Your search keyword '"Geraldes, Diogo"' showing total 12 results

1. Lying in two dimensions

Author

Geraldes, Diogo, Heinicke, Franziska, and Rosenkranz, Stephanie

Published

2023

2. Big and small lies

Author

Geraldes, Diogo, Heinicke, Franziska, and Kim, Duk Gyoo

Published

2021

3. An Experiment on Gender Representation in Majoritarian Bargaining.

Author

Baranski, Andrzej, Geraldes, Diogo, Kovaliukaite, Ada, and Tremewan, James

Subjects

GENDER wage gap, SEX discrimination, GENDER inequality, BEHAVIORAL economics, DECISION making

Abstract

Women are underrepresented in business, academic, and political decision-making bodies across the world. To investigate the causal effect of gender representation on multilateral negotiations, we experimentally manipulate the composition of triads in a majoritarian, divide-the-dollar game. We document a robust gender gap in earnings driven largely by the exclusion of women from alliances rather than differential shares within alliances. Experiments with different subject pools show that distinct bargaining dynamics can underlie the same inequitable outcomes; gender-biased outcomes can be caused by outright discrimination, but they can also be driven by more complex dynamics related to differences in bargaining strategies. Although replacing the male with a female majority all but eliminates the gap in one pool, it has minimal effect in the other. These findings show that there is no "one-size-fits-all" solution to the gender gap we uncovered and highlight the importance of studying bargaining dynamics in detail. This paper was accepted by Marie-Claire Villeval, behavioral economics and decision analysis. Funding: A. Baranski recognizes financial support from Tamkeen [under the New York University Abu Dhabi Research Institute; Grant CG005]. J. Tremewan acknowledges funding from the Agence Nationale de la Recherche [Grant ANR-21-CE03-0018 (Project ENDURA)]. Supplemental Material: The online appendix and data files are available at https://doi.org/10.1287/mnsc.2022.01800. [ABSTRACT FROM AUTHOR]

Published

2024

4. Digital volume correlation and micro-CT: An in-vitro technique for measuring full-field interface micromotion around polyethylene implants

Author

Sukjamsri, Chamaiporn, Geraldes, Diogo M., Gregory, Thomas, Ahmed, Farah, Hollis, David, Schenk, Samuel, Amis, Andrew, Emery, Roger, and Hansen, Ulrich

Published

2015

5. Consideration of multiple load cases is critical in modelling orthotropic bone adaptation in the femur

Author

Geraldes, Diogo M., Modenese, Luca, and Phillips, Andrew T. M.

Published

2016

6. Stability of small pegs for cementless implant fixation

Author

Geraldes, Diogo M., Hansen, Ulrich, Jeffers, Jonathan, and Amis, Andrew A.

Published

2017

7. Gender Differences in Performance Under Competition

Author

Geraldes, Diogo, primary, Riedl, Arno, additional, and Strobel, Martin, additional

Published

2021

8. Parametric analysis of glenoid implant design and fixation type.

Author

Geraldes, Diogo M., Hansen, Ulrich, and Amis, Andrew A.

Subjects

*FRACTURE fixation, *SURGICAL complications, *ORTHOPEDIC implants, *SHOULDER surgery, *ARTHROPLASTY

Abstract

ABSTRACT Common post-operative problems in shoulder arthroplasty such as glenoid loosening and joint instability may be reduced by improvements in glenoid design, shape, material choice, and fixation method. A framework for parametric analysis of different implant fixation configurations was developed in order to efficiently sift through potential glenoid component designs. We investigated the influence of design factors such as fixation type, component thickness, and peg position, number, diameter, and length in a multi-factorial design investigation. The proposed method allowed for simultaneous comparison of the mechanical performance of 344 different parametric variations of 10 different reference geometries with either large central fixation features or small peripheral pegs, undergoing four different worst-case scenario loading conditions, and averaging 64.7 s per model. The impact of design parameters were assessed for different factors responsible for post-operative problems in shoulder arthroplasty, such as bone volume preservation, stresses in the implant, central displacement or fixation stability, and the worst performing geometries all relied on conventional central fixation. Of the remaining geometries, four peripheral fixation configurations produced von Mises stresses comfortably below the material's yield strength. We show that the developed method allows for simple, direct, rapid, and repeatable comparison of different design features, material choices, or fixation methods by analyzing how they influence the bone-implant mechanical environment. The proposed method can provide valuable insight in implant design optimization by screening through multiple potential design modifications at an early design evaluation stage and highlighting the best performing combinations according to the failure mechanism to mitigate. © 2016 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 35:775-784, 2017. [ABSTRACT FROM AUTHOR]

Published

2017

9. Phase-Contrast Micro-Computed Tomography Measurements of the Intraocular Pressure-Induced Deformation of the Porcine Lamina Cribrosa.

