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Physical Review Letters
|
September 30, 1996
The Twelve-Line 1.682 eV Luminescence Center in Diamond and the Vacancy-Silicon Complex
Goss, Jones, Breuer, et al.
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
January 21, 2025
Will Xylocore<sup>®</sup> be the magic ELIXIR for peritoneal dialysis?
Johann Morelle, Carl M Öberg
American Journal of Physiology. Renal Physiology
|
January 11, 2013
Quantification of the electrostatic properties of the glomerular filtration barrier modeled as a charged fiber matrix separating anionic from neutral Ficoll
Carl M Öberg, Bengt Rippe
Chemosphere
|
March 6, 2012
The chemical and environmental property space of REACH chemicals
Tomas Öberg, M Sarfraz Iqbal
The Journal of Physical Chemistry. A
|
February 12, 2011
Study on potassium iso-propylxanthate and its decomposition products: experimental 13C CP/MAS NMR combined with DFT calculations
Anna-Carin Larsson, Sven Öberg
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
September 11, 2019
Computer Simulations of Continuous Flow Peritoneal Dialysis Using the 3-Pore Model-a First Experience
Carl M Öberg, Giedre Martuseviciene
American Journal of Physiology. Renal Physiology
|
January 7, 2015
Letter to the Editor: "Can early plasma elimination rate be used to quantify renal clearance of macromolecules?"
Carl M Öberg, Bengt Rippe
Kidney International Reports
|
December 23, 2017
Optimizing Automated Peritoneal Dialysis Using an Extended 3-Pore Model
Carl M Öberg, Bengt Rippe
American Journal of Physiology. Renal Physiology
|
February 14, 2014
A distributed two-pore model: theoretical implications and practical application to the glomerular sieving of Ficoll
Carl M Öberg, Bengt Rippe
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
March 9, 2019
Computer Simulations of Continuous Flow Peritoneal Dialysis Using the 3-Pore Model-A First Experience
Carl M Öberg, Giedre Martuseviciene
Page
of 75
Search research articles
Search
Showing results (51-60 of 742) with videos related to
Sort By:
Page
of 75
Physical Review Letters
|
September 30, 1996
The Twelve-Line 1.682 eV Luminescence Center in Diamond and the Vacancy-Silicon Complex
Goss, Jones, Breuer, et al.
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
January 21, 2025
Will Xylocore<sup>®</sup> be the magic ELIXIR for peritoneal dialysis?
Johann Morelle, Carl M Öberg
American Journal of Physiology. Renal Physiology
|
January 11, 2013
Quantification of the electrostatic properties of the glomerular filtration barrier modeled as a charged fiber matrix separating anionic from neutral Ficoll
Carl M Öberg, Bengt Rippe
Chemosphere
|
March 6, 2012
The chemical and environmental property space of REACH chemicals
Tomas Öberg, M Sarfraz Iqbal
The Journal of Physical Chemistry. A
|
February 12, 2011
Study on potassium iso-propylxanthate and its decomposition products: experimental 13C CP/MAS NMR combined with DFT calculations
Anna-Carin Larsson, Sven Öberg
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
September 11, 2019
Computer Simulations of Continuous Flow Peritoneal Dialysis Using the 3-Pore Model-a First Experience
Carl M Öberg, Giedre Martuseviciene
American Journal of Physiology. Renal Physiology
|
January 7, 2015
Letter to the Editor: "Can early plasma elimination rate be used to quantify renal clearance of macromolecules?"
Carl M Öberg, Bengt Rippe
Kidney International Reports
|
December 23, 2017
Optimizing Automated Peritoneal Dialysis Using an Extended 3-Pore Model
Carl M Öberg, Bengt Rippe
American Journal of Physiology. Renal Physiology
|
February 14, 2014
A distributed two-pore model: theoretical implications and practical application to the glomerular sieving of Ficoll
Carl M Öberg, Bengt Rippe
Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|
March 9, 2019
Computer Simulations of Continuous Flow Peritoneal Dialysis Using the 3-Pore Model-A First Experience
Carl M Öberg, Giedre Martuseviciene
Page
of 75