Machining-induced thermal damage in cortical bone: Necrosis and micro-mechanical integrity

Bone cutting is a frequently used procedure in orthopaedic and neuro surgeries. Current research on bone cutting is concerned with the efforts to decrease the forces generated during cutting the bone as well as temperature to avoid mechanical and thermal damage (bone necrosis) induced by surgical tools. The paper presents results of finite-element simulations of conventional cutting (CC) and ultrasonically-assisted cutting (UAC) of bone in order to understand thermomechanics of the process. The study was aimed at investigating the levels of tool-penetration force and temperatures induced in the bone when a hard cutting tool penetrates into it in both types of cutting. The models allow the quantitative analysis of forces and temperatures produced during the cutting process. The use of UAC reduces the tool penetration force and temperature in the cutting region

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Reduction thermal damage to cortical bone using ultrasonically-assisted drilling

Technology and Health Care ◽

10.3233/thc-181245 ◽

2018 ◽

Vol 26 (5) ◽

pp. 843-856 ◽

Cited By ~ 4

Author(s):

Qingchun Zheng ◽

Lei Xia ◽

Xu Zhang ◽

Chunqiu Zhang ◽

Yahui Hu

Keyword(s):

Cortical Bone ◽

Thermal Damage

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Maxillary bone necrosis following the use of formaldehyde containing paste: Case report

Stomatoloski glasnik Srbije ◽

10.2298/sgs2003165r ◽

2020 ◽

Vol 67 (3) ◽

pp. 165-170

Author(s):

Igor Radovic ◽

Lado Davidovic ◽

Smiljka Cicmil ◽

Slavoljub Tomic ◽

Dragan Ivanovic ◽

...

Keyword(s):

Case Report ◽

Cortical Bone ◽

Local Anesthesia ◽

Root Canal ◽

Alveolar Bone ◽

Surgical Intervention ◽

Necrotic Bone ◽

Great Loss ◽

Maxillary Bone ◽

Bone Necrosis

Many of medicaments used historically in root canal treatment have been shown to be cytotoxic. Paraformaldehid agents (such as Toxavit and Depulpin) are used to devitalize inflamed pulp when local anesthesia is ineffective. The misuse of pulp devitalizing agents may cause damage to gingiva and alveolar bone. This case report demonstrates complications arising after application of paraformaldehyde containing paste, necrosis of the gingiva and alveolar cortical bone, which resulted in great loss of supporting bone. Surgical intervention was required wherein necrotic bone was removed and bone defect was filled with xenograft of bovine origin. After three months endodontic treatment was performed. After the treatment, the patient?s complaints were resolved. The use of paraformaldehyde-based agents during endodontic therapy requires special caution.

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Higher 24-h urinary free cortisone, but not cortisol is associated with impaired cortical bone status at the proximal radius in healthy children

Experimental and Clinical Endocrinology & Diabetes ◽

10.1055/s-0034-1372057 ◽

2014 ◽

Vol 122 (03) ◽

Author(s):

L Shi ◽

A Sánchez-Guijo ◽

MF Hartmann ◽

E Schönau ◽

SA Wudy ◽

...

Keyword(s):

Cortical Bone ◽

Healthy Children ◽

Bone Status ◽

Proximal Radius

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Pullout Strength of Screws in Foal Third Metacarpal Bone after Overdrilling a 4.5 mm Hole

Veterinary and Comparative Orthopaedics and Traumatology ◽

10.1055/s-0038-1632548 ◽

1998 ◽

Vol 11 (04) ◽

pp. 200-204 ◽

Cited By ~ 1

Author(s):

K. Kelly ◽

G. S. Martin ◽

D. J. Burba ◽

S. A. Sedrish ◽

R. M. Moore

Keyword(s):

Cortical Bone ◽

Metacarpal Bone ◽

Pullout Strength ◽

Cancellous Screw ◽

Bone Screw ◽

Screw Insertion ◽

Holding Power ◽

Cortical Screw ◽

Metaphyseal Bone

SummaryThe purpose of the study was to determine and to compare the in vitro pullout strength of 5.5 mm cortical versus 6.5 mm cancellous bone screws inserted in the diaphysis and metaphysis of foal third metacarpal (MCIII) bones in threaded 4.5 mm cortical bone screw insertion holes that were then overdrilled with a 4.5 mm drill bit. This information is relevant to the selection of a replacement screw if a 4.5 mm cortical screw is stripped during orthopaedic surgery. In vitro pullout tests were performed in two independent cadaver studies, each consisting of 12 foal MCIII bones. Two 4.5 mm cortical screws were placed either in the mid-diaphysis (study 1) or distal metaphysis (study 2) of MCIII bones. The holes were then overdrilled with a 4.5 mm bit and had either a 5.5 mm cortical or a 6.5 mm cancellous screw inserted; screw pullout tests were performed at a rate of 0.04 mm/s until screw or bone failure occurred.The bone failed in all of the tests in the diaphyseal and metaphyseal bone. The holding power for 6.5 mm cancellous screws was significantly (p <0.05) greater than for 5.5 mm cortical screws in both the diaphysis and metaphysis. There was not any difference in the holding power of screws in either the diaphysis or the metaphysis between proximal and distal screw holes.If a 4.5 mm cortical bone screw strips in MCIII diaphyseal or metaphyseal bone of foals, a 6.5 mm cancellous screw would provide greater holding power than a 5.5 mm cortical screw.In order to provide information regarding selection of a replacement screw if a 4.5 mm cortical screw is stripped, the in vitro pullout strength was determined for 5.5 mm cortical and 6.5 mm cancellous screws inserted in third metacarpal diaphyseal and metaphyseal bone of foals in which threaded 4.5 mm cortical bone screw insertion holes had been overdrilled with a 4.5 mm bit. The holding power of the 6.5 mm cancellous screw was significantly greater than the 5.5 mm cortical screw in both the diaphysis and metaphysis of foal third metacarpal bone. Thus, it appears that if a 4.5 mm cortical screw is stripped during orthopaedic surgery in foals, a 6.5 mm cancellous screw would provide superior holding power.

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