The application of tissue-engineered fish swim bladder vascular graft.
Hualong BaiPeng SunHaoliang WuShunbo WeiBoao XieWang WangYachen HouJing'an LiAlan DardikZhuo LiPublished in: Communications biology (2021)
Small diameter (< 6 mm) prosthetic vascular grafts continue to show very low long-term patency, but bioengineered vascular grafts show promising results in preclinical experiments. To assess a new scaffold source, we tested the use of decellularized fish swim bladder as a vascular patch and tube in rats. Fresh goldfish (Carassius auratus) swim bladder was decellularized, coated with rapamycin and then formed into patches or tubes for implantation in vivo. The rapamycin-coated patches showed decreased neointimal thickness in both the aorta and inferior vena cava patch angioplasty models. Rapamycin-coated decellularized swim bladder tubes implanted into the aorta showed decreased neointimal thickness compared to uncoated tubes, as well as fewer macrophages. These data show that the fish swim bladder can be used as a scaffold source for tissue-engineering vascular patches or vessels.
Keyphrases
- tissue engineering
- spinal cord injury
- inferior vena cava
- urinary tract
- extracellular matrix
- aortic valve
- vascular smooth muscle cells
- smooth muscle
- optical coherence tomography
- mesenchymal stem cells
- electronic health record
- cell therapy
- coronary artery
- artificial intelligence
- big data
- vena cava
- data analysis
- pulmonary hypertension
- angiotensin ii