EVOM2, Epithelial Volt/Ohm Meter for TEER

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EVOM2, 300523

  • The first instrument designed specifically to perform routine TEER measurement in tissue culture research
  • Manual TEER measurement of epithelial cells in 6, 12, 24 and 96* well plates
  • Battery powered and electrically isolated
  • BNC output for data acquisition system
  • Compatible with EndOhm chambers
  • Choose Resistance Range: 0-10 KΩ (EVOM2) or 0-100 KΩ (300523)

*96-well plate measurement requires an STX100 series electrode.

Price: varies

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For pricing, Customers outside of the US and Canada, please Contact your distributor

Click here to view the current Data Sheet.   

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Part # Resistance Range
EVOM2 0-10 KΩ
300523 0-100 KΩ

 

Making TEER Measurements to Determine Cellular Confluence

The EVOM was the first instrument designed specifically to perform routine TEER (Transepithelial Electrical Resistance) measurement in tissue culture research. EVOM2 is the next generation, redesigned for ease of use. The EVOM2 not only qualitatively measures cell monolayer health, but also quantitatively measures cellular confluence. The uniqeu electronic circuit of the EVOM2 and the included STX2 electrode detect the confluence of the cellular monolayer. When combined with WPI's Endohm chamber, the EVOM2 can also be used to perform more accurate quantitative measurement or lower resistance measurements like trans endothelial electrical resistance measurements.

Features of the EVOM2

The isolated power source of the EVOM2 was specifically designed to avoid adverse effects on tissue and the formation of electrode metal deposits, even when it is plugged into a standard wall outlet. Now, the EVOM2 is always on when you need it. In addition, its rechargeable battery allows up to 10 hours of mobile use. The four and a half digit readout provides a range of 1-9,999 ohms. The included test electrode lets you calibrate the resistance measurements for an accurate reading every time, and the voltage meter never needs calibration. An analog BNC output is standard with the EVOM2, providing an output port for recording data or remote display of the EVOM2 output.

Chopstick Electrodes Included with the EVOM2

EVOM2 comes complete with the popular STX2 "chopstick" electrodes, 4mm wide and 1mm thick. Each stick of the electrode pair contains a silver/silver-chloride pellet for measuring voltage and a silver electrode for passing current. The small size of each electrode is designed to facilitate placement of the electrodes into a variety of standard cell culture wells.

 

More Information about the EVOM2

EVOM2 Remix - Read about the upgrades from EVOM and EVOMX.

VIDEO: How to Test Your EVOM2
VIDEO: How to Equilibrate Your STX2
VIDEO: Models and Methods to Evaluate Transport of Drug Delivery Systems Across Cellular Barriers

 

Videos

See the full-size video. See how to use and EndOhm chamber with an EVOM2 meter. 

See the full-size video. In this video Mike shows you how to equilibrate your STX electrodes.

See the full-size video. In this video, you can learn how to test your EVOM2.

Membrane Voltage Range +/- 199.0mV
Voltage Measurement  0.1mV
Resistance Range  0-9,999Ω or 0-9,999KΩ*
AC Square Wave Current +/- 10uA nominal at 12.5 Hz
Power Internal rechargeable 6VNiMH
2700mAH batter with external
12VDCupply for recharging
Nomimal Battery Run Time 8 hours
Analog Output Millivolt Mode: 1mV = 10mV
Ohm Mode: 1Ω = 1mV
Dimensions 19x11x6cm (7.25x4.25x2.30")
Weight 1.4kg (3lb)
Electrode Connection RJ-11 connector (telephone style)
Test Resistor 1000 ohm external
Environmental Range 10-38C (50-100F)
0-90% non-condensing relative humidity
Power Supply Universal 100-240VAC, 120VDC (5.5 x 2.5mm barrel positive tip), 850mA (WPI #800496)

* 300523 is the part number for the EVOM2 with 10X the resistance range. Note that display on this unit reads in KΩ, and the display on the standard EVOM2 read Ω.