Author

Coudrillier, Baptiste, Geraldes, Diogo M., Vo, Nghia T., Atwood, Robert, Reinhard, Christina, Campbell, Ian C., Raji, Yazdan, Albon, Julie, Abel, Richard L., and Ethier, C. Ross

Subjects

*POSTERIOR segment (Eye), *INTRAOCULAR pressure, *COMPUTED tomography, *SYNCHROTRON radiation, *HIGH resolution imaging

Abstract

The lamina cribrosa (LC) is a complex mesh-like tissue in the posterior eye. Its biomechanical environment is thought to play a major role in glaucoma, the second most common cause of blindness. Due to its small size and relative inaccessibility, high-resolution measurements of LC deformation, important in characterizing LC biomechanics, are challenging. Here we present a novel noninvasive imaging method, which enables measurement of the three-dimensional deformation of the LC caused by acute elevation of intraocular pressure (IOP). Posterior segments of porcine eyes were imaged using synchrotron radiation phase contrast micro-computed tomography (PC \muCT) at IOPs between 6 and 37 mmHg. The complex trabecular architecture of the LC was reconstructed with an isotropic spatial resolution of 3.2 \mum. Scans acquired at different IOPs were analyzed with digital volume correlation (DVC) to compute full-field deformation within the LC. IOP elevation caused substantial tensile, shearing and compressive devformation within the LC, with maximum tensile strains at 30 mmHg averaging 5.5%, and compressive strains reaching 20%. We conclude that PC \muCT provides a novel high-resolution method for imaging the LC, and when combined with DVC, allows for full-field 3D measurement of ex vivo LC biomechanics at high spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2016

10. A comparative study of orthotropic and isotropic bone adaptation in the femur.

Author

Geraldes, Diogo M. and Phillips, Andrew T. M.

Subjects

*COMPARATIVE studies, *ORTHOTROPY (Mechanics), *ISOTROPIC properties, *PEDICLE flaps (Surgery), *BIOMECHANICS, BONE adaptation, FEMUR surgery

Abstract

SUMMARY Functional adaptation of the femur has been studied extensively by embedding remodelling algorithms in finite element models, with bone commonly assumed to have isotropic material properties for computational efficiency. However, isotropy is insufficient in predicting the directionality of bone's observed microstructure. A novel iterative orthotropic 3D adaptation algorithm is proposed and applied to a finite element model of the whole femur. Bone was modelled as an optimised strain-driven adaptive continuum with local orthotropic symmetry. Each element's material orientations were aligned with the local principal stress directions and their corresponding directional Young's moduli updated proportionally to the associated strain stimuli. The converged predicted density distributions for a coronal section of the whole femur were qualitatively and quantitatively compared with the results obtained by the commonly used isotropic approach to bone adaptation and with ex vivo imaging data. The orthotropic assumption was shown to improve the prediction of bone density distribution when compared with the more commonly used isotropic approach, whilst producing lower comparative mass, structurally optimised models. It was also shown that the orthotropic approach can provide additional directional information on the material properties distributions for the whole femur, an advantage over isotropic bone adaptation. Orthotropic bone models can help in improving research areas in biomechanics where local structure and mechanical properties are of key importance, such as fracture prediction and implant assessment. © 2014 The Authors. International Journal for Numerical Methods in Biomedical Engineering published by John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

11. Deformation of the Lamina Cribrosa and Optic Nerve Due to Changes in Cerebrospinal Fluid Pressure.

Author

Feola AJ, Coudrillier B, Mulvihill J, Geraldes DM, Vo NT, Albon J, Abel RL, Samuels BC, and Ethier CR

