32 results on '"Dai, Cuixia"'
Search Results
2. Contrast-enhanced near-infrared photoacoustic microscopy and optical coherence tomography imaging of rat fundus
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Du Fengxian, Niu Chen, Zeng Silue, Chen Jingqin, Liu Chengbo, and Dai Cuixia
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optical coherence tomography ,photoacoustic microscopy ,contrast agents ,Physics ,QC1-999 - Abstract
In this paper, we design a multimodal visible/near-infrared photoacoustic microscopy and optical coherence tomography (VIS/NIR-PAM-OCT) system for imaging both retina and retinal pigment epithelium (RPE)/choroid complex layer. F127 and DSPE-PEG-cRGD encapsulated IR-1048 nanoparticles (FINPs) exhibiting absorption peak up to 1,064 nm were utilized as contrast agents to enhance NIR-PAM for in vivo imaging of fundus tissues. The fundus structure and vessels are clearly visualized by the multimodal imaging, and their parameters were quantitatively analyzed. NIR-PAM and OCT imaging of fundus were time-serially monitored over 60 min following the intravenous injection of FINPs into rats. The results indicated a 134 % increase in image signals in PAM at 1 min, along with an 8.23 % intensity enhancement in OCT. Moreover, laser-induced choroidal neovascularization (CNV) was specifically detected and accurately quantified using VIS/NIR-PAM-OCT. Lastly, FINPs demonstrated excellent biocompatibility in hematology analysis and pathology testing.
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- 2024
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3. Unsupervised adversarial neural network for enhancing vasculature in photoacoustic tomography images using optical coherence tomography angiography
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Zhong, Yutian, Liu, Zhenyang, Zhang, Xiaoming, Liang, Zhaoyong, Chen, Wufan, Dai, Cuixia, and Qi, Li
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- 2024
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4. Diagnosis of dental caries based on attenuation coefficients analysis of optical coherence tomography images.
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Fan, Shuhao, Yu, Huanhuan, Guan, Zehua, Lv, Fukang, Zhou, Zhuojun, and Dai, Cuixia
- Abstract
Quantitative analysis of optical attenuation based on optical coherence tomography images will offer an effective method to enhance diagnostic capabilities. In this paper, the optical attenuation in demineralized caries specimens was calculated to distinguish between normal teeth and carious teeth and further to differentiate the severity of caries, and thus come to the half‐automated diagnosis of dental caries. Results show that the attenuation coefficient in carious regions is approximately 4.97mm−1±0.206, while that of normal teeth is about 3.69mm−1±0.231. Attenuation coefficient of carious regions is 35% higher than that of normal teeth. Moreover, five classes of caries were qualified and classified based on the optical attenuation coefficient. Compared with the healthy teeth, there is a noticeable disparity in the attenuation coefficients of carious teeth, both on the surface and at the dentinoenamel junction. This study provides a method for accurate caries diagnosis, particularly in detection of early lesions and subtle structural changes. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Image segmentation of mouse eye in vivo with optical coherence tomography based on Bayesian classification.
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Ma, Fei, Wang, Shengbo, Guo, Yanfei, Dai, Cuixia, and Meng, Jing
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- 2024
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6. Automatic diagnosis of diabetic retinopathy using vision transformer based on wide-field optical coherence tomography angiography.
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Zhou, Zenan, Yu, Huanhuan, Zhao, Jiaqing, Wang, Xiangning, Wu, Qiang, and Dai, Cuixia
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TRANSFORMER models ,OPTICAL coherence tomography ,DIABETIC retinopathy ,CONVOLUTIONAL neural networks ,ARTIFICIAL neural networks ,ANGIOGRAPHY - Abstract
Diabetic retinopathy (DR) is one of the major causes of visual impairment in adults with diabetes. Optical coherence tomography angiography (OCTA) is nowadays widely used as the golden criterion for diagnosing DR. Recently, wide-field OCTA (WF-OCTA) provided more abundant information including that of the peripheral retinal degenerative changes and it can contribute in accurately diagnosing DR. The need for an automatic DR diagnostic system based on WF-OCTA pictures attracts more and more attention due to the large diabetic population and the prevalence of retinopathy cases. In this study, automatic diagnosis of DR using vision transformer was performed using WF-OCTA images (12 mm × 12 mm single-scan) centered on the fovea as the dataset. WF-OCTA images were automatically classified into four classes: No DR, mild nonproliferative diabetic retinopathy (NPDR), moderate to severe NPDR, and proliferative diabetic retinopathy (PDR). The proposed method for detecting DR on the test set achieves accuracy of 99.55%, sensitivity of 99.49%, and specificity of 99.57%. The accuracy of the method for DR staging reaches up to 99.20%, which has been proven to be higher than that attained by classical convolutional neural network models. Results show that the automatic diagnosis of DR based on vision transformer and WF-OCTA pictures is more effective for detecting and staging DR. [ABSTRACT FROM AUTHOR]
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- 2024
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7. High-precision retinal blood vessel segmentation based on a multi-stage and dual-channel deep learning network.
