Establishing a common instantaneous center of rotation for the metatarso-phalangeal and metatarso-sesamoid joints: a theoretical geometric model based on specific morphometrics

Durrant, Michael N.; Durrant, Lara M.; McElroy, Tucker

doi:10.1186/s13018-019-1110-4

Cited by 3 publications

(2 citation statements)

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“…There were significant intraclass correlations (p=0.02) among the three observers when assessing RC of the first metatarsal in axial projections of non-weight-bearing metatarsals using the method of Mortier et al (14) We consider this measurement technique relevant for axial projections of the hallux sesamoids since it considers the first metatarsal diaphysis, as well as another line that intersects the plantar cortices of the medial and lateral sesamoid grooves. We specifically selected this assessment technique since it considers the morphology of a single bone structure (first metatarsal) and its center of rotation (16) (the head of the first metatarsal regarding the proximal diaphysis or epiphysis). Although it has been described that the morphology and relation of bony structures of the forefoot changes with the axial load (17,18) , these changes could be minimized by evaluating a single anatomical structure without considering the rest.…”

Section: Discussionmentioning

confidence: 99%

“…Regarding pathophysiology, interest has been expressed in the literature about the role of RC in first metatarsal hallux valgus deformity (7,16) , as well as dynamic factors (18) , such as muscle strength or ligament resistance, that could have a biomechanical effect on the global architecture of a weight-bearing foot (17) in addition to an isolated bone structure. Our results are relevant in morphological terms because they describe the rotation by trying to isolate the first metatarsal deformity.…”

Section: Discussionmentioning

confidence: 99%

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The interobserver reliability of first metatarsal rotational component of axial sesamoid radiographs in hallux valgus

García-Limón

Espinosa-Uribe

et al. 2020

J Foot Ankle

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Objective: Hallux valgus is a progressive triplanar deformity of the forefoot with an important rotational component (RC) in the first metatarsal, which has been associated with recurrence. There is controversy about using weight-bearing vs. non-weight-bearing radiographs in RC measurement. This study aims to assess interobserver reliability for RC of the first metatarsal using a non-weight-bearing sesamoid view, as well as to correlate the hallux valgus angle, intermetatarsal angle, distal metatarsal articular angle (DMAA) and sesamoid position regarding RC. Methods: An observational, cross-sectional and descriptive study was conducted with 81 feet from 48 patients (66.6% female). RC was evaluated regarding the first metatarsal proximal shaft in non-weight-bearing axial metatarsal radiographs and weight-bearing anteroposterior radiographs. Measurements were taken independently by two foot and ankle subspecialists and an orthopedic resident, all of whom were blinded. Results: Statistically significant intraclass correlations (p = 0.02) were obtained for first metatarsal RC assessment among the three observers (95%CI 0.01–0.65; Cronbach’s α =0.41) in non-weight-bearing axial metatarsal views. Significant correlations (Spearman ρ) were also found for hallux valgus angle (p = 0.04) and DMAA (p = 0.01), and non-significant correlations were found for intermetatarsal angle and sesamoid position (p > 0.05). Conclusion: The significant correlations between hallux valgus angle and DMAA for RC suggest that RC is isolated from the first metatarsal bone structure. This practical assessment method may isolate the first metatarsal head RC regarding the proximal metatarsal in the metaphyseal region and could be useful in centers where weight-bearing CT scans are not available. Level of Evidence IV; Therapeutic Studies; Case Series.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

The interobserver reliability of first metatarsal rotational component of axial sesamoid radiographs in hallux valgus

García-Limón

Espinosa-Uribe

et al. 2020

J Foot Ankle

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Tribological Behaviour of Ti6Al4V Alloy: An Application in Small Joint Implants

Odehnal,

Ranuša,

Vrbka

et al. 2023

Tribol Lett

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The presented study deals with the analysis of the tribological behaviour of the Ti6Al4V alloy manufactured conventionally. The study aimed to verify whether the titanium alloy is suitable for use as a contact material in small joint implants, as additive manufacturing of this alloy can in the future provide certain benefits, such as individualization and simplification of the implant construction, or controlled porosity. The tested pair consisted of a pin and a glass plate lubricated with model synovial fluid. The contact area was observed with colorimetric interferometry. Alongside film thickness, friction, and wear scars were measured. From the designed experimental conditions, the titanium alloy was not able to create a sufficiently thick lubrication film to overcome its surface roughness and damage to contact surfaces occurred. Friction was comparable for all the tested configurations. The application of conventionally manufactured titanium alloy as a contact surface in small joint implants seems to not be suitable since its performance fell short when compared to conventional cobaltous alloy. Nevertheless, there are various alternative methods available, such as unconventional manufacturing, polishing, surface texturing, and coating. Graphical Abstract

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