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Grover, A., Hirani, A., Pathak, Y., & Sutariya, V. (2014). Brain-targeted delivery of docetaxel by glutathione-coated nanoparticles for brain cancer. AAPS PharmSciTech, 15(6), 1562–8. http://doi.org/10.1208/s12249-014-0165-0 

Guzman-Aranguez, A., Calvo, P., Ropero, I., & Pintor, J. (2014). In vitro effects of preserved and unpreserved anti-allergic drugs on human corneal epithelial cells. Journal of Ocular Pharmacology and Therapeutics : The Official Journal of the Association for Ocular Pharmacology and Therapeutics, 30(9), 790–8. http://doi.org/10.1089/jop.2014.0030 

Sjöqvist, S., Jungebluth, P., Lim, M. L., Haag, J. C., Gustafsson, Y., Lemon, G., … Macchiarini, P. (2014). Experimental orthotopic transplantation of a tissue-engineered oesophagus in rats. Nature Communications, 5, 3562. http://doi.org/10.1038/ncomms4562 

Wise, S. K., Laury, A. M., Katz, E. H., Den Beste, K. A., Parkos, C. A., & Nusrat, A. (2014). Interleukin-4 and interleukin-13 compromise the sinonasal epithelial barrier and perturb intercellular junction protein expression. International Forum of Allergy & Rhinology, 4(5), 361–70. http://doi.org/10.1002/alr.21298 

Czupalla, C. J., Liebner, S., & Devraj, K. (2014). In Vitro Models of the Blood–Brain Barrier (pp. 415–437). http://doi.org/10.1007/978-1-4939-0320-7_34 

Czupalla, C. J., Liebner, S., & Devraj, K. (2014). In vitro models of the blood-brain barrier. Methods in Molecular Biology (Clifton, N.J.), 1135, 415–37. http://doi.org/10.1007/978-1-4939-0320-7_34 

Roh-Johnson, M., Bravo-Cordero, J. J., Patsialou, A., Sharma, V. P., Guo, P., Liu, H., … Condeelis, J. (2014). Macrophage contact induces RhoA GTPase signaling to trigger tumor cell intravasation. Oncogene, 33(33), 4203–12. http://doi.org/10.1038/onc.2013.377 

De Chiara, L., Fagoonee, S., Ranghino, A., Bruno, S., Camussi, G., Tolosano, E., … Altruda, F. (2014). Renal cells from spermatogonial germline stem cells protect against kidney injury. Journal of the American Society of Nephrology : JASN, 25(2), 316–28. http://doi.org/10.1681/ASN.2013040367 

McIntyre, B. A. S., Alev, C., Mechael, R., Salci, K. R., Lee, J. B., Fiebig-Comyn, A., … Bhatia, M. (2014). Expansive generation of functional airway epithelium from human embryonic stem cells. Stem Cells Translational Medicine, 3(1), 7–17. http://doi.org/10.5966/sctm.2013-0119 

Bohara, M., Kambe, Y., Nagayama, T., Tokimura, H., Arita, K., & Miyata, A. (2014). C-type natriuretic peptide modulates permeability of the blood-brain barrier. Journal of Cerebral Blood Flow and Metabolism : Official Journal of the International Society of Cerebral Blood Flow and Metabolism, 34(4), 589–96. http://doi.org/10.1038/jcbfm.2013.234 

Yu, J., Li, N., Lin, P., Li, Y., Mao, X., Bao, G., … Zhao, R. (2014). Intestinal transportations of main chemical compositions of polygoni multiflori radix in caco-2 cell model. Evidence-Based Complementary and Alternative Medicine : eCAM, 2014, 483641. http://doi.org/10.1155/2014/483641 

Van Itallie, C. M., Tietgens, A. J., Aponte, A., Fredriksson, K., Fanning, A. S., Gucek, M., & Anderson, J. M. (2014). Biotin ligase tagging identifies proteins proximal to E-cadherin, including lipoma preferred partner, a regulator of epithelial cell-cell and cell-substrate adhesion. Journal of Cell Science, 127(Pt 4), 885–95. http://doi.org/10.1242/jcs.140475 

Wang, L., Luo, H., Chen, X., Jiang, Y., & Huang, Q. (2014). Functional characterization of S100A8 and S100A9 in altering monolayer permeability of human umbilical endothelial cells. PloS One, 9(3), e90472. http://doi.org/10.1371/journal.pone.0090472 

