HAJER KETATA; Naila Hfaiedh; Michèle Kanhonou; Houssem Badreddine
Impact of fractured tibia implant fixation devices on bone stiffness during bending test Journal Article
In: Medical Engineering & Physics, vol. 131, pp. 104228, 2024.
@article{ketata_3136,
title = {Impact of fractured tibia implant fixation devices on bone stiffness during bending test},
author = {HAJER KETATA and Naila Hfaiedh and Michèle Kanhonou and Houssem Badreddine},
url = {https://www.sciencedirect.com/science/article/pii/S1350453324001292?via%3Dihub},
year = {2024},
date = {2024-08-01},
journal = {Medical Engineering & Physics},
volume = {131},
pages = {104228},
abstract = {This study focuses on evaluating the failure resistance of a previously reduced tibia with internal fixation implants as PLate (PL) or InterMedullary Nail (IMN), subjected later to a tibial lateral trauma. To replicate this type of trauma, which can be caused by a road accident, a three-point bending test is considered using experimental tests and numerical simulations.
The withstand evaluation of the tibia-PL and tibia-IMN structures was conducted by following the load transfer through, the bone and the used implants. The analysis, up to tibia failure, required the use of an elasto-plastic behaviour law coupled to damage. The model parameters were identified using experimental tests.
Il was shown that the tibia-IMN structure provided a bending resistant load up to three-times higher than the tibia-PL. In fact, the used screws for plate fixation induced a high level of stress in the vicinity of threaded region, leading to a crack initiation and a damage propagation. However, in tibia-IMN structure the highest stress was generated in the trapped zone between the loader and the nail, promoting crack formation.
From a biomechanical point of view, the structure with IMN is safer than the structure with PL, whose fixation induces earlier damage in bone.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Amer Sebaaly; Shedid Daniel; Boubez Ghassan; Zairi Fahed; Michèle Kanhonou; Yuh Sung-Joo; Wang Zhi
Surgical site infection in spinal metastasis: incidence and risk factors Journal Article
In: Spine Journal, vol. 18, no. 8, pp. 1382-1387, 2018.
@article{sebaaly_1707,
title = {Surgical site infection in spinal metastasis: incidence and risk factors},
author = {Amer Sebaaly and Shedid Daniel and Boubez Ghassan and Zairi Fahed and Michèle Kanhonou and Yuh Sung-Joo and Wang Zhi},
url = {https://www.thespinejournalonline.com/article/S1529-9430(18)30004-4/fulltext},
year = {2018},
date = {2018-01-01},
journal = {Spine Journal},
volume = {18},
number = {8},
pages = {1382-1387},
abstract = {Background
Surgical site infection (SSI) in spinal metastasis surgery represents the most common postoperative surgical complication with high morbidity and mortality.
Objective
This study aims to evaluate the incidence of SSI in spinal metastasis surgery and its risk factors.
Study Design
This is a retrospective analysis of a prospectively collected data.
Methods
Preoperative, operative, and postoperative data were collected together with the modified Tokuhashi score and Frankel score at all time checkpoints. Surgical site infection was divided into superficial and deep SSI, as well as early (<90 days) and late SSI. Multiple logistic regression analysis was performed to identify independent risk factors, with p<.05 as significance threshold.
Results
A total of 297 patients were included, with an incidence of SSI of 5.1% (superficial SSI: 3.4%; deep SSI: 1.7 %). Cervicothoracic surgery was associated with the highest incidence of SSI, whereas cervical surgery had the lowest incidence. Smoking, higher number of spinal metastasis, elevated body mass index (BMI), and higher ASA (American Society of Anesthesiologist) score were the preoperative factors associated with increased risk of SSI. Increased intraoperative blood loss and increased number of fixed vertebra increased the SSI incidence. SSI increased hospital stay by a mean of 12 days. When all these variables are analyzed in a multiple regression model, only surgical time?4 hours and ASA?3 were found to be independent risk factors for the occurrence of SSI.
