公开(公告)号：US08934975B2

公开(公告)日：2015-01-13

申请号：US13576485

申请日：2011-02-01

申请人： Irit Yaniv ,  Walid Haddad ,  Paul V. Goode, Jr. ,  Harold Lebovitz ,  Ricardo Aviv ,  Benny Rousso ,  Shlomo Ben-Haim

发明人： Irit Yaniv ,  Walid Haddad ,  Paul V. Goode, Jr. ,  Harold Lebovitz ,  Ricardo Aviv ,  Benny Rousso ,  Shlomo Ben-Haim

IPC分类号： A61N1/40 ,  A61N1/36 ,  A61N1/05

CPC分类号： A61N1/36139 ,  A61N1/0509 ,  A61N1/36007 ,  A61N1/36053 ,  A61N1/36085

摘要： Apparatus (18) for treating a human patient, which includes one or more electrode contact surfaces (100), which are configured to be applied to a fundus (22) of the patient. A control unit (90) is configured to drive the one or more electrode contact surfaces (100) to apply an electrical signal to the fundus (22) that chronically improves a blood glucose level of the patient, in order to treat the patient, without calculating an impedance of tissue of the fundus (22) based on a sensed parameter that varies in response to the electrical signal, for detecting eating by the patient or a characteristic of food eaten by the patient. Other embodiments are also described.

摘要翻译： 用于治疗人类患者的装置（18），其包括被配置为施加到患者的眼底（22）的一个或多个电极接触表面（100）。 控制单元（90）被配置为驱动所述一个或多个电极接触表面（100）以将电信号施加到眼底（22），所述电信号长期改善患者的血糖水平，以便治疗患者，而没有 基于响应于电信号变化的感测参数，用于检测患者的进食或患者吃的食物的特征，计算眼底组织的阻抗（22）。 还描述了其它实施例。

公开(公告)号：US08771187B2

公开(公告)日：2014-07-08

申请号：US13149035

申请日：2011-05-31

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath

IPC分类号： A61B5/05

CPC分类号： A61B5/1495 ,  A61B5/14532 ,  A61B2560/0223 ,  G06F19/00

摘要： Systems and methods for processing sensor analyte data, including initiating calibration, updating calibration, evaluating clinical acceptability of reference and sensor analyte data, and evaluating the quality of sensor calibration. During initial calibration, the analyte sensor data is evaluated over a period of time to determine stability of the sensor. The sensor may be calibrated using a calibration set of one or more matched sensor and reference analyte data pairs. The calibration may be updated after evaluating the calibration set for best calibration based on inclusion criteria with newly received reference analyte data. Fail-safe mechanisms are provided based on clinical acceptability of reference and analyte data and quality of sensor calibration. Algorithms provide for optimized prospective and retrospective analysis of estimated blood analyte data from an analyte sensor.

公开(公告)号：US08491474B2

公开(公告)日：2013-07-23

申请号：US13015208

申请日：2011-01-27

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

IPC分类号： A61B5/00 ,  A61B5/05

CPC分类号： A61B5/7203 ,  A61B5/0004 ,  A61B5/0031 ,  A61B5/14532 ,  A61B5/14539 ,  A61B5/14542 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/7225 ,  A61B5/7257 ,  A61B5/726 ,  A61B5/7278 ,  A61B5/742 ,  A61B5/7475 ,  A61B2560/0223 ,  A61B2562/0247 ,  A61B2562/0271 ,  A61B2562/08

摘要： Systems and methods for minimizing or eliminating transient non-glucose related signal noise due to non-glucose rate limiting phenomenon such as ischemia, pH changes, temperatures changes, and the like. The system monitors a data stream from a glucose sensor and detects signal artifacts that have higher amplitude than electronic or diffusion-related system noise. The system replaces some or the entire data stream continually or intermittently including signal estimation methods that particularly address transient signal artifacts. The system is also capable of detecting the severity of the signal artifacts and selectively applying one or more signal estimation algorithm factors responsive to the severity of the signal artifacts, which includes selectively applying distinct sets of parameters to a signal estimation algorithm or selectively applying distinct signal estimation algorithms.

