Steven Lantz scite author profile

Screening for pharmaceutically viable stability from measurements of thermally induced protein unfolding and short-term accelerated stress underpins much molecule design, selection, and formulation in the pharmaceutical biotechnology industry. However, the interrelationships among intrinsic protein conformational stability, thermal denaturation, and pharmaceutical stability are complex. There are few publications in which predictions from thermal unfolding-based screening methods are examined together with pharmaceutically relevant long-term storage stability performance. We have studied eight developable therapeutic IgG molecules under solution conditions optimized for large-scale commercial production and delivery. Thermal unfolding profiles were characterized by differential scanning calorimetry (DSC) and intrinsic fluorescence recorded simultaneously with static light scattering (SLS). These molecules exhibit a variety of thermal unfolding profiles under common reference buffer conditions and under individually optimized formulation conditions. Aggregation profiles by SE-HPLC and bioactivity upon long-term storage at 5, 25, and 40 °C establish that IgG molecules possessing a relatively wide range of conformational stabilities and thermal unfolding profiles can be formulated to achieve pharmaceutically stable drug products. Our data suggest that a formulation design strategy that increases the thermal unfolding temperature of the Fab transition may be a better general approach to improving pharmaceutical storage stability than one focused on increasing Tonset or Tm of the first unfolding transition.

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Two‐dimensional Simulations of Buoyantly Rising, Interacting Magnetic Flux Tubes

Fan¹,

Zweibel²,

Lantz³

1998

ApJ

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The alpha dynamo parameter and measurability of helicities in magnetohydrodynamic turbulence

Matthaeus¹,

Goldstein

Lantz

1986

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Alpha, an important parameter in dynamo theory, is shown to be proportional to either the kinetic, current, magnetic, or velocity helicities of the fluctuating magnetic field and fluctuating velocity field. The particular helicity to which alpha is proportional depends on the assumptions used in deriving the first-order smoothed equations that describe the alpha effect. In two cases, viz., when alpha is proportional to either the magnetic helicity or velocity helicity, alpha can be determined experimentally from two-point measurements of the fluctuating fields in incompressible, homogeneous turbulence with arbitrary rotational symmetry. For the other two possibilities, alpha can be determined if the turbulence is isotropic.

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Magnetoconvection dynamics in a stratified layer. 2: A low-order model of the tilting instability

Lantz¹

1995

ApJ

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Steven Lantz

Anelastic Magnetohydrodynamic Equations for Modeling Solar and Stellar Convection Zones

Examination of Thermal Unfolding and Aggregation Profiles of a Series of Developable Therapeutic Monoclonal Antibodies

Two‐dimensional Simulations of Buoyantly Rising, Interacting Magnetic Flux Tubes

The alpha dynamo parameter and measurability of helicities in magnetohydrodynamic turbulence

Magnetoconvection dynamics in a stratified layer. 2: A low-order model of the tilting instability

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