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Guo, Hui, Meng, Jing, Zhao, Yongfu, Zhang, Hongdong, and Dai, Cuixia
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RETINAL blood vessels ,DEEP learning ,IMAGE intensifiers ,MULTISCALE modeling - Abstract
Objective. The high-precision segmentation of retinal vessels in fundus images is important for the early diagnosis of ophthalmic diseases. However, the extraction for microvessels is challenging due to their characteristics of low contrast and high structural complexity. Although some works have been developed to improve the segmentation ability in thin vessels, they have only been successful in recognizing small vessels with relatively high contrast. Approach. Therefore, we develop a deep learning (DL) framework with a multi-stage and dual-channel network model (MSDC_NET) to further improve the thin-vessel segmentation with low contrast. Specifically, an adaptive image enhancement strategy combining multiple preprocessing and the DL method is firstly proposed to elevate the contrast of thin vessels; then, a two-channel model with multi-scale perception is developed to implement whole- and thin-vessel segmentation; and finally, a series of post-processing operations are designed to extract more small vessels in the predicted maps from thin-vessel channels. Main results. Experiments on DRIVE, STARE and CHASE_DB1 demonstrate the superiorities of the proposed MSDC_NET in extracting more thin vessels in fundus images, and quantitative evaluations on several parameters based on the advanced ground truth further verify the advantages of our proposed DL model. Compared with the previous multi-branch method, the specificity and F
1 score are improved by about 2.18%, 0.68%, 1.73% and 2.91%, 0.24%, 8.38% on the three datasets, respectively. Significance. This work may provide richer information to ophthalmologists for the diagnosis and treatment of vascular-related ophthalmic diseases. [ABSTRACT FROM AUTHOR]- Published
- 2024
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8. Deep‐learning segmentation method for optical coherence tomography angiography in ophthalmology.
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Ma, Fei, Li, Sien, Wang, Shengbo, Guo, Yanfei, Wu, Fei, Meng, Jing, and Dai, Cuixia
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Purpose: The optic disc and the macular are two major anatomical structures in the human eye. Optic discs are associated with the optic nerve. Macular mainly involves degeneration and impaired function of the macular region. Reliable optic disc and macular segmentation are necessary for the automated screening of retinal diseases. Methods: A swept‐source OCTA system was designed to capture OCTA images of human eyes. To address these segmentation tasks, first, we constructed a new Optic Disc and Macula in fundus Image with optical coherence tomography angiography (OCTA) dataset (ODMI). Second, we proposed a Coarse and Fine Attention‐Based Network (CFANet). Results: The five metrics of our methods on ODMI are 98.91%, 98.47%, 89.77%, 98.49%, and 89.77%, respectively. Conclusions: Experimental results show that our CFANet has achieved good performance on segmentation for the optic disc and macula in OCTA. [ABSTRACT FROM AUTHOR]
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- 2024
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9. A new retinal OCT‐angiography diabetic retinopathy dataset for segmentation and DR grading.
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Ma, Fei, Wang, Shengbo, Dai, Cuixia, Qi, Fumin, and Meng, Jing
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Purpose: Diabetic retinopathy (DR) is one of the most common diseases caused by diabetes and can lead to vision loss or even blindness. The wide‐field optical coherence tomography (OCT) angiography is non‐invasive imaging technology and convenient to diagnose DR. Methods: A newly constructed Retinal OCT‐Angiography Diabetic retinopathy (ROAD) dataset is utilized for segmentation and grading tasks. It contains 1200 normal images, 1440 DR images, and 1440 ground truths for DR image segmentation. To handle the problem of grading DR, we propose a novel and effective framework, named projective map attention‐based convolutional neural network (PACNet). Results: The experimental results demonstrate the effectiveness of our PACNet. The accuracy of the proposed framework for grading DR is 87.5% on the ROAD dataset. Conclusions: The information on ROAD can be viewed at URL https://mip2019.github.io/ROAD. The ROAD dataset will be helpful for the development of the early detection of DR field and future research. Translational Relevance: The novel framework for grading DR is a valuable research and clinical diagnosis method. [ABSTRACT FROM AUTHOR]
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- 2023
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10. Endoscopic optical coherence tomography angiography using an externally driving catheter.
