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Détail de l'auteur
Auteur Clément Potier
Documents disponibles écrits par cet auteur
Ajouter le résultat dans votre panier Affiner la rechercheApport de la podologie dans la course à pied / Clément Potier in Revue du podologue, 74 (Mars-avril 2017)
[article]
in Revue du podologue > 74 (Mars-avril 2017) . - p. 8-12
Titre : Apport de la podologie dans la course à pied Type de document : article de périodique Auteurs : Clément Potier ; [et al.] Année de publication : 2017 Article en page(s) : p. 8-12 Langues : Français (fre) Descripteurs (mots clés) : [Thésaurus HELB]:Paramédical:biomécanique
[Thésaurus Mesh]Course à pied
[Thésaurus Mesh]Plaies et blessures
[Thésaurus Mesh]PodologieRésumé : Si la course à pied est l’un des sports les plus populaires, elle n’en comporte pas moins son lot de blessures. Une connaissance précise de ce sport est nécessaire aux podologues pour une prise en charge efficiente. Revue de détail des blessures communes et traitements associés, puis des spécificités du bilan podologique pour le coureur. Note de contenu : Cet article fait partie du dossier « la course à pied » Permalink : https://bibliotheque.helb-prigogine.be/opac_css/index.php?lvl=notice_display&id= [article]Exemplaires
Cote Support Localisation Section Disponibilité R Périodique Erasme - périodiques Périodiques Disponible Are Three-Dimensional–Printed Foot Orthoses Able to Cover the Podiatric Physician's Needs? / Edem Allado in Journal of the American Podiatric Medical Association, vol.111,05 (septembre-octobre 2021)
[article]
in Journal of the American Podiatric Medical Association > vol.111,05 (septembre-octobre 2021)
Titre : Are Three-Dimensional–Printed Foot Orthoses Able to Cover the Podiatric Physician's Needs? Type de document : article de périodique Auteurs : Edem Allado ; Mathias Poussel ; Isabelle Chary-Valckenaere ; Clément Potier ; Damien Loeuille ; Eliane Albuisson ; Bruno Chenuel Année de publication : 0021 Langues : Anglais (eng) Descripteurs (mots clés) : [Thésaurus Mesh]Douleur
[Thésaurus Mesh]Étude comparative
[Thésaurus Mesh]Impression tridimensionnelle
[Thésaurus Mesh]Orthèses de pied
[Thésaurus Mesh]Pied
[Thésaurus Mesh]ThérapeutiqueRésumé : Background
Current management of foot pain requires foot orthoses (FOs) with various design features (eg, wedging, height) and specific mechanical properties (eg, hardness, volume). Development of additive manufacturing (three-dimensional [3-D] printing) raises the question of applying its technology to FO manufacturing. Recent studies have demonstrated the physical benefits of FO parts with specific mechanical properties, but none have investigated the relationship between honeycomb architecture (HcA) infilling density and Shore A hardness of thermoplastic polyurethane (TPU) used to make FOs, which is the aim of this study.
Methods
Sixteen different FO samples were made with a 3-D printer using TPU (97 Shore A), with HcA infilling density ranging from 10 to 40. The mean of two Shore A hardness measurements was used in regression analysis.
Results
Interdurometer reproducibility was excellent (intraclass correlation coefficient, 0.91; 95% confidence interval [CI], 0.64–0.98; P < .001) and interprinter reproducibility was excellent/good (intraclass correlation coefficient, 0.84; 95% CI, 0.43–0.96; P < .001). Linear regression showed a positive significant relationship between Shore A hardness and HcA infilling density (R2 = 0.955; P < .001). Concordance between evaluator and durometer was 86.7%.
Conclusions
This study revealed a strong relationship between Shore A hardness and HcA infilling density of TPU parts produced by 3-D printing and highlighted excellent concordance. These results are clinically relevant because 3-D printing can cover Shore A hardness values ranging from 40 to 70, representing most FO production needs. These results could provide important data for 3-D manufacturing of FOs to match the population needs.Permalink : https://bibliotheque.helb-prigogine.be/opac_css/index.php?lvl=notice_display&id= [article]Exemplaires
Cote Support Localisation Section Disponibilité aucun exemplaire Are Three-Dimensional–Printed Foot Orthoses Able to Cover the Podiatric Physician's Needs? / Edem Allado in Journal of the American Podiatric Medical Association, vol. 111, 05 (septembre-octobre 2021)
[article]
in Journal of the American Podiatric Medical Association > vol. 111, 05 (septembre-octobre 2021)
Titre : Are Three-Dimensional–Printed Foot Orthoses Able to Cover the Podiatric Physician's Needs? Type de document : article de périodique Auteurs : Edem Allado ; Mathias Poussel ; Isabelle Chary-Valckenaere ; Clément Potier ; Damien Loeuille ; Eliane Albuisson ; Bruno Chenuel Année de publication : 2021 Langues : Anglais (eng) Descripteurs (mots clés) : [Thésaurus Mesh]Douleur
[Thésaurus Mesh]Impression tridimensionnelle
[Thésaurus Mesh]Orthèses de pied
[Thésaurus Mesh]Pied
[Thésaurus Mesh]ThérapeutiqueRésumé : Background
Current management of foot pain requires foot orthoses (FOs) with various design features (eg, wedging, height) and specific mechanical properties (eg, hardness, volume). Development of additive manufacturing (three-dimensional [3-D] printing) raises the question of applying its technology to FO manufacturing. Recent studies have demonstrated the physical benefits of FO parts with specific mechanical properties, but none have investigated the relationship between honeycomb architecture (HcA) infilling density and Shore A hardness of thermoplastic polyurethane (TPU) used to make FOs, which is the aim of this study.
Methods
Sixteen different FO samples were made with a 3-D printer using TPU (97 Shore A), with HcA infilling density ranging from 10 to 40. The mean of two Shore A hardness measurements was used in regression analysis.
Results
Interdurometer reproducibility was excellent (intraclass correlation coefficient, 0.91; 95% confidence interval [CI], 0.64–0.98; P < .001) and interprinter reproducibility was excellent/good (intraclass correlation coefficient, 0.84; 95% CI, 0.43–0.96; P < .001). Linear regression showed a positive significant relationship between Shore A hardness and HcA infilling density (R2 = 0.955; P < .001). Concordance between evaluator and durometer was 86.7%.
Conclusions
This study revealed a strong relationship between Shore A hardness and HcA infilling density of TPU parts produced by 3-D printing and highlighted excellent concordance. These results are clinically relevant because 3-D printing can cover Shore A hardness values ranging from 40 to 70, representing most FO production needs. These results could provide important data for 3-D manufacturing of FOs to match the population needs.Permalink : https://bibliotheque.helb-prigogine.be/opac_css/index.php?lvl=notice_display&id= [article]Exemplaires
Cote Support Localisation Section Disponibilité aucun exemplaire