The electrical conductivity inside the bovine vaginal wall†

F. Feldmann; E. Aizinbud; H. Schindler; Hanna Broda

doi:10.1017/S0003356100012010

Abstract

Electrical conductivity was measured during the oestrous cycle of cows with electrodes implanted in the vaginal wall. Conductivity was considerably higher during oestrus than during the preceding or following cycle stage. Conductivity was also high in the fresh surgical wound, whereas the healing process was accompanied by a decrease.

References

REFERENCES

Aizinbudas, L. B. and Doviljtis, P. P. 1962. [An electrometrical method of ascertaining the precise time to inseminate cows.] Zhivotnovodstvo, Mosk. 24(11): 68–70.Google Scholar

Aizinbudas, L. B., Karazya, R., Liudzius, L., Norvaishas, K. and Jurgaitis, A. 1972. [The electrical resistance of the mucous membranes under normal and pathological conditions.] Proc. 2nd Conf. Pathophysiol. Baltic Repub. and Bielorussian SSR, Vilnius-Kaunas, pp. 3–4.Google Scholar

Bostedt, H., Bonengel, H., Gunzler, D., Reissinger, H., Hofer, F. and Brunold, K. 1976. [State of the ovary and electrical resistance of vaginal secretion in cattle during the oestrous period.] Tierärztl. Umsch. 31: 211–215.Google Scholar

Cole, H. H. 1930. A study of the mucosa of the genital tract of the cow, with special reference to the cyclic changes. Am. J. Anat. 46: 261–301.CrossRef Google Scholar

Edwards, D. F. and Levin, R. J. 1974. An electrical method of detecting the optimum time to inseminate cattle, sheep and pigs. Vet. Rec. 95: 416–420.CrossRef Google Scholar

Feldmann, F., Aizinbud, E. and Schindler, H. 1976. [Electrical conductivity in the vagina of ewes during oestrus synchronization.] Zuchthygiene 11: 1–6.CrossRef Google Scholar

Metzger, E., Freytag, R. and Leidl, W. 1972. [An appliance for measuring electrical resistance of vaginal mucus for oestrus diagnosis in cattle.] Zuchthygiene 7: 56–61.CrossRef Google Scholar

Schams, D. and Butz, H. D. 1972. [Chronological correlations between oestrous signs, electrical resistance changes in vaginal mucus, pre-ovulatory excretion of LH and ovulation in cattle.] Zuchthygiene 7: 49–56.CrossRef Google Scholar

Schwann, H. P. 1963. Determination of biological impedance. In Physical Techniques in Biological Research (ed. Oster, G.), vol. VI, pp. 323–406. Academic Press, New York.Google Scholar

Sokolovskaja, I. I. 1970. [The electrometric method of determining the optimal time for inseminating animals in the heat period.] Zhivotnovodstvo, Mosk. 32(11): 71–74.Google Scholar

Stolla, R., Günzler, O., Schätzle, M. and Wolpert, E. 1973. [Optimum time for conception in heifers after synchronization of oestrus with chlormadinone acetate (CAP).] Berl. Münch, tieräxrztl. Wschr. 86: 384–387.Google Scholar

Van Der Veen, P. H., Go, K. G., Zuiderveen, F., Buffer, D. and Van Der Meer, J. 1973. Electrical impedance of cat brain with cold-induced edema. Expl. Neurol. 40: 675–682.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Edwards, D. Frances 1980. Proposed instrumentation to determine the optimum time to inseminate cattle by measurement of vaginal impedance. Medical & Biological Engineering & Computing, Vol. 18, Issue. 1, p. 73.

McCaughey, W. J. and Patterson, A. D. 1981. Vaginal electrical resistance in cows: 1. Measurements in isolated reproductive tracts. Veterinary Research Communications, Vol. 5, Issue. 1, p. 73.

Aboul-Ela, M.B. Macdonald, D.C. Lindsay, D. Topps, J.H. and Mani, R. 1983. The association between changes in the intravaginal electrical resistance and the in vitro measurements of vaginal mucus electrical resistivity in cattle. Animal Reproduction Science, Vol. 5, Issue. 4, p. 323.

Smith, J.W. Spahr, S.L. and Puckett, H.B. 1989. Electrical Conductivity of Reproductive Tissue for Detection of Estrus in Dairy Cows. Journal of Dairy Science, Vol. 72, Issue. 3, p. 693.