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Gao, Lei, Wu, Zhengjie, Chen, Zhuoquan, Kong, Ruiming, Song, Yuting, Ma, Teng, and Dai, Cuixia
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Endoscopic optical coherence tomography (OCT) is an imaging modality that enables cross‐sectional subsurface imaging of tubular organs and cavities. Recently, endoscopic OCT angiography (OCTA) was successfully achieved in distal scanning systems using an internal‐motor‐driving catheter. In conventional OCT systems using externally driving catheters, the mechanical instability in the proximal actuation causes difficulties for differentiating capillaries in tissues. In this study, OCTA in an endoscopic OCT system using an external‐motor‐driving catheter was proposed. Blood vessels were visualized by using a high‐stability inter‐A‐scan scheme and the spatiotemporal singular value decomposition algorithm. It is not limited by nonuniform rotation distortion caused by the catheter and physiological motion artifacts. Results show that microvasculature in a custom‐made microfluidic phantom and the submucosal capillaries in the mouse rectum are successfully visualized. Furthermore, OCTA using a catheter with a small size (outer diameter less than 1 mm) makes it possible for early diagnosis of narrow lumens, such as pancreatic and bile duct cancers. [ABSTRACT FROM AUTHOR]
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- 2023
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11. Time-Serial Evaluation of the Development and Treatment of Myopia in Mice Eyes Using OCT and ZEMAX.
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Ding, Xueqing, Tan, Jinzhen, Meng, Jing, Shao, Yilei, Shen, Meixiao, and Dai, Cuixia
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MYOPIA ,OPTICAL coherence tomography ,VISION disorders ,MORPHOLOGY ,MICE - Abstract
Myopia is a significant cause of visual impairment which may lead to many complications. However, the understanding of the mechanisms of myopia is still limited. In this paper, in order to investigate the development and the treatment of myopia, we analyzed the biological structure parameters of mice eyes, obtained from optical coherence tomography (OCT), and the optical performance of mice eyes calculated using ZEMAX software (ZEMAX Development Corporation, Kirkland, WA, USA) in which the optical model was built on the segment-by-segment optically corrected OCT 3D-images. Time-serial evaluation of three groups of mice eyes (form-deprivation myopia mice eyes, normal mice eyes, and atropine-treated myopia mice eyes) was performed. In addition to the biological structure parameters, imaging performance with the development of root-mean-square wavefront aberration at six filed angles was compared and analyzed. Results show that the biological structure parameters of the eye are closely related to the development of myopia. The peripheral defocus of the retina has a significant impact on inducing myopia, which verifies the new theory of myopia development. The delaying effect of atropine solution on myopia development is shown to verify the therapeutic effect of the medicine. This study provides technical support for the investigation of the myopia mechanism. [ABSTRACT FROM AUTHOR]
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- 2023
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12. Correction of refractive distortion in whole‐eye optical coherence tomography imaging of the mouse eye.
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Tan, Jinzhen, Qiu, Rui, Ding, Xueqing, Dai, Cuixia, Meng, Jing, Zhao, Jingxiu, Ma, Fei, and Qi, Sumin
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Optical coherence tomography (OCT) is an imaging modality that acquires high‐resolution cross‐sectional images of living tissues and it has become the standard in ophthalmological diagnoses. However, most quantitative morphological measurements are based on the raw OCT images which are distorted by several mechanisms such as the refraction of probe light in the sample and the scan geometries and thus the analysis of the raw OCT images inevitably induced calculation errors. In this paper, based on Fermat's principle and the concept of inverse light tracing, image distortions due to refraction occurred at tissue boundaries in the whole‐eye OCT imaging of mouse by telecentric scanning were corrected. Specially, the mathematical correction models were deducted for each interface, and the high‐precision whole‐eye image was recovered segment by segment. We conducted phantom and in vivo experiments on mouse and human eyes to verify the distortion correction algorithm, and several parameters of the radius of curvature, thickness of tissues and error, were calculated to quantitatively evaluate the images. Experimental results demonstrated that the method can provide accurate and reliable measurements of whole‐eye parameters and thus be a valuable tool for the research and clinical diagnosis. [ABSTRACT FROM AUTHOR]
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- 2022
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13. A novel three-dimensional holographic display system based on LC-R2500 spatial light modulator
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Zheng, Huadong, Yu, Yingjie, and Dai, Cuixia
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- 2009
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14. A single-step regression method based on transformer for retinal layer segmentation.