Conclusion
This paper represents the largest series of spinal metastasis with a mean incidence of SSI of 5.1%. Smoking, higher BMI, higher number of spinal metastasis, higher ASA score, higher number of fused vertebra, intraoperative bleeding?2000?mL, and neurologic deterioration are risk factors for SSI occurrence. Only ASA?3 and operative duration?4 hours are independent risk factors for this complication occurrence. Finally, SSI occurrence is associated with increased hospital stay, increased 30-day mortality rate, and decreased survival rates.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Ali Zeighami; Dumas Raphael; Michèle Kanhonou; Nicola Hagemeister; Frédéric Lavoie; Jacques A. de Guise; Rachid Aissaoui
Tibio-femoral Joint Contact in Healthy and Osteoarthritic Knees during Quasi-Static Squat: A Bi-planar X-Ray Analysis Journal Article
In: Journal Of Biomechanics, vol. 53, no. 53, pp. 178-184, 2017.
@article{zeighami_1708,
title = {Tibio-femoral Joint Contact in Healthy and Osteoarthritic Knees during Quasi-Static Squat: A Bi-planar X-Ray Analysis},
author = {Ali Zeighami and Dumas Raphael and Michèle Kanhonou and Nicola Hagemeister and Frédéric Lavoie and Jacques A. de Guise and Rachid Aissaoui},
url = {https://www.sciencedirect.com/science/article/abs/pii/S0021929017300167?via%3Dihub},
year = {2017},
date = {2017-02-01},
journal = {Journal Of Biomechanics},
volume = {53},
number = {53},
pages = {178-184},
abstract = {The aim of this study was to quantify the tibio-femoral contact point (CP) locations in healthy and osteoarthritic (OA) subjects during a weight-bearing squat using stand-alone biplanar X-ray images. Ten healthy and 9 severe OA subjects performed quasi-static squats. Bi-planar X-ray images were recorded at 0°, 15°, 30°, 45°, and 70° of knee flexion. A reconstruction/registration process was used to create 3D models of tibia, fibula, and femur from bi-planar X-rays and to measure their positions at each posture. A weighted centroid of proximity algorithm was used to calculate the tibio-femoral CP locations. The accuracy of the reconstruction/registration process in measuring the quasi-static kinematics and the contact parameters was evaluated in a validation study. The quasi-static kinematics data revealed that in OA knees, adduction angles were greater (p<0.01), and the femur was located more medially relative to the tibia (p<0.01). Similarly, the average CP locations on the medial and lateral tibial plateaus of the OA patients were shifted (6.5±0.7?mm; p<0.01) and (9.6±3.1?mm; p<0.01) medially compared to the healthy group. From 0° to 70° flexion, CPs moved 8.1±5.3?mm and 8.9±5.3?mm posteriorly on the medial and lateral plateaus of healthy knees; while in OA joints CPs moved 10.1±8.4?mm and 3.6±2.8?mm posteriorly. The average minimum tibio-femoral bone-to-bone distances of the OA joints were lower in both compartments (p<0.01). The CPs in the OA joints were located more medially and displayed a higher ratio of medial to lateral posterior translations compared to healthy joints.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Michèle Kanhonou; Thierry Cresson; Julien Clément; Frédéric Lavoie; Nicola Hagemeister; Jacques A. de Guise
A method to evaluate the 3D pseudo-kinematic of the osteoarthritic knee Journal Article
In: Osteoarthritis And Cartilage, vol. 23, no. Suppl2, pp. A117-A118, 2015.
@article{kanhonou_1709,
title = {A method to evaluate the 3D pseudo-kinematic of the osteoarthritic knee},
author = {Michèle Kanhonou and Thierry Cresson and Julien Clément and Frédéric Lavoie and Nicola Hagemeister and Jacques A. de Guise},
url = {https://www.oarsijournal.com/article/S1063-4584(15)00960-7/fulltext},
year = {2015},
date = {2015-04-01},
journal = {Osteoarthritis And Cartilage},
volume = {23},
number = {Suppl2},
pages = {A117-A118},
abstract = {Purpose: Knee osteoarthritis (OA) is diagnosed and graded with a radiographic evaluation of the joint. However, there is no clear corre- lation between this grade and patient functional outcome scores (Sanghi et al. 2011; Zifchock et al. 2011, Alkan et al. 2013). This leads to the need of a quantitative and precise measure to represent the knee function. In the recent years, to evaluate healthy and OA knee function, the trend was to track skin markers displacements, known to be affected by soft tissue artefacts (Leardini et al., 2005). On the other hand, with imagery-based methods, 3D model acquired either from CT scan or Magnetic resonance imaging are matched on 2D fluoroscopic images (kinematics) or several radiographs (pseudo-kinematics) (Moro-Oka et al., 2006). With objects of known geometry in the radiographic scene (bone-embedded tantalum beads or prostheses), this matching allows attaining kinematic measurement accuracy <1 and <1mm. Without tantalum beads or prostheses, the process lacks reliability and accuracy. Thus, our goal is to present an intrinsic computation method - without any object added in the scene - and to validate its reliability on patients' images as well as its accuracy on simulated radiographs in a pseudo- kinematic context.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Michèle Kanhonou; Thierry Cresson; Julien Clément; Frédéric Lavoie; Nicola Hagemeister; Jacques A. de Guise
A method to study 3D knee pseudo-kinematics using low-dose stereo-radiography during static squat Journal Article
In: Computer Methods In Biomechanics And Biomedical Engineering, vol. 17, no. 1, pp. 138-139, 2014.
