Lab News
Implantable AP featured in Newsweek Europe
http://europe.newsweek.com/artificial-pancreas-could-transform-diabetes-treatment-329754
Implantable AP featured in Science Daily
Artificial Pancreas research from the T1D team has been featured in Science Daily (and made the reddit frontpage)! See here for details on our latest work: implantable AP.
A Pediatric Diabetes Gamechanger
NIH-funded research on a pediatric artificial pancreas could make sleepless nights and high anxiety a thing of the past for parents of children with Type 1 diabetes
To view the complete story, view the press release. Also see the story from UCSB.
UCSB diabetes researcher refines fine art of forecasting behavior
A recent news story highlighted in the Pacific Coast Business Times.
Artificial Pancreas Clinical Database
Our Artificial Pancreas Clinical Database brings together information from published studies conducted around the world, allowing protocol-specific searches and cross-study comparisons.
Research featured in recent article from the Goleta chamber of commerce
See a recent news article from Goleta Magazine highlighting research from the biomedical control project:
Why the First Closed Loop Artificial Pancreas Did Not Come From a Medical School
A recent interview with Scott Hammond, Executive Director of the UCSB Translational Medical Research Laboratories, covers the artificial pancreas project.
Read More:
http://www.medical-horizons.net/blog-view.php?id=484
Fully Automated Artificial Pancreas Finally Within Reach
Read a recent press release regarding our work towards the development of an artificial pancreas system.
A Pancreas in a Box
The artificial pancreas project was recently highlighted in a Science News Focus, http://dx.doi.org/10.1126/science.343.6167.133
Pancreas_in_a_Box_Science_2014
Image Credit: ROMAN HOVORKA/UNIVERSITY OF CAMBRIDGE METABOLIC RESEARCH LABORATORIES
Publications
Closed-loop artificial pancreas systems: engineering the algorithms
F.J. Doyle III, L. M. Huyett, J. B. Lee, H. C. Zisser, E. Dassau , “Closed- Loop Artificial Pancreas Systems: Engineering the Algorithms,” Diabetes Care, May 2014. [DOI]
Novel insulin delivery profiles for mixed meals for sensor-augmented pump and closed-loop artificial pancreas therapy for type 1 diabetes mellitus
A. Srinivasan, J.B. Lee, E. Dassau, F.J. Doyle III, “Novel insulin delivery profiles for mixed meals for sensor-augmented pump and closed-loop artificial pancreas therapy for type 1 diabetes mellitus,” Journal of Diabetes Science and Technology, vol. 8, no. 5, pp. 957-68,Sep 2014. [DOI]
Glucose sensing in the peritoneal space offers faster kinetics than sensing in the subcutaneous space
D.R. Burnett, L.M. Huyett, H.C. Zisser, F.J. Doyle III, B.D. Mensh, “Glucose sensing in the peritoneal space offers faster kinetics than sensing in the subcutaneous space,” Diabetes, vol. 63, no. 7, pp. 2498-505,Jul 2014. [DOI]
Model-Based Personalization Scheme of an Artificial Pancreas for Type 1 Diabetes Applications
J. B. Lee, E. Dassau, D. Seborg, F.J. Doyle III, “Model-Based Personalization Scheme of an Artificial Pancreas for Type 1 Diabetes Applications,” Proceedings of the American Controls Conference 2013.
Clinical evaluation of a personalized artificial pancreas
E. Dassau, H. Zisser, R.A. Harvey, M.W. Percival, B. Grosman, W. Bevier, E. Atlas, S. Miller, R. Nimri, L. Jovanovic, F.J. Doyle III “Clinical evaluation of a personalized artificial pancreas,” Diabetes Care, vol. 36, no. 4, pp. 801-9, Apr 2013. [DOI]
In silico evaluation of an artificial pancreas combining exogenous ultrafast-acting technosphere insulin with zone model predictive control
J.J. Lee, E. Dassau, H. Zisser, R.A. Harvey, L. Jovanovič, F.J. Doyle III “In silico evaluation of an artificial pancreas combining exogenous ultrafast-acting technosphere insulin with zone model predictive control,” Journal of Diabetes Science and Technology, vol. 7, no. 1, pp. 215-26, January 2013. [PMID]
Computational modeling of glucose transport in pancreatic β-cells identifies metabolic thresholds and therapeutic targets in diabetes
C. Luni, J.D. Marth, F.J. Doyle III, “Computational modeling of glucose transport in pancreatic β-cells identifies metabolic thresholds and therapeutic targets in diabetes,” PloS One, vol. 7, no. 12, pp. e53130, December 2012. [DOI]
Design of the health monitoring system for the artificial pancreas: low glucose prediction module
R.A. Harvey, E. Dassau, H. Zisser, D.E. Seborg, L. Jovanovič, F.J. Doyle III “Design of the health monitoring system for the artificial pancreas: low glucose prediction module,” Journal of Diabetes Science and Technology, vol. 6, no. 6, pp. 1345-54, November 2012. [PMID]
Fully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemia
M. Breton, A. Farret, D. Bruttomesso, S. Anderson, L. Magni, S. Patek, C. Dalla Man, J. Place, S. Demartini, S. Del Favero, C. Toffanin, C. Hughes-Karvetski, E. Dassau, H. Zisser, F.J. Doyle III, G. De Nicolao, A. Avogaro, C. Cobelli, E. Renard, B. Kovatchev, International Artificial Pancreas Study Group, “Fully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemia,” Diabetes, vol. 61, no. 9, pp. 2230-7, Sep 2012. [DOI]
Pilot studies of wearable outpatient artificial pancreas in type 1 diabetes
C. Cobelli, E. Renard, B.P. Kovatchev, P. Keith-Hynes, N. Ben Brahim, J. Place, S. Del Favero, M. Breton, A. Farret, D. Bruttomesso, E. Dassau, H. Zisser, F.J. Doyle III, S.D. Patek, A. Avogaro, “Pilot studies of wearable outpatient artificial pancreas in type 1 diabetes,” Diabetes Care, vol. 35, no. 9, pp. e65-7, Sep 2012. [DOI]
