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Debbie L. L. Ho

ORCID: 0000-0001-9799-4838
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About
Contact & Profiles
A5039648831
Research Areas
  • 3D Printing in Biomedical Research
  • Pluripotent Stem Cells Research
  • Neuroscience and Neural Engineering
  • Ocular Oncology and Treatments
  • Innovative Microfluidic and Catalytic Techniques Innovation
  • Single-cell and spatial transcriptomics
  • Meningioma and schwannoma management
  • Head and Neck Surgical Oncology
  • Additive Manufacturing and 3D Printing Technologies

Stanford University
 2022-2024

Wellcome/MRC Cambridge Stem Cell Institute
 2019-2021

University of Cambridge
 2019-2021

UNSW Sydney
 2019

Medical Research Council
 2019

 A single-cell molecular map of mouse gastrulation and early organogenesis
OPENALEX - Publications 
Blanca Pijuan-Sala Jonathan A. Griffiths Carolina Guibentif Tom W. Hiscock Wajid Jawaid and 11 more Fernando J. Calero‐Nieto Carla Mulas Ximena Ibarra-Soria Richard C. V. Tyser Debbie L. L. Ho Wolf Reik Shankar Srinivas Benjamin D. Simons Jennifer Nichols John C. Marioni Berthold Göttgens

10.1038/s41586-019-0933-9 article EN Nature 2019-02-01
 Clinical outcomes, Kadish-INSICA staging and therapeutic targeting of somatostatin receptor 2 in olfactory neuroblastoma
OPENALEX - Publications 
Matt Lechner Yoko Takahashi Mario Turri‐Zanoni Jacklyn Liu Nicholas Counsell and 95 more Mario Hermsen Raman Preet Kaur Tianna Zhao Murugappan Ramanathan Volker Hans Schartinger Oscar Emanuel Sam Helman Jordan Varghese József Dudás Herbert Riechelmann Susanne Sprung Johannes Haybaeck David Howard Nils W. Engel Sarah Stewart Laura Brooks Jessica C. Pickles Thomas S. Jacques Tim R. Fenton Luke Williams Francis Vaz Paul O’Flynn Paul Stimpson Shih‐Yu Wang S. Alam Hannan Samit Unadkat Jonathan Hughes Raghav C. Dwivedi Cillian T. Forde Premjit S. Randhawa Simon Gane J. Joseph Peter Andrews Gary Royle Alessandro Franchi Roberta Maragliano Simonetta Battocchio Helen Bewicke‐Copley Christodoulos P. Pipinikas Amy P. Webster Chrissie Thirlwell Debbie L. L. Ho Andrew E. Teschendorff Tianyu Zhu Christopher D. Steele Nischalan Pillay Bart Vanhaesebroeck Ahmed Mohyeldin Juan C. Fernandez‐Miranda Ki Wan Park Quynh‐Thu Le Robert B. West Rami Saade R. Peter Manes Sacit Bulent Omay Eugenia M. Vining Benjamin L. Judson Wendell G. Yarbrough Maddalena Sansovini Silvia Nicolini Ilaria Grassi Alberto Bongiovanni David Capper Ulrich Schüller Selvam Thavaraj Ann Sandison Pavol Šurda Claire Hopkins Marco Ferrari Davide Mattavelli Vittorio Rampinelli Fabio Facchetti Piero Nicolai Paolo Bossi Oswaldo A. Henriquez Kelly R. Magliocca C. Arturo Solares Sarah K. Wise José Luís Llorente Zara M. Patel Jayakar V. Nayak Peter H. Hwang Peter D. Lacy Robbie Woods James P. O’Neill Amrita Jay Dawn Carnell Martin Förster Masaru Ishii Nyall R. London Diana Bell Gary L. Gallia Paolo Castelnuovo Stefano Severi Valerie J. Lund

