Bio-Rad Foresight™ Chromatography Columns, Prepacked User Manual

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Section 6

References

1. Bensch M et al. (2005). High throughput screening of

chromatographic phases for rapid process development. Chem Eng
Technol 28, 1274–1284.

2. Coffman JL et al. (2008). High-throughput screening of

chromatographic separations: I. method development and column
modeling. Biotechnol Bioeng 100, 605–618.

3. Nfor BK et al. (2010). High-throughput isotherm determination and

thermodynamic modeling of protein adsorption on mixed mode
adsorbents. J Chromatogr A 1217, 6829–6850.

4. Chhatre S and Titchener-Hooker NJ (2009). Microscale methods

for high-throughput chromatography development in the
pharmaceutical industry. J Chem Technol Biotechnol 84, 927–940.

5. Bergander T et al. (2008). High-throughput process development:

determination of dynamic binding capacity using microtiter
filter plates filled with chromatography resin. Biotechnol
Prog 24, 632–639.

6. Kelley BD et al. (2008). High-throughput screening of

chromatographic separations: IV. Ion-exchange. Biotechnol Bioeng
100, 950–963.

7. Bhambure R et al. (2011). High-throughput process development

for biopharmaceutical drug substances. Trends Biotechnol 29,
127–135.

8. Anurag SR (2009). Roadmap for implementation of quality by design

(QbD) for biotechnology products. Trends Biotechnol 27, 546–553.

9. Bergander T et al. (2008). High-throughput process development:

determination of dynamic binding capacity using microtiter filter
plates filled with chromatography resin. Biotechnol Prog 24,
632–639.

10. Carta G and Jungbauer A (2010). Process Chromatography:

Process Development and Scale-Up. 1st ed (Weinheim:
Wiley-VCH).

11. Guiochon G et al. (2006). Fundamentals of Preparative and

Nonlinear Chromatography. (Academic Press).

12. Taylor JR (1997). An introduction to Error Analysis: The study of

uncertainties in physical measurements. 2nd ed (University Science
Books).