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公开(公告)号:US20090234626A1
公开(公告)日:2009-09-17
申请号:US12398487
申请日:2009-03-05
申请人: Shipeng Yu , Glenn Fung , Steven Florian Petit , Hugo J.W.L. Aerts , Claudia Offermann , Michel Oellers , Philippe Lambin , Dirk de Ruysscher , Andreas Lubbertus Aloysius Johannes Dekker , Sriram Krishnan
发明人: Shipeng Yu , Glenn Fung , Steven Florian Petit , Hugo J.W.L. Aerts , Claudia Offermann , Michel Oellers , Philippe Lambin , Dirk de Ruysscher , Andreas Lubbertus Aloysius Johannes Dekker , Sriram Krishnan
IPC分类号: G06G7/60
CPC分类号: A61N5/1031 , A61N2005/1041 , G06F19/00 , G06N99/005 , G06T11/00 , G16H50/50
摘要: Functional imaging information is used to determine a probability of residual disease given a treatment. The functional imaging information shows different characteristic levels for different regions of the tumor. The probability is output for planning use and/or used to automatically determine dose by region. Using the probability, the dose may be distributed by region so that some regions receive a greater dose than other regions. This distribution by region of dose more likely treats the tumor with a same dose, allows a lesser dose to sufficient treat the tumor, and/or allows a greater dose with a lesser or no increase in risk to normal tissue. The dose plan may account for personalized tumors as each patient may have distinct tumors. Probability of dose application accuracy may also be used, so that a combined treatment probability allows efficient dose planning.
摘要翻译: 功能成像信息用于确定给予治疗的残留疾病的概率。 功能成像信息显示肿瘤不同区域的不同特征水平。 输出用于规划使用的概率和/或用于按区域自动确定剂量。 使用概率,剂量可以按区域分布,使得一些区域比其他区域接受更大的剂量。 通过剂量区域的这种分布更可能以相同的剂量治疗肿瘤,允许较小剂量足以治疗肿瘤,和/或允许更大剂量对正常组织的风险较小或不增加。 每个患者可能具有不同的肿瘤,剂量计划可以说明个体化肿瘤。 也可以使用剂量施用精度的概率,使得组合的治疗概率允许有效的剂量计划。
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2.发明授权System and method for privacy preserving predictive models for lung cancer survival analysis 有权用于隐私保护肺癌存活分析预测模型的系统和方法公开(公告)号:US08250013B2
公开(公告)日:2012-08-21
申请号:US12353310
申请日:2009-01-14
申请人: Glenn Fung , R. Bharat Rao , Sriram Krishnan , Shipeng Yu , Cary Dehing-Oberije , Philippe Lambin , Dirk de Ruysscher
发明人: Glenn Fung , R. Bharat Rao , Sriram Krishnan , Shipeng Yu , Cary Dehing-Oberije , Philippe Lambin , Dirk de Ruysscher
CPC分类号: G06K9/62 , G06F19/00 , G06F21/6254 , G06K9/6215 , G06K9/6232 , G06K9/6269 , G16H50/20 , G16H50/70
摘要: A computer-implemented method for privacy-preserving data mining to determine cancer survival rates includes providing a random matrix B agreed to by a plurality of entities, wherein each entity i possesses a data matrix Ai of cancer survival data that is not publicly available, providing a class matrix Di for each of the data matrices Ai, providing a kernel K(Ai, B) by each of said plurality of entities to allow public computation of a full kernel, and computing a binary classifier that incorporates said public full kernel, wherein said classifier is adapted to classify a new data vector according to a sign of said classifier.
