RESUMO
Implantation is an essential issue in orthopedic surgery. Bulk metallic glasses (BMGs), as a kind of novel materials, attract lots of attentions in biological field owing to their comprehensive excellent properties. Here, we show that a Zr61Ti2Cu25Al12 (at. %) BMG (Zr-based BMG) displays the best cytocompatibility, pronounced positive effects on cellular migration, and tube formation from in-vitro tests as compared to those of commercial-pure titanium and poly-ether-ether-ketone. The in-vivo micro-CT and histological evaluation demonstrate the Zr-based BMG can significantly promote a bone formation. Immunofluorescence tests and digital reconstructed radiographs manifest a stimulated effect on early blood vessel formation from the Zr-based BMG. Accordingly, the intimate connection and coupling effect between angiogenesis and osteogenesis must be effective during bone regeneration after implanting Zr-based BMG. Dynamic gait analysis in rats after implanting Zr-based BMG demonstrates a tendency to decrease the pain level during recovery, simultaneously, without abnormal ionic accumulation and inflammatory reactions. Considering suitable mechanical properties, we provide a realistic candidate of the Zr61Ti2Cu25Al12 BMG for biomedical applications.
RESUMO
Nephrogenic adenoma (NA) is a rare benign metaplastic lesion of the urothelial tract that arises as a response to injury and chronic inflammation. Although the most common site for NA is the bladder, it can occur in any part of urinary tract lined by urothelium. NA can mimic minor variants of urothelial cancer, clear cell adenocarcinoma, and prostate adenocarcinoma, making a combination of histologic examination and immunohistochemistry essential for diagnosis. We hereby report a rare case of nephrogenic adenoma arising in a urethral diverticulum.