Your search keyword '"Randi Rotne"' showing total 3 results

1. The investigation of bone fracture healing under intramembranous and endochondral ossification

Author

Lihai Zhang, Glenn A. Edwards, Smriti Ghimire, Peter R. Ebeling, Randi Rotne, Saeed Miramini, and Jiake Xu

Subjects

Mechano-regulation, Titanium, Bone union, Chemistry, Callus formation, Endocrinology, Diabetes and Metabolism, Hill function, Endochondral ossification, Diseases of the musculoskeletal system, Bone healing, Anatomy, Article, RC925-935, Intramembranous ossification, Orthopedics and Sports Medicine, Locking compression plate, Tibia, Bone fracture healing, Fixation (histology)

Abstract

After trauma, fractured bone starts healing directly through bone union or indirectly through callus formation process. Intramembranous and endochondral ossification are two commonly known mechanisms of indirect healing. The present study investigated the bone fracture healing under intramembranous and endochondral ossification by developing theoretical models in conjunction with performing a series of animal experiments. Using experimentally determined mean bone densities in sheep tibia stabilized by the Locking Compression Plate (LCP) fixation system, the research outcomes showed that intramembranous and endochondral ossification can be described by Hill Function with two unique sets of function parameters in mechanical stimuli mediated fracture healing. Two different thresholds exist within the range of mechanical simulation index which could trigger significant intramembranous and endochondral ossification, with a relatively higher bone formation rate of endochondral ossification than that of intramembranous ossification. Furthermore, the increase of flexibility of the LCP system and the use of titanium LCP could potentially promote uniform bone formation across the fracture gap, ultimately better healing outcomes.

Published

2021

2. Influence of plate–bone contact on cyclically loaded conically coupled locking plate failure

Author

Navneet K. Dhand, Nicky Bertollo, Kenneth A. Johnson, K. Voss, Randi Rotne, and William R. Walsh

Subjects

Male, Compressive Strength, Bone Screws, Locking plate, Bone contact, Fracture Fixation, Internal, Dogs, Cadaver, Tensile Strength, Animals, Coupling (piping), Medicine, Femur, Composite material, General Environmental Science, business.industry, Conical surface, Biomechanical Phenomena, Equipment Failure Analysis, Mechanism (engineering), Cantilever bending, Torque, Fracture (geology), General Earth and Planetary Sciences, Stress, Mechanical, business, Bone Plates

Abstract

The maintenance of friction between locking plates and bone is not essential, so that they can be applied with a gap between the plate and underlying bone. We hypothesised that the presence of a gap under a locking plate with a conical coupling mechanism would reduce fixation stability or allow uncoupling of the locking screws from the plate.Locking plates with two conically coupled locking screws were applied to 6 pairs of adult canine femora. One of each pair had plate to bone contact and the contralateral construct had a 2 mm plate to bone gap. Constructs were cyclically loaded in cantilever bending with 10 percent incremental increases every 1000 cycles at 2 Hz, starting at 250 N. The constructs were fatigued to failure. To evaluate fatigue life of the conical coupling, testing was repeated with aluminium tubing replacing the bone, to eliminate screw-bone cutout failure.The mean sustained loads and cycles to failure in the contact group (420.80, standard error [SE] 14.97 N; 7612.00, SE 574.70 cycles) were significantly greater than in the gap group (337.50, SE 14.97 N; 4252.00, SE 574.70 cycles), (p0.001). Failure mode of all bone constructs was via screw cutout from the bone. Aluminium tubing constructs failed via screw or plate fatigue and breaking, with one construct having elevation of the plate over the screw head.Elevation of locking plates with a conical coupling system by 2 mm from the bone reduced construct fatigue life but did not result in screw head uncoupling from the plate.

Published

2014

3. Corrigendum to 'Influence of plate–bone contact on cyclically loaded conically coupled locking plate failure' [Injury 45(3) (2014) 515–521]

Author

Nicky Bertollo, Navneet K. Dhand, Keith A. Johnson, Randi Rotne, William R. Walsh, and K. Voss

Subjects

Bone contact, business.industry, General Earth and Planetary Sciences, Medicine, Composite material, business, General Environmental Science, Locking plate

Published

2014