Packer assembly with sealing bodies

We claim: 1. A packer assembly comprising: an expandable inner packer member having an outer surface; one or more sealing bodies wherein a first sealing body is positioned external to and non-integral with the expandable inner packer member, the first sealing body having an axial length and at least one sampling port providing fluid communication to the packer assembly wherein the first sealing body is movable from a retracted position radially outward to an expanded position as the expandable inner packer member moves radially outward, and wherein the first sealing body is not expandable; and a release agent disposed between the outer surface of the inner packer member and one or more of the sealing bodies, the release agent allowing the one or more of the sealing bodies to detach from the inner packer member. 2. The packer assembly of claim 1 wherein the expandable inner packer member comprises an inflatable bladder that radially expands upon receipt of a predetermined amount of fluid. 3. The packer assembly of claim 1 further comprising a second sealing body non-integral with the expandable inner packer member and the first sealing body. 4. The packer assembly of claim 3 wherein the first sealing body and the second sealing body are separated by a radial distance at the expanded position. 5. The packer assembly of claim 3 wherein the second sealing body has a sampling port located at a different axial position than the at least one sampling port of the first sealing body. 6. The packer assembly of claim 3 wherein the first sealing body is replaceable without replacement of the second sealing body. 7. The packer assembly of claim 1 wherein the first sealing body is made of an elastomeric material sealable against a wall of a wellbore or casing within a wellbore. 8. The packer assembly of claim 1 further comprising a flowline within the first sealing body and in fluid communication with the at least one sampling port such that at least a portion of formation fluid received from the sampling port flows into the flowline. 9. The packer assembly of claim 1 wherein the first sealing body has at least two sampling ports separated by an axial distance. 10. The packer assembly of claim 1 wherein the first sealing body is replaceable without replacement of the expandable inner packer member. 11. The packer assembly of claim 1 further comprising: grooves in the outer surface of the expandable inner packer member, the sealing bodies being disposed in the grooves. 12. A method comprising: deploying a packer assembly into a wellbore, the packer assembly having an inflatable packer member within a plurality of sealing bodies, at least one of the plurality of sealing bodies separable from the other sealing bodies, detached from the inflatable packer member and having a sampling port providing fluid communication between the wellbore and the packer assembly, and wherein each of the plurality of sealing bodies is not expandable and wherein the packer assembly further comprises a release agent disposed between an outer surface of the inflatable packer member and one or more of the sealing bodies, the release agent allowing the one or more of the sealing bodies to detach from the inflatable packer member; inflating the inflatable packer member to move the plurality of sealing bodies against a wall of a wellbore to create an annular seal to substantially prevent fluid communication between an area above the packer assembly and an area below the packer assembly; and drawing formation fluid into the packer assembly via the sampling port. 13. The method of claim 12 wherein the inflating the inflatable packer member creates a gap between at least two of the plurality of sealing bodies and further wherein the inflating the inflatable packer member comprises at least partially filling the gap with the inflatable packer member. 14. The method of claim 12 further comprising transporting the formation fluid from the sampling port via a flowline within one of the plurality of sealing bodies. 15. The method of claim 14 wherein the flowline has an aperture providing fluid communication between the flowline and the sampling port. 16. The method of claim 12 wherein a first sealing body of the plurality of sealing bodies has a first sampling port and a second sampling port spaced axially from the first sampling port. 17. The method of claim 16 wherein a second sealing body of the plurality of sealing bodies has a sampling port that is radially unaligned with the first and the second sampling ports of the first sealing body. 18. The method of claim 17 further comprising drawing formation fluid into the sampling ports of the first sealing body and the sampling port of the second sealing body such that the sampling port of the second sealing body receives less mud contaminants than the sampling port of the first sealing body. 19. A packer assembly comprising: an expandable inner packer member having an outer surface; and sealing bodies disposed on the outer surface of the expandable inner packer member, each of the sealing bodies having an axial length and at least one sampling port providing fluid communication to the packer assembly, and each of the sealing bodies separable from each other, and each of the sealing bodies is not expandable; and a release agent disposed between the outer surface of the inner packer member and one or more of the sealing bodies, the release agent allowing the one or more of the sealing bodies to detach from the inner packer member.