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Analysis of in vivo uterine peristalsis in the non-pregnant female mouse.

Ying ZhangJingjing QianOren ZaltzhendlerMustafa BsharaAriel J JaffaDan GrisaruEnkui DuanDavid Elad
Published in: Interface focus (2019)
Uterine peristalsis due to spontaneous contractions of the myometrial smooth muscles has important roles in pre-implantation processes of intra-uterine sperm transport to the fertilization site, and then embryo transport to the implantation sites. We developed a new objective methodology to study in vivo uterine peristalsis in female mice during the pro-oestrus phase. The acquisition procedure of the uterine organ is remote without interfering with the organ function. The uniqueness of the new approach is that video images of physiological pattern were converted using image processing and new algorithms to biological time-dependent signals that can be processed with existing algorithms for signal processing. Using this methodology we found that uterine peristalsis in the pro-oestrus mouse is in the range of 0.008-0.029 Hz, which is about one contraction per minute and with fairly symmetric contractions that occasionally propagate caudally. This rate of contractions is similar to that of human uterine peristalsis acquired in vivo, which is important information for a popular animal model.
Keyphrases
  • deep learning
  • machine learning
  • healthcare
  • type diabetes
  • metabolic syndrome
  • optical coherence tomography