Synchrotron Imaging of Human Ovaries Ex Situ

The objective of our research is to determine whether the synchrotron is an effective tool for imaging human ovaries ex situ. Approximately 1 in every 6 women in Canada is affected by infertility; however, the underlying causes remain largely unknown. Imaging techniques are essential for increasing our understanding of normal and abnormal female reproductive biology. At present, ultrasonography is the most commonly-used tool to image human ovaries. However, ultrasonography only allows the detection of structures ≥ 2 mm in size within the ovaries, limiting the ability to detect smaller anatomic details (eg. the eggs and the surrounding cells and 'follicles' or the small fluid filled sacs that contain the eggs). Other limitations of ultrasonography for imaging the ovaries include a limited depth of penetration within the pelvis and the inability to see the ovaries clearly due to bowel activity and/or gas.

The synchrotron has been effectively used for imaging soft tissues, including the breast, heart and lungs. We hypothesize that the synchrotron will provide greater resolution for imaging the ovaries compared to conventional ultrasonography. Specifically, we anticipate that synchrotron imaging will provide greater structural details of the ovaries (including small follicles <2 mm and eggs) compared to conventional ultrasonography.

The study will consist of three different phases listed below:

• Phase 1 - Imaging of 10 fresh and preserved bovine ovaries
• Phase 2 - Imaging of 5 preserved human ovaries from the Department of Pathology
• Phase 3 - Imaging of 2-4 fresh human ovaries from women having their ovaries surgically removed

The initial imaging of bovine ovaries will help us determine the best synchrotron settings to image the human samples. All ovaries will be preserved using formaldehyde. In all 3 study phases, ovarian specimens will be imaged first with 2D and 3D ultrasonography and then with the Biomedical Imaging and Therapy Beamline (BMIT) at the Canadian Light Source. Furthermore, histologic sections of structures of interest within the ovaries will be made, and digital images will be acquired.

We believe that synchrotron imaging of human ovaries ex situ will be an important first step to develop future high-resolution tools for imaging reproductive tissues in situ.