背景与目的肺占位性病变的良恶性鉴别与肺癌病理亚型分类是临床决策的关键,但传统方法存在多源临床数据利用不足及深度学习模型可解释性差的问题。本研究基于针对表格化数据设计的Transformer(Tab-Transformer)与残差多层感知器(Residua...背景与目的肺占位性病变的良恶性鉴别与肺癌病理亚型分类是临床决策的关键,但传统方法存在多源临床数据利用不足及深度学习模型可解释性差的问题。本研究基于针对表格化数据设计的Transformer(Tab-Transformer)与残差多层感知器(Residual Multi-Layer Perceptron,ResMLP)的混合架构(-ResMLP),探讨可解释性深度学习算法在肺占位性病变良恶性诊断及肺癌病理亚型分类中的性能。方法收集345例经病理证实的肺占位性病变患者的影像学特征、病史资料及实验室检查等数据,按8:2随机分为训练集和测试集。采用Spearman检验与最小绝对收缩和选择算子(Least Absolute Shrinkage and Selection Operator,LASSO)筛选稳定特征,使用合成少数类过采样技术(Synthetic Minority Over-sampling Technique,SMOTE)平衡样本,采用10折交叉验证提高模型泛化能力,选用Tab-Transformer算法、ResMLP算法、-ResMLP构建模型,通过受试者工作特征(receiver operating characteristic,ROC)曲线、曲线下面积(area under the curve,AUC)、准确率、特异性、敏感性和微平均ROC(micro-averaged ROC,micro-ROC)曲线评估模型性能,并基于最优模型进行SHAP(SHapley Additive exPlanations)特征分析。结果良恶性诊断模型中,3种模型均表现良好,其中Tab-Transformer在测试集表现最优,TT-ResMLP和ResMLP次之;SHAP分析显示,表现最优的Tab-Transformer模型特征重要性依次是年龄、胸膜凹陷征、凝血酶时间、平均密度、磨玻璃样改变等,其中胸膜凹陷征有较高的恶性诊断贡献,且随年龄增长、凝血酶时间缩短,其贡献度进一步增强。在肺癌亚型分类任务中,3种模型均表现出优异性能,其中TT-ResMLP综合表现最优。SHAP分析进一步揭示,肺部影像报告和数据系统评分(Lung Imaging Reporting and Data System,Lung-DS)在3种病理亚型中均具较高重要性;男性与鳞癌预测呈正相关;神经元特异性烯醇化酶(neuron-specific enolase,NSE)在小细胞癌预测中起重要作用。在腺癌中,诊断概率与Lung-DS分级呈正相关,且在低凝血酶原时间值时更显著;而在鳞癌与小细胞癌亚组中呈负相关,但性别和NSE水平可增强其风险预测的贡献。特征决策边界分析显示,Lung-RADS分级在腺癌识别中具有较高的区分能力,而NSE在小细胞癌识别中展现出更强的区分能力。结论-ResMLP混合架构能达到肺占位性病变的良恶性诊断及肺癌病理亚型分类的目的,模型具备良好的可解释性,有助于识别关键预测特征并揭示其交互机制,为深入理解肺癌生物学行为及临床辅助决策提供了有效工具。展开更多
Regeneration and reconstruction of bone tissue is always a challenge for clinicians due to the uncertainty of bone repair materials in terms of long-term and efficient effects on osteoblasts.Here,we propose a novel st...Regeneration and reconstruction of bone tissue is always a challenge for clinicians due to the uncertainty of bone repair materials in terms of long-term and efficient effects on osteoblasts.Here,we propose a novel strategy combining benidipine,an antihypertensive drug and nanoparticles to synergistically promote the healing of bone defects.Loose and porous benidipine-loaded magnesium silicate nanoparticles were prepared and validated for their biosafety.The nanoparticles were efficiently taken up by preosteoblasts and uniformly distributed around the nucleus.After internalization into cells,the nanosystem is degraded by lysosomes,and the effect of promoting osteogenic differentiation is reflected by the continuous release of benidipine,silicon and magnesium ions.Our results clearly evaluated that the nanoflower-like magnesium silicate delivering benidipine tends to be more appropriate for the bone regeneration in preosteoblasts,indicating that it might be a potential approach in guiding bone repair in clinical applications.展开更多
Using first-principles calculations based on density functional theory,we have systematically studied the influence of in-plane lattice constant and thickness of slabs on the concentration and distribution of two-dime...Using first-principles calculations based on density functional theory,we have systematically studied the influence of in-plane lattice constant and thickness of slabs on the concentration and distribution of two-dimensional hole gas(2 DHG)in AlN/GaN superlattices.We show that the increase of in-plane lattice constant