McHugh, K. J., Tao, S. L., & Saint-Geniez, M. (2014). Porous poly(ε-caprolactone) scaffolds for retinal pigment epithelium transplantation. Investigative Ophthalmology & Visual Science, 55(3), 1754–62. http://doi.org/10.1167/iovs.13-12833 

Al-Ghoul, W. M., Kim, M. S., Fazal, N., Azim, A. C., & Ali, A. (2014). Evidence for simvastatin anti-inflammatory actions based on quantitative analyses of NETosis and other inflammation/oxidation markers. Results in Immunology, 4, 14–22. http://doi.org/10.1016/j.rinim.2014.03.001

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Uehara, I., Kimura, T., Tanigaki, S., Fukutomi, T., Sakai, K., Shinohara, Y., … Sakurai, H. (2014). Paracellular route is the major urate transport pathway across the blood-placental barrier. Physiological Reports, 2(5). http://doi.org/10.14814/phy2.12013 

Enjoji, S., Ohama, T., & Sato, K. (2014). Regulation of epithelial cell tight junctions by protease-activated receptor 2. The Journal of Veterinary Medical Science, 76(9), 1225–9. http://doi.org/10.1292/jvms.14-0191 

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Couturier, J., Hutchison, A. T., Medina, M. A., Gingaras, C., Urvil, P., Yu, X., … Lewis, D. E. (2014). HIV replication in conjunction with granzyme B production by CCR5+ memory CD4 T cells: Implications for bystander cell and tissue pathologies. Virology, 462463, 175–88. http://doi.org/10.1016/j.virol.2014.06.008 

Li, Y., Wu, W.-H., Hsu, C.-W., Nguyen, H. V, Tsai, Y.-T., Chan, L., … Tsang, S. H. (2014). Gene therapy in patient-specific stem cell lines and a preclinical model of retinitis pigmentosa with membrane frizzled-related protein defects. Molecular Therapy : The Journal of the American Society of Gene Therapy, 22(9), 1688–97. http://doi.org/10.1038/mt.2014.100 

Sun, H., Harris, W. T., Kortyka, S., Kotha, K., Ostmann, A. J., Rezayat, A., … Clancy, J. P. (2014). Tgf-beta downregulation of distinct chloride channels in cystic fibrosis-affected epithelia. PloS One, 9(9), e106842. http://doi.org/10.1371/journal.pone.0106842 

Li, G., Li, T., Li, Y., Cai, S., Zhang, Z., Zeng, Z., … Chen, Z. (2014). Ulinastatin inhibits oxidant-induced endothelial hyperpermeability and apoptotic signaling. International Journal of Clinical and Experimental Pathology, 7(11), 7342–50. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/25550770 

Costello, C. M., Hongpeng, J., Shaffiey, S., Yu, J., Jain, N. K., Hackam, D., & March, J. C. (2014). Synthetic small intestinal scaffolds for improved studies of intestinal differentiation. Biotechnology and Bioengineering, 111(6), 1222–32. http://doi.org/10.1002/bit.25180 

Meredith, M. E., Qu, Z.-C., & May, J. M. (2014). Ascorbate reverses high glucose- and RAGE-induced leak of the endothelial permeability barrier. Biochemical and Biophysical Research Communications, 445(1), 30–5. http://doi.org/10.1016/j.bbrc.2014.01.078 

Reaves, D. K., Fagan-Solis, K. D., Dunphy, K., Oliver, S. D., Scott, D. W., & Fleming, J. M. (2014). The role of lipolysis stimulated lipoprotein receptor in breast cancer and directing breast cancer cell behavior. PloS One, 9(3), e91747. http://doi.org/10.1371/journal.pone.0091747 

Chimezie, C., Ewing, A. C., Quadri, S. S., Cole, R. B., Boué, S. M., Omari, C. F., … Jr. (2014). Glyceollin transport, metabolism, and effects on p-glycoprotein function in Caco-2 cells. Journal of Medicinal Food, 17(4), 462–71. http://doi.org/10.1089/jmf.2013.0115 

Lei, Y., Stamer, W. D., Wu, J., & Sun, X. (2014). Cell senescence reduced the mechanotransduction sensitivity of porcine angular aqueous plexus cells to elevation of pressure. Investigative Ophthalmology & Visual Science, 55(4), 2324–8. http://doi.org/10.1167/iovs.13-13317 

