Sealing assembly for a fluid reservoir of a fluid infusion device

What is claimed is: 1. A sealing element for a fluid infusion device comprising a hollow fluid delivery needle, the sealing element comprising: a base section; a retractable body section extending from the base section; a tip section extending from the retractable body section, wherein the retractable body section is between the base section and the tip section; a needle cavity formed in the retractable body section and continuing through the base section to define a needle opening in the base section, the needle cavity sized to receive the hollow fluid delivery needle; a self-sealing slit formed in the tip section to accommodate the hollow fluid delivery needle when the sealing element is in a retracted position; a guide channel in communication with the needle cavity and the self-sealing slit, the guide channel located between an end of the needle cavity and the self-sealing slit, wherein the guide channel leads a tip of the hollow fluid delivery needle into the self-sealing slit during retraction of the sealing element; and a needle seal located in the guide channel and positioned between the self-sealing slit and the needle cavity to form a fluid seal around the hollow fluid delivery needle to fluidly separate the needle cavity from the guide channel. 2. The sealing element of claim 1 , wherein the needle seal is integrally formed with the tip section such that at least a portion of the needle seal protrudes into the guide channel. 3. The sealing element of claim 1 , wherein the needle seal is integrally formed with the retractable body section such that at least a portion of the needle seal protrudes into the guide channel. 4. The sealing element of claim 1 , wherein: the needle seal comprises a plurality of spaced-apart circumferential protrusions; and each of the spaced-apart circumferential protrusions forms a respective seal around the hollow fluid delivery needle. 5. The sealing element of claim 1 , wherein the base section, the tip section, and the retractable body section are integrally formed and continuous with one another. 6. The sealing element of claim 1 , wherein: the needle cavity defines internal relief features of the retractable body section; the internal relief features facilitate refraction of the sealing element over the hollow fluid delivery needle in response to a longitudinal force applied to the tip section; and the internal relief features cause the sealing element to extend over and cover the hollow fluid delivery needle in response to removal of the longitudinal force. 7. The sealing element of claim 1 , wherein: the fluid infusion device comprises a fluid reservoir having a fluid delivery port; the retractable body section comprises an exterior surface; the exterior surface moves outward when the sealing element is retracting; and the exterior surface forms a fluid seal with an interior of the fluid delivery port when the sealing element is retracted. 8. A sealing assembly for a fluid infusion device that cooperates with a fluid reservoir having a fluid delivery port, the sealing assembly comprising: a base plate; a hollow fluid delivery needle coupled to the base plate to provide a fluid flow path from the fluid reservoir to a user of the fluid infusion device; and a sealing element coupled to the base plate and overlying at least a portion of the hollow fluid delivery needle, the sealing element comprising: a base section; a retractable body section extending from the base section; a tip section extending from the retractable body section, wherein the retractable body section is between the base section and the tip section; a needle cavity formed in the retractable body section and continuing through the base section to define a needle opening in the base section, the needle cavity sized to receive the hollow fluid delivery needle; a self-sealing slit formed in the tip section to accommodate the hollow fluid delivery needle when the sealing element is in a retracted position; a guide channel formed in the tip section, the guide channel in communication with the needle cavity and the self-sealing slit and the guide channel located between an end of the needle cavity and the self-sealing slit, wherein the guide channel leads a tip of the hollow fluid delivery needle into the self-sealing slit during retraction of the sealing element, and wherein the tip section includes an integrally formed needle seal that protrudes into the guide channel, the needle seal positioned between the self-sealing slit and the needle cavity to form a fluid seal around the hollow fluid delivery needle to fluidly separate the needle cavity from the guide channel. 9. The sealing assembly of claim 8 , wherein the base section, the tip section, and the retractable body section are integrally formed and continuous with one another. 10. The sealing assembly of claim 8 , wherein: the sealing element has a nominal state and a retracted state; when in the nominal state, the tip of the hollow fluid delivery needle resides within the guide channel, and the self-sealing slit forms a fluid seal to inhibit fluid ingress into the guide channel; and when in the retracted state, an end section of the hollow fluid delivery needle resides in the self-sealing slit, and the tip of the hollow fluid delivery needle extends from the tip section of the sealing element. 11. The sealing assembly of claim 10 , wherein: the retractable body section expands when the sealing element is retracting; and the retractable body section forms a fluid seal with an interior of the fluid delivery port when the sealing element is in the retracted state. 12. A fluid infusion device to deliver a fluid to a user, the fluid infusion device comprising: a base plate; a hollow fluid delivery needle coupled to the base plate to provide a fluid flow path from the fluid infusion device to the user; a sealing element coupled to the base plate and overlying at least a portion of the hollow fluid delivery needle, the sealing element comprising: a base section; a retractable body section extending from the base section; a tip section extending from the retractable body section, wherein the retractable body section is between the base section and the tip section; a needle cavity formed in the retractable body section and continuing through the base section to define a needle opening in the base section, the needle cavity sized to receive the hollow fluid delivery needle; a self-sealing slit formed in the tip section to accommodate the hollow fluid delivery needle when the sealing element is in a retracted position; a guide channel in communication with the needle cavity and the self-sealing slit, the guide channel located between an end of the needle cavity and the self-sealing slit wherein the guide channel leads a tip of the hollow fluid delivery needle into the self-sealing slit during retraction of the sealing element; and a needle seal located in the guide channel and positioned between the self-sealing slit and the needle cavity to form a fluid seal around the hollow fluid delivery needle to fluidly separate the needle cavity from the guide channel; and a removable fluid reservoir comprising a fluid delivery port to receive the tip of the hollow fluid delivery needle; wherein: when the removable fluid reservoir is removed from the hollow fluid delivery needle, the retractable body section extends such that the hollow fluid delivery needle is enclosed by the sealing element and such that the self-sealing slit forms a fluid seal to inhibit fluid ingress into the guide channel; and when the removable fluid reservoir is installed on the hollow fluid delivery need