Mht. Troedsson et al., REGISTRATION OF MYOMETRIAL ACTIVITY USING MULTIPLE-SITE ELECTROMYOGRAPHY IN CYCLIC MARES, Journal of Reproduction and Fertility, 99(2), 1993, pp. 299-306
A method for interpreting and analysing electromyographic (EMG) data o
f myometrial electrical activity was established. This method was used
to study EMG activity in the uterus during the various stages of the
oestrous cycle in mares. Recordings were analysed from four pairs of e
lectrodes that were surgically implanted in the myometrium of four rep
roductively sound mares. The electrodes were placed at the tip, middle
and base of the left horn and in the uterine body. Electrical activit
y was monitored by a polygraph. Data were transformed to a digitized f
orm and statistically analysed. Myometrial electrical activity during
oestrus and dioestrus was analysed for frequency (number of activity b
ursts per hour), duration (time elapsed from the start to the end of a
burst) and intensity (peaks per minute). In addition, the degrees of
synchronous activity among all of: the monitored sites of the uterus w
ere compared. The minimal amount of time of EMG recordings that allowe
d meaningful statistical analyses was determined to be 3.5 h during oe
strus and 7 h during dioestrus. Variations in intensity of electrical
activity were seen between the sites of implanted electrodes (P < 0.00
1). Electrical activity was highest in the middle of the horn and lowe
st in the uterine body. The frequency of activity bursts was the same
during oestrus and dioestrus (4.35 +/- 0.22 and 4.44 +/- 0.20, respect
ively). The duration and intensity of uterine electrical activity depe
nded on the stage of the oestrous cycle. The mean duration of uterine
activity bursts during dioestrus was significantly (P < 0.005) shorter
during oestrus (3.32 +/- 0.18 min) than during dioestrus (5.7 +/- 0.3
9 min). The intensity of bursts was higher during oestrus than during
dioestrus (P < 0.005). In contrast, the total time of uterine activity
was higher during dioestrus than during oestrus (P < 0.005). Synchron
ization of uterine electrical activity among different sites of the ut
erus was more marked during oestrus than during dioestrus (P < 0.005).
It was suggested that a hormone-dependent mechanism for the regulatio
n of cell communication is responsible for at least part of the change
s of myometrial electrical activity that was observed at different sta
ges of the oestrous cycle. It was concluded from the study that the me
thod described for analysing EMG data allowed for an objective and rep
eatable interpretation of myometrial electrical activity.