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Cao, Guogang, Zhang, Shu, Mao, Hongdong, Wu, Yan, Wang, Dong, and Dai, Cuixia
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OPTICAL coherence tomography ,BOUNDARY layer control ,RETINAL imaging ,STANDARD deviations ,BOUNDARY layer (Aerodynamics) ,MACULAR edema - Abstract
The shape and structure of retinal layers are basic characteristics for the diagnosis of many ophthalmological diseases. Based on B-Scans of optical coherence tomography, most of retinal layer segmentation methods are composed of two-steps: classifying pixels and extracting retinal layers, in which the optimization of two independent steps decreases the accuracy. Although the methods based on deep learning are highly accurate, they require a large amount of labeled data. This paper proposes a single-step method based on transformer for retinal layer segmentation, which is trained by axial data (A-Scans), to obtain the boundary of each layer. The proposed method was evaluated on two public data sets. The first one contains eight retinal layer boundaries for diabetic macular edema, and the second one contains nine retinal layer boundaries for healthy controls and subjects with multiple sclerosis. Its absolute average distance errors are 0.99 pixels and 3.67 pixels, respectively, for the two sets, and its root mean square error is 1.29 pixels for the latter set. In addition, its accuracy is acceptable even if the training data is reduced to 0.3. The proposed method achieves state-of-the-art performance while maintaining the correct topology and requires less labeled data. [ABSTRACT FROM AUTHOR]
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- 2022
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15. Classification‐based framework for binarization on mice eye image in vivo with optical coherence tomography.
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Ma, Fei, Dai, Cuixia, Meng, Jing, Li, Ying, Zhao, Jingxiu, Zhang, Yuanke, Wang, Shengbo, Zhang, Xueting, and Cheng, Ronghua
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Optical coherence tomography (OCT) angiography has drawn much attention in the medical imaging field. Binarization plays an important role in quantitative analysis of eye with optical coherence tomography. To address the problem of few training samples and contrast‐limited scene, we proposed a new binarization framework with specific‐patch SVM (SPSVM) for low‐intensity OCT image, which is open and classification‐based framework. This new framework contains two phases: training model and binarization threshold. In the training phase, firstly, the patches of target and background from few training samples are extracted as the ROI and the background, respectively. Then, PCA is conducted on all patches to reduce the dimension and learn the eigenvector subspace. Finally, the classification model is trained from the features of patches to get the target value of different patches. In the testing phase, the learned eigenvector subspace is conducted on the pixels of each patch. The binarization threshold of patch is obtained with the learned SVM model. We acquire a new OCT mice eye (OCT‐ME) database, which is publicly available at https://mip2019.github.io/spsvm. Extensive experiments were performed to demonstrate the effectiveness of the proposed SPSVM framework. [ABSTRACT FROM AUTHOR]
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- 2022
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16. Integrated US-OCT-NIRF Tri-Modality Endoscopic Imaging System for Pancreaticobiliary Duct Imaging.
