Purpose:This study aimed to propose a novel deep learning-based approach to assess the extent of abduction in patients with abducens nerve palsy before and after strabismus surgery.Methods:This study included 13 patie...Purpose:This study aimed to propose a novel deep learning-based approach to assess the extent of abduction in patients with abducens nerve palsy before and after strabismus surgery.Methods:This study included 13 patients who were diagnosed with abducens nerve palsy and underwent strabismus surgery in a tertiary hospital.Photographs of primary,dextroversion and levoversion position were collected before and after strabismus surgery.The eye location and eye segmentation network were trained via recurrent residual convolutional neural networks with attention gate connection based on U-Net(R2AU-Net).Facial images of abducens nerve palsy patients were used as the test set and parameters were measured automatically based on the masked images.Absolute abduction also was measured manually,and relative abduction was calculated.Agreements between manual and automatic measurements,as well as repeated automatic measurements were analyzed.Preoperative and postoperative results were compared.Results:The intraclass correlation coefficients(ICCs)between manual and automatic measurements of absolute abduction ranged from 0.985 to 0.992(P<0.001),and the bias ranged from-0.25 mm to-0.05 mm.The ICCs between two repeated automatic measurements ranged from 0.994 to 0.997(P<0.001),and the bias ranged from-0.11 mm to 0.05 mm.After strabismus surgery,absolute abduction of affected eye increased from 2.18±1.40 mm to 3.36±1.93 mm(P<0.05).The relative abduction was improved in 76.9%patients(10/13)after surgery(P<0.01).Conclusions:This image analysis technique demonstrated excellent accuracy and repeatability for automatic measurements of ocular abduction,which has promising application prospects in objectively assessing surgical outcomes in patients with abducens nerve palsy.展开更多
An on-line full scan inspection system is developed for particle size analysis. A particle image is first obtained through optical line scan technology and is then analyzed using digital image processing. The system i...An on-line full scan inspection system is developed for particle size analysis. A particle image is first obtained through optical line scan technology and is then analyzed using digital image processing. The system is composed of a particle separation module, an image acquisition module, an image processing module, and an electric control module. Experiments are carried out using non-uniform 0.1 mm particles. The main advantage of this system consists of a full analysis of particles without any overlap or miss, thus improving the Area Scan Charge Coupled Device (CCD) acquisition problems. Particle size distribution, roundness, and sphericity can be obtained using the system with a deviation of repeated precision of around ±1%. The developed system is shown to be also convenient and versatile for any particle size and shape for academic and industrial users.展开更多
基金supported by General Planning Project of Education Science Planning of Zhejiang Province(2024SCG251)Key Program of the National Natural Science Foundation of China(82330032)+1 种基金National Natural Science Foundation Regional Innovation and Development Joint Fund(U20A20386)Key Research and Development Program of Zhejiang Province(2024C03204).
文摘Purpose:This study aimed to propose a novel deep learning-based approach to assess the extent of abduction in patients with abducens nerve palsy before and after strabismus surgery.Methods:This study included 13 patients who were diagnosed with abducens nerve palsy and underwent strabismus surgery in a tertiary hospital.Photographs of primary,dextroversion and levoversion position were collected before and after strabismus surgery.The eye location and eye segmentation network were trained via recurrent residual convolutional neural networks with attention gate connection based on U-Net(R2AU-Net).Facial images of abducens nerve palsy patients were used as the test set and parameters were measured automatically based on the masked images.Absolute abduction also was measured manually,and relative abduction was calculated.Agreements between manual and automatic measurements,as well as repeated automatic measurements were analyzed.Preoperative and postoperative results were compared.Results:The intraclass correlation coefficients(ICCs)between manual and automatic measurements of absolute abduction ranged from 0.985 to 0.992(P<0.001),and the bias ranged from-0.25 mm to-0.05 mm.The ICCs between two repeated automatic measurements ranged from 0.994 to 0.997(P<0.001),and the bias ranged from-0.11 mm to 0.05 mm.After strabismus surgery,absolute abduction of affected eye increased from 2.18±1.40 mm to 3.36±1.93 mm(P<0.05).The relative abduction was improved in 76.9%patients(10/13)after surgery(P<0.01).Conclusions:This image analysis technique demonstrated excellent accuracy and repeatability for automatic measurements of ocular abduction,which has promising application prospects in objectively assessing surgical outcomes in patients with abducens nerve palsy.
文摘An on-line full scan inspection system is developed for particle size analysis. A particle image is first obtained through optical line scan technology and is then analyzed using digital image processing. The system is composed of a particle separation module, an image acquisition module, an image processing module, and an electric control module. Experiments are carried out using non-uniform 0.1 mm particles. The main advantage of this system consists of a full analysis of particles without any overlap or miss, thus improving the Area Scan Charge Coupled Device (CCD) acquisition problems. Particle size distribution, roundness, and sphericity can be obtained using the system with a deviation of repeated precision of around ±1%. The developed system is shown to be also convenient and versatile for any particle size and shape for academic and industrial users.
