Table 1.
An overview of techniques used in the study of endometrial cells and tissues with examples of the research in which they were applied.
| Technique | Example of Application | |
|---|---|---|
| Microscopic techniques | Optical microscopy | Classification of benign, atypical and malignant cells [13] |
| Transmission and scanning electron microscopy | Analysis of structure differences between epithelial and stromal cells [14] | |
| Transmission electron microscopy | Observation of ultrastructural differences between endometrial cell from fertile woman and from woman with repeated implantation failure [7] | |
| Confocal microscopy | Molecules tracking as source of information on the course of cellular processes e.g., Observation of actin expression changes during endometriosis [5] Tracking of mesenchymal to epithelial transition markers [15] Analysis of phase of menstrual cycle [16] |
|
| Atomic force microscopy | Height and roughness measurement, e.g., changes after progesterone treatment [16] or during decidualization [15] | |
| Time-lapse video-microscopy | Change of migration ability resulting from endometriosis [5] | |
| Gene and protein expression analysis (both complete research and research support) |
Reverse-transcription polymerase chain reaction and Western blot | Confirmation of the ongoing cellular processes based on the expression of gen or protein [5,16,17] Monitoring of stretch-induced protein secretion in the context of uterine contractility [18] |
| Real-time polymerase chain reaction | Observation of gene expression changes during subsequent cycles e.g., in decidualization [15] | |
| Enzymatic tests | Enzyme-linked immunosorbent assay | Analysis of surface markers e.g., in decidualization [15] Monitoring of stretch-induced protein secretion in the context of uterine contractility [18] |
| Histochemistry | In situ activity analysis of ectonucleotidases as markers of endometriosis and endometrial cancer [19,20] | |
| Analytical technique | Flow cytometry | Analysis of surface markers, assessment of cell quality, e.g., in cell phenotype determination [21] |
| Vibration technique | Raman spectroscopy | Chemical composition of sample, e.g., in endometriosis diagnosis based on Raman spectrum [12] |
| Infrared micro-spectroscopy | Chemical composition of sample, e.g., changes caused by endometriosis [22] | |
| Mechanical properties measurement | Atomic force microscopy | Determination of Young’s modulus and adhesion of decidualized cells [15] Determination of adhesion in implantation process [9] |