Millipore Sigma Vibrant Logo

Millicell® Cell Culture Inserts

Optimized cell growth, attachment and differentiation

Documents associés

Aperçu

Caractéristiques

Guide d'achat

Go
Millicell Standing InsertsSupprimer le tri & les filtres Show Filter
RéférenceMilieux de cultureChimieDimension de poresSurface de filtrationDevice ConfigurationConditionnement
PICM0RG50Biopore® PTFE hydrophile 0.4 µm 4.2 cm² Pour les plaques de 6 puits 50 Prix & Disponibilité
PIHA01250MF-Millipore Esters de cellulose 0.45 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité
PIHA03050MF-Millipore Esters de cellulose 0.45 µm 4.2 cm² Pour les plaques de 6 puits 50 Prix & Disponibilité
PICM01250Biopore® PTFE hydrophile 0.4 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité
PICM03050Biopore® PTFE hydrophile 0.4 µm 4.2 cm² Pour les plaques de 6 puits 50 Prix & Disponibilité
PIHP01250Isopore® Polycarbonate 0.4 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité
PIHP03050Isopore® Polycarbonate 0.4 µm 4.2 cm² Pour les plaques de 6 puits 50 Prix & Disponibilité
PITP01250Isopore® Polycarbonate 3.0 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité
PIXP01250Isopore® Polycarbonate 12.0 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité
PI8P01250Isopore® Polycarbonate 8.0 µm 0.6 cm² Pour les plaques de 24 puits 50 Prix & Disponibilité

Retourner en haut de la page

Millicell Hanging InsertsSupprimer le tri & les filtres Show Filter
RéférenceChimieDimension de poresSurface de filtrationDevice ConfigurationConditionnement
PTEP24H48Polyéthylène téréphtalate 8.0 µm 0.3 cm² Pour les plaques de 24 puits 48/box Prix & Disponibilité
PTHT24H48Polyéthylène téréphtalate 0.4 µm 0.3 cm² Pour les plaques de 24 puits 48/box Prix & Disponibilité
PTMP24H48Polyéthylène téréphtalate 5.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PTRP24H48Polyéthylène téréphtalate 1.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PTSP24H48Polyéthylène téréphtalate 3.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PCHT24H48Polyéthylène téréphtalate 0.4 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PLRP24H48Polyéthylène téréphtalate 1.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PCSP24H48Polyéthylène téréphtalate 3.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PCHT06H48Polyéthylène téréphtalate 0.4 µm 4.5 cm² Pour les plaques de 6 puits 48 Prix & Disponibilité
PCHT12H48Polyéthylène téréphtalate 0.4 µm 1.1 cm² Pour les plaques de 12 puits 48 Prix & Disponibilité
PCSP06H48Polyéthylène téréphtalate 3.0 µm 4.5 cm² Pour les plaques de 6 puits 48 Prix & Disponibilité
PCSP12H48Polyéthylène téréphtalate 3.0 µm 1.1 cm² Pour les plaques de 12 puits 48 Prix & Disponibilité
PCEP06H48Polyéthylène téréphtalate 8.0 µm 4.5 cm² Pour les plaques de 6 puits 48 Prix & Disponibilité
PCEP12H48Polyéthylène téréphtalate 8.0 µm 1.1 cm² Pour les plaques de 12 puits 48 Prix & Disponibilité
PCEP24H48Polyéthylène téréphtalate 8.0 µm 0.3 cm² Pour les plaques de 24 puits 48 Prix & Disponibilité
PLRP06H48Polyéthylène téréphtalate 1.0 µm 4.5 cm² Pour les plaques de 6 puits 48 Prix & Disponibilité
PLRP12H48Polyéthylène téréphtalate 1.0 µm 1.1 cm² Pour les plaques de 12 puits 48 Prix & Disponibilité

* For attachment-dependent cells, this membrane needs to be coated with an extra cellular matrix.

Retourner en haut de la page

AccessoriesSupprimer le tri & les filtres Show Filter
RéférenceDescriptionConditionnement
MERS00002Voltmètre-Ohmmètre Millicell-ERS 1 Prix & Disponibilité
MERSSTX01Electrodes de rechange, 1 paire 1 Prix & Disponibilité

Retourner en haut de la page

Documentation

Références bibliographiques

Aperçu de la référence bibliographiqueApplication
Propagation of human embryonic stem cells in a microporous membrane-based indirect co-culture system
Kelsey Albert, Steven Sheridan, Louise Laurent, Igor Ulitsky, Ron Shamir, Jeanne Loring, & Raj R. Rao
Biochemical and Biophysical Research Communications  2009

Astrocyte growth effects of vascular endothelial growth factor (VEGF) application to perinatal neocortical explants: Receptor mediation and signal transduction pathways
Nina Mani, Alfia Khaibullina, Janette Krum and Jeffrey Rosenstein
Experimental Neurology 192 (2005); 394-406  2004

Cell Culture
Subcellular localisation of recombinant a and g-synuclein
Christian Specht, Cezar Tigaret, George Rast, Agnea Thalhammer, York Rudhard and Ralf Schoepfer
Mol. Cell. Neurosci., 28 (2005); 326-334  2004

Cell Culture
Establishment of the organotypic model of amyotrophic lateral sclerosis from the SD rats' spinal cord
Diao ZY, et. al,Beijing Da Xue Xue Bao. 2005 Apr 18;37(2):134-8. Chinese.
Beijing Da Xue Xue Bao. 2005 Apr 18;37(2):134-8. Chinese.  2004