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Kong, Ruiming, Dai, Cuixia, Zhang, Qi, Gao, Lei, Chen, Zhuoquan, Song, Yuting, Wu, Zhengjie, Wang, Jiming, Wang, Shuo, Zheng, Hairong, and Ma, Teng
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IMAGING systems , *OPTICAL coherence tomography , *FLUORESCENCE angiography , *PANCREATIC duct , *ENDOSCOPIC ultrasonography , *HEMATOXYLIN & eosin staining - Abstract
Pancreaticobiliary carcinomas is a highly malignant gastrointestinal tumor. Most pancreaticobiliary cancers arise from epithelial proliferation within the pancreaticobiliary ducts, referred to as pancreatic intraepithelial neoplasias (PanINs). Some PanINs are benign metaplasia, while others progress to invasive duct adenocarcinoma (IDAC). However, there is no standard program to diagnose the progression from PanINs to IDAC. In this study, we present a tri-modality imaging system, which integrates ultrasound (US), optical coherence tomography (OCT), and near-infrared fluorescence (NIRF) for pancreaticobiliary duct imaging. This system can obtain OCT, US, and NIRF images in real-time with a frame rate of 30 frames per second. For the endoscopy probe with an outer diameter of 0.9 mm, the US transducer and fiber ball lens were placed back to back. In vivo experiments were performed on the rectums of Sprague–Dawley rats to demonstrate the imaging performance of US, OCT, and fluorescence angiography. An ex vivo experiment on a human pancreatic duct was performed for a more accurate assessment of the pancreaticobiliary duct. The tomography images of rat rectums and human pancreatic ducts were correlated with hematoxylin and eosin (H&E) histology to check the measurement accuracy. The integrated tri-modality system has great clinical potential in mechanism studies, early diagnosis, and prognosis evaluation of malignant pancreaticobiliary carcinomas. [ABSTRACT FROM AUTHOR]
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- 2022
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17. Effect of dopant composition ratio on nonvolatile holographic recording in LiNb[O.sub.3]:Cu:Ce crystals
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Dong, Qianmin, Liu, Liren, Liu, De'an, Dai, Cuixia, and Ren, Liyong
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Holography ,Astronomy ,Physics - Abstract
The effect of dopant composition ratio on nonvolatile holographic recording in LiNb[O.sub.3]:Cu:Ce crystals is investigated experimentally. The results show that the dopant composition ratio affects the recording sensitivity and fixed diffraction efficiency by altering the UV light absorption characteristics of the crystals during nonvolatile, holographic recording. Increasing the dopant composition ratio of Cu and Ce leads to an increase in the absorption of UV light and further to an increase in the recording sensitivity and fixed diffraction efficiency. The UV light absorption characteristics of LiNb[O.sub.3]:Cu:Ce crystals and their roles in nonvolatile holographic recording are theoretically analyzed. The theoretical results are consistent with those of the experiments. OCIS codes: 210.2860, 090.2900, 090.7330, 160.2900, 050.7330.
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- 2004
18. Computer-aided diagnosis of retinopathy based on vision transformer.
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Jiang, Zhencun, Wang, Lingyang, Wu, Qixin, Shao, Yilei, Shen, Meixiao, Jiang, Wenping, and Dai, Cuixia
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COMPUTER-aided diagnosis ,PRUNING ,OPTICAL coherence tomography ,CONVOLUTIONAL neural networks ,VISION ,RETINAL diseases ,RETROLENTAL fibroplasia - Abstract
Age-related Macular Degeneration (AMD) and Diabetic Macular Edema (DME) are two common retinal diseases for elder people that may ultimately cause irreversible blindness. Timely and accurate diagnosis is essential for the treatment of these diseases. In recent years, computer-aided diagnosis (CAD) has been deeply investigated and effectively used for rapid and early diagnosis. In this paper, we proposed a method of CAD using vision transformer to analyze optical coherence tomography (OCT) images and to automatically discriminate AMD, DME, and normal eyes. A classification accuracy of 99.69% was achieved. After the model pruning, the recognition time reached 0.010 s and the classification accuracy did not drop. Compared with the Convolutional Neural Network (CNN) image classification models (VGG16, Resnet50, Densenet121, and EfficientNet), vision transformer after pruning exhibited better recognition ability. Results show that vision transformer is an improved alternative to diagnose retinal diseases more accurately. [ABSTRACT FROM AUTHOR]
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- 2022
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19. Effect of microcosmic optical parameters of dopants on the signal-to-noise ratio in doubly doped LiNbO 3 crystals
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Dai, Cuixia, Liu, Liren, Liu, De’an, and Zhou, Yu
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- 2005
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20. Grating spacing dependence of nonvolatile holographic recording with arbitrary charge transport lengths
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Dong, Qianmin, Liu, Liren, Liu, De'an, and Dai, Cuixia
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- 2004
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21. Intravital Whole‐Process Monitoring Thermo‐Chemotherapy Via 2D Silicon Nanoplatform: A Macro Guidance and Long‐Term Microscopic Precise Imaging Strategy.
