This website uses cookies to ensure you get the best experience on our website.
Read more
STX HTS EVOM™ Electrode
As low as
$2,800.00
Only %1 left
Prices valid in USA, Canada, and PR only.
Order code
Price range: $2,800 - $3,300
Prices valid in USA, Canada, and PR only.
Semi-permeable HTS (high throughput screening) culture plates have become a standard tool for pharmaceutical and institutional research in epithelial transport. HTS culture plates have well cups which are bonded together into a single assembly and are not removable. This makes the plates ideal for automated applications, but imposes a significant inconvenience when TEER must be measured in the absence of an automated system. WPI’s STX HTS series of EVOM™ electrodes, replacing the STX100 electrodes, provide a cost-effective alternative to automation, allowing HTS well plates to be measured manually using a hand–held electrode.
To learn more about our warranty options, click here.
Prices valid in USA, Canada, and PR only.
For high throughput screening (HTS) in cell culture filter plates
Features
- Designed for use with 24-well HTS plate (Corning Costar and Corning Falcon) and with 96-well plates (Millipore)
- Improved accuracy down to 5 Ω
- Sterilized with EtO, alcohol or bactericide
- Compatible with EVOM, EVOM™ Manual, Millicell® ERS and ERS2
- STX4 Electrode adapter cable is required to use with EVOM, EVOM2, Millicell® ERS and ERS2
Options
Order code | Description |
EVM-EL-03-03-02 | STX HTS EVOM™ Electrode for MILLIPORE 96 |
EVM-EL-03-03-03 | STX HTS EVOM™ Electrode for FALCON 24 |
EVM-EL-03-03-04 | STX HTS EVOM™ Electrode for CORNING 24 |
EVM-EL-03-03-05 | STX HTS EVOM™ Electrode for CORNING 96 |
EVM-EL-03-02-05 | STX HTS EVOM™ Electrode for TEER in MATTEK 96 |
Benefits
- Smaller tip size than the STX2 electrode constructed for durability fits neatly into the keyhole shaped filter well
- Electrode design reduces chance of contamination
- Premium Warranty Available
Applications
- STX HTS EVOM™ Electrode are designed for TEER measurement in HTS culture plates using the EVOM Manual
Semi-permeable HTS (high throughput screening) culture plates have become a standard tool for pharmaceutical and institutional research in epithelial transport. HTS culture plates have well cups which are bonded together into a single assembly and are not removable. This makes the plates ideal for automated applications, but imposes a significant inconvenience when TEER must be measured in the absence of an automated system. WPI’s STX HTS series of EVOM™ electrodes provide a cost-effective alternative to automation, allowing HTS well plates to be measured manually using a hand–held electrode.
The spatial orientation of an electrode during TEER measurement can have a significant effect on the resistance reading. When compared to the STX-2 “chopsticks” electrode, the STX HTS series of EVOM™ electrodes offer a technical advantage. The design of the STX HTS series of EVOM™ electrodes guarantees spatial repeatability. Each STX HTS EVOM™ Electrode is designed to self-align based on the form factor of the apical and basal access ports of the HTS plate. Each manufacturer of HTS culture systems has a unique form factor, and the correct STX HTS EVOM™ Electrode to use is manufacturer specific.
WPI developed STX HTS EVOM™ Electrode for 24 and 96 well plates specific to Corning, Corning Falcon and Millipore. Refer to the charts for compatibility information or contact your WPI sales representative for assistance. If an automated system is preferable for your application, investigate WPI’s automated TEER measurement system (EVOM™ Auto).
Compatibility charts
The STX HTS EVOM™ Electrode is compatible with the following Millpore plates.
STX HTS EVOM™ Electrode for Millipore | Part # | Description | Pore size | Membrane |
EVM-EL-03-03-02 |
PSHT004R1 | 96-well plate | 0.4um | PCF |
PSRP004R1 | 96-well plate | 1.0um | PET | |
PSHT004R5 | 96-well plate | 0.4um | PCF | |
PSRP004R5 | 96-well plate | 1.0um | PET | |
PSHT004S5 | 96-well plate | 0.4um | PCF | |
STX HTS EVOM™ Electrode for Corning 96 | PN | Description | Pore Size | Membrane |
EVM-EL-03-03-05 |
3380 | HTS Transwell-96 System | 1.0μm | PET |
3392 | HTS Transwell-96 System | 1.0μm | PET | |
7369 | HTS Transwell-96 System | 0.4μm | PET | |
3381 | HTS Transwell-96 System | 0.4μm | PC | |
3391 | HTS Transwell-96 System | 0.4μm | PC | |
3385 | HTS Transwell-96 Well Plate | 3.0μm | PC | |
3386 | HTS Transwell-96 Well Plate | 3.0μm | PC | |
3387 | HTS Transwell-96 Well Plate | 5.0μm | PC | |
3388 | HTS Transwell-96 Well Plate | 5.0μm | PC | |
3374 | HTS Transwell-96 Well Plate | 8.0μm | PET | |
3384 | HTS Transwell-96 Well Plate | 8.0μm | PET | |
STX HTS EVOM™ Electrode for Falcon | PN | Description | Pore Size | Membrane |
EVM-EL-03-03-03 |
351181 | Corning Falcon HTS Multiwell Insert System | 1.0μm | PET |
351183 | Corning Falcon HTS Multiwell Insert System | 3.0μm | PET | |
351185 | Corning Falcon HTS Multiwell Insert System | 8.0μm | PET | |
354803 | Corning BioCoat HTS Fibrillar Collagen Multiwell Insert System | 1.0μm | PET | |
354804 | Corning BioCoat HTS Fibrillar Collagen Multiwell Insert System | 1.0μm | PC | |
STX HTS EVOM™ Electrode for Corning 24 | PN | Description | Pore Size | Membrane |
EVM-EL-03-03-04 |
3378 | HTS Transwell-24 | 0.4μm | PET |
3379 | HTS Transwell-24 | 0.4μm | PET | |
3396 | HTS Transwell-24 | 0.4μm | ||
3397 | HTS Transwell-24 | 0.4μm | ||
3398 | HTS Transwell-24 | 3.0μm | ||
3399 | HTS Transwell-24 | 3.0μm |
Sample plates
Click to enlarge. |
Click to enlarge. |
Click to enlarge. |
Click to enlarge. |
This is a Corning #3378 24-well plate that may be used with the EVA-EL-03-02 or the EVM-EL-03-03-04. The Corning Falcon 24-well plate is virtually identical to this one, and it may be used with the EVM-EL-03-03-03. |
This is a Corning Falcon 96-well plate that may be used with the EVA-EL-03-01. |
This is a Millipore Multiscreen CaCo2 that may be used with the EVA-EL-03-01 or the EVM-EL-03-03-02. | This is a Corning 3391 HTS Traswell 96 plate that may be used with the EVA-EL-03-01 or the EVM-EL-03-03-05. |
SKU | VAR-EVM-EL-03-03-02 |
---|