@article{kanhonou_1710,
title = {A method to study 3D knee pseudo-kinematics using low-dose stereo-radiography during static squat},
author = {Michèle Kanhonou and Thierry Cresson and Julien Clément and Frédéric Lavoie and Nicola Hagemeister and Jacques A. de Guise},
url = {https://www.tandfonline.com/doi/abs/10.1080/10255842.2014.931549},
year = {2014},
date = {2014-08-01},
journal = {Computer Methods In Biomechanics And Biomedical Engineering},
volume = {17},
number = {1},
pages = {138-139},
abstract = {To investigate clinical questions as kinematic or postural differences between healthy and pathological populations,the current trend is to couple imagery to movement or to posture. To do so, researchers generally register a three-dimensional (3D) model acquired from either CT scan or magnetic resonance imaging on 2D fluoroscopic images(registration on dynamic activities) or several radiographs (registration on posture or pseudo-kinematics) (Moro-oka et al.2007). The literature suggests the use of so-called?extrinsic 2D/3D registration'. This implies the need of geometrical objects in the radiographic scene. Embedded tantalum beads or prostheses (Scarvell et al.2010; Sharmaet al.2012), well detectable on the radiographs, are generally used. They allow attaining the expected measurement accuracy <1° and <1mm. When no tantalum beads or prostheses are present, the registration process lacks reliability and accuracy because of the difficulty to extract precise information from the radiographic images (blurry contours, superimposition of structures and cylindrical nature of long bones) (Belvedere et al.2013). The goal of this work was to present an intrinsic 2D/3D registration method and to validate its reliability on patients' images as well as its accuracy on simulated radiographs in a pseudo-kinematic context.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Michèle Kanhonou; Thierry Cresson; Julien Clément; Frédéric Lavoie; Nicola Hagemeister; Jacques A. de Guise
2D/3D Registration of Personalized Knee 3D Models on Biplane Radiographs for Morpho-Functional Study Journal Article
In: International Journal Of Computer Assisted Radiology And Surgery, vol. 9, pp. 31-34, 2014.
@article{kanhonou_1711,
title = {2D/3D Registration of Personalized Knee 3D Models on Biplane Radiographs for Morpho-Functional Study},
author = {Michèle Kanhonou and Thierry Cresson and Julien Clément and Frédéric Lavoie and Nicola Hagemeister and Jacques A. de Guise},
url = {https://link.springer.com/article/10.1007%2Fs11548-014-1017-9},
year = {2014},
date = {2014-06-01},
journal = {International Journal Of Computer Assisted Radiology And Surgery},
volume = {9},
pages = {31-34},
abstract = {To investigate kinematic or postural differences between healthy and pathological population, researchers generally register a 3D model acquired either from CT scan or MRI on 2D fluoroscopic images or several radiographs (registration on static posture images: pseudo-kinematics). To attain the needed measurement accuracy, the literature suggests the use of extrinsic 2D/3D registration, with known geometries in the scene (embedded tantalum beads or prostheses [1]). The goal of this work is to present an intrinsic 2D/3D registration method, to validate its reliability on patients' images and its accuracy on simulated radiographs in a pseudo-kinematic context.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Shohreh Vanaei; Saeedeh Vanaei; Michèle Kanhonou; Sofiane Khelladi; Abbas Tcharkhtchi; Hamidreza Vanaei
Importance of Machine Learning in 3D Bioprinting Book Section
In: Prosenjit / Thomas Saha, Sabu / Kim (Ed.): 3D Bioprinting from Lab to Industry, vol. 1, pp. 528, John Wiley & Sons, 2024, ISBN: 978-1-119-89437-7.
