Abstract
Chronic kidney disease leads to high morbidity rates among humans. It is a serious disease that requires curative treatments other than kidney transplantation. Recently, we successfully established the iPS-derived generated kidney, which might produce urine. The urine can be directed to the native bladder with a stepwise peristaltic ureter system, followed by anastomosis with the recipient ureter for reconstruction of the urinary tract. However, the growth of the regenerated kidney varies significantly, whereas the time window of the anastomosis is quite narrow. Therefore, this study was conducted to evaluate the growth of transplanted metanephros with bladder periodically and noninvasively using computed tomography and ultrasonography. Ultrasonographic findings showed high correlations with computed tomographic findings and clearly evaluated metanephros with bladder. We found that the degree of growth of the metanephros with bladder after the transplantation differed in each individual. However, most of them reached the appropriate period for urinary tract reconstruction within 3 weeks after transplantation. Optimizing the stepwise peristaltic ureter system anastomosis by ultrasonography reduced long-term tubular dilation of the metanephros, thereby decreasing fibrosis caused by transforming growth factor-β. This may be significantly related to long-term maturation of fetal grafts. These results provide new insights into transplanting regenerated kidneys in higher animals. We are one step closer to the first human trial of kidney generation.