Lewis, G.S. Aizinbud, E. and Lehrer, A.R. 1989. Changes in electrical resistance of vulvar tissue in Holstein cows during ovarian cycles and after treatment with prostaglandin F2α. Animal Reproduction Science, Vol. 18, Issue. 1-3, p. 183.

Schindler, D. Lewis, G.S. Rosenberg, Miriam Tadmor, A. Ezov, N. Ron, M. Aizinbud, E. and Lehrer, A.R. 1990. Vulvar electrical impedance in periparturient cows and its relation to plasma progesterone, oestradiol-17β and PGFM. Animal Reproduction Science, Vol. 23, Issue. 4, p. 283.

Ezov, N. Maltz, E. Yarom, R. Lewis, G.S. Schindler, D. Ron, M. Aizinbud, E. and Lehrer, A.R. 1990. Cell density, fluid volume and electrolyte content of bovine vulvar tissue during oestrus and dioestrus. Animal Reproduction Science, Vol. 22, Issue. 4, p. 281.

Holtz, W. and Meinhardt, H. 1993. Die Brunstdiagnose beim Rind. Reproduction in Domestic Animals, Vol. 28, Issue. 5, p. 315.

Kitwood, S.E. Phillips, C.J.C. and Weise, M. 1993. Use of a vaginal mucus impedance meter to detect estrus in the cow. Theriogenology, Vol. 40, Issue. 3, p. 559.

Senger, P.L. 1994. The Estrus Detection Problem: New Concepts, Technologies, and Possibilities. Journal of Dairy Science, Vol. 77, Issue. 9, p. 2745.

Pietraszek, J. and Atkinson, S. 1994. CONCENTRATIONS OF ESTRONE SULFATE and PROGESTERONE IN PLASMA and SALIVA, VAGINAL CYTOLOGY, and BIOELECTRIC IMPEDANCE DURING THE ESTROUS CYCLE OF THE HAWAIIAN MONK SEAL (MONACHUS SCHAUNSLAnDI). Marine Mammal Science, Vol. 10, Issue. 4, p. 430.

Wehner, G.R. Wood, C. Tague, A. Barker, D. and Hubert, H. 1997. Efficiency of the OVATEC unit for estrus detection and calf sex control in beef cows. Animal Reproduction Science, Vol. 46, Issue. 1-2, p. 27.

Gupta, K.A. and Purohit, G.N. 2001. Use of vaginal electrical resistance (VER) to predict estrus and ovarian activity, its relationship with plasma progesterone and its use for insemination in buffaloes. Theriogenology, Vol. 56, Issue. 2, p. 235.

Meena, R. S. Sharma, S. S. and Purohit, G. N. 2003. Efficiency of vaginal electrical resistance measurements for oestrous detection and insemination in Rathi cows. Animal Science, Vol. 76, Issue. 3, p. 433.

Chaudhari, S.U.R. and ., Y.G. Sabo 2006. Techniques for Reproductive Efficiency with Reference to Oestrus Detection and Timing of Insemination in Cattle. Journal of Applied Sciences, Vol. 6, Issue. 10, p. 2141.

Zuluaga, J.F. Saldarriaga, J.P. Cooper, D.A. Cartmill, J.A. and Williams, G.L. 2008. Evaluation of vaginal electrical resistance as an indicator of follicular maturity and suitability for timed artificial insemination in beef cows subjected to a synchronization of ovulation protocol. Animal Reproduction Science, Vol. 109, Issue. 1-4, p. 17.

Řezáč, P. 2008. Potential applications of electrical impedance techniques in female mammalian reproduction. Theriogenology, Vol. 70, Issue. 1, p. 1.

Miranda, N. Morais, R. Dias, M. Viegas, C. Silva, F. Serôdio, C. Almeida, J. Azevedo, J. and Reis, M.C. 2009. Bioimplantable impedance and temperature monitor low power micro-system suitable for estrus detection. Procedia Chemistry, Vol. 1, Issue. 1, p. 505.

Ghoneim, I.M. Waheed, M.M. Adam, Mohammed I. and Al-Eknah, M.M. 2015. Relationship between the size of the dominant follicle, vaginal electrical resistance, serum concentrations of oestradiol and progesterone and sexual receptivity during the follicular phase of the dromedary camel (Camelus dromedarius). Animal Reproduction Science, Vol. 154, Issue. , p. 63.

Article contents

The electrical conductivity inside the bovine vaginal wall†

Abstract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

The electrical conductivity inside the bovine vaginal wall†

Abstract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests