Publications
Journal Articles
Yoshida, T., AuBuchon, J.P., Tryzelaar, L, Foster, K.Y., Bitensky, M.W. Extended
Storage of Red Blood Cells Under Anaerobic Conditions. Vox Sanguinis (2007) 92(1):
22-31.
Full Article
Yoshida, T., AuBuchon, J.P. et al. The Effects of Additive Solution pH and Metabolic
Rejuvenation on Anaerobic Storage of Red Cells. Transfusion (2008) 41(10): 2096-2105.
Full Article
Dumont, L.J., Yoshida, T., AuBuchon, J.P. Anaerobic Storage of Red Blood Cells in
a Novel Additive Solution Improves In vivo Recovery. Transfusion (2009) 49(3): 458-464.
Full Article
Yoshida, T., Lee, J., McDonough, W., Friedman, K., and Bitensky, M.W. Anaerobic
Refrigerated-storage of Red Blood Cells for 9 Weeks: In Vivo and in Vitro Characteristics.
Transfusion (1997) 37, No. 9S, 104s.
Yoshida, T., Bitensky, M.W., Pickard, C.A., Herschel, R. J., AuBuchon, J.P., 9-Week
Storage of Red Blood Cells in AS3 Under Oxygen Depleted Conditions. Transfusion
(1999) Vol. 39, No. 10s, s500 1999.
Yoshida, T. Bitensky, M.W., Tryzelaar, L., Foster, K., Herschel, L., Roger, J.,
AuBuchon, J.P. Effect of Oxygen Removal On 9-week Storage of Red Blood Cells in
EAS61 Additive Solution. Transfusion (2000) Vol. 40, Supplement.
Dumont, L.J., Yoshida, T., Herschel, L.H., Dumont, D.F., Baker, S., AuBuchon, J.P.
Anaerobic Storage of Red Cells Improves In Vivo Recovery. Transfusion (2008) Vol.
48, No. s2, S101-030M.
Abstracts
Yoshida, T. and Dembo, M. A Thermodynamic Model of Hemoglobin Suitable for Physiological
Applications. American Journal of Physiology (1990), Cell Physiology 258, C363-C577.
Gifford, S., Derganc, J., Frank, M., Gabel, C., Austin, R.H., Yoshida, T., Bitensky,
M.W. Rapid, Precise Microchannel-based Measurements of Individual Erythrocyte Areas
and Volumes. Biophys. J. (2003) 84(1): 1-11.
Shevkoplyas, S.S., Gifford, S.C., Yoshida, T., Bitensky, M.W. Prototype of an In
Vitro Model of the Microcirculation. Microvasc Res. (2003) Mar;65(2):132-6.
Shevkoplyas, S.S., Yoshida, T., Munn, L.L., Bitensky, M.W. Biomimetic Autoseparation
of Leukocytes from Whole Blood in a Microfluidicdevice. Analytical Chemistry (2005)
Feb 1;77(3):933-7.
Gifford, S.C., Yoshida, T., Shevkoplyas, S.S., Bitensky, M.W. A high-resolution,
Double-labeling Method for the Study of In Vivo Red Blood Cell Aging. Transfusion
(2006) 46: 578-588.
Shevkoplyas, S.S., Yoshida, T., Gifford, S.C., Bitensky, M.W. Direct Measurement
of the Impact of Impaired Erythrocyte Deformability on Microvascular Network Perfusion
in a Microfluidics Device. Lab on a Chip (2006), (7),914-920.
Gifford, S.C., Derganc, J., Shevkoplyas, S.S., Yoshida, T., Bitensky, M.W. A Detailed
Study of Time-dependent Changes in Human Red Blood Cells: From Reticulocyte Maturation
to Erythrocyte Senescence. British Journal of Haematology (2006) 135:395-404.
Misc. Publications Related to Hemanext Technologies-Abstracts and Conference Reports
Yoshida, T., Brainard, J.R., Hutson, H.Y. and Fee, J.A. Control Analysis of Red
Cell Glycolysis: Combined NMR and Computer Modeling Studies. Fed. Proc. (1986) 45,
No.2095.
Yoshida, T., Dembo, M. and Fee, J.A. A Biochemical Model of Human Erythrocytes.
FASEB J. (1988) 2, (5) No.1477.
Yoshida, T. and Dembo, M. Toward a Comprehensive Biochemical Model of Human Erythrocytes:
Relationships Between Metabolic and Osmotic State of the Cell and the State of Hemoglobin.
Red Cell Metabolism and Function (1989), Brewer, G.J. Ed., Alan R. Liss.
Derganc, J., Frank, M.G., Gifford, S.C., Yoshida, T., Gabel, C., Austin, R.H., &
Bitensky, M.W. Application of Silicone Microchannel Array in Automated Single Red
Blood Cell Analysis. Biophys J. (2001) 80 (1): 644 Part 2.
Shevkoplyas, S.S., Yoshida, T., Munn, L.L. & Bitensky, M.W. Microfluidic Device
for Autoseparation of White Blood Cells from Whole Blood. American Institute of
Chemical Engineers (AIChE) (2004) 2004 Annual Meeting, Austin, TX, November 7-12,
2004.
Shevkoplyas, S.S., Yoshida, T., Munn, L.L. & Bitensky, M.W. Design of a Microfluidic
Device for Autoseparation of Leukocytes from Whole Blood. Annual Fall Meeting of
the Biomedical Engineering Society (BMES) (2004), Philadelphia, PA, October 13-16,
2004.