Thermal response and torque resistance of five cortical half‐pins under simulated insertion technique

Wikenheiser, Mark A.; Markel, Mark D.; Lewallen, David G.; Chao, Edmund Y.S.

doi:10.1002/jor.1100130418

Cited by 60 publications

(29 citation statements)

References 14 publications

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“…Any type of preparation of the bone, regardless of the instrument or the cutting method used, seems to be harmful to the bone. The critical temperature for bone morphological changes can be as low as 47 °C, a temperature which is exceeded in most pin insertions (Wilkenheiser et al 1995). Thus, it is important to use a manual or slow-speed drill when inserting the pins.…”

Section: External Fixation (Ef)mentioning

confidence: 99%

Surgical treatment of femoral fractures in childrenComparison between external fixation and elastic intramedullary nails: A review

Hedin¹

2004

Acta Orthopaedica Scandinavica

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Section: External Fixation (Ef)mentioning

confidence: 99%

Surgical treatment of femoral fractures in childrenComparison between external fixation and elastic intramedullary nails: A review

Hedin¹

2004

Acta Orthopaedica Scandinavica

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“…Stainless steel and titanium self-drilling/self-tapping Schanz pins offer a one-step insertion where pre-drilling is not required because the self-drilling tip acts like a new, sharp drill bit. Combined with the unique cutting geometry, this one-step procedure allows reduced insertion time and temperature for optimal performance [2]. …”

Section: Introductionmentioning

confidence: 99%

Improving tribological and anti-bacterial properties of titanium external fixation pins through surface ceramic conversion

Dong

Mukinay

et al. 2016

J Mater Sci: Mater Med

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In this study, an advanced ceramic conversion surface engineering technology has been applied for the first time to self-drilling Ti6Al4V external fixation pins to improve their performance in terms of biomechanical, bio-tribological and antibacterial properties. Systematic characterisation of the ceramic conversion treated Ti pins was carried out using Scanning electron microscope, X-ray diffraction, Glow-discharge optical emission spectroscopy, nano- and micro-indentation and scratching; the biomechanical and bio-tribological properties of the surface engineered Ti pins were evaluated by insertion into high density bone simulation material; and the antibacterial behaviour was assessed with Staphylococcus aureus NCTC 6571. The experimental results have demonstrated that the surfaces of Ti6Al4V external fixation pins were successfully converted into a TiO2 rutile layer (~2 μm in thickness) supported by an oxygen hardened case (~15 μm in thickness) with very good bonding due to the in-situ conversion nature. The maximum insertion force and temperature were reduced from 192N and 31.2 °C when using the untreated pins to 182N and 26.1 °C when the ceramic conversion treated pins were tested. This is mainly due to the significantly increased hardness (more than three times) and the effectively enhanced wear resistance of the cutting edge of the self-drilling Ti pins following the ceramic conversion treatment. The antibacterial tests also revealed that there was a significantly reduced number of bacteria isolated from the ceramic conversion treated pins compared to the untreated pins of around 50 % after 20 h incubation, P < 0.01 (0.0024). The results reported are encouraging and could pave the way towards high-performance anti-bacterial titanium external fixation pins with reduced pin-track infection and pin loosing.

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“…Infection of pin tracts is induced by their insertion in the context of the traumatised skin fascia or by a lack of local care arising when installing the pins or during the follow-up [13]. Protection of skin when the pins are installed, pre-drilling of pin tracts with a sharp drill into the cortical bone, and insertion of the pin at low speed seem to diminish the frequency of the complications [24,34]. Bone hyperthermia may induce bone necrosis which could make the soft tissue infection become osteitis.…”

Section: Discussionmentioning

confidence: 99%

Complex Fractures of the Tibia and a Modular External Fixator

Chevalley¹,

Lafranchi²

2002

Osteosynthesis and Trauma Care

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IntroductionStabilisation of the tibia with an external fixator, particularly when there is a severe injury of soft tissues, is a long established method [11,19,20].The external fixator allows the closed reduction and efficient stabilisation of fractures without periosteal loss and with minimal trauma to soft tissues when placing the pins. Rapidly applied in simple and complex fractures, its main advantage in emergency surgery is to avoid placement of a metallic device into the fracture site, lowering therefore the risk of infection (previously 10± 25 %) in the open fractures already contaminated during the accident [11, 14 ± 16, 30].Infection of pin tracts in the soft tissues which may spread to the bone is the classical difficulty attributed to external fixator. Frequency of this complication depends on surgical technique, on the quality of the pins, on the way they enter the bone and finally on postoperative care. Its incidence has diminished during the last few years [11,19,26].Non-union rates range from 2 to 36 percent according to various authors [8,11,19,20,24,27] with consolidation occurring within a mean time of 6 months. Late consolidation and re-fracture are more frequent after external fixator treatment than after internal osteosynthesis and occur in 2±26 % of the cases [17,27]. The frequency of re-fracture depends partly on how early external fixators are removed [11].Malunion attributed to external fixators is linked to a deformity appearing after too early removal of the external fixator rather than to a complication intrinsic to the method [11]. AbstractThe aim of the study is to analyse the results and the rate of consolidation of 65 tibia and fibula fractures in 62 patients (mean age 41 years) who have been stabilised between July 1995 and June 1998 by Hoffmann II external fixator. According to AO classification, the series included 21 type A, 15 type B, and 19 type C fractures. Eighty percent were open fractures according to Gustilo, of which 32 percent were grade III. A standard surgical protocol with debridement followed by an abundant irrigation was followed in 70 percent of the cases. Under systemic antibiotic coverage, the fractures were stabilised by an external fixator using a montage chosen according to the fracture type and the extent and location of lesions of the soft tissues. Soft tissue coverage for grade III B fractures was carried out after 13 days on average by a fasciocutaneous or muscular free flap. An early bone graft was placed in 25 percent of cases without waiting for delayed consolidation. Eighty-eight percent of fractures united after 23 weeks when using the standard protocol, allowing the removal of the external fixator after 17 weeks on average. In 13 percent of the cases a pin tract infection occurred but no deep infection was found. In 12 percent of patients a delay of consolidation or a pseudarthrosis was seen requiring a change of method in order to obtain the union. Use of a protocol which must be followed by the surgical team treating the open fractures of the ...

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Thermal response and torque resistance of five cortical half‐pins under simulated insertion technique

Cited by 60 publications

References 14 publications

Surgical treatment of femoral fractures in childrenComparison between external fixation and elastic intramedullary nails: A review

Surgical treatment of femoral fractures in childrenComparison between external fixation and elastic intramedullary nails: A review

Improving tribological and anti-bacterial properties of titanium external fixation pins through surface ceramic conversion

Complex Fractures of the Tibia and a Modular External Fixator

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