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ENDOHM-6G

ENDOHM-6G

EndOhm for 6mm Culture Cups (24 wells per plate)



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  • Specifications
  • Accessories
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Overview

ENDOHM 6G ENDOHM 6G ENDOHM 6G TOP ENDOHM 6G

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EndOhm Instruction Manual
/ Download as PDF

EndOhm Data Sheet
/ Download as PDF

For TEER measurement of epithelial and endothelial cell cultures in individual cups

  • Compatible with legacy meters including EVOM, EVOM2™ and Millipore ERS and ERS2 meters (see options section for compatible models for EVOM3,  EVOM Manual™ meters)

Benefits & Features

  • Stability and reproducibility superior to the STX4 electrodes to 1% tolerance
  • Symmetrical electrode pattern disperses test current uniformly
  • Tri-leg supports offer mechanical stability and the membrane is held parallel to the electrodes
  • Simple test procedure to verify electrode performance
  • Adjustable apical electrode height
  • Crystal clear glass chamber allows visualization of apical electrode positioning
  • The new EndOhm chamber upper mount is made of polycarbonate and unaffected by alcohol
  • The glass chamber is easier to clean and more scratch resistant than the prior version. The EndOhm is not recommended for incubator use due to risk of the glass cracking
  • Crystal clear glass chamber allows visualization of apical electrode positioning
  • Options for 6, 12 or 24 well plates with removable inserts

Applications

  • TEER measurement for removable culture cup systems using EVOM meters for endothelial and epithelial cell cultures

Options

For Legacy Meters Including EVOM, EVOM2™ and Millipore ERS and ERS2 meters

Part # Description
ENDOHM-24G-SNAP EndOhm for 24mm and Costar Snapwell Culture Cups (6 wells per plate)
ENDOHM-12G EndOhm for 12mm Culture Cups (12 wells per plate)
ENDOHM-6G EndOhm for 6mm Culture Cups (24 wells per plate)

 

For EVOM3 and EVOM Manual™ meters

Part # Description
EVM-EL-03-01-03 EndOhm for 24mm and Costar Snapwell Culture Cups (6 wells per plate)
EVM-EL-03-01-02 EndOhm for 12mm Culture Cups (12 wells per plate)
EVM-EL-03-01-01 EndOhm for 6mm Culture Cups (24 wells per plate)

 

TEER measurement in individual cups

Using WPI’s EVOM resistance meter, Endohm chambers provide reproducible resistance measurements of endothelial and epithelial monolayers in culture cups. Transfer cups from their culture wells to the Endohm chamber for measurement rather than using hand-held electrodes. The chamber and the cap each contain a pair of concentric electrodes: a voltage-sensing silver/silver chloride pellet in the center plus an annular current electrode. The height of the top electrode can be adjusted to fit cell culture cups of different manufacture.

Make more precise measurements with Endohms

Endohm’s symmetrically opposing circular disc electrodes, situated above and beneath the membrane, allow a more uniform current density to flow across the membrane than with STX4 electrodes. The background resistance of a blank insert is reduced from 150 Ω (when using WPI’s hand-held STX4 electrodes) to less than 5 Ω. With Endohm’s fixed electrode geometry, variation of readings on a given sample is reduced from 10-30 Ω with STX4 electrodes (depending on the experience of the user) to 1-2 Ω. Compared with other resistance measurement methods, Endohm with EVOM meters offer a much more convenient and economic solution to “leaky tissue” measurement. Because of the uniform density of the AC square wave current from EVOM Meter, errors owing to electrode polarization or membrane capacitance are largely eliminated. Endohm together with EVOM Manual™ offers the most accurate and economical endothelial ohmmeter now available. To date, cups from Corning, Millipore, Nunc, Greiner and BD Falcon have been tested. Endohm chambers may be sterilized with EtO, alcohol or a bactericide; not autoclavable.

NOTE: EndOhm chambers have Ag/AgCl electrodes. If you are measuring for extended periods of time, you should consider any potential cytotoxic issue from long term exposure to silver to your cells.

