Diversified glucose sensor system

What is claimed is: 1. A method of inserting a sensor into a patient for blood glucose measurement, said method comprising: providing an insertion device comprising an introducer needle having a hollow shaft and an opening on a first end thereof; providing a sensor system comprising a plurality of sensor bodies each having at least one sensing element configured to detect glucose, and disposing said plurality of sensor bodies within the hollow shaft of the introducer needle; inserting the introducer needle into a patient's body until the opening is at a first subcutaneous inserted position; withdrawing the introducer needle from the patient's body and leaving the plurality of sensor bodies in place within the patient's body; providing an insertion shaft within the introducer needle; moving the insertion shaft relative to the introducer needle after the introducer needle has been inserted with its opening at the first subcutaneous inserted position wherein, with such movement, the insertion device pushes the plurality of sensor bodies to a second subcutaneous inserted position within the patient's body beyond the first subcutaneous inserted position; and withdrawing the insertion shaft within the introducer needle; wherein each sensor body includes a projection which interacts with the insertion shaft to position the sensor bodies within the patient's body at the second subcutaneous inserted position. 2. The method according to claim 1 , wherein the insertion shaft includes a flattened portion at a first end thereof, said flattened portion contacting the projection of each sensor body to effect movement thereof. 3. The method according to claim 1 , wherein the insertion shaft includes a plug disposed at the first end thereof that frictionally engages each of the plurality of sensor bodies to aide in anchoring of said sensor bodies within the patient when the insertion shaft is being withdrawn. 4. The method according to claim 1 , wherein each sensor body is made from a resilient material. 5. The method according to claim 1 , wherein at least one of the plurality of sensor bodies has a helical shape. 6. The method according to claim 1 , wherein each sensor body has a plurality of sensing elements, said sensing elements being linearly arranged and spaced on the sensor body. 7. The method according to claim 6 , wherein the plurality of sensing elements for the plurality of sensor bodies are spaced to have different X, different Y and different Z axis locations from each other when inserted within the patient's body, and wherein the Z axis is in an insertion direction of the introducer needle from an insertion point when inserted within the patient's body. 8. A method of inserting a sensor into a patient for blood glucose measurement, said method comprising: providing an insertion device comprising an introducer needle having a hollow shaft and an opening on a first end thereof; providing a sensor system comprising a plurality of sensor bodies each having at least one sensing element configured to detect glucose, and disposing said plurality of sensor bodies within the hollow shaft of the introducer needle; inserting the introducer needle into a patient's body until the opening is at a first subcutaneous inserted position; withdrawing the introducer needle from the patient's body and leaving the plurality of sensor bodies in place within the patient's body; providing an insertion shaft within the introducer needle; moving the insertion shaft relative to the introducer needle after the introducer needle has been inserted with its opening at the first subcutaneous inserted position wherein, with such movement, the insertion device pushes the plurality of sensor bodies to a second subcutaneous inserted position within the patient's body beyond the first subcutaneous inserted position; and withdrawing the insertion shaft within the introducer needle; bending each sensor body when it is disposed within the introducer needle such that when the sensor body is pushed past the opening of the introducer needle, the bent portion of the sensor body biases at an end of the sensor body outward; wherein the insertion shaft includes a plug disposed at the first end thereof that frictionally engages each of the plurality of sensor bodies to aide in anchoring of said sensor bodies within the patient when the insertion shaft is being withdrawn. 9. A method of inserting a sensor into a patient for blood glucose measurement, said method comprising: providing an insertion device comprising an introducer needle having a hollow shaft and an opening on a first end thereof; providing a sensor system comprising a plurality of sensor bodies each having at least one sensing element configured to detect glucose, and disposing said plurality of sensor bodies within the hollow shaft of the introducer needle; inserting the introducer needle into a patient's body until the opening is at a first subcutaneous inserted position; and withdrawing the introducer needle from the patient's body and leaving the plurality of sensor bodies in place within the patient's body; wherein each sensor body includes a resilient hinge. 10. The method according to claim 9 , further comprising folding each sensor body at the resilient hinge when it is disposed within the introducer needle such that when the sensor body is pushed past the opening of the introducer needle, the folded portion of the sensor body biases outward about the hinge. 11. A method of inserting a sensor into a patient for blood glucose measurement, said method comprising: providing an insertion device comprising an introducer needle having a hollow shaft and an opening on a first end thereof; providing a sensor system comprising a plurality of sensor bodies each having at least one sensing element configured to detect glucose, and disposing said plurality of sensor bodies within the hollow shaft of the introducer needle; inserting the introducer needle into a patient's body until the opening is at a first subcutaneous inserted position; withdrawing the introducer needle from the patient's body and leaving the plurality of sensor bodies in place within the patient's body; and furling the at least one sensor body when it is disposed within the introducer needle such that when said at least one sensor body is pushed past the opening of the introducer needle, said at least one sensor body unfurls; wherein at least one of the plurality of sensor bodies has a helical shape.