Your search keyword '"Yang, Hongbo"' showing total 11 results

1. Application of Proteomics and Machine Learning Methods to Study the Pathogenesis of Diabetic Nephropathy and Screen Urinary Biomarkers.

Author

Yan X, Zhang X, Li H, Zou Y, Lu W, Zhan M, Liang Z, Zhuang H, Ran X, Ma G, Lin X, Yang H, Huang Y, Wang H, and Shen L

Subjects

Humans, Male, Female, Middle Aged, Serpins urine, Kallikreins urine, Aged, Case-Control Studies, Creatinine urine, Kininogens, Diabetic Nephropathies urine, Diabetic Nephropathies diagnosis, Biomarkers urine, Proteomics methods, Machine Learning, Albuminuria urine, Albuminuria diagnosis, Diabetes Mellitus, Type 2 urine, Diabetes Mellitus, Type 2 complications

Abstract

Diabetic nephropathy (DN) has become the main cause of end-stage renal disease worldwide, causing significant health problems. Early diagnosis of the disease is quite inadequate. To screen urine biomarkers of DN and explore its potential mechanism, this study collected urine from 87 patients with type 2 diabetes mellitus (which will be classified into normal albuminuria, microalbuminuria, and macroalbuminuria groups) and 38 healthy subjects. Twelve individuals from each group were then randomly selected as the screening cohort for proteomics analysis and the rest as the validation cohort. The results showed that humoral immune response, complement activation, complement and coagulation cascades, renin-angiotensin system, and cell adhesion molecules were closely related to the progression of DN. Five overlapping proteins (KLK1, CSPG4, PLAU, SERPINA3, and ALB) were identified as potential biomarkers by machine learning methods. Among them, KLK1 and CSPG4 were positively correlated with the urinary albumin to creatinine ratio (UACR), and SERPINA3 was negatively correlated with the UACR, which were validated by enzyme-linked immunosorbent assay (ELISA). This study provides new insights into disease mechanisms and biomarkers for early diagnosis of DN.

Published

2024

2. Development and evaluation of machine learning models for predicting large-for-gestational-age newborns in women exposed to radiation prior to pregnancy.

Author

Bai X, Zhou Z, Zheng Z, Li Y, Liu K, Zheng Y, Yang H, Zhu H, Chen S, and Pan H

Subjects

Humans, Female, Pregnancy, Infant, Newborn, Adult, China, Radiation Exposure adverse effects, Birth Weight, Fetal Macrosomia, Machine Learning

Abstract

Introduction: The correlation between radiation exposure before pregnancy and abnormal birth weight has been previously proven. However, for large-for-gestational-age (LGA) babies in women exposed to radiation before becoming pregnant, there is no prediction model yet., Material and Methods: The data were collected from the National Free Preconception Health Examination Project in China. A sum of 455 neonates (42 SGA births and 423 non-LGA births) were included. A training set (n = 319) and a test set (n = 136) were created from the dataset at random. To develop prediction models for LGA neonates, conventional logistic regression (LR) method and six machine learning methods were used in this study. Recursive feature elimination approach was performed by choosing 10 features which made a big contribution to the prediction models. And the Shapley Additive Explanation model was applied to interpret the most important characteristics that affected forecast outputs., Results: The random forest (RF) model had the highest average area under the receiver-operating-characteristic curve (AUC) for predicting LGA in the test set (0.843, 95% confidence interval [CI]: 0.714-0.974). Except for the logistic regression model (AUC: 0.603, 95%CI: 0.440-0.767), other models' AUCs displayed well. Thereinto, the RF algorithm's final prediction model using 10 characteristics achieved an average AUC of 0.821 (95% CI: 0.693-0.949)., Conclusion: The prediction model based on machine learning might be a promising tool for the prenatal prediction of LGA births in women with radiation exposure before pregnancy., (© 2024. The Author(s).)

Published

2024

3. The Latest Research Progress on Bionic Artificial Hands: A Systematic Review.

Author

Guo, Kai, Lu, Jingxin, Wu, Yuwen, Hu, Xuhui, and Yang, Hongbo

Subjects

ARTIFICIAL hands, MACHINE learning, BIONICS, SYSTEM integration, SENSORIMOTOR integration, PROSTHETICS

Abstract

Bionic prosthetic hands hold the potential to replicate the functionality of human hands. The use of bionic limbs can assist amputees in performing everyday activities. This article systematically reviews the research progress on bionic prostheses, with a focus on control mechanisms, sensory feedback integration, and mechanical design innovations. It emphasizes the use of bioelectrical signals, such as electromyography (EMG), for prosthetic control and discusses the application of machine learning algorithms to enhance the accuracy of gesture recognition. Additionally, the paper explores advancements in sensory feedback technologies, including tactile, visual, and auditory modalities, which enhance user interaction by providing essential environmental feedback. The mechanical design of prosthetic hands is also examined, with particular attention to achieving a balance between dexterity, weight, and durability. Our contribution consists of compiling current research trends and identifying key areas for future development, including the enhancement of control system integration and improving the aesthetic and functional resemblance of prostheses to natural limbs. This work aims to inform and inspire ongoing research that seeks to refine the utility and accessibility of prosthetic hands for amputees, emphasizing user-centric innovations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Current Research Status of Respiratory Motion for Thorax and Abdominal Treatment: A Systematic Review.