公开(公告)号：US08195265B2

公开(公告)日：2012-06-05

申请号：US13023835

申请日：2011-02-09

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

IPC分类号： A61B5/05 ,  A61B5/00

CPC分类号： A61B5/7203 ,  A61B5/0004 ,  A61B5/0031 ,  A61B5/14532 ,  A61B5/14539 ,  A61B5/14542 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/7225 ,  A61B5/7257 ,  A61B5/726 ,  A61B5/7278 ,  A61B5/742 ,  A61B5/7475 ,  A61B2560/0223 ,  A61B2562/0247 ,  A61B2562/0271 ,  A61B2562/08

摘要： Systems and methods for minimizing or eliminating transient non-glucose related signal noise due to non-glucose rate limiting phenomenon such as ischemia, pH changes, temperatures changes, and the like. The system monitors a data stream from a glucose sensor and detects signal artifacts that have higher amplitude than electronic or diffusion-related system noise. The system replaces some or the entire data stream continually or intermittently including signal estimation methods that particularly address transient signal artifacts. The system is also capable of detecting the severity of the signal artifacts and selectively applying one or more signal estimation algorithm factors responsive to the severity of the signal artifacts, which includes selectively applying distinct sets of parameters to a signal estimation algorithm or selectively applying distinct signal estimation algorithms.

摘要翻译： 用于最小化或消除由于非葡萄糖速率限制现象（如缺血，pH变化，温度变化等）引起的瞬时非葡萄糖相关信号噪声的系统和方法。 系统监测来自葡萄糖传感器的数据流，并检测具有比电子或扩散相关系统噪声更高的幅度的信号伪像。 该系统连续地或间歇地替代一些或整个数据流，包括特别地解决瞬态信号伪影的信号估计方法。 该系统还能够检测信号伪像的严重性并且响应于信号伪像的严重性选择性地应用一个或多个信号估计算法因子，其包括选择性地将不同的参数集合应用于信号估计算法或选择性地应用不同信号 估计算法。

公开(公告)号：US07797028B2

公开(公告)日：2010-09-14

申请号：US12102654

申请日：2008-04-14

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  Victoria Carr-Brendel

IPC分类号： A61B5/00

CPC分类号： A61B5/1468 ,  A61B5/0031 ,  A61B5/1433 ,  A61B5/14532 ,  A61B5/14546 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/150022 ,  A61B5/4839 ,  A61B5/743 ,  A61B2560/0223 ,  A61B2560/04 ,  A61B2562/085 ,  G01N33/48707 ,  G06F19/00 ,  Y02A90/22 ,  Y02A90/26

摘要： Systems and methods for processing sensor analyte data, including initiating calibration, updating calibration, evaluating clinical acceptability of reference and sensor analyte data, and evaluating the quality of sensor calibration. During initial calibration, the analyte sensor data is evaluated over a period of time to determine stability of the sensor. The sensor may be calibrated using a calibration set of one or more matched sensor and reference analyte data pairs. The calibration may be updated after evaluating the calibration set for best calibration based on inclusion criteria with newly received reference analyte data. Fail-safe mechanisms are provided based on clinical acceptability of reference and analyte data and quality of sensor calibration. Algorithms provide for optimized prospective and retrospective analysis of estimated blood analyte data from an analyte sensor.

公开(公告)号：US07583990B2

公开(公告)日：2009-09-01

申请号：US12102745

申请日：2008-04-14

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  Victoria Carr-Brendel

IPC分类号： A61B5/00

CPC分类号： A61B5/1468 ,  A61B5/0031 ,  A61B5/1433 ,  A61B5/14532 ,  A61B5/14546 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/150022 ,  A61B5/4839 ,  A61B5/743 ,  A61B2560/0223 ,  A61B2560/04 ,  A61B2562/085 ,  G01N33/48707 ,  G06F19/00 ,  Y02A90/22 ,  Y02A90/26

摘要： Systems and methods for processing sensor analyte data, including initiating calibration, updating calibration, evaluating clinical acceptability of reference and sensor analyte data, and evaluating the quality of sensor calibration. During initial calibration, the analyte sensor data is evaluated over a period of time to determine stability of the sensor. The sensor may be calibrated using a calibration set of one or more matched sensor and reference analyte data pairs. The calibration may be updated after evaluating the calibration set for best calibration based on inclusion criteria with newly received reference analyte data. Fail-safe mechanisms are provided based on clinical acceptability of reference and analyte data and quality of sensor calibration. Algorithms provide for optimized prospective and retrospective analysis of estimated blood analyte data from an analyte sensor.

