Conclusions
The cells in the MFe of the human newborn vocal fold mucosa had heterogeneity and hierarchy in the stem cell system in vivo. At birth, newborn maculae flavae are ready to start the growth of the vocal fold mucosa as a vibrating tissue.
Methods
Five normal human newborn vocal folds were investigated under transmission electron microscopy and light microscopy.
Results
Cobblestone-like polygonal cells, vocal fold stellate cell-like cells, and fibroblast-like spindle cells were intermingled in the newborn MFe in vivo, indicating that the cells in the MFe had heterogeneity. However, cobblestone-like polygonal cells were predominant. Free ribosomes were well developed in the cytoplasm. The cells in some cases formed gap junctions with each other. The cells in some cases were attached to other cells and formed cell junctions with each other. These findings indicated cells in the newborn maculae flavae possessed features of mesenchymal cells (cells in mesenchyme). Colony-forming-unit-like cell aggregate was observed, indicating the cells in the newborn MFe had stemness. The cobblestone-like polygonal cells expressed SSEA-3 (a human pluripotent stem cell marker), indicating they were at the top of a cellular hierarchy in the stem cell system. Conclusions: The cells in the MFe of the human newborn vocal fold mucosa had heterogeneity and hierarchy in the stem cell system in vivo. At birth, newborn maculae flavae are ready to start the growth of the vocal fold mucosa as a vibrating tissue.