Hearing device having a shell that includes a compressible region and methods of manufacturing the same

What is claimed is: 1. A hearing device comprising: an in-the-ear (ITE) component comprising a shell that is custom formed of a soft material by additive manufacturing to fit at least partially within an ear canal of a user, wherein: the shell includes a compressible region provided along an outer surface of the shell that is configured to contact a wall of the ear canal; when the shell is viewed in cross section, the compressible region is provided on only one side of a longitudinal axis of the shell; and the compressible region is compressible due to a cavity that is located within the shell in the compressible region and that is configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user. 2. The hearing device of claim 1 , wherein the compressible region is located on the shell such that, when the ITE component is worn by the user, the compressible region contacts a portion of the ear canal of the user that changes shape with jaw movement of the user. 3. The hearing device of claim 1 , wherein the compressible region is further compressible due to an additional cavity that is located within the shell in the compressible region and that is configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user. 4. The hearing device of claim 1 , wherein a support structure is provided within the cavity. 5. The hearing device of claim 4 , wherein the support structure includes at least one of a lattice support structure or a tree-like support structure. 6. The hearing device of claim 5 , wherein: the support structure includes the lattice support structure; and the lattice support structure is provided on an inner surface of the cavity and only extends partially into the cavity to stiffen the inner surface of the cavity. 7. The hearing device of claim 1 , further comprising a housing including one or more components, wherein: the shell includes an elongate receptacle that extends along a longitudinal length of the shell; the cavity is open on one end to the elongate receptacle; and the housing is positioned within the elongate receptacle. 8. The hearing device of claim 7 , wherein the cavity is sealed by the housing. 9. The hearing device of claim 7 , wherein the cavity is sealed by a sleeve that is provided within the elongate receptacle and that is configured to receive the housing. 10. A semifinished shell for an in-the-ear (ITE) component of a hearing device, the semifinished shell comprising: a compressible region provided along an outer surface of the semifinished shell that is configured to contact a wall of an ear canal of a user of the hearing device; a cavity located within the semifinished shell in the compressible region, the cavity configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user; an inlet connecting the cavity to an exterior of the semifinished shell; and an outlet connecting the cavity to the exterior of the semifinished shell, wherein: when the semifinished shell is viewed in cross section, the compressible region is provided on only one side of a longitudinal axis of the semifinished shell; and the semifinished shell is custom formed of a soft material by additive manufacturing to fit at least partially within the ear canal of the user. 11. The semifinished shell of claim 10 , wherein the compressible region is located on the semifinished shell such that, when the ITE component is worn by the user, the compressible region contacts a portion of the ear canal of the user that changes shape with jaw movement of the user. 12. The semifinished shell of claim 10 , wherein: the compressible region is further compressible due to an additional cavity that is located within the semifinished shell in the compressible region and that is configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user; and the semifinished shell further comprises: an additional inlet connecting the additional cavity to the exterior of the semifinished shell; and an additional outlet connecting the additional cavity to the exterior of the semifinished shell. 13. The semifinished shell of claim 10 , further comprising an elongate receptacle that extends along a longitudinal length of the semifinished shell, wherein the inlet connects to the elongate receptacle. 14. The semifinished shell of claim 10 , wherein a support structure is provided within the cavity. 15. The semifinished shell of claim 14 , wherein the support structure includes at least one of a lattice support structure or a tree-like support structure. 16. The semifinished shell of claim 15 , wherein: the support structure includes the lattice support structure; and the lattice support structure is provided on an inner surface of the cavity and only extends partially into the cavity to stiffen the inner surface of the cavity. 17. A method comprising: accessing dimensions of an ear canal of a user of a hearing device; generating, based on the dimensions of the ear canal of the user, a three-dimensional (3D) model of a shell of an in-the-ear (ITE) component of the hearing device that is configured to fit at least partially within the ear canal of the user; and additively manufacturing, based on the 3D model and using a soft material, the shell of the ITE component of the hearing device, wherein: the shell includes a compressible region provided along an outer surface of the shell that is configured to contact a wall of the ear canal; when the shell is viewed in cross section, the compressible region is provided on only one side of a longitudinal axis of the shell; and the compressible region is compressible due to a cavity that is located within the shell in the compressible region and that is configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user. 18. The method of claim 17 , wherein the additively manufacturing of the shell comprises: forming an inlet connecting the cavity to an exterior of the shell; forming outlet connecting the cavity to the exterior of the shell; removing excess material from the cavity by way of the outlet; and sealing the inlet and the outlet. 19. The method of claim 18 , wherein the removing of the excess material from the cavity includes injecting pressurized air into the inlet to expel the excess material out of the cavity through the outlet. 20. The method of claim 18 , wherein: the additively manufacturing of the shell includes forming a support structure on an inner surface of the cavity; and the support structure extends only partially into the cavity to stiffen the inner surface of the cavity. 21. A shell for an in-the-ear (ITE) component of a hearing device, the shell comprising: a compressible region provided along an outer surface of the shell that is configured to contact a wall of an ear canal of a user of the hearing device; and a cavity located within the shell in the compressible region, the cavity configured to compress when the ear canal deforms while the ITE component is inserted within the ear canal of the user, wherein: when the shell is viewed in cross section, the compressible region is provided on only one side of a longitudinal axis of the shell; and the shell is custom formed of a soft material by additive manufacturing to fit at least partiall