[미국특허]
Method of providing a therapeutic regimen and prefabricated container therefor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B65B-005/00
B65D-083/04
출원번호
US-0115329
(2002-04-02)
발명자
/ 주소
Lewis, Graham L.
대리인 / 주소
Marsh, Richard L.
인용정보
피인용 횟수 :
58인용 특허 :
14
초록▼
An integrated medicament package comprises a prefabricated medicament container having a plurality of initially open top blisters, a closure cover affixed to one marginal edge thereof by at least one living hinge, the closure cover having at least one clasp on an open end of the closure cover opposi
An integrated medicament package comprises a prefabricated medicament container having a plurality of initially open top blisters, a closure cover affixed to one marginal edge thereof by at least one living hinge, the closure cover having at least one clasp on an open end of the closure cover opposite the living hinge, the blisters arranged in rows and columns separated by longitudinal and transverse shoulders, at least one of the longitudinal and the transverse shoulders having perforations therethrough wherein the prefabricated medicine container is adapted to be separated along the perforations into a plurality of units, and a sealing sheet with medicament information at a location corresponding to the at least one said plurality of blister such that the medicament information on the outside surface of the sealing sheet corresponds with the medicament in the blisters, the medicament information comprising the name of the patient, the name of the medicament, the dosage of the medicament, the time of day, the day of week and the calendar date for the patient to take the medicament in the blister, the sealing sheet when removed from the location indicates to the patient that the medicament has been taken.
대표청구항▼
An integrated medicament package comprises a prefabricated medicament container having a plurality of initially open top blisters, a closure cover affixed to one marginal edge thereof by at least one living hinge, the closure cover having at least one clasp on an open end of the closure cover opposi
An integrated medicament package comprises a prefabricated medicament container having a plurality of initially open top blisters, a closure cover affixed to one marginal edge thereof by at least one living hinge, the closure cover having at least one clasp on an open end of the closure cover opposite the living hinge, the blisters arranged in rows and columns separated by longitudinal and transverse shoulders, at least one of the longitudinal and the transverse shoulders having perforations therethrough wherein the prefabricated medicine container is adapted to be separated along the perforations into a plurality of units, and a sealing sheet with medicament information at a location corresponding to the at least one said plurality of blister such that the medicament information on the outside surface of the sealing sheet corresponds with the medicament in the blisters, the medicament information comprising the name of the patient, the name of the medicament, the dosage of the medicament, the time of day, the day of week and the calendar date for the patient to take the medicament in the blister, the sealing sheet when removed from the location indicates to the patient that the medicament has been taken. ning wall (12) and the upper cooling chamber (7) extends over at least two cylinders (A,B,C). lant at a location in the second coolant circuit without blocking coolant circulation in the first coolant circuit, the thermostat valve opened when the engine temperature exceeds a predetermined threshold permitting coolant circulation in the second coolant circuit to increase the engine heat dissipated. 9. The snowmobile of claim 8, wherein the engine has two open coolant passages in fluid communication with the engine cooling jacket, the inlet and the outlet of the first coolant circuit connected to respective coolant passages. 10. The snowmobile of claim 9, wherein the outlets of the coolant circuits are connected to the same open coolant passage. 11. The snowmobile of claim 10, wherein the inlet of the second coolant circuit is connected to the thermostat valve. 12. The snowmobile of claim 8, wherein the thermostat valve is located in the engine. 13. The snowmobile of claim 8, wherein coolant continuously circulates through the first coolant circuit during engine operation. 14. A snowmobile comprising: a liquid-cooled engine containing internal passages for carrying liquid coolant that absorbs heat generated by the engine during operation; a first coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of a front cooler, a rear cooler, a left side cooler, and a right side cooler, the coolers in the first coolant circuit connected in fluid communication; a second coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of the front cooler, the rear cooler, the left side cooler, and the right side cooler, the coolers in the second coolant circuit connected in fluid communication; a pump for circulating coolant through the internal passages and the first and second coolant circuits; the engine having an open coolant outlet connected to the first coolant circuit and through which the pump circulates coolant into the first coolant circuit; and the engine having a thermostat valve connected to the second coolant circuit and through which the pump circulates coolant into the second coolant circuit, the thermostat valve biased to a closed position blocking coolant flow from the cooling jacket into the second coolant circuit without blocking coolant flow into the first coolant circuit, the thermostat valve opened when the engine temperature exceeds a predetermined threshold permitting coolant circulation into the second coolant circuit to increase the engine heat dissipated, the first and second coolant circuits returning coolant to the engine via a common outlet, coolant circulation in the coolant circuits merges into a common flow path in one of the coolers so that an outlet of such cooler is shared by the coolant circuits. 15. The snowmobile of claim 14, wherein the front and rear coolers are mounted to a front and rear of a drive tunnel respectively. 