Author

Wu, Yuwen, Wang, Zhisen, Chu, Yuyi, Peng, Renyuan, Peng, Haoran, Yang, Hongbo, Guo, Kai, and Zhang, Juzhong

Subjects

ABDOMINAL diseases, VENTILATION monitoring, ARTIFICIAL intelligence, ABDOMINAL surgery, THORACIC surgery, SURVIVAL analysis (Biometry), POSITIVE pressure ventilation, MOTION capture (Human mechanics)

Abstract

Malignant tumors have become one of the serious public health problems in human safety and health, among which the chest and abdomen diseases account for the largest proportion. Early diagnosis and treatment can effectively improve the survival rate of patients. However, respiratory motion in the chest and abdomen can lead to uncertainty in the shape, volume, and location of the tumor, making treatment of the chest and abdomen difficult. Therefore, compensation for respiratory motion is very important in clinical treatment. The purpose of this review was to discuss the research and development of respiratory movement monitoring and prediction in thoracic and abdominal surgery, as well as introduce the current research status. The integration of modern respiratory motion compensation technology with advanced sensor detection technology, medical-image-guided therapy, and artificial intelligence technology is discussed and analyzed. The future research direction of intraoperative thoracic and abdominal respiratory motion compensation should be non-invasive, non-contact, use a low dose, and involve intelligent development. The complexity of the surgical environment, the constraints on the accuracy of existing image guidance devices, and the latency of data transmission are all present technical challenges. [ABSTRACT FROM AUTHOR]

Published

2024

5. Classification and Analysis of Human Body Movement Characteristics Associated with Acrophobia Induced by Virtual Reality Scenes of Heights.

Author

Cheng, Xiankai, Bao, Benkun, Cui, Weidong, Liu, Shuai, Zhong, Jun, Cai, Liming, and Yang, Hongbo

Subjects

HUMAN mechanics, VIRTUAL reality, MOTION analysis, ELECTRONIC data processing, CLASSIFICATION, MOTION capture (Human mechanics)

Abstract

Acrophobia (fear of heights), a prevalent psychological disorder, elicits profound fear and evokes a range of adverse physiological responses in individuals when exposed to heights, which will lead to a very dangerous state for people in actual heights. In this paper, we explore the behavioral influences in terms of movements in people confronted with virtual reality scenes of extreme heights and develop an acrophobia classification model based on human movement characteristics. To this end, we used wireless miniaturized inertial navigation sensors (WMINS) network to obtain the information of limb movements in the virtual environment. Based on these data, we constructed a series of data feature processing processes, proposed a system model for the classification of acrophobia and non-acrophobia based on human motion feature analysis, and realized the classification recognition of acrophobia and non-acrophobia through the designed integrated learning model. The final accuracy of acrophobia dichotomous classification based on limb motion information reached 94.64%, which has higher accuracy and efficiency compared with other existing research models. Overall, our study demonstrates a strong correlation between people's mental state during fear of heights and their limb movements at that time. [ABSTRACT FROM AUTHOR]

Published

2023

6. Predictive models for small-for-gestational-age births in women exposed to pesticides before pregnancy based on multiple machine learning algorithms

Author

Bai, Xi, Zhou, Zhibo, Su, Mingliang, Li, Yansheng, Yang, Liuqing, Liu, Kejia, Yang, Hongbo, Zhu, Huijuan, Chen, Shi, and Pan, Hui

Subjects

Machine Learning, Pregnancy, Infant, Small for Gestational Age, Infant, Newborn, Public Health, Environmental and Occupational Health, Humans, Female, Pesticides, Algorithms, Retrospective Studies