@incollection{vanaei_3128,
title = {Importance of Machine Learning in 3D Bioprinting},
author = {Shohreh Vanaei and Saeedeh Vanaei and Michèle Kanhonou and Sofiane Khelladi and Abbas Tcharkhtchi and Hamidreza Vanaei},
editor = {Saha, Prosenjit / Thomas, Sabu / Kim, Jinku / Ghosh, Manojit},
url = {https://doi.org/10.1002/9781119894407.ch16},
issn = {978-1-119-89437-7},
year = {2024},
date = {2024-06-01},
booktitle = {3D Bioprinting from Lab to Industry},
volume = {1},
pages = {528},
publisher = {John Wiley & Sons},
abstract = {A complete overview of bioprinting, from fundamentals and essential topics to recent advances and future applications
Additive manufacturing, also known as 3D printing, is one of the most transformative technological processes to emerge in recent decades. Its layer-by-layer construction method can create objects to remarkably precise specifications with minimal waste or energy consumption. Bioprinting, a related process that employs cells and biomaterials instead of man-made substances or industrial materials, has a range of biomedical and chemical uses that make it an exciting and fast-growing area of research.
3D Bioprinting from Lab to Industry offers a cutting-edge overview of this topic, its recent advances, and its future applications. Taking an interdisciplinary approach to a flourishing research field, this book exceeds all existing treatments of the subject in its scope and comprehensiveness. Moving from fundamental principles of the technology to its immense future potential, this is a must-own volume for scientists looking to incorporate this process into their research or product development.
3D Bioprinting from Lab to Industry readers will also find:
* Treatment of printing parameters, surface topography requirements, and much more
* Detailed discussion of topics including 5D printing in the medical field, dynamic tuning, the multi-material extrusion approach, and many others
* A complete account of the bioprinting process, from lab requirements to commercialization
3D Bioprinting from Lab to Industry is ideal for researchers--graduate and post-doctoral scholars--in the areas of materials science, biomedical engineering, chemical engineering, biotechnology, and biochemistry.},
keywords = {},
pubstate = {published},
tppubtype = {incollection}
}
Saeedeh Vanaei; Shohreh Vanaei; Michèle Kanhonou; Abbas Tcharkhtchi; Hamidreza Vanaei
3D Bioprinting from Lab to Industry Book Section
In: Prosenjit / Thomas Saha, Sabu / Kim (Ed.): 3D Bioprinting from Lab to Industry, vol. 1, pp. 528, John Wiley & Sons, 2024, ISBN: 978-1-119-89437-7.
@incollection{vanaei_3129,
title = {3D Bioprinting from Lab to Industry},
author = {Saeedeh Vanaei and Shohreh Vanaei and Michèle Kanhonou and Abbas Tcharkhtchi and Hamidreza Vanaei},
editor = {Saha, Prosenjit / Thomas, Sabu / Kim, Jinku / Ghosh, Manojit},
url = {https://doi.org/10.1002/9781119894407.ch13},
issn = {978-1-119-89437-7},
year = {2024},
date = {2024-06-01},
booktitle = {3D Bioprinting from Lab to Industry},
volume = {1},
pages = {528},
publisher = {John Wiley & Sons},
abstract = {A complete overview of bioprinting, from fundamentals and essential topics to recent advances and future applications
Additive manufacturing, also known as 3D printing, is one of the most transformative technological processes to emerge in recent decades. Its layer-by-layer construction method can create objects to remarkably precise specifications with minimal waste or energy consumption. Bioprinting, a related process that employs cells and biomaterials instead of man-made substances or industrial materials, has a range of biomedical and chemical uses that make it an exciting and fast-growing area of research.
3D Bioprinting from Lab to Industry offers a cutting-edge overview of this topic, its recent advances, and its future applications. Taking an interdisciplinary approach to a flourishing research field, this book exceeds all existing treatments of the subject in its scope and comprehensiveness. Moving from fundamental principles of the technology to its immense future potential, this is a must-own volume for scientists looking to incorporate this process into their research or product development.
