Publications

The State of Artificial Intelligence in Pediatric Surgery: A Systematic Review

Mohamed Elahmedi

Riya Sawhney

Elena Guadagno

Fabio Botelho

Dan Poenaru

2024-02-01

Journal of Pediatric Surgery (published)

doi.org

Transposable elements regulate thymus development and function

Jean-David Larouche

Céline M. Laumont

Assya Trofimov

Krystel Vincent

Leslie Hesnard

Sylvie Brochu

Caroline Côté

Juliette Humeau

Eric Bonneil

Joël Lanoix

Chantal Durette

Patrick Gendron

Jean-Philippe Laverdure

Ellen R. Richie

Sébastien Lemieux

Pierre Thibault

Claude Perreault

2024-02-01

bioRxiv (preprint)

doi.org

Using Artificial Intelligence to Label Free-Text Operative and Ultrasound Reports for Grading Pediatric Appendicitis.

Waseem Abu-Ashour

Sherif Emil

Sister Mary Emil

Dan Poenaru

2024-02-01

Journal of Pediatric Surgery (published)

doi.org

A novel and efficient machine learning Mendelian randomization estimator applied to predict the safety and efficacy of sclerostin inhibition

Marc-andr'e Legault

Jason Hartford

Benoît J. Arsenault

Y. Archer

Yang

Joelle Pineau

Mendelian Randomization (MR) enables estimation of causal effects while controlling for unmeasured confounding factors. However, traditional… (see more) MR's reliance on strong parametric assumptions can introduce bias if these are violated. We introduce a new machine learning MR estimator named Quantile Instrumental Variable (IV) that achieves low estimation error in a wide range of plausible MR scenarios. Quantile IV is distinctive in its ability to estimate nonlinear and heterogeneous causal effects and offers a flexible approach for subgroup analysis. Applying Quantile IV, we investigate the impact of circulating sclerostin levels on heel bone mineral density, osteoporosis, and cardiovascular outcomes in the UK Biobank. Employing various MR estimators and colocalization techniques that allow multiple causal variants, our analysis reveals that a genetically predicted reduction in sclerostin levels significantly increases heel bone mineral density and reduces the risk of osteoporosis, while showing no discernible effect on ischemic cardiovascular diseases. Quantile IV contributes to the advancement of MR methodology, and the case study on the impact of circulating sclerostin modulation contributes to our understanding of the on-target effects of sclerostin inhibition.

2024-01-31

medRxiv (preprint)

doi.org

Blockwise Self-Supervised Learning at Scale

Shoaib Ahmed Siddiqui

David Scott Krueger

Yann LeCun

Stephane Deny

2024-01-30

TMLR (accepted)

doi.org

openreview.net

Integrating accompanying patients into clinical oncology teams: limiting and facilitating factors

Marie-Pascale Pomey

Jesseca Paquette

Monica Iliescu Nelea

Cécile Vialaron

Rim Mourad

Karine Bouchard

Louise Normandin

Marie‐Andrée Côté

Mado Desforges

Pénélope Pomey‐Carpentier

Israël Fortin

Isabelle Ganache

Catherine Régis

Zeev Rosberger

Danielle Charpentier

Marie-France Vachon

Lynda Bélanger

Michel Dorval

Djahanchah Philip Ghadiri

Mélanie Lavoie-Tremblay … (see 5 more)

Antoine Boivin

Jean-François Pelletier

Nicolas Fernandez

Alain M. Danino

Michèle de Guise

2024-01-30

BMC Health Services Research (published)

