Method of manufacturing a fluid pressure reduction device

The invention claimed is: 1. A fluid pressure reduction device for use in a fluid flow control device, the fluid pressure reduction device comprising: a monolithic body having an inner wall and an outer wall spaced radially outward of the inner wall, the monolithic body extending along a longitudinal axis; and a plurality of flow paths defined between the inner wall and the outer wall of the monolithic body, each of the flow paths comprising an inlet aperture oriented along an inlet axis substantially perpendicular to the longitudinal axis, an outlet aperture oriented along an outlet axis substantially perpendicular to the longitudinal axis, and an intermediate section extending between the inlet and outlet apertures, wherein at least a majority of each intermediate section extends in a direction that is substantially parallel to the longitudinal axis, wherein the intermediate section of a first flow path of the plurality of flow paths is at least partially separate from the intermediate section of a second flow path of the plurality of flow paths. 2. The fluid pressure reduction device of claim 1 , wherein the monolithic body has a length defined between a top end and a bottom end of the monolithic body, and wherein at least the portion of each intermediate section extending in the vertical direction travels at least a majority of the length of the monolithic body. 3. The fluid pressure reduction device of claim 1 , wherein the first flow path has a first length and the second flow path has a second length different from the first length. 4. The fluid pressure reduction device of claim 1 , further comprising a plurality of pressure restrictions defined in the intermediate section. 5. The fluid pressure reduction device of claim 1 , wherein each intermediate section comprises a first vertical portion connected to the inlet aperture and substantially parallel to the longitudinal axis, a second vertical portion that is connected to the outlet aperture and substantially parallel to the longitudinal axis, and a curved portion that connects the first and second vertical portions. 6. The fluid pressure reduction device of claim 5 , wherein the inlet and outlet apertures of each of the flow paths are positioned closer to a bottom end of the monolithic body than a top end of the monolithic body, and wherein the curved portion of each intermediate section is positioned closer to the top end of the monolithic body than the bottom end of the monolithic body. 7. The fluid pressure reduction device of claim 1 , wherein each intermediate section comprises a first vertical portion that is connected to the inlet aperture and substantially parallel to the longitudinal axis, a second vertical portion that is connected to the outlet aperture and substantially parallel to the longitudinal axis, and a plurality of intermediate apertures that connect the first and second vertical portions and are substantially perpendicular to the longitudinal axis. 8. The fluid pressure reduction device of claim 7 , wherein the inlet aperture of each of the flow paths has a first diameter, the intermediate apertures of each intermediate section each have a second diameter larger than the first diameter, and the outlet aperture of each of the flow paths has a third diameter larger than the second diameter. 9. The fluid pressure reduction device of claim 1 , wherein a first intermediate section has a first length and a second intermediate section has a second length greater than the first length. 10. The fluid pressure reduction device of claim 1 , wherein at least a majority of each of the flow paths is substantially parallel to the longitudinal axis. 11. The fluid pressure reduction device of claim 1 , wherein the intermediate section of the first flow path is entirely separate from the intermediate section of the second flow path. 12. A fluid pressure reduction device for use in a fluid flow control device, the fluid pressure reduction device comprising: a monolithic body extending along a longitudinal axis and comprising a central opening and a perimeter surrounding the central opening, the perimeter having a top end and a bottom end opposite the top end; a plurality of flow paths defined in the perimeter of the monolithic body, each of the flow paths comprising an inlet aperture oriented along an inlet axis substantially perpendicular to the longitudinal axis, an outlet aperture oriented along an outlet axis substantially perpendicular to the longitudinal axis, and an intermediate section connecting the inlet and outlet apertures, wherein each intermediate section extends between the bottom end of the monolithic body and the top end of the monolithic body, wherein a majority of each of the flow paths extends in a direction that is substantially parallel to the longitudinal axis, and wherein the intermediate section of a first flow path of the plurality of flow paths is at least partially separate from the intermediate section of a second flow path of the plurality of flow paths. 13. The fluid pressure reduction device of claim 12 , wherein the perimeter is defined by an inner wall and an outer wall spaced radially outward of the inner wall, and wherein the flow paths are defined between the inner wall and the outer wall. 14. The fluid pressure reduction device of claim 12 , wherein the first flow path has a first length and a second flow path has a second length different from the first length. 15. The fluid pressure reduction device of claim 12 , wherein each intermediate section comprises a first vertical portion that is connected to the inlet aperture and substantially parallel to the longitudinal axis, a second vertical portion that is connected to the outlet section and substantially parallel to the longitudinal axis, and a curved portion that connects the first and second vertical portions. 16. The fluid pressure reduction device of claim 15 , wherein the inlet and outlet apertures of each of the flow paths are positioned closer to the bottom end of the monolithic body than the top end of the monolithic body, and wherein the curved portion of each intermediate section is positioned closer to the top end of the monolithic body than the bottom end of the monolithic body. 17. The fluid pressure reduction device of claim 12 , wherein each intermediate section comprises a first vertical portion that is connected to the inlet aperture and substantially parallel to the longitudinal axis, a second vertical portion that is connected to the outlet aperture and substantially parallel to the longitudinal axis, and a plurality of intermediate apertures that connect the first and second vertical portions and are substantially perpendicular to the longitudinal axis. 18. The fluid pressure reduction device of claim 17 , wherein the inlet aperture of each of the flow paths has a first diameter, each of the intermediate apertures has a second diameter larger than the first diameter, and the outlet aperture of each of the flow paths has a third diameter larger than the second diameter. 19. A method of manufacturing, comprising: creating a fluid pressure reduction device using an additive manufacturing technique, the creating comprising: forming a monolithic body having an inner wall and an outer wall spaced radially outward of the inner wall, the monolithic body extending along a longitudinal axis; and forming a plurality of flow paths in the monolithic body between the inner wall and the outer wall of the body, each of the flow paths comprising an inlet aperture oriented along an inlet axis subst