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Huang, Doudou, Wang, Guangxing, Mao, Jingsong, Liu, Chunlei, Fan, Zhongxiong, Zhang, Yunrui, Zhang, Bei, Zhao, Yang, Dai, Cuixia, He, Yaqin, Ma, Heng, Liu, Gang, Chen, Xiaoyuan, and Zhao, Qingliang
- Subjects
OXYGEN saturation ,BLOOD flow ,TUMOR treatment ,SILICON ,DIAGNOSIS ,OXYGEN in the blood - Abstract
Tumor angiogenesis is a complex process that is unamenable to intravital whole‐process monitoring, especially on microscopic assessment of tumor microvessel and quantifying microvascular hemodynamics before and after the nanotherapeutics, which hinder the understanding of nanotheranostics outcomes in tumor treatment. Herein, a new photoacoustic (PA) imaging‐optical coherence tomography angiography (OCTA)‐laser speckle (LS) multimodal imaging strategy is first proposed, which is not only able to precisely macro guide the thermo‐chemotherapy of tumor by monitoring blood oxygen saturation (SaO2) and hemoglobin content (HbT), but also capable of long‐term microscopic investigating the microvessel morphology (microvascular density) and hemodynamics changes (relative blood flow) before and after the nanotherapeutics in vivo. Moreover, to realize the tumor thermo‐chemotherapy treatment based on this novel multimodal imaging strategy, a 2D 5‐fluorouracil silicon nanosheets (5‐Fu‐Si NSs) therapeutic agent is designed. Furthermore, 2D high‐resolution tumor microvascular images in different stage display that tendency of the thermo‐chemotherapy effect is closely associated with tumor angiogenesis. Taken together, the investigations establish the fundamental base in theory and technology for further tailoring the novel specific diagnosis and treatment strategy in tumor. More importantly, this technique will be beneficial to evaluate the tumor microvascular response to nanotherapeutics at microscale. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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22. In vivo evaluation of laser-induced choroidal neovascularization in rats simultaneously using optical coherence tomography and photoacoustic microscopy.
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Du, Fengxian, Gao, Lei, Li, Lin, Li, Qian, Wang, Fenghua, Zhou, Chuanqing, and Dai, Cuixia
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PHOTOACOUSTIC effect ,OPTICAL coherence tomography ,RATS ,MICROSCOPY ,NEOVASCULARIZATION ,LASER photocoagulation ,RETINAL degeneration - Abstract
Determination of the precise location and the degree of the Choroidal neovascularization (CNV) lesion is essential for diagnosation Neovascular age-related macular degeneration (AMD) and evaluation the efficacy of treatment. Noninvasive imaging techniques with specific contrast for CNV evaluation are demanded. In this paper, two noninvasive imaging techniques, namely Optical coherence tomography (OCT) and Photoacoustic microscopy (PAM), are combined to provide specific detection of CNV for their complimentary contrast mechanisms. In vivo time-serial evaluation of Laser-induced CNV in rats is present at days 1, 3, 5, 7, 14, 21 after laser photocoagulation is applied to the rat fundus. Both OCT and PAM show that the CNV increases to its maximum at day 7 and decreases at day 14. Quantification of CNV area and CNV thickness is given. The dual-modal information of CNV is consistent with the histologic evaluation by hematoxylin and eosin (H&E) staining. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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23. Imaging depth extension of optical coherence tomography in rabbit eyes using optical clearing agents.
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Kong, Ruiming, Wu, Wenjuan, Qiu, Rui, Gao, Lei, Du, Fengxian, Liu, Ailin, Cai, Xuan, and Dai, Cuixia
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- 2020
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24. Evaluation of Retinal Pigment Epithelium and Choroidal Neovascularization in Rats Using Laser-Scanning Optical-Resolution Photoacoustic Microscopy.
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Xiao, Meichun, Dai, Cuixia, Li, Lin, Zhou, Chuanqing, and Wang, Fenghua
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RHODOPSIN , *NEOVASCULARIZATION , *OPTICAL coherence tomography , *RETINAL injuries , *EPITHELIUM - Abstract
Purpose: To demonstrate the value of the laser-scanning optical-resolution (LSOR)-photoacoustic (PA) microscopy (PAM) system and the conventional multimodal imaging techniques in the evaluation of laser-induced retinal injury and choroidal neovascularization (CNV) in rats. Methods: Different degrees of retinal injury were induced using laser photocoagulation. We compared the LSOR-PAM system with conventional imaging techniques in evaluating retinal injury with or without CNV. Six additional rats, treated with an anti-VEGF antibody or immunoglobulin G immediately after photocoagulation, were imaged 7 and 14 days after injection, and CNV lesion areas were compared. Results: In the retinal injury model, fundus autofluorescence showed well-defined hyperreflection, while the lesion displayed abundant PA signals demonstrating nonuniform melanin distribution in retinal pigment epithelium (RPE). RPE was detected with higher contrast in the PAM B-scan image than optical coherence tomography (OCT). Additionally, the CNV lesion was present with multiple PA signal intensities which distinctly characterized the location and area of CNV as found in fundus fluorescein angiography. Furthermore, the decreased PA signals extending from the CNV lesion were similar to those of the vascular bud in ex vivo imaging, which was invisible in other in vivo images. When treated with anti-VEGF agents, statistically significant differences can be demonstrated by PAM similar to other modalities. Conclusions: LSOR-PAM can detect the melanin distribution of RPE in laser-induced retinal injury and CNV in rats. PAM imaging provides a potential new tool to evaluate the vitality and functionality of RPE in vivo as well as to monitor the development and treatment of CNV. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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25. Retinal pulse wave velocity measurement using spectral‐domain optical coherence tomography.
