H
Henry Chubb
Researcher at Stanford University
Publications - 90
Citations - 1483
Henry Chubb is an academic researcher from Stanford University. The author has contributed to research in topics: Medicine & Internal medicine. The author has an hindex of 18, co-authored 77 publications receiving 967 citations. Previous affiliations of Henry Chubb include King's College London & Nuclear Regulatory Commission.
Papers
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Journal ArticleDOI
The use of Z-scores in paediatric cardiology
Henry Chubb,John M. Simpson +1 more
TL;DR: Z-scores are a means of expressing the deviation of a given measurement from the size or age specific population mean and can be applied to echocardiographic measurements, blood pressure and patient growth, and thus may assist in clinical decision-making.
Journal ArticleDOI
Weakly supervised classification of aortic valve malformations using unlabeled cardiac MRI sequences.
Jason A. Fries,Paroma Varma,Vincent S. Chen,Ke Xiao,Heliodoro Tejeda,Priyanka Saha,Jared Dunnmon,Henry Chubb,Shiraz A. Maskatia,Madalina Fiterau,Scott L. Delp,Euan A. Ashley,Christopher Ré,James R. Priest +13 more
TL;DR: This work formalizes a deep learning baseline for aortic valve classification and outlines a general strategy for using weak supervision to train machine learning models using unlabeled medical images at scale.
Journal ArticleDOI
The role of myocardial wall thickness in atrial arrhythmogenesis
John Whitaker,Ronak Rajani,Henry Chubb,Henry Chubb,Mark Gabrawi,Marta Varela,Matthew Wright,Steven A. Niederer,Mark D O'Neill +8 more
TL;DR: Evidence using isolated tissue preparations, animal models of AF, and computer simulations proves that the three-dimensional tissue structure will be an important determinant of the electrical behaviour of atrial tissue.
Journal ArticleDOI
Slow Conduction in the Border Zones of Patchy Fibrosis Stabilizes the Drivers for Atrial Fibrillation: Insights from Multi-Scale Human Atrial Modeling
TL;DR: Rotors stabilize in the border zones of patchy fibrosis in 3D atria, where slow conduction enable the development of circuits within relatively small regions in AF.
letters-and-commentsDOI
Ultrarapid Nanopore Genome Sequencing in a Critical Care Setting.
John E. Gorzynski,Sneha D. Goenka,Kishwar Shafin,Tanner D Jensen,Dianna G. Fisk,Megan E. Grove,Elizabeth Spiteri,Trevor Pesout,Jean Marcel Maurice Monlong,Gunjan Baid,Jonathan A. Bernstein,Scott R. Ceresnak,Pi-Chuan Chang,Jeffrey W. Christle,Henry Chubb,Karen P. Dalton,Kyla Dunn,Daniel Ryan Garalde,J. Guillory,Joshua W. Knowles,Alexey Kolesnikov,Michael Ma,Tia Moscarello,Maria Nattestad,Marco V Perez,Maura R.Z. Ruzhnikov,Mehrzad Samadi,Ankit Setia,C. Wright,Courtney J. Wusthoff,Katherine Xiong,Tong Zhu,Miten Jain,Fritz J. Sedlazeck,Andrew Carroll,Benedict Paten,Euan A. Ashley +36 more
TL;DR: The workflow combines streamlined preparation of commercial nanopore sequencing, distributed Cloudbased bioinformatics, and a custom variant-prioritization approach to accurately and rapidly provide genetic diagnoses.