摘要翻译： 用于处理传感器分析数据的系统和方法，包括启动校准，更新校准，评估参考和传感器分析数据的临床可接受性，以及评估传感器校准的质量。 在初始校准期间，在一段时间内评估分析物传感器数据，以确定传感器的稳定性。 可以使用一个或多个匹配的传感器和参考分析物数据对的校准集来校准传感器。 基于新收到的参考分析物数据的纳入标准，可以在评估用于最佳校准的校准集之后更新校准。 基于参考和分析物数据的临床可接受性和传感器校准的质量提供故障安全机制。 算法提供了来自分析物传感器的估计血液分析物数据的优化前瞻性和回顾性分析。

公开(公告)号：US06931327B2

公开(公告)日：2005-08-16

申请号：US10632537

申请日：2003-08-01

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath

IPC分类号： A61B5/00 ,  G01D18/00 ,  G01N31/00 ,  G01N33/487 ,  G06F19/00

CPC分类号： A61B5/1468 ,  A61B5/0031 ,  A61B5/1433 ,  A61B5/14532 ,  A61B5/14546 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/150022 ,  A61B5/4839 ,  A61B5/743 ,  A61B2560/0223 ,  A61B2560/04 ,  A61B2562/085 ,  G01N33/48707 ,  G06F19/00 ,  Y02A90/22 ,  Y02A90/26

摘要： Systems and methods for processing sensor analyte data, including initiating calibration, updating calibration, evaluating clinical acceptability of reference and sensor analyte data, and evaluating the quality of sensor calibration. During initial calibration, the analyte sensor data is evaluated over a period of time to determine stability of the sensor. The sensor may be calibrated using a calibration set of one or more matched sensor and reference analyte data pairs. The calibration may be updated after evaluating the calibration set for best calibration based on inclusion criteria with newly received reference analyte data. Fail-safe mechanisms are provided based on clinical acceptability of reference and analyte data and quality of sensor calibration. Algorithms provide for optimized prospective and retrospective analysis of estimated blood analyte data from an analyte sensor.

摘要翻译： 用于处理传感器分析数据的系统和方法，包括启动校准，更新校准，评估参考和传感器分析数据的临床可接受性，以及评估传感器校准的质量。 在初始校准期间，在一段时间内评估分析物传感器数据，以确定传感器的稳定性。 可以使用一个或多个匹配的传感器和参考分析物数据对的校准集来校准传感器。 基于新收到的参考分析物数据的纳入标准，可以在评估用于最佳校准的校准集之后更新校准。 基于参考和分析物数据的临床可接受性和传感器校准的质量提供故障安全机制。 算法提供了来自分析物传感器的估计血液分析物数据的优化前瞻性和回顾性分析。

公开(公告)号：US09149219B2

公开(公告)日：2015-10-06

申请号：US13024076

申请日：2011-02-09

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

IPC分类号： A61B5/05 ,  A61B5/00 ,  A61B5/1486 ,  A61B5/145

CPC分类号： A61B5/7203 ,  A61B5/0004 ,  A61B5/0031 ,  A61B5/14532 ,  A61B5/14539 ,  A61B5/14542 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/7225 ,  A61B5/7257 ,  A61B5/726 ,  A61B5/7278 ,  A61B5/742 ,  A61B5/7475 ,  A61B2560/0223 ,  A61B2562/0247 ,  A61B2562/0271 ,  A61B2562/08

摘要： Systems and methods for minimizing or eliminating transient non-glucose related signal noise due to non-glucose rate limiting phenomenon such as ischemia, pH changes, temperatures changes, and the like. The system monitors a data stream from a glucose sensor and detects signal artifacts that have higher amplitude than electronic or diffusion-related system noise. The system replaces some or the entire data stream continually or intermittently including signal estimation methods that particularly address transient signal artifacts. The system is also capable of detecting the severity of the signal artifacts and selectively applying one or more signal estimation algorithm factors responsive to the severity of the signal artifacts, which includes selectively applying distinct sets of parameters to a signal estimation algorithm or selectively applying distinct signal estimation algorithms.

