Francisco Baixauli-García scite author profile

Francisco Baixauli-García

5Publications

25Citation Statements Received

25Citation Statements Given

How they've been cited

How they cite others

126

Affiliations

Leitat Technological Center, Hospital Universitari i Politècnic La Fe

Publications

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Locating the Origin of Femoral Maltorsion Using 3D Volumetric Technology—The Hockey Stick Theory

Ferràs-Tarragó

Sanchis-Alfonso

Ramírez-Fuentes

et al. 2020

JCM

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Background: The origin of femoral maltorsion is often unknown. However, defining the origin of the rotation of the femoral maltorsion can be useful for establishing the most suitable point to do an external derotational osteotomy. Previous studies have not considered the femoral diaphysis in their investigations of the origin of the deformity. The study of the whole morphology of the femur with 3D volumetric tools, including the femoral diaphysis can contribute to a better understanding of the behavior of femoral maltorsion. Methods: An atypical case of unilateral femoral anteversion was selected. Both femurs were used to obtain 3D bio-models. The mirror image of the asymptomatic side was obtained and overlapped with the symptomatic femur. The Hausdorff–Besicovitch method was used to evaluate the morphologic discrepancies (in mm) between the two femurs in three zones: (1) the femoral neck, (2) the proximal diaphysis, and (3) the distal diaphysis. The differences between the two femurs were analyzed and its correlation was statistically defined using a lineal regression model. Results: The deformity in the distal diaphysis increased from the supracondylar area until the apex of the antecurvatum angle (R2 = 0.91) and then decreased until the base of the femoral neck (R2 = (−0.83)), to finally increase significantly in the femoral neck area (R2 = 0.87). All of the correlations were statistically significant (p-value ˂ 0.001). Conclusion: The femoral maltorsion originates in the supracondylar area and its rotational axis is the longitudinal axis of the femoral diaphysis. Even though the deformity affects the femoral diaphysis, its clinical relevance is much higher in the femoral neck since the rotational axis passes through its base. Thus, the osteotomy can be conducted along all of the femoral diaphysis as long as it is done perpendicular to it.

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Security of 3D-printed polylactide acid piece sterilization in the operating room: a sterility test

Ferràs-Tarragó

Sabalza-Baztán

Sahuquillo-Arce

et al. 2021

Eur J Trauma Emerg Surg

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A 3D-CT Analysis of Femoral Symmetry—Surgical Implications

Ferràs-Tarragó

Sanchis-Alfonso

Ramírez-Fuentes

et al. 2020

JCM

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Background: Mirroring the image of the affected side is a widely used technique for surgical planning in orthopedic surgery, especially for fractures and custom-made prostheses. Our objective is to evaluate the three-dimensional symmetry of the femurs using finite element analysis and manual alignment. Methods: Using the computed tomography of 15 patients without lower limb pathology, 30 3D biomodels of their femurs were obtained. The error obtained through image manipulation was calculated and broken down into a rendering error and a manual overlay error. The Hausdorff–Besicovitch method was applied to obtain the total asymmetry. The manipulation error was theb subtracted from it to obtain the intrapersonal asymmetry. Results: The mean intrapersonal asymmetry was 0.93 mm. It was obtained by subtracting the error derived from rendering and alignment of 0.59 mm (SD 0.17 mm) from the overall mean error of 1.52 mm (SD 1.45). Conclusions: Intrapersonal femoral asymmetry is low enough to use the mirror image of the healthy side as a reference for three-dimensional surgical planning. This type of planning is especially useful in deformity surgery when the objective of the surgery is not to restore only one specific parameter but to obtain a general functional morphology when a healthy contralateral femur is available.

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Sarcomas de partes blandas en la región del codo e influencia de sus particularidades anatómicas en su tratamiento. Experiencia en una Unidad de Tumores musculoesqueléticos

Correa-González

Calva

Miranda

et al. 2020

Revista Española de Cirugía Ortopédica y Traumatología

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Autoclave sterilization of an in-house 3D-printed polylactic acid piece: biological safety and heat-induced deformation

Ferràs-Tarragó

Sabalza-Baztán

Sahuquillo-Arce

et al. 2021

Eur J Trauma Emerg Surg

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