François A. Auger
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View article: Benchmarking multi-component signal processing methods in the time-frequency plane
Benchmarking multi-component signal processing methods in the time-frequency plane Open
Signal processing in the time-frequency plane has a long history and remains a field of methodological innovation. For instance, detection and denoising based on the zeros of the spectrogram have been proposed since 2015, contrasting with …
View article: Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Data from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Data from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Diapedesis, the passage of circulating tumor cells across the endothelium, is a critical determinant in most cases of metastasis. Using a laminar flow chamber and a tissue-engineered blood vessel, we found that E-selectin is required not o…
View article: Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2A from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2D from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 1C from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2B from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Figure 3 from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Data from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Data from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Diapedesis, the passage of circulating tumor cells across the endothelium, is a critical determinant in most cases of metastasis. Using a laminar flow chamber and a tissue-engineered blood vessel, we found that E-selectin is required not o…
View article: Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions Open
Supplementary Video 2E from Mechanisms by which E-Selectin Regulates Diapedesis of Colon Cancer Cells under Flow Conditions
View article: Peptide grafting on intraosseous transcutaneous amputation prostheses to promote sealing with skin cells: Potential to limit infections
Peptide grafting on intraosseous transcutaneous amputation prostheses to promote sealing with skin cells: Potential to limit infections Open
The long‐term success of intraosseous transcutaneous amputation prostheses (ITAPs) mainly relies on dermal attachment of skin cells to the implant. Otherwise, bacteria can easily penetrate through the interface between the implant and the …
View article: The Self-Assembled Skin Substitute History: Successes, Challenges, and Current Treatment Indications
The Self-Assembled Skin Substitute History: Successes, Challenges, and Current Treatment Indications Open
The self-assembled skin substitute (SASS) is an autologous bilayered skin substitute designed by our academic laboratory, the Laboratoire d’Organogenèse Expérimentale (LOEX) to offer definitive treatment for patients lacking donor sites (u…
View article: Cultured Autologous Corneal Epithelia for the Treatment of Unilateral Limbal Stem Cell Deficiency: A Case Series of 15 Patients
Cultured Autologous Corneal Epithelia for the Treatment of Unilateral Limbal Stem Cell Deficiency: A Case Series of 15 Patients Open
Damage to limbal epithelial stem cells can lead to limbal stem cell deficiency (LSCD). Current autologous treatment procedures for unilateral LSCD bear a significant risk of inducing LSCD in the donor eye. This complication can be avoided …
View article: Preclinical Evaluation of BMP-9-Treated Human Bone-like Substitutes for Alveolar Ridge Preservation following Tooth Extraction
Preclinical Evaluation of BMP-9-Treated Human Bone-like Substitutes for Alveolar Ridge Preservation following Tooth Extraction Open
The success of dental implant treatment after tooth extraction is generally maximized by preserving the alveolar ridge using cell-free biomaterials. However, these treatments can be associated with inflammatory reactions, leading to additi…
View article: In Vitro Prevascularization of Self-Assembled Human Bone-Like Tissues and Preclinical Assessment Using a Rat Calvarial Bone Defect Model
In Vitro Prevascularization of Self-Assembled Human Bone-Like Tissues and Preclinical Assessment Using a Rat Calvarial Bone Defect Model Open
In vitro prevascularization has the potential to address the challenge of maintaining cell viability at the core of engineered constructs, such as bone substitutes, and to improve the survival of tissue grafts by allowing quicker anastomos…
View article: Human Organ‐Specific 3D Cancer Models Produced by the Stromal Self‐Assembly Method of Tissue Engineering for the Study of Solid Tumors
Human Organ‐Specific 3D Cancer Models Produced by the Stromal Self‐Assembly Method of Tissue Engineering for the Study of Solid Tumors Open
Cancer research has considerably progressed with the improvement of in vitro study models, helping to understand the key role of the tumor microenvironment in cancer development and progression. Over the last few years, complex 3D human ce…
View article: Best practices for enhancing surgical research: a perspective from the Canadian Association of Chairs of Surgical Research
Best practices for enhancing surgical research: a perspective from the Canadian Association of Chairs of Surgical Research Open
The Canadian Association of Chairs of Surgical Research was created in 2014, with representation from every departmental surgical research committee across Canada, to establish Canadian surgical research as a beacon for health care innovat…
View article: Specialized Living Wound Dressing Based on the Self-Assembly Approach of Tissue Engineering
Specialized Living Wound Dressing Based on the Self-Assembly Approach of Tissue Engineering Open
There is a high incidence of failure and recurrence for chronic skin wounds following conventional therapies. To promote healing, the use of skin substitutes containing living cells as wound dressings has been proposed. The aim of this stu…
View article: Tissue-engineered 3D melanoma model with blood and lymphatic capillaries for drug development
Tissue-engineered 3D melanoma model with blood and lymphatic capillaries for drug development Open
While being the rarest skin cancer, melanoma is also the deadliest. To further drug discovery and improve clinical translation, new human cell-based in vitro models are needed. Our work strives to mimic the melanoma microenvironment in vit…