BioM-6: BUGA-CoL Type-1 Collagen Solution

Bugamed

  • €309,00
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COLLAGEN SOLUTION OF STERILE FILTERED AND BSE FREE.

ALL PRICES ARE WITHOUT VAT AND THE SHIPPING COSTS CAN BE SEEN AT THE SHOPPING CART AFTER PROVIDING SHIPPING ADDRESS.

 

 


 BUGA-CoL Type I Collagen Solutions consists of approximately 97% Type I collagen and 3% of Type III collagen. These products are supplied in packaging at concentrations of 3 mg / ml, 6 mg / ml and 10 mg / ml. BUGA-CoL Type I Collagen Solutions are filtered in filters with suitable pore diameters without BSE and are sterilized and presented for your use

 Fields of usage: It can be used in biomedical, microfluidic chip, tissue engineering, natural polymer for 3D printing, Material Science, Biochemistry and cell culture studies.


DATASHEET

 

Specification Info
Amount, Volume

3, 6, or 10 mg/mL in 50 mL

(Higher amounts are available upon request)

Material Collagen from bovine tendon
Extraction Method Enzymatic - Athelocollagen
Sterilization Method Filtration
Appearance Solution
Solubility 3 mg/mL (in 0.01 M HCl)
Dispersion Complete dissolution at 0.01 M HCl
Odor No data available
Storage Temperature 2-10 ºC
Shelf Life At least 6 months from production date
pH  1.8-2.1
Purity- Silver staining 98.9
Electrophoretic Property - Commasie blue Characteristic
Endotoxin / LAL Lower than 10 EU/mL
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REQUIREMENTS 

Additional Requirements Suggestions
Specified Use It is intended for use only in research and development studies.
Microfluidic Tissue-on-Chips

Suitable to be used in any microfluidic channel.

Suggested to be used with uFluidic Tissue-on-Chips

Not recommended use Not suitable for consumption, medication, food and other uses
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LITERATURE 

Application examples from literature

 

These are some highly sited articles from literature. The chip designs are not identical but working is the same in principle.

Erica Rosella et.al., 2020
 A microfluidic approach for development of hybrid collagen-chitosan extracellular matrix-like membranes for on-chip cell cultures
DOI:10.1016/j.jmst.2020.02.059
G. Pagano et.al., 2014
 Optimizing design and fabrication of microfluidic devices for cell cultures: An effective approach to control cell microenvironment in three dimensions
DOI: 10.1063/1.4893913
Brian Burkel et.al., 2016
 Preparation of 3D Collagen Gels and Microchannels for the Study of 3D Interactions In Vivo
DOI: 10.3791/53989
Keith B Neeves et.al., 2013
 Sources of Variability in Platelet Accumulation on Type 1 Fibrillar Collagen in Microfluidic Flow Assays
DOI: 10.1371/journal.pone.0054680
Christian Haynl et.al., 2016
 Microfluidics-Produced Collagen Fibers Show Extraordinary Mechanical Properties
DOI: 10.1021/acs.nanolett.6b02828
 

 


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