Nakadate, H., Inuzuka, K., Akanuma, S., Kakuta, A., & Aomura, S. (2014). Effect of amplitude and duration of impulsive pressure on endothelial permeability in in vitro fluid percussion trauma. Biomedical Engineering Online, 13, 44. http://doi.org/10.1186/1475-925X-13-44 

Costello, C. M., Sorna, R. M., Goh, Y.-L., Cengic, I., Jain, N. K., & March, J. C. (2014). 3-D intestinal scaffolds for evaluating the therapeutic potential of probiotics. Molecular Pharmaceutics, 11(7), 2030–9. http://doi.org/10.1021/mp5001422 

Crane, J. K., Broome, J. E., Reddinger, R. M., & Werth, B. B. (2014). Zinc protects against Shiga-toxigenic Escherichia coli by acting on host tissues as well as on bacteria. BMC Microbiology, 14, 145. http://doi.org/10.1186/1471-2180-14-145 

Mishra, R., & Singh, S. K. (2014). HIV-1 Tat C phosphorylates VE-cadherin complex and increases human brain microvascular endothelial cell permeability. BMC Neuroscience, 15, 80. http://doi.org/10.1186/1471-2202-15-80 

Shimko, M. J., Zaccone, E. J., Thompson, J. A., Schwegler-Berry, D., Kashon, M. L., & Fedan, J. S. (2014). Nerve growth factor reduces amiloride-sensitive Na+ transport in human airway epithelial cells. Physiological Reports, 2(7). http://doi.org/10.14814/phy2.12073 

Pongkorpsakol, P., Pathomthongtaweechai, N., Srimanote, P., Soodvilai, S., Chatsudthipong, V., & Muanprasat, C. (2014). Inhibition of cAMP-activated intestinal chloride secretion by diclofenac: cellular mechanism and potential application in cholera. PLoS Neglected Tropical Diseases, 8(9), e3119. http://doi.org/10.1371/journal.pntd.0003119 

Arredondo Zamarripa, D., Díaz-Lezama, N., Meléndez García, R., Chávez Balderas, J., Adán, N., Ledesma-Colunga, M. G., … Thebault, S. (2014). Vasoinhibins regulate the inner and outer blood-retinal barrier and limit retinal oxidative stress. Frontiers in Cellular Neuroscience, 8, 333. http://doi.org/10.3389/fncel.2014.00333 

Fossum, S. L., Mutolo, M. J., Yang, R., Dang, H., O’Neal, W. K., Knowles, M. R., … Harris, A. (2014). Ets homologous factor regulates pathways controlling response to injury in airway epithelial cells. Nucleic Acids Research, 42(22), 13588–98. http://doi.org/10.1093/nar/gku1146 

Meenach, S. A., Anderson, K. W., Hilt, J. Z., McGarry, R. C., Mansour, H. M., Samantha A. Meenach, Kimberly W. Anderson, J. Zach Hilt, Ronald C. McGarry, H. M. M., … Mansour, H. M. (2014, December 20). High-Performing Dry Powder Inhalers of Paclitaxel DPPC/DPPG Lung Surfactant-Mimic Multifunctional Particles in Lung Cancer: Physicochemical Characterization, In Vitro Aerosol Dispersion, and Cellular Studies. http://doi.org/10.1208/s12249-014-0182-z 

Ghaffarian, R., & Muro, S. (2013). Models and Methods to Evaluate Transport of Drug Delivery Systems Across Cellular Barriers. Journal of Visualized Experiments, (80), e50638–e50638. http://doi.org/10.3791/50638 

Ao, M., Sarathy, J., Domingue, J., Alrefai, W. A., & Rao, M. C. (2013). Chenodeoxycholic acid stimulates Cl(-) secretion via cAMP signaling and increases cystic fibrosis transmembrane conductance regulator phosphorylation in T84 cells. American Journal of Physiology. Cell Physiology, 305(4), C447-56. http://doi.org/10.1152/ajpcell.00416.2012 

Lei, Y., Stamer, W. D., Wu, J., & Sun, X. (2013). Oxidative stress impact on barrier function of porcine angular aqueous plexus cell monolayers. Investigative Ophthalmology & Visual Science, 54(7), 4827–35. http://doi.org/10.1167/iovs.12-11435 