摘要翻译: 用于隐私保护数据挖掘以确定癌症存活率的计算机实现的方法包括提供由多个实体同意的随机矩阵B,其中每个实体拥有不可公开获得的癌症存活数据的数据矩阵Ai,提供 用于每个数据矩阵Ai的类矩阵Di,由所述多个实体中的每一个提供内核K(Ai,B),以允许公共计算完整内核,以及计算并入所述公共完整内核的二进制分类器,其中 所述分类器适于根据所述分类器的符号对新数据向量进行分类。
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3.发明申请System and Method for Privacy Preserving Predictive Models for Lung Cancer Survival Analysis 有权用于隐私保护肺癌生存分析预测模型的系统和方法公开(公告)号:US20090187522A1
公开(公告)日:2009-07-23
申请号:US12353310
申请日:2009-01-14
申请人: Glenn Fung , R. Bharat Rao , Sriram Krishnan , Shipeng Yu , Cary Dehing-Oberije , Philippe Lambin , Dirk De Ruysscher
发明人: Glenn Fung , R. Bharat Rao , Sriram Krishnan , Shipeng Yu , Cary Dehing-Oberije , Philippe Lambin , Dirk De Ruysscher
CPC分类号: G06K9/62 , G06F19/00 , G06F21/6254 , G06K9/6215 , G06K9/6232 , G06K9/6269 , G16H50/20 , G16H50/70
摘要: A computer-implemented method for privacy-preserving data mining to determine cancer survival rates includes providing a random matrix B agreed to by a plurality of entities, wherein each entity i possesses a data matrix Ai of cancer survival data that is not publicly available, providing a class matrix Di for each of the data matrices Ai, providing a kernel K(Ai, B) by each of said plurality of entities to allow public computation of a full kernel, and computing a binary classifier that incorporates said public full kernel, wherein said classifier is adapted to classify a new data vector according to a sign of said classifier.
摘要翻译: 用于隐私保护数据挖掘以确定癌症存活率的计算机实现的方法包括提供由多个实体同意的随机矩阵B,其中每个实体拥有不可公开获得的癌症存活数据的数据矩阵Ai,提供 用于每个数据矩阵Ai的类矩阵Di,由所述多个实体中的每一个提供内核K(Ai,B),以允许公共计算完整内核,以及计算并入所述公共完整内核的二进制分类器,其中 所述分类器适于根据所述分类器的符号对新数据向量进行分类。
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公开(公告)号:US08812240B2
公开(公告)日:2014-08-19
申请号:US12398487
申请日:2009-03-05
申请人: Shipeng Yu , Glenn Fung , Steven Florian Petit , Hugo J. W. L. Aerts , Claudia Offermann , Michel Oellers , Philippe Lambin , Dirk de Ruysscher , Andreas Lubbertus Aloysius Johannes Dekker , Sriram Krishnan
发明人: Shipeng Yu , Glenn Fung , Steven Florian Petit , Hugo J. W. L. Aerts , Claudia Offermann , Michel Oellers , Philippe Lambin , Dirk de Ruysscher , Andreas Lubbertus Aloysius Johannes Dekker , Sriram Krishnan
CPC分类号: A61N5/1031 , A61N2005/1041 , G06F19/00 , G06N99/005 , G06T11/00 , G16H50/50
摘要: Functional imaging information is used to determine a probability of residual disease given a treatment. The functional imaging information shows different characteristic levels for different regions of the tumor. The probability is output for planning use and/or used to automatically determine dose by region. Using the probability, the dose may be distributed by region so that some regions receive a greater dose than other regions. This distribution by region of dose more likely treats the tumor with a same dose, allows a lesser dose to sufficient treat the tumor, and/or allows a greater dose with a lesser or no increase in risk to normal tissue. The dose plan may account for personalized tumors as each patient may have distinct tumors. Probability of dose application accuracy may also be used, so that a combined treatment probability allows efficient dose planning.
