A cannula insertion device includes a housing defining an opening for receiving therethrough a cannula and further defining a channel, and a cannula forming a lumen, the cannula adapted for sliding movement within the housing from a retracted position to an extended position. When the cannula is in
A cannula insertion device includes a housing defining an opening for receiving therethrough a cannula and further defining a channel, and a cannula forming a lumen, the cannula adapted for sliding movement within the housing from a retracted position to an extended position. When the cannula is in the retracted position, the lumen is located remotely from the channel and the channel is in fluidic communication with the opening. When the cannula is in the extended position, the lumen is in fluidic communication with the channel.
대표청구항▼
1. A cannula insertion device comprising: a housing comprising a base wall;a cannula disposed within the housing;a needle attached to a needle holder, wherein the needle is configured to be disposed in the cannula;a compressed spring disposed between the needle holder and the base wall and coupled t
1. A cannula insertion device comprising: a housing comprising a base wall;a cannula disposed within the housing;a needle attached to a needle holder, wherein the needle is configured to be disposed in the cannula;a compressed spring disposed between the needle holder and the base wall and coupled to and surrounding the needle when the needle is disposed in the cannula and the cannula is in a retracted position, the compressed spring having a compressed length;a plunger comprising a recess, wherein the plunger is adapted to advance the cannula with the needle from the retracted position to an extended position; anda release apparatus adapted to release the compressed spring when the plunger reaches the extended position to expand the compressed spring from the compressed length to an extended length and withdraw the needle automatically from the cannula and force the needle holder into the recess. 2. The cannula insertion device of claim 1, wherein at least one of the cannula and the needle are adapted to be displaced from the retracted position to the extended position by application of a force. 3. The cannula insertion device of claim 2, further comprising a drive spring adapted to apply the force. 4. The cannula insertion device of claim 1, wherein the release apparatus comprises at least one holding element to prevent inadvertent withdrawal of the needle from the cannula. 5. The cannula insertion device of claim 4, wherein the holding element is released when the cannula with the needle reaches the extended position. 6. The cannula insertion device of claim 1, further comprising an opening in the housing for receiving the cannula therethrough and further defining a channel, wherein the cannula forms a lumen, the lumen being located remotely from the channel when the cannula is in the retracted position and being in fluidic communication with the channel when the cannula is in the extended position. 7. A method of inserting a cannula into a body, the method comprising the steps of: applying a force with a drive spring to advance the cannula from a retracted position to an extended position;advancing the cannula with a needle disposed therein from the retracted position, in which the needle is attached to a needle holder and is surrounded by a compressed spring, to the extended position using a plunger having a recess therein; andwithdrawing the needle automatically from the cannula by releasing the compressed spring such that it expands from a compressed length to an extended length when the plunger reaches the extended position, which forces the needle holder into the recess. 8. The method of claim 7, further comprising the step of releasing a holding element when the cannula with the needle reaches the extended position, wherein the holding element is adapted to prevent inadvertent withdrawal of the needle from the cannula. 9. The method of claim 7, wherein the step of advancing the cannula with the needle from the retracted position to the extended position comprises penetrating the body with the needle and the cannula. 10. The method of claim 7, wherein the step of advancing the cannula from the retracted position to the extended position results in automatically establishing fluidic communication between a lumen of the cannula and a channel of a housing forming an opening. 11. A patch pump comprising: a housing defining an opening for receiving a cannula therethrough, and further defining a channel; anda cannula insertion device comprising: a cannula;a needle attached to a needle holder, wherein the needle is configured to be disposed in the cannula;a compressed spring coupled to and surrounding the needle when the needle is disposed in the cannula and the cannula is in a retracted position, the compressed spring having a compressed length;a plunger comprising a recess, wherein the plunger is adapted to advance the cannula with the needle from the retracted position to an extended position; anda release apparatus adapted to release the compressed spring when the plunger reaches the extended position to expand the compressed spring from the compressed length to an extended length and withdraw the needle automatically from the cannula and force the needle holder into the recess. 12. The patch pump of claim 11, wherein the housing further comprises a reservoir comprising an elastomer bladder in fluidic communication with the opening. 13. The patch pump of claim 12, wherein the housing further comprises a basal flowpath and a bolus flowpath disposed between the reservoir the opening. 14. The patch pump of claim 13, wherein the bolus flowpath is in fluidic communication with a second reservoir. 15. The patch pump of claim 13, wherein the basal flowpath and the bolus flowpath are arranged in parallel. 16. The cannula insertion device of claim 1, wherein the plunger comprises a cylindrical insertion ramp body. 17. The cannula insertion device of claim 1, further comprising: a support structure which is positioned against the plunger; andat least one needle holding element projecting outward from the support structure,wherein the at least one needle holding element comprise a hook that engages the needle holder and an inclined outer surface,wherein the plunger comprises at least one projection having inclined surfaces, which are complementary to the inclined outer surface. 18. The cannula insertion device of claim 17, wherein when the support structure is sufficiently displaced by the force of a drive spring, the at least one needle holding element makes contact with the base wall, which forces the at least one needle holding element in the direction of the plunger until the complementary inclined surfaces contact one another to displace the at least one holding element outward and thus free the needle holder from the support structure, which enables the compressed spring to move in the direction of the plunger to move the needle backward out of a body tissue.
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