Chen, L., Zhu, J., Li, Y., Lu, J., Gao, L., Xu, H., … Yang, X. (2013). Enhanced nasal mucosal delivery and immunogenicity of anti-caries DNA vaccine through incorporation of anionic liposomes in chitosan/DNA complexes. PloS One, 8(8), e71953. http://doi.org/10.1371/journal.pone.0071953 

Schmedt, T., Chen, Y., Nguyen, T. T., Li, S., Bonanno, J. A., Jurkunas, U. V., … Giasson, C. (2012). Telomerase Immortalization of Human Corneal Endothelial Cells Yields Functional Hexagonal Monolayers. PLoS ONE, 7(12), e51427. http://doi.org/10.1371/journal.pone.0051427 

Guzman-Aranguez, A., Woodward, A. M., Pintor, J., & Argüeso, P. (2012). Targeted disruption of core 1 β1,3-galactosyltransferase (C1galt1) induces apical endocytic trafficking in human corneal keratinocytes. PloS One, 7(5), e36628. http://doi.org/10.1371/journal.pone.0036628 

Alhamoruni, A., Lee, A. C., Wright, K. L., Larvin, M., & O’Sullivan, S. E. (2010). Pharmacological Effects of Cannabinoids on the Caco-2 Cell Culture Model of Intestinal Permeability. Journal of Pharmacology and Experimental Therapeutics, 335(1).

Campbell, L., Abulrob, A.-N. G., Kandalaft, L. E., Plummer, S., Hollins, A. J., Gibbs, A., & Gumbleton, M. (2003). Constitutive Expression of P-Glycoprotein in Normal Lung Alveolar Epithelium and Functionality in Primary Alveolar Epithelial Cultures. Journal of Pharmacology and Experimental Therapeutics, 304(1).

S. Jayaraman, Y. Song, L.Vetrivel, L.Shankar, A. S. V. (2001). Noninvasive in vivo fluorescence measurement of airway-surface liquid depth, salt concentration, and pH. The Journal of Clinical Investigation, 107(3), 317. http://doi.org/10.1172/JCI11154 

Teoh, D. A., Kamieniecki, D., Pang, G., & Buret, A. G. (2000). GIARDIA LAMBLIA REARRANGES F-ACTIN AND α-ACTININ IN HUMAN COLONIC AND DUODENAL MONOLAYERS AND REDUCES TRANSEPITHELIAL ELECTRICAL RESISTANCE. Journal of Parasitology, 86(4), 800. http://doi.org/10.1645/0022-3395(2000)086[0800:GLRFAA]2.0.CO;2 

Meerveld, G.-V. B., R, T. K., 文 タ イ ト ル和, & vitro の ラ ッ ト 空 腸 お よ び 結 腸 に お け る 木 ク レ オ ソ - ト お よ び ロ ペ ラ ミ ド の 止 瀉 効 果 の 比 較, I. (2000). Comparison of the antidiarrheal effects of wood creosote and loperamide in the rat jejunum and colon in vitro. Biol Pharm Bull, 23, 952–956.

Blaisdell, C. J., Edmonds, R. D., Wang, X. T., Guggino, S., & Zeitlin, P. L. (2000). pH-regulated chloride secretion in fetal lung epithelia. American Journal of Physiology. Lung Cellular and Molecular Physiology, 278(6), L1248-55. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/10835331 

Yang, J. J., Kim, K. J., & Lee, V. H. (2000). Role of P-glycoprotein in restricting propranolol transport in cultured rabbit conjunctival epithelial cell layers. Pharmaceutical Research, 17(5), 533–8. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/10888304 

Utsumi, H., Chiba, H., Kamimura, Y., Osanai, M., Igarashi, Y., Tobioka, H., … Sawada, N. (2000). Expression of GFRα-1, receptor for GDNF, in rat brain capillary during postnatal development of the BBB. American Journal of Physiology - Cell Physiology, 279(2).