摘要翻译: 功能成像信息用于确定给予治疗的残留疾病的概率。 功能成像信息显示肿瘤不同区域的不同特征水平。 输出用于规划使用的概率和/或用于按区域自动确定剂量。 使用概率,剂量可以按区域分布,使得一些区域比其他区域接受更大的剂量。 通过剂量区域的这种分布更可能以相同的剂量治疗肿瘤,允许较小剂量足以治疗肿瘤,和/或允许更大剂量对正常组织的风险较小或不增加。 每个患者可能具有不同的肿瘤,剂量计划可以说明个体化肿瘤。 也可以使用剂量施用精度的概率,使得组合的治疗概率允许有效的剂量计划。
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5.发明授权公开(公告)号:US08032308B2
公开(公告)日:2011-10-04
申请号:US12399274
申请日:2009-03-06
申请人: Shipeng Yu , Glenn Fung , Cary Dehing-Oberije , Dirk de Ruysscher , Sriram Krishnan , R. Bharat Rao , Philippe Lambin
发明人: Shipeng Yu , Glenn Fung , Cary Dehing-Oberije , Dirk de Ruysscher , Sriram Krishnan , R. Bharat Rao , Philippe Lambin
CPC分类号: G06N99/005 , A61N5/1031 , A61N2005/1041 , G06F19/00 , G16H50/50
摘要: Modeling of prognosis of survivability, side-effect, or both is provided. For example, RILI is predicted using bullae information. The amount, volume or ratio of Bullae, even alone, may indicate the likelihood of complication, such as the likelihood of significant (e.g., stage 3) pneumonitis. As another example, RILI is predicted using uptake values of an imaging agent. Standardized uptake from a functional image (e.g., FDG uptake from a positron emission image), alone or in combination with other features, may indicate the likelihood of side-effect. In another example, survivability, such as two-year survivability, is predicted using blood biomarkers. The characteristics of a patient's blood may be measured and, alone or in combination with other features, may indicate the likelihood of survival. The modeling may be for survivability, side-effect, or both and may use one or more of the blood biomarker, uptake value, and bullae features.
摘要翻译: 提供了对生存能力,副作用或两者的预后的建模。 例如,使用大疱信息预测RILI。 Bullae的数量,体积或比例,甚至单独可能表明并发症的可能性,例如显着(例如阶段3)肺炎的可能性。 作为另一个例子,使用成像剂的摄取值来预测RILI。 来自功能图像的标准摄取(例如,来自正电子发射图像的FDG摄取)单独或与其它特征组合可以指示副作用的可能性。 在另一个例子中,使用血液生物标志物来预测存活能力,例如两年生存能力。 可以测量患者血液的特征,单独或与其它特征组合可能表明存活的可能性。 建模可以是存活性,副作用或两者,并且可以使用一种或多种血液生物标志物,摄取值和大疱特征。
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6.发明申请公开(公告)号:US20090234627A1
公开(公告)日:2009-09-17
申请号:US12399274
申请日:2009-03-06
申请人: Shipeng Yu , Gelnn Fung , Cary Dehing-Oberije , Dirk de Ruysscher , Sriram Krishnan , R. Bharat Rao , Philippe Lambin
发明人: Shipeng Yu , Gelnn Fung , Cary Dehing-Oberije , Dirk de Ruysscher , Sriram Krishnan , R. Bharat Rao , Philippe Lambin
IPC分类号: G06G7/60
CPC分类号: G06N99/005 , A61N5/1031 , A61N2005/1041 , G06F19/00 , G16H50/50
摘要: Modeling of prognosis of survivability, side-effect, or both is provided. For example, RILI is predicted using bullae information. The amount, volume or ratio of Bullae, even alone, may indicate the likelihood of complication, such as the likelihood of significant (e.g., stage 3) pneumonitis. As another example, RILI is predicted using uptake values of an imaging agent. Standardized uptake from a functional image (e.g., FDG uptake from a positron emission image), alone or in combination with other features, may indicate the likelihood of side-effect. In another example, survivability, such as two-year survivability, is predicted using blood biomarkers. The characteristics of a patient's blood may be measured and, alone or in combination with other features, may indicate the likelihood of survival. The modeling may be for survivability, side-effect, or both and may use one or more of the blood biomarker, uptake value, and bullae features.
摘要翻译: 提供了对生存能力,副作用或两者的预后的建模。 例如,使用大疱信息预测RILI。 Bullae的数量,体积或比例,甚至单独可能表明并发症的可能性,例如显着(例如阶段3)肺炎的可能性。 作为另一个例子,使用成像剂的摄取值来预测RILI。 来自功能图像的标准摄取(例如,来自正电子发射图像的FDG摄取)单独或与其它特征组合可以指示副作用的可能性。 在另一个例子中,使用血液生物标志物来预测存活能力,例如两年生存能力。 可以测量患者血液的特征,单独或与其它特征组合可能表明存活的可能性。 建模可以是存活性,副作用或两者,并且可以使用一种或多种血液生物标志物,摄取值和大疱特征。
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