would increase the concentration of 2 DHG at interfaces and decrease the valence band offset,which may lead to a leak of current.Increasing the thickness of AlN and/or decreasing the thickness of GaN would remarkably strengthen the internal field in GaN layer,resulting in better confinement of 2 DHG at AlN/GaN interfaces.Therefore,a moderate larger in-plane lattice constant and thicker AlN layer could improve the concentration and confinement of 2 DHG at AlN/GaN interfaces.Our study could serve as a guide to control the properties of 2 DHG at Ⅲ-nitride interfaces and help to optimize the performance of p-type nitride-based devices.展开更多
While metal nanoparticles(NPs)have shown great promising applications as heterogeneous catalysts,their agglomeration caused by thermodynamic instability is detrimental to the catalytic performance.To tackle this hurdl...While metal nanoparticles(NPs)have shown great promising applications as heterogeneous catalysts,their agglomeration caused by thermodynamic instability is detrimental to the catalytic performance.To tackle this hurdle,we successfully prepared a functional and stable porphyrinic metal-organic framework(MOF),PCN-224-RT,as a host for encapsulating metal nanoparticles by direct stirring at room temperature.As a result,Pt@PCN-224-RT composites with well-dispersed Pt NPs can be constructed by introducing pre-synthesized Pt NPs into the precursor solution of PCN-224-RT.Of note,the rapid and simple stirring method in this work is more in line with the requirements of environmental friendly and industrialization compared with traditional solvothermal methods.展开更多
文摘背景与目的肺占位性病变的良恶性鉴别与肺癌病理亚型分类是临床决策的关键,但传统方法存在多源临床数据利用不足及深度学习模型可解释性差的问题。本研究基于针对表格化数据设计的Transformer(Tab-Transformer)与残差多层感知器(Residual Multi-Layer Perceptron,ResMLP)的混合架构(-ResMLP),探讨可解释性深度学习算法在肺占位性病变良恶性诊断及肺癌病理亚型分类中的性能。方法收集345例经病理证实的肺占位性病变患者的影像学特征、病史资料及实验室检查等数据,按8:2随机分为训练集和测试集。采用Spearman检验与最小绝对收缩和选择算子(Least Absolute Shrinkage and Selection Operator,LASSO)筛选稳定特征,使用合成少数类过采样技术(Synthetic Minority Over-sampling Technique,SMOTE)平衡样本,采用10折交叉验证提高模型泛化能力,选用Tab-Transformer算法、ResMLP算法、-ResMLP构建模型,通过受试者工作特征(receiver operating characteristic,ROC)曲线、曲线下面积(area under the curve,AUC)、准确率、特异性、敏感性和微平均ROC(micro-averaged ROC,micro-ROC)曲线评估模型性能,并基于最优模型进行SHAP(SHapley Additive exPlanations)特征分析。结果良恶性诊断模型中,3种模型均表现良好,其中Tab-Transformer在测试集表现最优,TT-ResMLP和ResMLP次之;SHAP分析显示,表现最优的Tab-Transformer模型特征重要性依次是年龄、胸膜凹陷征、凝血酶时间、平均密度、磨玻璃样改变等,其中胸膜凹陷征有较高的恶性诊断贡献,且随年龄增长、凝血酶时间缩短,其贡献度进一步增强。在肺癌亚型分类任务中,3种模型均表现出优异性能,其中TT-ResMLP综合表现最优。SHAP分析进一步揭示,肺部影像报告和数据系统评分(Lung Imaging Reporting and Data System,Lung-DS)在3种病理亚型中均具较高重要性;男性与鳞癌预测呈正相关;神经元特异性烯醇化酶(neuron-specific enolase,NSE)在小细胞癌预测中起重要作用。在腺癌中,诊断概率与Lung-DS分级呈正相关,且在低凝血酶原时间值时更显著;而在鳞癌与小细胞癌亚组中呈负相关,但性别和NSE水平可增强其风险预测的贡献。特征决策边界分析显示,Lung-RADS分级在腺癌识别中具有较高的区分能力,而NSE在小细胞癌识别中展现出更强的区分能力。结论-ResMLP混合架构能达到肺占位性病变的良恶性诊断及肺癌病理亚型分类的目的,模型具备良好的可解释性,有助于识别关键预测特征并揭示其交互机制,为深入理解肺癌生物学行为及临床辅助决策提供了有效工具。
基金supported by the National Natural Science Foundation of China(Nos.8212200044,82071085,31872752,and 81600909)the Zhejiang Provincial Natu-ral Science Foundation of China(Nos.LR21H140001,LY22H140002,and LQ22C100003)+1 种基金the National Key Research and Development Pro-gram of China(No.2018YFA0703000)the Medical Technology and Education of Zhejiang Province of China(No.2018KY501).