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Li, Qian, Li, Lin, Fan, Shanhui, Dai, Cuixia, Chai, Xinyu, and Zhou, Chuanqing
- Abstract
The human eyes provide a natural window for noninvasive measurement of the pulse wave velocity (PWV) of small arteries. By measuring the retinal PWV, the stiffness of small arteries can be assessed, which may better detect early vascular diseases. Therefore, retinal PWV measurement has attracted increasing attention. In this study, a jump‐scanning method was proposed for noninvasive measurement of retinal PWV using spectral‐domain optical coherence tomography (SD‐OCT). The jump‐scanning method uses the phase‐resolved Doppler OCT to obtain the pulse shapes. To realize PWV measurement, the jump‐scanning method extracts the transit time of the pulse wave from an original OCT scanning site to another through a transient jump. The measured retinal arterial PWV of a young human subject with normal blood pressure was in the order of 20 to 30 mm/s, which was consistent with previous studies. As a comparison, PWV of 50 mm/s was measured for a young human subject with prehypertension, which was in accordance with the finding of strong association between retinal PWV and blood pressure. In summary, it is believed the proposed jump‐scanning method could benefit the research and diagnosis of vascular diseases through the window of human eyes. [ABSTRACT FROM AUTHOR]
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- 2018
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26. Virtual-OCT: A simulated optical coherence tomography instrument.
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Liu, Ning, Dai, Cuixia, Tang, Yuanhe, and Xi, Peng
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OPTICAL coherence tomography , *TOMOGRAPHY , *DYNAMIC range (Acoustics) , *SOUND measurement , *TIME-domain analysis , *GEOMETRIC tomography - Abstract
We report the virtual instrumentation of both time-domain (TD) and spectral-domain (SD) optical coherence tomography (OCT) systems. With a virtual partial coherence source from either a simulated or measured spectrum, the OCT signals of both A-scan and B-scan were demonstrated. The spectrometric detector's pixel number, dynamic range, noise, as well as spectral resolution can be simulated in the virtual spectral domain (SD-OCT). The virtual-OCT system provides an environment for parameter evaluation and algorithm optimization for experimental OCT instrumentation, and promotes the understanding of OCT imaging and signal post-processing processes. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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27. Noninvasive Imaging and Measurement of Accommodation Using Dual-Channel SD-OCT.
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Sun, Yong, Fan, Shanhui, Zheng, Haihua, Dai, Cuixia, Ren, Qiushi, and Zhou, Chuanqing
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REFRACTIVE errors ,OPTICAL coherence tomography ,MEDICAL imaging systems ,VISUAL accommodation ,CORNEA ,QUANTITATIVE research - Abstract
Purpose: To investigate the feasibility and practicality of real-time noninvasive imaging and measurement of ocular accommodation (0-5D with one diopter step) using dual-channel, dual-focus spectral domain optical coherence tomography (SD-OCT). Materials and Methods: A custom-built, dual-channel, dual-focus SD-OCT was used to image the anterior segment, including the cornea, iris, and anterior and posterior lens surfaces. Three consecutive measurements were taken in each accommodative session for each subject. Changes in ocular dimensions during accommodation were calculated based on the acquired SD-OCT images. A Friedman test was used to test sensitivity of ocular dimension changes per diopter of accommodation. Results: With accommodation, anterior chamber depth (ACD), curvature radius of both anterior (RAL) and posterior (RPL) lens surfaces, and pupil diameter (PD) decreased significantly, whereas lens thickness (LT) increased significantly ( p < 0.05, Friedman test). Ocular dimensions tended to change according to the increasing of accommodative stimulus, as did a backward movement of the posterior lens surface. Conclusions: SD-OCT, via extended imaging depth through a dual-channel, dual-focus approach, is a feasible and practical modality for noninvasive imaging and measurement of ocular accommodation. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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28. Effect of Contact Lens on Optical Coherence Tomography Imaging of Rodent Retina.