Abstract

BackgroundThe association between prenatal pesticide exposures and a higher incidence of small-for-gestational-age (SGA) births has been reported. No prediction model has been developed for SGA neonates in pregnant women exposed to pesticides prior to pregnancy.MethodsA retrospective cohort study was conducted using information from the National Free Preconception Health Examination Project between 2010 and 2012. A development set (n = 606) and a validation set (n = 151) of the dataset were split at random. Traditional logistic regression (LR) method and six machine learning classifiers were used to develop prediction models for SGA neonates. The Shapley Additive Explanation (SHAP) model was applied to determine the most influential variables that contributed to the outcome of the prediction.Results757 neonates in total were analyzed. SGA occurred in 12.9% (n = 98) of cases overall. With an area under the receiver-operating-characteristic curve (AUC) of 0.855 [95% confidence interval (CI): 0.752–0.959], the model based on category boosting (CatBoost) algorithm obtained the best performance in the validation set. With the exception of the LR model (AUC: 0.691, 95% CI: 0.554–0.828), all models had good AUCs. Using recursive feature elimination (RFE) approach to perform the feature selection, we included 15 variables in the final model based on CatBoost classifier, achieving the AUC of 0.811 (95% CI: 0.675–0.947).ConclusionsMachine learning algorithms can develop satisfactory tools for SGA prediction in mothers exposed to pesticides prior to pregnancy, which might become a tool to predict SGA neonates in the high-risk population.

Published

2022

7. Empowering Hand Rehabilitation with AI-Powered Gesture Recognition: A Study of an sEMG-Based System.

Author

Guo, Kai, Orban, Mostafa, Lu, Jingxin, Al-Quraishi, Maged S., Yang, Hongbo, and Elsamanty, Mahmoud

Subjects

SURGICAL gloves, ARTIFICIAL intelligence, MACHINE learning, REHABILITATION technology, GESTURE, TECHNOLOGICAL innovations

Abstract

Stroke is one of the most prevalent health issues that people face today, causing long-term complications such as paresis, hemiparesis, and aphasia. These conditions significantly impact a patient's physical abilities and cause financial and social hardships. In order to address these challenges, this paper presents a groundbreaking solution—a wearable rehabilitation glove. This motorized glove is designed to provide comfortable and effective rehabilitation for patients with paresis. Its unique soft materials and compact size make it easy to use in clinical settings and at home. The glove can train each finger individually and all fingers together, using assistive force generated by advanced linear integrated actuators controlled by sEMG signals. The glove is also durable and long-lasting, with 4–5 h of battery life. The wearable motorized glove is worn on the affected hand to provide assistive force during rehabilitation training. The key to this glove's effectiveness is its ability to perform the classified hand gestures acquired from the non-affected hand by integrating four sEMG sensors and a deep learning algorithm (the 1D-CNN algorithm and the InceptionTime algorithm). The InceptionTime algorithm classified ten hand gestures' sEMG signals with an accuracy of 91.60% and 90.09% in the training and verification sets, respectively. The overall accuracy was 90.89%. It showed potential as a tool for developing effective hand gesture recognition systems. The classified hand gestures can be used as a control command for the motorized wearable glove placed on the affected hand, allowing it to mimic the movements of the non-affected hand. This innovative technology performs rehabilitation exercises based on the theory of mirror therapy and task-oriented therapy. Overall, this wearable rehabilitation glove represents a significant step forward in stroke rehabilitation, offering a practical and effective solution to help patients recover from stroke's physical, financial, and social impact. [ABSTRACT FROM AUTHOR]

Published

2023

8. Impact of PASI response on work productivity and the effect of risankizumab on indirect costs using machine learning in patients with moderate-to-severe psoriasis.

Author

Lebwohl, Mark, Soliman, Ahmed M., Yang, Hongbo, Wang, Jessie, Freimark, Jonathan, and Puig, Lluís

Subjects

LABOR productivity, MACHINE learning, PSORIASIS, CLINICAL trials, WORKING hours

Abstract

To compare the impact of Psoriasis Area and Severity Index (PASI) response on total work productivity impairment (TWPI) in patients with moderate-to-severe psoriasis; to compare TWPI and associated indirect costs among patients treated with risankizumab, adalimumab, ustekinumab, and placebo. Data from REVEAL (adalimumab phase III trial) were used to assess differences in trial-observed TWPI across PASI response cohorts. A machine learning model used REVEAL data to predict TWPI for patients in the risankizumab trials. These values were used to estimate work loss hours and work impairment-related indirect costs for each treatment cohort. Among REVEAL patients (N = 741), TWPI in the PASI 100, 90–99, 75–89 cohorts was lower than the PASI <75 cohort (p <.05); mean TWPI was lowest with PASI 100 (1.7%) vs. 90–99 (2.5%) vs. 75–89 (4.8%) vs. <75 (14.3%). There was a significant (p <.0001) monotonic relationship between higher PASI response and lower TWPI. In the risankizumab trials (N = 2046), incremental TWPI relative to risankizumab was 3.4%/week for ustekinumab/adalimumab, and 17.1%/week for placebo; incremental indirect cost savings for risankizumab were $2179/year vs. adalimumab, $2321/year vs. ustekinumab, and $11,284/year vs. placebo. Higher PASI responses were associated with reduced TWPI. Risankizumab was associated with less work impairment/indirect costs vs. ustekinumab/adalimumab/placebo. [ABSTRACT FROM AUTHOR]

Published

2022

9. Development and Evaluation of a Machine Learning Prediction Model for Small-for-Gestational-Age Births in Women Exposed to Radiation before Pregnancy.