文摘Regeneration and reconstruction of bone tissue is always a challenge for clinicians due to the uncertainty of bone repair materials in terms of long-term and efficient effects on osteoblasts.Here,we propose a novel strategy combining benidipine,an antihypertensive drug and nanoparticles to synergistically promote the healing of bone defects.Loose and porous benidipine-loaded magnesium silicate nanoparticles were prepared and validated for their biosafety.The nanoparticles were efficiently taken up by preosteoblasts and uniformly distributed around the nucleus.After internalization into cells,the nanosystem is degraded by lysosomes,and the effect of promoting osteogenic differentiation is reflected by the continuous release of benidipine,silicon and magnesium ions.Our results clearly evaluated that the nanoflower-like magnesium silicate delivering benidipine tends to be more appropriate for the bone regeneration in preosteoblasts,indicating that it might be a potential approach in guiding bone repair in clinical applications.
基金the National Key Research and Development Program of China(Grant No.2018YFB2202801)the National Natural Science Foundation of China(Grant No.12074369).
文摘Using first-principles calculations based on density functional theory,we have systematically studied the influence of in-plane lattice constant and thickness of slabs on the concentration and distribution of two-dimensional hole gas(2 DHG)in AlN/GaN superlattices.We show that the increase of in-plane lattice constant would increase the concentration of 2 DHG at interfaces and decrease the valence band offset,which may lead to a leak of current.Increasing the thickness of AlN and/or decreasing the thickness of GaN would remarkably strengthen the internal field in GaN layer,resulting in better confinement of 2 DHG at AlN/GaN interfaces.Therefore,a moderate larger in-plane lattice constant and thicker AlN layer could improve the concentration and confinement of 2 DHG at AlN/GaN interfaces.Our study could serve as a guide to control the properties of 2 DHG at Ⅲ-nitride interfaces and help to optimize the performance of p-type nitride-based devices.
基金the National Natural Science Foundation of China(Nos.21701187,21701160)Natural Science Basic Research Program of Shaanxi(No.2020JQ-142)the Fundamental Research Funds for the Central Universities(No.31020180QD115).
文摘While metal nanoparticles(NPs)have shown great promising applications as heterogeneous catalysts,their agglomeration caused by thermodynamic instability is detrimental to the catalytic performance.To tackle this hurdle,we successfully prepared a functional and stable porphyrinic metal-organic framework(MOF),PCN-224-RT,as a host for encapsulating metal nanoparticles by direct stirring at room temperature.As a result,Pt@PCN-224-RT composites with well-dispersed Pt NPs can be constructed by introducing pre-synthesized Pt NPs into the precursor solution of PCN-224-RT.Of note,the rapid and simple stirring method in this work is more in line with the requirements of environmental friendly and industrialization compared with traditional solvothermal methods.
