Continuous subcutaneous insulin infusion therapy
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0817966
(2006-03-07)
|
등록번호 |
US-8096983
(2012-01-17)
|
우선권정보 |
JP-2005-062168 (2005-03-07) |
국제출원번호 |
PCT/JP2006/304307
(2006-03-07)
|
§371/§102 date |
20071130
(20071130)
|
국제공개번호 |
WO2006/095701
(2006-09-14)
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발명자
/ 주소 |
- Uchino, Hiroshi
- Tanaka, Yasushi
- Kawamori, Ryuzo
|
출원인 / 주소 |
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
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인용정보 |
피인용 횟수 :
7 인용 특허 :
1 |
초록
▼
A mechanism for optimizing insulin infusion rate of a CSII pump for each patient. A continuous subcutaneous insulin infusion therapy uses a continuous subcutaneous insulin pump, which includes: determining a circadian variation curve representing sympathetic nerve activity and that represents parasy
A mechanism for optimizing insulin infusion rate of a CSII pump for each patient. A continuous subcutaneous insulin infusion therapy uses a continuous subcutaneous insulin pump, which includes: determining a circadian variation curve representing sympathetic nerve activity and that represents parasympathetic nerve activity of a target patient; acquiring an inflection point of each of the circadian variation curves representing the two types of nerve activity; detecting a time that corresponds to the inflection point; and employing the time as a point at which the insulin infusion rate of the continuous subcutaneous insulin infusion pump is changed.
대표청구항
▼
1. A continuous subcutaneous insulin infusion therapy using a continuous subcutaneous insulin pump, which comprises: determining a circadian variation curve representing sympathetic nerve activity and a circadian variation curve representing parasympathetic nerve activity of a target patient;acquiri
1. A continuous subcutaneous insulin infusion therapy using a continuous subcutaneous insulin pump, which comprises: determining a circadian variation curve representing sympathetic nerve activity and a circadian variation curve representing parasympathetic nerve activity of a target patient;acquiring inflection points of the circadian variation curve representing the sympathetic nerve activity and inflection points of the circadian variation curve representing the parasympathetic nerve activity;detecting times which correspond to the inflection points; andemploying said times as points at which an insulin infusion rate of the continuous subcutaneous insulin infusion pump is changed. 2. The continuous subcutaneous insulin infusion therapy as described in claim 1, wherein a means for determining the circadian variation curve of the sympathetic nerve activity and the circadian variation curve representing parasympathetic nerve activity is (1) a microneurogram method, or (2) a method comprising: conducting a power spectral analysis of heart rate variability using a heart rate data included in an electrocardiographic data obtained from a signal detected with an electrode attached to the patient; and extracting the circadian variation curve representing the sympathetic nerve activity and the circadian variation curve representing the parasympathetic nerve activity through the power spectral analysis of heart rate variability. 3. The continuous subcutaneous insulin infusion therapy as described in claim 1, further comprising: detecting two time points (Dip 1 and Dip 2) each corresponding to the inflection points of the circadian variation curve representing the parasympathetic nerve activity, and two time points (Dip 3 and Dip 4) each corresponding to the inflection points of the circadian variation curve representing the sympathetic nerve activity,wherein the insulin infusion rate is increased at Dip 1, decreased at Dip 3, increased at Dip 4, and decreased at Dip 2. 4. The continuous subcutaneous insulin infusion therapy as described in claim 1, wherein the patient is notified of detection of a time which corresponds to an inflection point. 5. The continuous subcutaneous insulin infusion therapy as described in claim 1, which further comprises a means for automatically changing the insulin infusion rate in response to detection of a time which corresponds to an inflection point. 6. A method for operating a continuous subcutaneous insulin infusion pump, which comprises: employing a circadian variation curve representing sympathetic nerve activity and a circadian variation curve representing parasympathetic nerve activity derived from a target patient for acquiring inflection points of the circadian variation curve representing the sympathetic nerve activity and inflection points of the circadian variation curve representing the parasympathetic nerve activity;detecting times which correspond to the inflection points; andemploying said times as points at which an insulin infusion rate of the continuous subcutaneous insulin infusion pump is changed. 7. The method for operating a continuous subcutaneous insulin infusion pump as described in claim 6, wherein a means for determining the circadian variation curve of the sympathetic nerve activity and the circadian variation curve representing parasympathetic nerve activity is (1) a microneurogram method, or (2) a method comprising: conducting a power spectral analysis of heart rate variability using a heart rate data included in an electrocardiographic data obtained from a signal detected with an electrode attached to the patient; and extracting the circadian variation curve representing the sympathetic nerve activity and the circadian variation curve representing the parasympathetic nerve through the power spectral analysis of heart rate variability. 