doi.org

PERFUMES: pipeline to extract RNA functional motifs and exposed structures

Arnaud Chol

Roman Sarrazin-Gendron

Éric Lécuyer

Mathieu Blanchette

Jérôme Waldispühl

Abstract Motivation Up to 75% of the human genome encodes RNAs. The function of many non-coding RNAs relies on their ability to fold into 3D… (see more) structures. Specifically, nucleotides inside secondary structure loops form non-canonical base pairs that help stabilize complex local 3D structures. These RNA 3D motifs can promote specific interactions with other molecules or serve as catalytic sites. Results We introduce PERFUMES, a computational pipeline to identify 3D motifs that can be associated with observable features. Given a set of RNA sequences with associated binary experimental measurements, PERFUMES searches for RNA 3D motifs using BayesPairing2 and extracts those that are over-represented in the set of positive sequences. It also conducts a thermodynamics analysis of the structural context that can support the interpretation of the predictions. We illustrate PERFUMES’ usage on the SNRPA protein binding site, for which the tool retrieved both previously known binder motifs and new ones. Availability and implementation PERFUMES is an open-source Python package (https://jwgitlab.cs.mcgill.ca/arnaud_chol/perfumes).

2024-01-30

Bioinform. (published)

doi.org

Reinforcement Learning for Versatile, Dynamic, and Robust Bipedal Locomotion Control

Zhongyu Li

Xue Bin Peng

Pieter Abbeel

Sergey Levine

Glen Berseth

Koushil Sreenath

This paper presents a comprehensive study on using deep reinforcement learning (RL) to create dynamic locomotion controllers for bipedal rob… (see more)ots. Going beyond focusing on a single locomotion skill, we develop a general control solution that can be used for a range of dynamic bipedal skills, from periodic walking and running to aperiodic jumping and standing. Our RL-based controller incorporates a novel dual-history architecture, utilizing both a long-term and short-term input/output (I/O) history of the robot. This control architecture, when trained through the proposed end-to-end RL approach, consistently outperforms other methods across a diverse range of skills in both simulation and the real world.The study also delves into the adaptivity and robustness introduced by the proposed RL system in developing locomotion controllers. We demonstrate that the proposed architecture can adapt to both time-invariant dynamics shifts and time-variant changes, such as contact events, by effectively using the robot's I/O history. Additionally, we identify task randomization as another key source of robustness, fostering better task generalization and compliance to disturbances. The resulting control policies can be successfully deployed on Cassie, a torque-controlled human-sized bipedal robot. This work pushes the limits of agility for bipedal robots through extensive real-world experiments. We demonstrate a diverse range of locomotion skills, including: robust standing, versatile walking, fast running with a demonstration of a 400-meter dash, and a diverse set of jumping skills, such as standing long jumps and high jumps.

2024-01-30

ArXiv (preprint)

doi.org

arxiv.org

Unsupervised Discovery of Steerable Factors When Graph Deep Generative Models Are Entangled

Shengchao Liu

Chengpeng Wang

Jiarui Lu

Weili Nie

Hanchen Wang

Zhuoxinran Li

Bolei Zhou

Jian Tang

2024-01-30

TMLR (accepted)

openreview.net

Asymmetric stimulus representations bias visual perceptual learning

Pooya Laamerad

Asmara Awada

Christopher C. Pack

Shahab Bakhtiari

The primate visual cortex contains various regions that exhibit specialization for different stimulus properties, such as motion, shape, and… (see more) color. Within each region there is often further specialization, such that particular stimulus features, such as horizontal and vertical orientations, are overrepresented. These asymmetries are associated with well-known perceptual biases, but little is known about how they influence visual learning. Most theories would predict that learning is optimal, in the sense that it is unaffected by these asymmetries. But other approaches to learning would result in specific patterns of perceptual biases. To distinguish between these possibilities, we trained human observers to discriminate between expanding and contracting motion patterns, which have a highly asymmetrical representation in visual cortex. Observers exhibited biased percepts of these stimuli, and these biases were affected by training in ways that were often suboptimal. We simulated different neural network models and found that a learning rule that involved only adjustments to decision criteria, rather than connection weights, could account for our data. These results suggest that cortical asymmetries influence visual perception and that human observers often rely on suboptimal strategies for learning.

2024-01-29

Journal of Vision (published)

doi.org

A comparison of RL-based and PID controllers for 6-DOF swimming robots: hybrid underwater object tracking

Faraz Lotfi

Khalil Virji

Nicholas Dudek

Gregory Dudek

2024-01-29

ArXiv (preprint)

doi.org

arxiv.org