Subjects

Animals, Biomechanical Phenomena, Disease Models, Animal, Female, Glaucoma pathology, Intraocular Pressure, Optic Disk physiopathology, Swine, Tonometry, Ocular, X-Ray Microtomography, Cerebrospinal Fluid Pressure physiology, Glaucoma physiopathology, Nerve Fibers pathology, Optic Disk pathology, Optic Nerve pathology

Abstract

Purpose: Cerebrospinal fluid pressure (CSFp) changes are involved or implicated in various ocular conditions including glaucoma, idiopathic intracranial hypertension, and visual impairment and intracranial pressure syndrome. However, little is known about the effects of CSFp on lamina cribrosa and retrolaminar neural tissue (RLNT) biomechanics, potentially important in these conditions. Our goal was to use an experimental approach to visualize and quantify the deformation of these tissues as CSFp increased., Methods: The posterior eye and RLNT of porcine eyes (n = 3) were imaged using synchrotron radiation phase-contrast micro-computed tomography (PC μCT) at an intraocular pressure of 15 mm Hg and CSFps of 4, 10, 20, and 30 mm Hg. Scans of each tissue region were acquired at each CSFp step and analyzed using digital volume correlation to determine 3-dimensional tissue deformations., Results: Elevating CSFp increased the strain in the lamina cribrosa and RLNT of all three specimens, with the largest strains occurring in the RLNT. Relative to the baseline CSFp of 4 mm Hg, at 30 mm Hg, the lamina cribrosa experienced a mean first and third principal strain of 4.4% and -3.5%, respectively. The corresponding values for the RLNT were 9.5% and -9.1%., Conclusions: CSFp has a significant impact on the strain distributions within the lamina cribrosa and, more prominently, within the RLNT. Elevations in CSFp were positively correlated with increasing deformations in each region and may play a role in ocular pathologies linked to changes in CSFp.

Published

2017

12. Effects of Peripapillary Scleral Stiffening on the Deformation of the Lamina Cribrosa.

Author

Coudrillier B, Campbell IC, Read AT, Geraldes DM, Vo NT, Feola A, Mulvihill J, Albon J, Abel RL, and Ethier CR

Subjects

Animals, Biomechanical Phenomena, Disease Models, Animal, Glaucoma diagnosis, Glaucoma physiopathology, Models, Biological, Optic Nerve Diseases diagnosis, Sclera diagnostic imaging, Swine, X-Ray Microtomography, Glaucoma complications, Intraocular Pressure physiology, Optic Disk pathology, Optic Nerve Diseases physiopathology, Sclera physiopathology

Abstract

Purpose: Scleral stiffening has been proposed as a treatment for glaucoma to protect the lamina cribrosa (LC) from excessive intraocular pressure-induced deformation. Here we experimentally evaluated the effects of moderate stiffening of the peripapillary sclera on the deformation of the LC., Methods: An annular sponge, saturated with 1.25% glutaraldehyde, was applied to the external surface of the peripapillary sclera for 5 minutes to stiffen the sclera. Tissue deformation was quantified in two groups of porcine eyes, using digital image correlation (DIC) or computed tomography imaging and digital volume correlation (DVC). In group A (n = 14), eyes were subjected to inflation testing before and after scleral stiffening. Digital image correlation was used to measure scleral deformation and quantify the magnitude of scleral stiffening. In group B (n = 5), the optic nerve head region was imaged using synchrotron radiation phase-contrast microcomputed tomography (PC μCT) at an isotropic spatial resolution of 3.2 μm. Digital volume correlation was used to compute the full-field three-dimensional deformation within the LC and evaluate the effects of peripapillary scleral cross-linking on LC biomechanics., Results: On average, scleral treatment with glutaraldehyde caused a 34 ± 14% stiffening of the peripapillary sclera measured at 17 mm Hg and a 47 ± 12% decrease in the maximum tensile strain in the LC measured at 15 mm Hg. The reduction in LC strains was not due to cross-linking of the LC., Conclusions: Peripapillary scleral stiffening is effective at reducing the magnitude of biomechanical strains within the LC. Its potential and future utilization in glaucoma axonal neuroprotection requires further investigation.

Published

2016