1.10317
Fractogel® EMD BioSEC (S)
Sinónimos:
Fractogel® EMD BioSEC (S)
About This Item
Productos recomendados
ligand
(Modified pore structure)
Quality Level
description
for size exclusion chromatography (SEC), suspension in 20% ethanol and 150 mM NaCl (20-40 µm)
product line
Fractogel®
parameter
100 cm/hr max. flow rate
8 bar pressure
matrix active group
Methacrylate
mean particle size
20-40 μm
transition temp
flash point 35 °C (calculated)
density
1.43 g/cm3 at 20 °C
application(s)
viral therapy
separation technique
size exclusion (SEC)
storage temp.
2-30°C
General description
Features and Benefits
- Effectively remove dimer and high molecular weight aggregates and complete an efficient polishing of blood plasma factors
- Determine apparent molecular weights of proteins
- Move predictably and efficiently from bench scale to manufacturing scale processing
- Create a robust, consistent, and transferable process
Packaging
Analysis Note
Microscopic evaluation: Uniform sphericalparticles, noagglomerates, nofines
Extractable matter (water): ≤ 0.03 %
Cerium: ≤ 1 µg/g
Pressure drop(column: ID=1.6 cm, L=10 cm at 5 ml/min): ≤ 5.0 bar
Particle size (d10): 20 - 28 µm
Particle size (d50): 24 - 34 µm
Particle size (d90): 28 - 38 µm
Colony forming units (TAMC + TYMC): ≤ 100 CFU/ml
Endotoxins: ≤ 1.00 EU/ml
Function test (b:a): ≤ 0.7
function test (c:d): ≤ 0.05
Functional Test: Separation of bovine serum albumin, ovalbumin and cytochrom C
Legal Information
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Warning
hcodes
Hazard Classifications
Flam. Liq. 3
Storage Class
3 - Flammable liquids
wgk_germany
WGK 3
flash_point_f
95.0 °F
flash_point_c
35 °C
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Artículos
Influenza vaccines are commonly made using egg-based and cell-based manufacturing strategies. Find step-by-step information on the manufacturing process for each method.
A custom-designed cost model is used to explore the economics of vaccine manufacturing across several different modalities including mRNA. The model enables greater process understanding, simulates bottlenecks, and helps to optimize production efficiency.
A custom-designed cost model is used to explore the economics of vaccine manufacturing across several different modalities including mRNA. The model enables greater process understanding, simulates bottlenecks, and helps to optimize production efficiency.
A custom-designed cost model is used to explore the economics of vaccine manufacturing across several different modalities including mRNA. The model enables greater process understanding, simulates bottlenecks, and helps to optimize production efficiency.
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