Raimondi, F., Kao, J. P., Fiorentini, C., Fabbri, A., Donelli, G., Gasparini, N., … Fasano, A. (2000). Enterotoxicity and cytotoxicity of Vibrio parahaemolyticus thermostable direct hemolysin in in vitro systems. Infection and Immunity, 68(6), 3180–5. http://doi.org/10.1128/IAI.68.6.3180-3185.2000 

Reichert, M., Müller, T., & Hunziker, W. (2000). The PDZ domains of zonula occludens-1 induce an epithelial to mesenchymal transition of Madin-Darby canine kidney I cells. Evidence for a role of beta-catenin/Tcf/Lef signaling. The Journal of Biological Chemistry, 275(13), 9492–500. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/10734097 

Chang, J.-E., Basu, S. K., & Lee, V. H. L. (2000). Air-Interface Condition Promotes the Formation of Tight Corneal Epithelial Cell Layers for Drug Transport Studies. Pharmaceutical Research, 17(6), 670–676. http://doi.org/10.1023/A:1007569929765 

Hilgendorf, C., Spahn‐Langguth, H., Regårdh, C. G., Lipka, E., Amidon, G. L., & Langguth, P. (2000). Caco‐2 versus Caco‐2/HT29‐MTX Co‐cultured Cell Lines: Permeabilities Via Diffusion, Inside‐ and Outside‐Directed Carrier‐Mediated Transport. Journal of Pharmaceutical Sciences, 89(1), 63–75. http://doi.org/10.1002/(SICI)1520-6017(200001)89:1<63::AID-JPS7>3.0.CO;2-6 

Johnson, L. G., Olsen, J. C., Naldini, L., & Boucher, R. C. (2000). Pseudotyped human lentiviral vector-mediated gene transfer to airway epithelia in vivo. Gene Therapy, 7(7), 568–574. http://doi.org/10.1038/sj.gt.3301138 

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Castro, R., Barlow-Walden, L., Woodson, T., Kerecman, J. D., Zhang, G. H., & Martinez, J. R. (2000). Ion transport in an immortalized rat submandibular cell line SMG-C6. Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine (New York, N.Y.), 225(1), 39–48. http://doi.org/10.1046/J.1525-1373.2000.22505.X 

Takakuwa, R., Kokai, Y., Kojima, T., Akatsuka, T., Tobioka, H., Sawada, N., & Mori, M. (2000). Uncoupling of Gate and Fence Functions of MDCK Cells by the Actin-Depolymerizing Reagent Mycalolide B. Experimental Cell Research, 257(2), 238–244. http://doi.org/10.1006/excr.2000.4887 

Garate, M. A., & Nunez, M. T. (2000). Overexpression of the Ferritin Iron-responsive Element Decreases the Labile Iron Pool and Abolishes the Regulation of Iron Absorption by Intestinal Epithelial (Caco-2) Cells. Journal of Biological Chemistry, 275(3), 1651–1655. http://doi.org/10.1074/jbc.275.3.1651 

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Sawai, T., Usui, N., Dwaihy, J., Drongowski, R. A., Abe, A., Coran, A. G., & Harmon, C. M. (n.d.). The effect of phospholipase A2 on bacterial translocation in a cell culture model. Pediatric Surgery International, 16(4), 262–266. http://doi.org/10.1007/S003830050741 

Davis, B. P., Stucke, E. M., Khorki, M. E., Litosh, V. A., Rymer, J. K., Rochman, M., … Orlando, R. (2016). Eosinophilic esophagitis–linked calpain 14 is an IL-13–induced protease that mediates esophageal epithelial barrier impairment. JCI Insight, 1(4), 895–900. http://doi.org/10.1172/jci.insight.86355 

 

3993  Electrode Adapter (for electrodes with 2mm pins)
2851 BNC cable, 6-ft
91736 NiMH Rechargeable Battery Pack
STX2 STX2 Replacement Electrode Set
STX3 Adjustable Electrode Set
ENDOHM-6 Endohm for 6 mm culture cup (24 wells per plate) and the
12 mm Millicell-CM
ENDOHM-12 Endohm for 12 mm culture cup (12 wells per plate)
ENDOHM-24SNAP Endohm for 24 mm and Costar Snapwell cup (6 wells per
plate)
STX100C STX100 for Corning Costar HTS Transwell-24
STX100M STX100 for Millipore Multiscreen CaCo 96-Well Plate
STX100C96 STX100 for Corning HTS 96-Well Plate
LAB-TRAX-4 4-Channel Data Acquisition System

The original EVOM was featured in this application video.

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