Integrated introducer and transmitter assembly and methods of use
First Claim
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1. An apparatus, comprising:
- a base unit;
a sensor coupled to the base unit;
a transmitter unit coupled to the base unit, the base unit and the transmitter unit forming a transmitter assembly having a housing; and
an insertion unit disposed on the base unit, the insertion unit operatively coupled to the sensor and configured to place at least a portion of the sensor under a skin layer of a patient, wherein the insertion unit is configured to remain disposed on the base unit after sensor placement;
wherein the insertion unit includes a collapsible introducer mechanism coupled to an introducer, and configured to displace at least a portion of the sensor and the introducer through the skin layer to an insertion position under the skin layer;
wherein the collapsible introducer mechanism moves from a non-collapsed state to a collapsed state in response to a manual force being directly applied to a surface of the collapsible introducer mechanism, wherein when the collapsible introducer mechanism moves from the non-collapsed state to the collapsed state the at least the portion of the sensor and the introducer are inserted through the skin layer to the insertion position;
wherein removal of the manual force from the surface of the collapsible introducer mechanism causes the collapsible introducer mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the introducer from under the skin layer while retaining the at least the portion of the sensor at the insertion position; and
furtherwherein the collapsible introducer mechanism is contained within the bounds of the housing of the transmitter assembly when the collapsible introducer mechanism is in the non-collapsed state and the collapsed state.
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Abstract
Method and apparatus for inserting at least a portion of a sensor into a patient is provided.
1054 Citations
24 Claims
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1. An apparatus, comprising:
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a base unit; a sensor coupled to the base unit; a transmitter unit coupled to the base unit, the base unit and the transmitter unit forming a transmitter assembly having a housing; and an insertion unit disposed on the base unit, the insertion unit operatively coupled to the sensor and configured to place at least a portion of the sensor under a skin layer of a patient, wherein the insertion unit is configured to remain disposed on the base unit after sensor placement; wherein the insertion unit includes a collapsible introducer mechanism coupled to an introducer, and configured to displace at least a portion of the sensor and the introducer through the skin layer to an insertion position under the skin layer; wherein the collapsible introducer mechanism moves from a non-collapsed state to a collapsed state in response to a manual force being directly applied to a surface of the collapsible introducer mechanism, wherein when the collapsible introducer mechanism moves from the non-collapsed state to the collapsed state the at least the portion of the sensor and the introducer are inserted through the skin layer to the insertion position; wherein removal of the manual force from the surface of the collapsible introducer mechanism causes the collapsible introducer mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the introducer from under the skin layer while retaining the at least the portion of the sensor at the insertion position; and
furtherwherein the collapsible introducer mechanism is contained within the bounds of the housing of the transmitter assembly when the collapsible introducer mechanism is in the non-collapsed state and the collapsed state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An apparatus, comprising:
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a transmitter mount; a sensor coupled to the transmitter mount, the sensor configured to be in fluid contact with a biological fluid of a patient; a transmitter unit coupled to the transmitter mount, the transmitter mount and the transmitter unit forming a transmitter assembly having a housing, wherein the transmitter unit is in electrical communication with the sensor; and a sensor introducer coupled to the sensor and configured to place at least a portion of the sensor under a skin layer of the patient, the sensor introducer integrated with the transmitter mount such that the sensor introducer is retained with the transmitter mount after sensor placement; wherein the sensor introducer includes a collapsible introducer mechanism to displace at least a portion of the sensor and the sensor introducer through the skin layer to an insertion position under the skin layer; wherein the collapsible introducer mechanism moves from a non-collapsed state to a collapsed state in response to a manual force being directly applied to a surface of the collapsible introducer mechanism, wherein when the collapsible introducer mechanism moves from the non-collapsed state to the collapsed state the at least the portion of the sensor and the sensor introducer are inserted through the skin layer to the insertion position; wherein removal of the manual force from the surface of the collapsible introducer mechanism causes the collapsible introducer mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the sensor introducer from the insertion position under the skin layer while retaining the at least the portion of the sensor at the insertion position under the skin layer; and
furtherwherein the collapsible introducer mechanism is contained within the bounds of the housing of the transmitter assembly when the collapsible introducer mechanism is in the non-collapsed state and the collapsed state. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A method, comprising:
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placing at least a portion of a sensor under a skin layer of a patient using a collapsible sensor introducer mechanism contained within an assembly unit, the at least the portion of the sensor being coupled to at least a portion of a sensor introducer; applying a manual force on a surface of the collapsible sensor introducer mechanism to cause the collapsible sensor introducer mechanism to move from a non-collapsed state to a collapsed state and insert the at least the portion of the sensor introducer and the at least the portion of the sensor through the skin of the patient; removing the manual force from the surface of the collapsible sensor introducer mechanism to cause the collapsible sensor introducer mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the sensor introducer from under the skin layer while retaining the at least the portion of the sensor under the skin, wherein the collapsible sensor introducer mechanism is contained within the bounds of a housing of the assembly unit when the collapsible sensor introducer mechanism is in the non-collapsed state and the collapsed state; substantially covering the collapsible sensor introducer mechanism; and discarding the collapsible sensor introducer mechanism with the sensor.