Cell Culture
Neural stem cells protect against glutamate-induced excitotoxicitiy and promote survival of injured motor neurons through the secretion of neurotrophic factors
Jeronia Llado, Christine Haenggeli, Nicholas Maragakis, Evan Snyder and Jeffrey Rothstein
Mol. Cell. Neurosci. , 27 (2004); 322-331  2004

Cell Culture
Development of an in vitro blood-brain barrier model-cytotoxicity of mercury and aluminum.
Toimela, T et. al.,Toxicol Appl Pharmacol. 2004 Feb 15;195(1):73-82.
Toxicol Appl Pharmacol. 2004 Feb 15;195(1):73-82.  2004

Morphological differentiation of bone marrow stromal cells into neuron-like cells after co-culture with hippocampal slice
Abouelfetouh, Ayman, et al
Brain Research (2004), Volume 1029, Issue 1 pp 114-119  2004

Cell Culture
Effect of sodium bicarbonate on extracellular pH, matrix accumulation, and morphology of cultured articular chondrocytes.
Waldman SD, Couto DC, Omelon SJ, Kandel RA
Tissue Engineering (2004), Nov-Dec;10(11-12):1633-40  2004

FGF-10 plays an essential role in the growth of the fetal prostate.
Annemarie A. Donjacour, Axel A. Thomson and Gerald R. Cunha
Developmental Biology 261 (1): 39-54  2003

Cell Culture
Changes in lymphokine receptor expression and fatty acid composition of phospholipids and triacylglycerols in rat adipocytes associated with lymph nodes following a transient immune challenge.
J. D. Priddle, C. A. Mattacks, D. A. Sadler, H. A. MacQueen and C. M. Pond
Cell Biology International 27 (1): 23-29  2003

Cell Differentiation

FAQ

QuestionRéponse
Are the Millicell PCF inserts tissue culture treated on both sides of the membrane?Yes, they are tissue culture treated on both sides of the membrane. This allows for attachment- dependent cell culture on both sides of the membrane.
Are the Millicell units sterile and, if so, how are they sterilized?The Millicell units are sold sterile in individual blister packs. The HA and CM units are ETO sterilized and the PC and PCF are Gamma Irradiated.
Can cells grown on Isopore (polycarbonate) membrane be viewed under a microscope?Yes, we can observe the cells seeding on the membrane of pore size 1 um.
Can I make membrane potential measurements with the Millicell-ERS?Yes, membrane potential measurements can be made with the ERS. Short circuit potential, however, cannot be done.
How can I be sure that I have a confluent monolayer in my Millicell ?There are several answers to this question based on the type of membrane you are using and the equipment you have. It is possible to view, via phase contrast microscopy, actual cell layers if you are using Millicell HA, PC and PCF.

With Millicell CM you can use bright field microscopy as well to check for confluency. Also, one way of assuring confluency is to seed your cells at optimal levels. Most cell lines do best at a density of 5x10^5 to 1x10^6 cells/ cm2. So long as you are working with a cell type (i.e. epithelial cells) that exhibits resistance due to membrane potential you can also use the Millicell ERS to confirm confluency.
How long do the electrodes last?The electrodes will last at least 6 months with normal use and care, barring any physical damage. To prolong life of the electrodes, clean after every use and store dry.
How should I store electrodes when not in use?When storing electrodes for long periods of time, wash the electrodes with Milli-Q water or equivalent to remove salts and proteins, then store dry. For short term storage electrodes can be stored in a buffered solution. Make sure the electrode cable plug is connected to the electrode port on the Millicell ERS meter so that the system is internally short-circuited and electrode symmetry is maintained.
I am coating the Millicell CM with Rat Tail collagen according to your instructions and sometimes I am seeing an empty ring at the periphery of the insert where the collagen has not filled in and an empty "hole" at the center where there is no coating either. How can I avoid this from happening in the future?If you are using Type 1 collagen, it should be filter sterilized in non-denaturing alcohol prior to use in the Millicell. Also, try looking at the insert while you are coating it and tap/rotate it to enhance uniform liquid coating. The entire membrane should go clear which indicates uniform wetting/coverage of the Millicell. Also, be sure to use at least minimum volumes of 50ul for the 12mm and 350 ul per 30 mm.
I am concerned about the possibility of introducing surfactants in cell cultures using the Millicell PCF product. Is the Polycarbonate membrane in Millicell-PCF PPVP (surfactant) free?Yes, the Polycarbonate membrane in Millicell-PCF is PPVP (surfactant) free.
I am culturing tissue slices on the Millicell Polycarbonate unit (PIHP01250) and it appears that the media is not being retained by the unit. What is going on?The 0.4 um PCF polycarbonate membrane is tissue culture treated and, therefore, hydrophilic. In long-term culture ( >than a few to 24 hours) they will NOT retain fluid since it will slowly pass through the pores. A monolayer of epithelial cells on the membrane serves as a secondary barrier which will selectively prevent/or allow molecules to pass.

If you are referring to an overnight culture with no media outside the Millicell this result is to be expected. If there is equal fluid heights both inside and outside the Millicell ( ~ 400 ul inside and 600 ul outside) then the fluid will be retained. Since they are doing organotypic culture you could easily adjust the inside and outside volumes to the same desire height to make sure the culture remains bathed in media.