Search research articles
Contact Us
Filters
Showing results (1-10 of 13) with videos related to
Page
of 2
Sort By:
Transfusion
|
March 1, 1997
The effect of hypotonicity, glutamine, and glycine on red cell preservation
T J Greenwalt, N Rugg, U J Dumaswala
Vox Sanguinis
|
January 1, 1996
Studies in red blood cell preservation 10. 51Cr recovery of red cells after liquid storage in a glycerol-containing additive solution
T J Greenwalt, U J Dumaswala, N Rugg
Vox Sanguinis
|
January 1, 1994
Studies in red blood cell preservation: 9. The role of glutamine in red cell preservation
U J Dumaswala, N Rugg, T J Greenwalt
Transfusion
|
May 21, 1999
A feasibility evaluation of an automated blood component collection system platelets and red cells
N Rugg, C Pitman, J E Menitove, et al.
Transfusion
|
August 29, 2000
Successful storage of RBCs for 10 weeks in a new additive solution
J R Hess, N Rugg, A D Knapp, et al.
Transfusion
|
August 29, 2000
Successful storage of RBCs for 9 weeks in a new additive solution
J R Hess, N Rugg, A D Knapp, et al.
Vox Sanguinis
|
March 6, 2010
Multi-institutional randomized control study of haemolysis in stored red cell units prepared manually or by an automated system
M J McAteer, L J Dumont, J Cancelas, et al.
Transfusion
|
January 10, 2006
Buffering and dilution in red blood cell storage
J R Hess, N Rugg, A D Joines, et al.
Transfusion
|
August 9, 2001
The role of electrolytes and pH in RBC ASs
J R Hess, N Rugg, A D Knapp, et al.
Vox Sanguinis
|
February 22, 2017
Red blood cell concentrates treated with the amustaline (S-303) pathogen reduction system and stored for 35 days retain post-transfusion viability: results of a two-centre study
J A Cancelas, J L Gottschall, N Rugg, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 13) with videos related to
Sort By:
Page
of 2
Transfusion
|
March 1, 1997
The effect of hypotonicity, glutamine, and glycine on red cell preservation
T J Greenwalt, N Rugg, U J Dumaswala
Vox Sanguinis
|
January 1, 1996
Studies in red blood cell preservation 10. 51Cr recovery of red cells after liquid storage in a glycerol-containing additive solution
T J Greenwalt, U J Dumaswala, N Rugg
Vox Sanguinis
|
January 1, 1994
Studies in red blood cell preservation: 9. The role of glutamine in red cell preservation
U J Dumaswala, N Rugg, T J Greenwalt
Transfusion
|
May 21, 1999
A feasibility evaluation of an automated blood component collection system platelets and red cells
N Rugg, C Pitman, J E Menitove, et al.
Transfusion
|
August 29, 2000
Successful storage of RBCs for 10 weeks in a new additive solution
J R Hess, N Rugg, A D Knapp, et al.
Transfusion
|
August 29, 2000
Successful storage of RBCs for 9 weeks in a new additive solution
J R Hess, N Rugg, A D Knapp, et al.
Vox Sanguinis
|
March 6, 2010
Multi-institutional randomized control study of haemolysis in stored red cell units prepared manually or by an automated system
M J McAteer, L J Dumont, J Cancelas, et al.
Transfusion
|
January 10, 2006
Buffering and dilution in red blood cell storage
J R Hess, N Rugg, A D Joines, et al.
Transfusion
|
August 9, 2001
The role of electrolytes and pH in RBC ASs
J R Hess, N Rugg, A D Knapp, et al.
Vox Sanguinis
|
February 22, 2017
Red blood cell concentrates treated with the amustaline (S-303) pathogen reduction system and stored for 35 days retain post-transfusion viability: results of a two-centre study
J A Cancelas, J L Gottschall, N Rugg, et al.
Page
of 2