Author

Bai, Xi, Zhou, Zhibo, Luo, Yunyun, Yang, Hongbo, Zhu, Huijuan, Chen, Shi, and Pan, Hui

Subjects

HIGH-risk pregnancy, MACHINE learning, PREDICTION models, SMALL for gestational age, FEATURE selection, PREGNANT women

Abstract

Exposure to radiation has been associated with increased risk of delivering small-for-gestational-age (SGA) newborns. There are no tools to predict SGA newborns in pregnant women exposed to radiation before pregnancy. Here, we aimed to develop an array of machine learning (ML) models to predict SGA newborns in women exposed to radiation before pregnancy. Patients' data was obtained from the National Free Preconception Health Examination Project from 2010 to 2012. The data were randomly divided into a training dataset (n = 364) and a testing dataset (n = 91). Eight various ML models were compared for solving the binary classification of SGA prediction, followed by a post hoc explainability based on the SHAP model to identify and interpret the most important features that contribute to the prediction outcome. A total of 455 newborns were included, with the occurrence of 60 SGA births (13.2%). Overall, the model obtained by extreme gradient boosting (XGBoost) achieved the highest area under the receiver-operating-characteristic curve (AUC) in the testing set (0.844, 95% confidence interval (CI): 0.713–0.974). All models showed satisfied AUCs, except for the logistic regression model (AUC: 0.561, 95% CI: 0.355–0.768). After feature selection by recursive feature elimination (RFE), 15 features were included in the final prediction model using the XGBoost algorithm, with an AUC of 0.821 (95% CI: 0.650–0.993). ML algorithms can generate robust models to predict SGA newborns in pregnant women exposed to radiation before pregnancy, which may thus be used as a prediction tool for SGA newborns in high-risk pregnant women. [ABSTRACT FROM AUTHOR]

Published

2022

10. Facial Recognition Intensity in Disease Diagnosis Using Automatic Facial Recognition.

Author

Wu, Danning, Chen, Shi, Zhang, Yuelun, Zhang, Huabing, Wang, Qing, Li, Jianqiang, Fu, Yibo, Wang, Shirui, Yang, Hongbo, Du, Hanze, Zhu, Huijuan, Pan, Hui, and Shen, Zhen

Subjects

ARTIFICIAL intelligence, DIAGNOSIS, DEEP learning, COMPUTER-aided diagnosis, PHENOTYPES, MACHINE learning, HUMAN facial recognition software

Abstract

Artificial intelligence (AI) technology is widely applied in different medical fields, including the diagnosis of various diseases on the basis of facial phenotypes, but there is no evaluation or quantitative synthesis regarding the performance of artificial intelligence. Here, for the first time, we summarized and quantitatively analyzed studies on the diagnosis of heterogeneous diseases on the basis on facial features. In pooled data from 20 systematically identified studies involving 7 single diseases and 12,557 subjects, quantitative random-effects models revealed a pooled sensitivity of 89% (95% CI 82% to 93%) and a pooled specificity of 92% (95% CI 87% to 95%). A new index, the facial recognition intensity (FRI), was established to describe the complexity of the association of diseases with facial phenotypes. Meta-regression revealed the important contribution of FRI to heterogeneous diagnostic accuracy (p = 0.021), and a similar result was found in subgroup analyses (p = 0.003). An appropriate increase in the training size and the use of deep learning models helped to improve the diagnostic accuracy for diseases with low FRI, although no statistically significant association was found between accuracy and photographic resolution, training size, AI architecture, and number of diseases. In addition, a novel hypothesis is proposed for universal rules in AI performance, providing a new idea that could be explored in other AI applications. [ABSTRACT FROM AUTHOR]

Published

2021

11. Uncertain XML documents classification using Extreme Learning Machine.

Author

Zhao, Xiangguo, Bi, Xin, Wang, Guoren, Zhang, Zhen, and Yang, Hongbo

Subjects

*XML (Extensible Markup Language), *CLASSIFICATION, *MACHINE learning, *COMPUTER algorithms, *DATA analysis

Abstract

Driven by the emerging network data exchange and storage, XML documents classification has become increasingly important. Most existing representation model and conventional learning algorithm are defined on certain XML documents. However, in many real-world applications, XML datasets contain inherent uncertainty, which brings greater challenges to classification problem. In this paper, we propose a novel solution to classify uncertain XML documents, including uncertain XML documents representation and two uncertain learning algorithms based on Extreme Learning Machine. Experimental results show that our approaches exhibit prominent performance for uncertain XML documents classification problem. [ABSTRACT FROM AUTHOR]

Published

2016