has unpredictable skeletal outcomes. Although several biomodulators including insulin-like growth factor 1 (IGF-1) are known to contribute to chondrocyte proliferation, their efficacy in modulating mandibular growth has not been validated. The aim of this study was to determine the effect of locally delivered IGF-1 on mandibular growth and condylar bone quality/quantity in juvenile rats. SETTING AND SAMPLE POPULATION: Institutional vivarium using twenty-four 35-day-old male Sprague-Dawley rats. METHODS: PBS or 40 µg/kg (low-dose) IGF-1 or 80 µg/kg (high-dose) IGF-1 was injected bilaterally into the temporomandibular joints of the rats at weekly intervals for four weeks. Cephalometric and micro-computed tomography measurements were used to determine mandibular dimensions. Bone and tissue mineral density, volume fraction and mineral content were determined, and serum IGF-1 concentrations assayed. RESULTS: Intra-articular administration of high-dose IGF-1 contributed to a significant 6%-12% increase in mandibular body and condylar length compared to control and low-dose IGF-1-treated animals. Additionally, IGF-1 treatment resulted in a significant decrease in the angulation of the lower incisors to mandibular plane. Condylar bone volume, bone volume fraction, mineral content and mineral density were significantly increased with high-dose IGF-1 relative to control and low-dose IGF-1 groups. Serum IGF-1 levels were similar between all groups confirming limited systemic exposure to the locally administered IGF-1. CONCLUSION: Local administration of high-dose 80 µg/kg IGF-1 enhances mandibular growth and condylar bone quality and quantity in growing rats. The findings have implications for modulating mandibular growth and potentially enhancing condylar bone health and integrity.

Topics & Concepts

CondyleMedicineInsulin-like growth factorBone mineralJuvenileTemporomandibular jointX-ray microtomographyInternal medicinePopulationEndocrinologyDentistryGrowth factorOrthodonticsBiologyOsteoporosisGeneticsReceptorEnvironmental healthRadiologyTemporomandibular Joint DisordersCraniofacial Disorders and TreatmentsFacial Trauma and Fracture Management