3D Bioprinting from Lab to Industry readers will also find:
* Treatment of printing parameters, surface topography requirements, and much more
* Detailed discussion of topics including 5D printing in the medical field, dynamic tuning, the multi-material extrusion approach, and many others
* A complete account of the bioprinting process, from lab requirements to commercialization
3D Bioprinting from Lab to Industry is ideal for researchers--graduate and post-doctoral scholars--in the areas of materials science, biomedical engineering, chemical engineering, biotechnology, and biochemistry.},
keywords = {},
pubstate = {published},
tppubtype = {incollection}
}
Sa?chez-Girón Coca Celia; Luc Perera; Mathis Boiteau; Antoine Costanza; Jérôme Grison; Sarnette Emmanuel; Michèle Kanhonou; Frédéric Fauberteau; Nga Nguyen; Jouvelot Pierre
Tala Box: an Interactive Embedded System to Accompany Patients with Cognitive Disorders Proceedings Article
In: IEEE/ACM international conference on Connected Health: Applications, Systems and Engineering Technologies, Orlando (Florida), United States, 2023, ISBN: 979-8-4007-0102-3.
@inproceedings{celia_2314,
title = {Tala Box: an Interactive Embedded System to Accompany Patients with Cognitive Disorders},
author = {Sa?chez-Girón Coca Celia and Luc Perera and Mathis Boiteau and Antoine Costanza and Jérôme Grison and Sarnette Emmanuel and Michèle Kanhonou and Frédéric Fauberteau and Nga Nguyen and Jouvelot Pierre},
url = {https://hal-mines-paristech.archives-ouvertes.fr/hal-04071711},
issn = {979-8-4007-0102-3},
year = {2023},
date = {2023-06-01},
booktitle = {IEEE/ACM international conference on Connected Health: Applications, Systems and Engineering Technologies},
address = {Orlando (Florida), United States},
abstract = {Given the lack of drugs to treat cognitive deficit disorders, nonpharmacological approaches have become popular to address these pathologies. In particular, music therapy has been successfully used with Alzheimer's patients to improve their mood and functional abilities. The Tala Sound project studies whether non-Western music from the southern regions of India can be used to improve the mood and functional abilities of Western people suffering from Alzheimer's disease. This traditional style of music, called Carnatic music, is based on specific rhythm sequences, called "talas", that have an irregular rhythm compared to the ones found in Western music. In this paper, we describe the Tala Box, a new multimedia sensory device with which patients can interact while a Carnatic song is being played. The motivation for the development of this embedded system is the intent, in addition to the unusual nature of the music played, to use motor and cognitive stimulation to better engage Alzheimer's patients and, hopefully, improve their mood and mental state. Preliminary testing with healthy seniors has shown great interest in the Tala Box.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
Michèle Kanhonou
Les ingénieurs à la conquête du secteur de la santé Miscellaneous
L'Usine Nouvelle, 2022.
@misc{kanhonou_2250,
title = {Les ingénieurs à la conquête du secteur de la santé},
author = {Michèle Kanhonou},
url = {https://www.usinenouvelle.com/editorial/ces-ingenieurs-qui-prennent-soin-de-nous.N2065592},
year = {2022},
date = {2022-11-01},
howpublished = {L'Usine Nouvelle},
keywords = {},
pubstate = {online},
tppubtype = {misc}
}
Michèle Kanhonou
La santé face aux systèmes d'information et aux cyber-attaques Miscellaneous
Xerfi Canal, 2022.
@misc{kanhonou_2249,
title = {La santé face aux systèmes d'information et aux cyber-attaques},
author = {Michèle Kanhonou},
url = {https://www.xerficanal.com/strategie-management/emission/La-sante-face-aux-systemes-d-information-et-aux-cyber-attaques_3750703.html},
year = {2022},
date = {2022-06-01},
howpublished = {Xerfi Canal},
keywords = {},
pubstate = {online},
tppubtype = {misc}
}
Michèle Kanhonou
Ecole de technologie supérieure, 2017.
@phdthesis{kanhonou_1712,
title = {Méthode d'évaluation fonctionnelle de la gonarthrose par étude de la pseudo-cinématique d'accroupissement},
author = {Michèle Kanhonou},
url = {https://espace.etsmtl.ca/id/eprint/1949/},
year = {2017},
date = {2017-05-01},
address = {Montréal, Canada},
school = {Ecole de technologie supérieure},
keywords = {},
pubstate = {published},
tppubtype = {phdthesis}
}
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