Resources

Knowledge base - EVOM™ Electrodes & EndOhm Chambers Articles

Videos

 

Specifications

Compatibility Charts

The ENDOHM-6G is compatible with the following chambers:

Corning  Millipore  Material Membrane Diameter (mm) Growth Surface Area (cm²) Membrane Pore Size (μm)
3470     6.5 0.33 0.4
3472 PITP01250   6.5 0.33 3.0
3413 PCF Insert   6.5 0.33 0.4
3415 PITP 01250
PCF Insert
  6.5 0.33 3.0
3421     6.5 0.33 5.0
3422 PIEP 01250
PCF Insert
  6.5 0.33 8.0
3495  PIHT12R48*
PET Insert
  6.5 0.33 0.4
  PIHA012 50 HA Insert 6.5 0.33 0.45
  PICM012 50 CM Insert 6.5 0.33 0.4
3496 PISP12R48*
PET Insert
  6.5 0.33 3.0
  PIRP12R48*
PET Insert
  6.5 0.33 1.0
  PIMP12R48*
PET Insert
  6.5 0.33 5.0
  PIEP12R48*
PET Insert
  6.5 0.33 8.0
  PIXP01250
PCF Insert
  6.5 0.33 12
  PIHP01250       1.0
  PITT01250       3.0

* The tri-supports overhang the chamber edge and the well cannot be held parallel to the electrodes.

Nunc Pore size (μm) Culture area (cm²)
140620 0.4 0.47
140627 3.0 0.47
140629 8.0 0.47

 

ThinCertTM Membrane material Pore size [µm] Pore density [cm-2] Optical membrane properties TC surface treatment/Sterile Multiwell plates/ThinCertTM per box
662640 PET 0.4 1 x 108 translucent +/+ 2/48
662641 PET 0.4  2 x 106 transparent +/+ 2/48
662610 PET 1.0  2 x 106 transparent +/+ 2/48
662630 PET 3.0  0.6 x 106 transparent +/+ 2/48
662631 PET 3.0  2 x 106 translucent +/+ 2/48
662638 PET 8.0  0.15 x 106 translucent +/+ 2/48

 

Millicell Pore size (μm) Qty/pk
MCHT24H48 0.4 48
MCRP24H48 1.0 48
MCSP24H48 3.0 48
MCMP24H48 5.0 48
MCEP24H48 8.0 48

 

BD Falcon Membrane material Pore size [µm] Pore density [cm-2] Optical membrane properties TC plate (#wells)
353095 PET 0.4 2.0 ± 0.2 x 106 transparent 24
353104 PET 1.0 1.6 ± 0.6 x 106 transparent 24
353096 PET 3.0 8 ± 2 x 105 transparent 24
353097 PET 8.0 6 ± 2 x 104 translucent 24
353495 PET 0.4HD 100 ± 10 x 106 translucent 24
353492 PET 3.0HD 2.0 ± 0.2 x 105 translucent 24

Accessories

Citations

Sheller, R. A., Cuevas, M. E., & Todd, M. C. (2017). Comparison of transepithelial resistance measurement techniques: Chopsticks vs. Endohm. Biological Procedures Online, 19, 4. http://doi.org/10.1186/s12575-017-0053-6

Srinivasan, B., Kolli, A. R., Esch, M. B., Abaci, H. E., Shuler, M. L., & Hickman, J. J. (2015). TEER measurement techniques for in vitro barrier model systems. Journal of Laboratory Automation, 20(2), 107–26. http://doi.org/10.1177/2211068214561025

TORRES, R., PIZARRO, L., CSENDES, A., GARCÍA, C., LAGOS, N., Pasdar, M., … Roskelley, C. (2007). GTX 2/3 EPIMERS PERMEATE THE INTESTINE THROUGH A PARACELLULAR PATHWAY. The Journal of Toxicological Sciences, 32(3), 241–248. http://doi.org/10.2131/jts.32.241

Patil, R. V., Han, Z., Yiming, M., Yang, J., Iserovich, P., Wax, M. B., & Fischbarg, J. (2001). Fluid transport by human nonpigmented ciliary epithelial layers in culture: a homeostatic role for aquaporin-1. American Journal of Physiology - Cell Physiology, 281(4).

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