Familial Exudative Vitreoretinopathy (FEVR) 120° OCTA
- Categories:Gallery
- Time of issue:2022-10-14 14:12
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(Summary description)Dragging and straightening of telangiectatic vessels (Fig1). Particularly in temporal side. Brush-like anastomosis with pruning and shunts at the border of peripheral avascular zone (Fig2). Peripheral neovascularization (NVE) in vitreous slab (Fig3). Images captured by a 400KHz swept-source OCT/OCTA system (BMizar, BM-400K, TowardPi Medical Technology) “It is surprising that the details of the peripheral vessels can be visualized so clearly for an 8-year-old child without losing the accuracy of the posterior pole. I believe that only the 400KHz speed TowardPi BMizar supported by a number of innovative technologies can do it!” Images courtesy and endorsement: Prof. HaiJun Yang, Nanchang Bright Eye Hospital, JiangXi, China Editor: Dr. Jian Zhou (TowardPi Medical)
Familial Exudative Vitreoretinopathy (FEVR) 120° OCTA
(Summary description)Dragging and straightening of telangiectatic vessels (Fig1). Particularly in temporal side. Brush-like anastomosis with pruning and shunts at the border of peripheral avascular zone (Fig2). Peripheral neovascularization (NVE) in vitreous slab (Fig3). Images captured by a 400KHz swept-source OCT/OCTA system (BMizar, BM-400K, TowardPi Medical Technology)
“It is surprising that the details of the peripheral vessels can be visualized so clearly for an 8-year-old child without losing the accuracy of the posterior pole. I believe that only the 400KHz speed TowardPi BMizar supported by a number of innovative technologies can do it!” Images courtesy and endorsement: Prof. HaiJun Yang, Nanchang Bright Eye Hospital, JiangXi, China
Editor: Dr. Jian Zhou (TowardPi Medical)
- Categories:Gallery
- Time of issue:2022-10-14 14:12
- Views:
Dragging and straightening of telangiectatic vessels (Fig1). Particularly in temporal side. Brush-like anastomosis with pruning and shunts at the border of peripheral avascular zone (Fig2). Peripheral neovascularization (NVE) in vitreous slab (Fig3). Images captured by a 400KHz swept-source OCT/OCTA system (BMizar, BM-400K, TowardPi Medical Technology)
“It is surprising that the details of the peripheral vessels can be visualized so clearly for an 8-year-old child without losing the accuracy of the posterior pole. I believe that only the 400KHz speed TowardPi BMizar supported by a number of innovative technologies can do it!” Images courtesy and endorsement: Prof. HaiJun Yang, Nanchang Bright Eye Hospital, JiangXi, China
Editor: Dr. Jian Zhou (TowardPi Medical)
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