10.1016/j.ejca.2021.09.046 article EN European Journal of Cancer 2021-12-31
 Large‐Scale Production of Wholly Cellular Bioinks via the Optimization of Human Induced Pluripotent Stem Cell Aggregate Culture in Automated Bioreactors
OPENALEX - Publications 
Debbie L. L. Ho Stacey Lee Jianyi Du Jonathan D. Weiss Tony Tam and 17 more Soham Sinha D. L. Klinger Sean Devine Art Hamfeldt Hope T. Leng Jessica E. Herrmann Mengdi He Lee G. Fradkin Tze-Kai Tan David Standish Peter Tomasello Donald L. Traul Noushin Dianat Rukmini Ladi Quentin Vicard Kishore Reddy Katikireddy Mark A. Skylar‐Scott

Combining the sustainable culture of billions human cells and bioprinting wholly cellular bioinks offers a pathway toward organ-scale tissue engineering. Traditional 2D methods are not inherently scalable due to cost, space, handling constraints. Here, suspension induced pluripotent stem cell-derived aggregates (hAs) is optimized using an automated 250 mL stirred tank bioreactor system. Cell yield, aggregate morphology, pluripotency marker expression maintained over three serial passages in...

10.1002/adhm.202201138 article EN cc-by Advanced Healthcare Materials 2022-10-31
 A Visual, In‐Expensive, and Wireless Capillary Rheometer for Characterizing Wholly‐Cellular Bioinks
OPENALEX - Publications 
Jianyi Du Stacey Lee Soham Sinha Fredrik S. Solberg Debbie L. L. Ho and 4 more Joshua P. Sampson Qiuling Wang Tony Tam Mark A. Skylar‐Scott

Abstract Rheological measurements with in situ visualization can elucidate the microstructural origin of complex flow behaviors an ink. However, existing commercial rheometers suffer from high costs, need for dedicated facilities microfabrication, a lack design flexibility, and cabling that complicates operation sterile or enclosed environments. To address these limitations, low‐cost ($300) visual, in‐expensive wireless rheometer (VIEWR) using 3D‐printed off‐the‐shelf components is...

10.1002/smll.202304778 article EN cc-by Small 2023-12-12
 A Visual, In‐Expensive, and Wireless Capillary Rheometer for Characterizing Wholly‐Cellular Bioinks (Small 17/2024)
OPENALEX - Publications 
Jianyi Du Stacey Lee Soham Sinha Fredrik S. Solberg Debbie L. L. Ho and 4 more Joshua P. Sampson Qiuling Wang Tony Tam Mark A. Skylar‐Scott

10.1002/smll.202470135 article EN Small 2024-04-01
 Large‐Scale Production of Wholly Cellular Bioinks via the Optimization of Human Induced Pluripotent Stem Cell Aggregate Culture in Automated Bioreactors (Adv. Healthcare Mater. 24/2022)
OPENALEX - Publications 
Debbie L. L. Ho Stacey Lee Jianyi Du Jonathan D. Weiss Tony Tam and 17 more Soham Sinha D. L. Klinger Sean Devine Art Hamfeldt Hope T. Leng Jessica E. Herrmann Mengdi He Lee G. Fradkin Tze-Kai Tan David Standish Peter Tomasello Donald L. Traul Noushin Dianat Rukmini Ladi Quentin Vicard Kishore Reddy Katikireddy Mark A. Skylar‐Scott

10.1002/adhm.202270149 article EN Advanced Healthcare Materials 2022-12-01
 2009 - DISRUPTING THE MASTER REGULATORS OF BLOOD EMERGENCE IN THE MOUSE EMBRYO
OPENALEX - Publications 
Carolina Guibentif Jonathan A. Griffiths Blanca Pijuan-Sala Shila Ghazanfar Debbie L. L. Ho and 6 more Tom W. Hiscock Ivan Imaz-Rosshandler Jennifer Nichols Benjamin D. Simons John C. Marioni Berthold Göttgens

10.1016/j.exphem.2019.06.283 article EN publisher-specific-oa Experimental Hematology 2019-08-01
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