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Liu, Xiaojing, Wang, Chia-Hao, Dai, Cuixia, Camesa, Adam, Zhang, Hao F., and Jiao, Shuliang
- Subjects
CONTACT lenses ,OPTICAL coherence tomography ,SIGNAL-to-noise ratio ,RETINAL anatomy ,LABORATORY rats ,IMAGE quality analysis ,COMPARATIVE studies - Abstract
Purpose: To evaluate the effect of powerless contact lens on improving the quality of optical coherence tomography imaging of rodent retina. Methods: A spectral-domain optical coherence tomography (SD-OCT) system was built for in vivo imaging of rodent retina. The calibrated depth resolution of the system was 3 |im in tissue. A commercial powerless contact lens for rat eye was tested in the experiments. For each rat eye, the retina was imaged in vivo sequentially first without wearing contact lens and then with wearing contact lens. The lateral resolution and signal-to-noise ratio of the OCT images with and without contact lens were compared to evaluate the improvement of image quality. Results: The fundus images generated from the measured 3D OCT datasets with contact lens showed sharper retinal blood vessels than those without contact lens. The contrast of the retinal blood vessels was also significantly enhanced in the OCT fundus images with contact lens. As high as 10 dB improvements in SNR was observed for OCT images with contact lens compared to the images of the same retinal area without contact lens. Conclusions: We have demonstrated that the use of powerless contact lens on rat eye can significantly improve OCT image quality of rodent retina, which is a benefit in addition to preventing cataract formation. We believe the improvement in image quality is the result of partial compensation of the optical aberrations of the rodent eye by the contact lens. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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29. Effect of microcosmic optical parameters of dopants on the signal-to-noise ratio in doubly doped LiNbO3 crystals
- Author
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Dai, Cuixia, Liu, Liren, Liu, De’an, and Zhou, Yu
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SCATTERING (Physics) , *PARTIAL differential equations , *NUMERICAL analysis , *OPTICS - Abstract
Abstract: We propose a united theory that describes the two-center recording system by taking scattering noise into account. The temporal evolution of the signal-to-noise ratio in doubly doped photorefractive crystals is described based on jointly solving material equations and coupled-wave equations with the fourth-order Runge–Kutta method. Roles of microcosmic optical parameters of dopants on the signal-to-noise ratio are discussed in detail. The theoretical results can confirm and predict experimental results. [Copyright &y& Elsevier]
- Published
- 2005
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30. Multi-class classification of pathological myopia based on fundus photography.
- Author
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Zhao, Jiaqing, Cao, Guogang, He, Jiangnan, and Dai, Cuixia
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ARTIFICIAL intelligence , *TRANSFORMER models , *COLOR photography , *DEEP learning , *MEDICAL screening - Abstract
Pathological myopia (PM) is a severe ocular disease leading to blindness. As a traditional noninvasive diagnostic method, fundus color photography (FCP) is widely used in detecting PM due to its high fidelity and precision. However, manual examination of fundus photographs for PM is time-consuming and prone to high error rates. Existing automated detection technologies have yet to study the detailed classification in diagnosing different stages of PM lesions. In this paper, we proposed an intelligent system which utilized Resnet101 technology to multi-categorically diagnose PM by classifying FCPs with different stages of lesions. The system subdivided different stages of PM into eight subcategories, aiming to enhance the precision and efficiency of the diagnostic process. It achieved an average accuracy rate of 98.86% in detection of PM, with an area under the curve (AUC) of 98.96%. For the eight subcategories of PM, the detection accuracy reached 99.63%, with an AUC of 99.98%. Compared with other widely used multi-class models such as VGG16, Vision Transformer (VIT), EfficientNet, this system demonstrates higher accuracy and AUC. This artificial intelligence system is designed to be easily integrated into existing clinical diagnostic tools, providing an efficient solution for large-scale PM screening. [ABSTRACT FROM AUTHOR]
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- 2024
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31. 3D mapping of elastic modulus using shear wave optical micro-elastography.
- Author
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Zhu, Jiang, Qi, Li, Miao, Yusi, Ma, Teng, Dai, Cuixia, Qu, Yueqiao, He, Youmin, Gao, Yiwei, Zhou, Qifa, and Chen, Zhongping
- Published
- 2016
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32. Synergistic efficacy of salicylic acid with a penetration enhancer on human skin monitored by OCT and diffuse reflectance spectroscopy.
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Zhao, Qingliang, Dai, Cuixia, Fan, Shanhui, Lv, Jing, and Nie, Liming
- Published
- 2016
- Full Text
- View/download PDF
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