摘要翻译： 用于最小化或消除由于非葡萄糖速率限制现象（如缺血，pH变化，温度变化等）引起的瞬时非葡萄糖相关信号噪声的系统和方法。 系统监测来自葡萄糖传感器的数据流，并检测具有比电子或扩散相关系统噪声更高的幅度的信号伪像。 该系统连续地或间歇地替代一些或整个数据流，包括特别地解决瞬态信号伪影的信号估计方法。 该系统还能够检测信号伪像的严重性并且响应于信号伪像的严重性选择性地应用一个或多个信号估计算法因子，其包括选择性地将不同的参数集合应用于信号估计算法或选择性地应用不同信号 估计算法。

公开(公告)号：US08821400B2

公开(公告)日：2014-09-02

申请号：US13023776

申请日：2011-02-09

申请人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

发明人： Paul V. Goode, Jr. ,  James H. Brauker ,  Apurv U. Kamath ,  James Patrick Thrower ,  Victoria Carr-Brendel

IPC分类号： A61B5/00 ,  A61B5/145 ,  A61B5/1486

CPC分类号： A61B5/7203 ,  A61B5/0004 ,  A61B5/0031 ,  A61B5/14532 ,  A61B5/14539 ,  A61B5/14542 ,  A61B5/1473 ,  A61B5/14865 ,  A61B5/1495 ,  A61B5/7225 ,  A61B5/7257 ,  A61B5/726 ,  A61B5/7278 ,  A61B5/742 ,  A61B5/7475 ,  A61B2560/0223 ,  A61B2562/0247 ,  A61B2562/0271 ,  A61B2562/08

摘要： Systems and methods for minimizing or eliminating transient non-glucose related signal noise due to non-glucose rate limiting phenomenon such as ischemia, pH changes, temperatures changes, and the like. The system monitors a data stream from a glucose sensor and detects signal artifacts that have higher amplitude than electronic or diffusion-related system noise. The system replaces some or the entire data stream continually or intermittently including signal estimation methods that particularly address transient signal artifacts. The system is also capable of detecting the severity of the signal artifacts and selectively applying one or more signal estimation algorithm factors responsive to the severity of the signal artifacts, which includes selectively applying distinct sets of parameters to a signal estimation algorithm or selectively applying distinct signal estimation algorithms.

公开(公告)号：US08676287B2

公开(公告)日：2014-03-18

申请号：US12636584

申请日：2009-12-11

申请人： Apurv Ullas Kamath ,  Paul V. Goode, Jr. ,  James H. Brauker

发明人： Apurv Ullas Kamath ,  Paul V. Goode, Jr. ,  James H. Brauker

IPC分类号： A61B5/05

CPC分类号： A61B5/1495 ,  A61B5/14532 ,  A61B2560/0223 ,  G06F19/00

摘要： Systems and methods for processing sensor analyte data, including initiating calibration, updating calibration, evaluating clinical acceptability of reference and sensor analyte data, and evaluating the quality of sensor calibration. During initial calibration, the analyte sensor data is evaluated over a period of time to determine stability of the sensor. The sensor may be calibrated using a calibration set of one or more matched sensor and reference analyte data pairs. The calibration may be updated after evaluating the calibration set for best calibration based on inclusion criteria with newly received reference analyte data. Fail-safe mechanisms are provided based on clinical acceptability of reference and analyte data and quality of sensor calibration. Algorithms provide for optimized prospective and retrospective analysis of estimated blood analyte data from an analyte sensor.