8. The method for operating a continuous subcutaneous insulin infusion pump as described in claim 6, further comprising: detecting two time points (Dip 1 and Dip 2) each corresponding to the inflection points of the circadian variation curve representing the parasympathetic nerve activity, and two time points (Dip 3 and Dip 4) each corresponding to the inflection points of the circadian variation curve representing sympathetic nerve activity,wherein the insulin infusion rate is increased at Dip 1, decreased at Dip 3, increased at Dip 4, and decreased at Dip 2. 9. The method for operating a continuous subcutaneous insulin infusion pump as described in claim 6, which further comprises a means for notifying the patient of detection of a time which corresponds to an inflection point. 10. The method for operating a continuous subcutaneous insulin infusion pump as described in claim 6, which further comprises a means for automatically changing the insulin infusion rate in response to detection of a time which corresponds to an inflection point. 11. An apparatus for continuous subcutaneous insulin infusion therapy, which comprises: a means for determining a circadian variation curve representing sympathetic nerve activity and a circadian variation curve representing parasympathetic nerve activity of a target patient using a probe attached to a target patient;an operational processing unit; anda continuous subcutaneous insulin infusion pump,wherein the operational processing unit has a means for detecting times which correspond to inflection points of the circadian variation curves representing the sympathetic nerve activity and inflection points of the circadian variation curve representing parasympathetic nerve activity to employ said times as points at which an insulin infusion rate of the continuous subcutaneous insulin infusion pump is changed. 12. The apparatus for continuous subcutaneous insulin infusion therapy as described in claim 11, wherein the means for determining the circadian variation curve representing the sympathetic nerve activity and the circadian variation curve representing the parasympathetic nerve activity is (1) a microneurogram for directly detecting the circadian variation curve representing the sympathetic nerve activity and the circadian variation curve representing the parasympathetic nerve activity of the target patient using a probe attached to the patient, or (2) a means comprising: conducting a power spectral analysis of heart rate variability using a portable electrocardiograph for obtaining an electrocardiographic data via a probe attached to the patient and a heart rate data included in the obtained electrocardiographic data in the operational processing unit; and extracting the circadian variation curve representing the sympathetic nerve activity and the circadian variation curve representing the parasympathetic nerve activity through the power spectral analysis of heart rate variability. 13. The apparatus for continuous subcutaneous insulin infusion therapy as described in claim 11, further comprising: detecting two time points (Dip 1 and Dip 2) each corresponding to the inflection points of the circadian variation curve representing the parasympathetic nerve activity, and two time points (Dip 3 and Dip 4) each corresponding to the inflection points of the circadian variation curve representing the sympathetic nerve activity,wherein the insulin infusion rate is increased at Dip 1, decreased at Dip 3, increased at Dip 4, and decreased at Dip 2. 14. The apparatus for continuous subcutaneous insulin infusion therapy as described in claim 11, which further comprises a means for notifying the patient of detection of a time which corresponds to an inflection point. 15. The apparatus for continuous subcutaneous insulin infusion therapy as described in claim 11, which further comprises a means for automatically changing the insulin infusion rate in response to the detection of a time which corresponds to an inflection point.
이 특허에 인용된 특허 (1)
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Houben, Richard; Larik, Vincent, System and method for monitoring and controlling the glycemic state of a patient.
이 특허를 인용한 특허 (7)
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DiPerna, Paul M.; Brown, David; Rosinko, Mike; Kincade, Dan; Michaud, Michael; Nadworny, John; Kruse, Geoffrey A.; Ulrich, Thomas R., Infusion pump system with disposable cartridge having pressure venting and pressure feedback.
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DiPerna, Paul M.; Brown, David; Rosinko, Mike; Kincade, Dan; Michaud, Michael; Nadworny, John; Kruse, Geoffrey A.; Ulrich, Thomas R., Infusion pump system with disposable cartridge having pressure venting and pressure feedback.
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Michaud, Michael; Kruse, Geoffrey A., Infusion pump system with disposable cartridge having pressure venting and pressure feedback.
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Michaud, Michael; Kruse, Geoffrey A., Infusion pump system with disposable cartridge having pressure venting and pressure feedback.
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Verhoef, Erik T.; DiPerna, Paul M.; Rosinko, Mike; Williamson, Mark; Kruse, Geoffrey A.; Ulrich, Thomas R.; Lamb, Phil; Saint, Sean; Michaud, Michael; Trevaskis, William, Infusion pump system with disposable cartridge having pressure venting and pressure feedback.
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Rosinko, Michael J.; Kruse, Geoffrey A.; Harris, Paul, System and method for detecting occlusions in an infusion pump.
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Metzmaker, Thomas; Saint, Sean; Michaud, Michael; Rosinko, Michael J.; Swanson, Vance, Systems including vial adapter for fluid transfer.
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