1. Drilling Energy Correlates With Screw Insertion Torque, Screw Compression, and Pullout Strength: A Cadaver Study
- Author
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Michael J. Gardner, Michael J Chen, Hunter W Storaci, Timothy Thio, and Malcolm R. DeBaun
- Subjects
musculoskeletal diseases ,Bone mineral ,Orthodontics ,030222 orthopedics ,Drill ,business.industry ,education ,Drilling ,030229 sport sciences ,Pullout strength ,musculoskeletal system ,equipment and supplies ,Compression (physics) ,03 medical and health sciences ,0302 clinical medicine ,medicine.anatomical_structure ,Cadaver ,otorhinolaryngologic diseases ,medicine ,Orthopedics and Sports Medicine ,Surgery ,Cortical bone ,business ,Energy (signal processing) - Abstract
INTRODUCTION To determine whether drilling energy correlates with bone mineral density (BMD), maximum insertion torque (MIT), maximum screw compression, and pullout strength (POS). METHODS Ten cadaver tibias were used for testing. Unicortical pilot holes were drilled and the drilling energy measured. Drill site bone quality was determined with microcomputed tomography. Drill holes were randomly assigned to POS or MIT testing using 3.5-mm cortical screws engaging only the near cortex. Pearson correlation coefficients were calculated to determine the relationship between drilling energy, BMD, POS, MIT, and maximum screw compression. RESULTS Drilling energy was correlated with BMD (P < 0.001). Compared with BMD, drilling energy had a better correlation with MIT, maximum screw compression, and POS. Maximum screw compression also correlated with MIT (P = 0.012). CONCLUSIONS Drilling energy better correlates with MIT, maximum screw compression, and POS compared with BMD in cadaver cortical bone. Dynamically measuring drilling energy may help inform the orthopaedic surgeon as to the quality of the bone before insertion of implants.
- Published
- 2020
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