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22. An analyte detection apparatus for use with an analyte sensor, the apparatus comprising:
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a base portion; an analyte sensor coupled to the base portion; a transmitter coupled to the base portion and forming an assembly unit having a housing, wherein the transmitter is in signal communication with the analyte sensor; and an analyte sensor insertion unit operatively coupled to the transmitter, wherein the analyte sensor insertion unit includes an analyte sensor introducer and a collapsible insertion mechanism, wherein the analyte sensor introducer is coupled to the analyte sensor and wherein the collapsible insertion mechanism is configured for subcutaneously positioning at least a portion of the analyte sensor introducer and at least a portion of the analyte sensor through a skin layer of a patient to an insertion position; wherein the collapsible insertion mechanism moves from a non-collapsed state to a collapsed state in response to a manual force being directly applied to a surface of the collapsible insertion mechanism, wherein when the collapsible insertion mechanism moves from the non-collapsed state to the collapsed state the at least the portion of the analyte sensor introducer and the at least the portion of the analyte sensor are displaced through the skin layer to the insertion position; wherein removal of the manual force from the surface of the collapsible insertion mechanism causes the collapsible insertion mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the analyte sensor introducer from the skin layer while retaining the at least the portion of the analyte sensor at the insertion position; and
furtherwherein the collapsible insertion mechanism is contained within the bounds of the housing of the assembly unit when the collapsible insertion mechanism is in the non-collapsed state and the collapsed state.
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23. A system, comprising:
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a transmitter mount; a sensor coupled to the transmitter mount, the sensor configured to be in fluid contact with a biological fluid of a patient; a sensor introducer coupled to the sensor and configured to place at least a portion of the sensor under a skin layer of the patient, the sensor introducer integrated with the transmitter mount such that the sensor introducer is retained with the transmitter mount after sensor placement; and a transmitter unit coupled to the transmitter mount forming a transmitter assembly having a housing, the transmitter unit electrically coupled to the sensor, and configured to transmit one or more signals associated with biological fluid levels of the patient; wherein the sensor introducer includes a collapsible introducer mechanism configured to position a portion of the sensor and a portion of the sensor introducer through the skin layer to contact the biological fluid of the patient; wherein the collapsible introducer mechanism moves from a non-collapsed state to a collapsed state in response to a manual force being directly applied to a surface of the collapsible introducer mechanism, wherein when the collapsible introducer mechanism moves from the non-collapsed state to the collapsed state, the portion of the sensor and the portion of the sensor introducer are displaced through the skin layer; wherein removal of the manual force from the surface of the collapsible introducer mechanism causes the collapsible introducer mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the portion of the sensor introducer from under the skin layer while the portion of the sensor remains in contact with the biological fluid of the patient; and
furtherwherein the collapsible introducer mechanism is contained within the bounds of the housing of the transmitter assembly when the collapsible introducer mechanism is in the non-collapsed state and the collapsed state.
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24. An insertion kit, comprising:
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a base unit; a sensor coupled to the base unit; a transmitter unit coupled to the base unit, the transmitter unit and the base unit forming a transmitter assembly having a housing, wherein the transmitter unit is in signal communication with the sensor; and an insertion unit disposed on the base unit, the insertion unit having an introducer coupled to the sensor and a collapsible insertion mechanism, wherein the introducer is configured to place at least a portion of the sensor into an insertion position under a skin layer and wherein the collapsible insertion mechanism is retained substantially disposed on the base unit after sensor placement; wherein the collapsible insertion mechanism is configured to move from a non-collapsed state to a collapsed state in response to a manual force being directly applied to the collapsible insertion mechanism, wherein when the collapsible insertion mechanism moves from the non-collapsed state to the collapsed state at least a portion of the introducer and the at least the portion of the sensor are displaced through the skin layer; wherein removal of the manual force from the surface of the collapsible insertion mechanism causes the collapsible insertion mechanism to move from the collapsed state to the non-collapsed state and automatically withdraw the at least the portion of the introducer from under the skin layer while retaining the at least the portion of the sensor at the insertion position; and
furtherwherein the collapsible insertion mechanism is contained within the bounds of the housing of the transmitter assembly when the collapsible insertion mechanism is in the non-collapsed state and the collapsed state.
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Specification