16. The snowmobile of claim 14, wherein the pump is internal to the engine. 17. The snowmobile of claim 14, wherein the only cooler in the second coolant circuit is the front cooler. 18. The snowmobile of claim 14, wherein the front cooler has a separate inlet for connection to each coolant circuit and a single outlet shared by each coolant circuit. 19. The snowmobile of claim 14, further including a coolant overflow reservoir positioned within each coolant circuit. 20. The snowmobile of claim 14, wherein the overflow reservoir has a separate inlet for connection to each coolant circuit and a single outlet shared by each coolant circuit. 21. The snowmobile of claim 14, wherein coolant continuously circulates through the first coolant circuit during engine operation. 22. A snowmobile comprising: a chassis including a longitudinally extending drive tunnel having an endless drive track disposed therein; a pair of steerable skis secured to the chassis; a liquid-cooled engine mounted in the chassis and containing a cooling jacket for carrying liquid coolant that absorbs heat generated by the engine during operation; a first coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of a front cooler, a rear cooler, a left side cooler, and a right side cooler, the engine cooling jacket operatively connected in fluid communication with the coolers in the first coolant circuit and connected between an inlet and an outlet of the first coolant circuit; a second coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of the front cooler, the rear cooler, the left side cooler, and the right side cooler, the engine cooling jacket operatively connected in fluid communication with the coolers in the second coolant circuit and connected between an inlet and an outlet of the second coolant circuit, one of the coolant circuits including at least two coolers, and another coolant circuit including at least one cooler; and a pump for circulating coolant through the engine cooling jacket and the first and second coolant circuits. 23. The snowmobile of claim 22 further including a thermostat valve operatively connected to the second coolant circuit. 24. The snowmobile of claim 23 wherein the thermostat valve is biased to a closed position blocking the pump's circulation of coolant at a location in the second coolant circuit without blocking coolant circulation in the first coolant circuit, the thermostat valve being opened when the engine temperature exceeds a predetermined threshold permitting coolant circulation in the second coolant circuit to increase the engine heat dissipated. 25. The snowmobile of claim 22, wherein the first coolant circuit includes the front cooler, rear cooler and the side coolers and the second coolant circuit includes the front cooler. 26. The snowmobile of claim 22, wherein coolant circulates through the coolant circuits during engine operation. 27. The snowmobile of claim 22, wherein at least one cooler is in both coolant circuits, the coolant circulation in the coolant circuits merges into a common flow path in the at least cooler that is in both circuits so that an outlet of such cooler is shared by the coolant circuits. 28. A snowmobile comprising: a chassis including a longitudinally extending drive tunnel having an endless drive track disposed therein; a pair of steerable skis secured to the chassis; a liquid-cooled engine mounted to the chassis and containing a cooling jacket for carrying liquid coolant that absorbs heat generated by the engine during operation; a first coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of a front cooler, a rear cooler, a left side cooler, and a right side cooler, the engine cooling jacket operatively connected in fluid communication with the coolers in the first coolant circuit and connected between an inlet and an outlet of the first coolant circuit; a second coolant circuit adapted to dissipate heat generated by the engine and comprised of at least one of the front cooler, the rear cooler, the left side cooler, and the right side cooler, the engine cooling jacket operatively connected in fluid communication with the coolers in the second coolant circuit and connected between an inlet and an outlet of the second coolant circuit; and a pump for circulating coolant through the engine cooling jacket and the first and second coolant circuits, the first and second coolant circuits merging into a common coolant flow path in one of the coolers so that coolant is returned to the engine via a common outlet of the circuits. 29. The snowmobile of claim 28 further including a thermostat valve operatively connected to the second coolant circuit. 30. The snowmobile of claim 29 wherein the thermostat valve is biased to a closed position blocking the pump's circulation of coolant at a location in the second coolant circuit without blocking coolant circulation in the first coolant circuit, the thermostat valve being opened when the engine tem
Boileau, Thomas William-Maxwell; Ceddia, Michael Anthony; Collins, John Kevin; Davenport, Gary Mitchell; Kiely, Barry Pius; O'Mahony, Liam Diarmuid; Sunvold, Gregory Dean; Tetrick, Mark Alan; Vickers, Robert Jason, Canine probiotic bifidobacterium pseudolongum.
Ali, Syed Y.; Biesenthal, Amy C.; Khullar, Rishi; McGonagle, Sean; Pankow, Greg, Method and system for determining a volume-based fill pattern of a multi-dose medicament container.
McGonagle, Sean; Pankow, Greg; Lewis, J. Randolph; Lee, Victor, Method and system for verification of product transfer from an intermediate loading cartridge to a multi-container blister pack.
Massimino, Stefan Patrick; Davenport, Gary Mitchell; Hayek, Michael Griffin; Roth, George; Ingram, Donald K., Method for decreasing inflammation and stress in a mammal.
Boileau, Thomas William-Maxwell; Ceddia, Michael Anthony; Davenport, Gary Mitchell; Kiely, Barry Pius; O'Mahony, Liam Diarmuid; Sunvold, Gregory Dean; Tetrick, Mark Alan; Vickers, Robert Jason, Methods of use of probiotic bifidobacteria for companion animals.
Kerr, George Scott; Sunvold, Gregory Dean; Schumacher, Lawrence Andrew; Schuller, David William; ter Haar, Robbert H; Bittner, Michael J, Probiotic supplement, process for making, and packaging.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.