1997
DOI: 10.1016/s0378-4347(97)00130-8
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Issues in the development of medical products based on human plasma

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Cited by 19 publications
(3 citation statements)
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“…The model of gradient HPLC separations of proteins was applied to develop the theoretical and practical views of HPMC. The physical and chemical properties of protein macromolecules, which explain their behavior in dynamic separation, gave the possibility of transferring rather easily the separation process onto thin throughput layers with an adsorption functionality identical to that of sorbents used in conventional HPLC. The experimental comparison of protein behavior under HPLC and HPMC conditions showed that the general principles of gradient chromatography can be applied in both cases. The advantages of the later are separation of proteins (including affinity HPMC) in the seconds time range, low-pressure drop, and high-flow unaffected dynamic binding capacity. Experience in this area recently allowed for development of an original theoretical model of protein separation by the HPMC method called the “one-step desorption process”…”
mentioning
confidence: 99%
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“…The model of gradient HPLC separations of proteins was applied to develop the theoretical and practical views of HPMC. The physical and chemical properties of protein macromolecules, which explain their behavior in dynamic separation, gave the possibility of transferring rather easily the separation process onto thin throughput layers with an adsorption functionality identical to that of sorbents used in conventional HPLC. The experimental comparison of protein behavior under HPLC and HPMC conditions showed that the general principles of gradient chromatography can be applied in both cases. The advantages of the later are separation of proteins (including affinity HPMC) in the seconds time range, low-pressure drop, and high-flow unaffected dynamic binding capacity. Experience in this area recently allowed for development of an original theoretical model of protein separation by the HPMC method called the “one-step desorption process”…”
mentioning
confidence: 99%
“…[22][23][24][25] The advantages of the later are separation of proteins (including affinity HPMC) in the seconds time range, low-pressure drop, and high-flow unaffected dynamic binding capacity. [26][27][28][29][30][31] Experience in this area…”
mentioning
confidence: 99%
“…The chromatography process physically separates virus particles from the product based on size, charge, density, binding affinity, and other differences between virus and product [41][42][43]. To evaluate effectiveness of the DEAE-toyopearl 650M anion-exchange column chromatography step in partitioning viruses, the elution profile of non-enveloped viruses through chromatography was assessed (Table 5).…”
Section: Inactivation Of Enveloped Viruses Through S/d Treatmentmentioning
confidence: 99%