Mattress assembly with reduced heat index

What is claimed is: 1 . A mattress assembly, comprising: a moisture management layer comprising a moisture wicking material; a thermally conductive layer underlying and in directed contact with the upper foam layer; and a spacer layer underlying and in direct contact with the thermally conductive layer, wherein the spacer layer comprises a three-dimensional polymeric fibrous structure including substantially planar top and bottom surfaces and substantially vertically oriented fibers extending between the planar top and bottom surfaces. 2 . The mattress assembly of claim 1 , wherein the thermally conductive layer is perforated. 3 . The mattress assembly of claim 2 , wherein the thermally conductive layer comprises foil or a composite having a thickness less than 0.0625 inches. 4 . The mattress assembly of claim 1 , wherein the thermally conductive layer comprises foam and thermally conductive particles embedded therein. 5 . The mattress assembly of claim 4 , wherein the thermally conductive particles comprise carbon, graphene, graphite, platinum, aluminum, diamond, gold, silver, silicon, tin, copper, iron, nickel, chromium, vanadium, tungsten, or combinations thereof. 6 . The mattress assembly of claim 5 , wherein the thermally conductive particles are combined with oxygen, halogens, carbon, or silicon. 7 . The mattress assembly of claim 1 , further comprising an uppermost foam layer overlying the moisture management layer, wherein the uppermost foam layer comprises a viscoelastic foam layer. 8 . The mattress assembly of claim 1 , wherein the spacer layer has a uniform thickness of about 0.125 inches to about 6 inches. 9 . The mattress assembly of claim 1 , wherein the moisture management layer, the thermally conductive layer and the spacer layer overly one or more foam layers. 10 . The mattress assembly of claim 1 , wherein the moisture management layer, the thermally conductive layer and the spacer layer overly an innerspring mattress core. 11 . The mattress assembly of claim 1 , wherein the moisture management layer is a non-woven porous fabric layer having a thickness less than 0.1 inches. 12 . A mattress assembly, comprising: a first high airflow foam layer configured to provide an air flow equal to or greater than 6 ft 3 /min; a perforated thermally conductive layer proximate to a sleeping surface; and a second high airflow foam layer configured to provide an air flow equal to or greater than 6 ft 3 /min, wherein the thermally conductive layer is in direct contact with and is sandwiched between the first and second high airflow layers. 13 . The mattress assembly of claim 12 , wherein the perforated thermally conductive foam layer comprises foil or a composite having a thickness less than 0.0625 inches. 14 . The mattress assembly of claim 12 , wherein the perforated thermally conductive foam layer comprises a plurality of geometric openings arranged in rows and columns, wherein a slit is formed between adjacent geometric openings in a linear direction oriented along a length dimension of the mattress assembly. 15 . The mattress assembly of claim 12 , wherein the perforated thermally conductive foam layer comprises a plurality of geometric openings arranged in rows and columns, wherein a slit is formed between adjacent geometric openings in a linear direction oriented along a width dimension of the mattress assembly. 16 . The mattress assembly of claim 12 , wherein the thermally conductive layer comprises foam and thermally conductive particles embedded therein. 17 . The mattress assembly of claim 16 , wherein the thermally conductive particles comprise carbon, graphene, graphite, platinum, aluminum, diamond, gold, silver, silicon, tin, copper, iron, nickel, chromium, vanadium, tungsten, or combinations thereof. 18 . The mattress assembly of claim 16 , wherein the thermally conductive particles are combined with oxygen, halogens, carbon, or silicon. 19 . The mattress assembly of claim 12 , wherein the slit is configured to open in response to an applied load on the mattress assembly. 20 . The mattress assembly of claim 12 , wherein the perforated thermally conductive layer is adhesively coupled with patterned adhesive on the second high airflow layer, wherein the patterned adhesive includes a linear spaced apart and parallel application of an adhesive extending from side-to-side to prevent binding of the slit during use. 21 . The mattress assembly of claim 12 , wherein the perforated thermally conductive layer is adhesively coupled with patterned adhesive on the second high airflow layer, wherein the patterned adhesive includes a linear spaced apart and parallel application of an adhesive extending from head end to foot end to prevent binding of the slit during use. 22 . A process for reducing heat index in a mattress assembly comprising: sandwiching a perforated thermally conductive layer between first and second foam layers, wherein the first foam layer has a moderate airflow of 2 to 5 ft 3 /min or a high air flow of at least 6 ft 3 /min or greater, and the second foam layer has a high air flow of at least 6 ft 3 /min or greater; and providing the sandwiched perforated thermally conductive layer proximate to a sleeping surface within a mattress assembly, wherein the perforated thermally conductive layer comprises a thermally conductive material having a thermal conductivity greater than 5 watts per meters-Kelvin. 23 . The process of claim 22 , wherein the perforated thermally conductive foam layer comprises foil or a composite having a thickness less than 0.0625 inches. 24 . The mattress assembly of claim 22 , wherein the perforated thermally conductive foam layer comprises a plurality of geometric openings arranged in rows and columns, wherein a slit is formed between adjacent geometric openings in a linear direction oriented along a length dimension or a width dimension of the mattress assembly. 25 . The mattress assembly of claim 22 , wherein the thermally conductive layer comprises foam and thermally conductive particles embedded therein. 26 . A mattress assembly, comprising: a first moderate airflow foam layer configured to provide an air flow equal to or greater than 2 ft 3 /min to 5 ft 3 /min; a perforated thermally conductive layer proximate to a sleeping surface; and a second high airflow foam layer configured to provide an air flow equal to or greater than 6 ft 3 /min, wherein the thermally conductive layer is in direct contact with and is sandwiched between the first and second high airflow layers. 27 . The mattress assembly of claim 26 , wherein the perforated thermally conductive foam layer comprises foil or a composite having a thickness less than 0.0625 inches. 28 . The mattress assembly of claim 26 , wherein the perforated thermally conductive foam layer comprises a plurality of geometric openings arranged in rows and columns, wherein a slit is formed between adjacent geometric openings in a linear direction oriented along a length dimension or a width dimension of the mattress assembly. 29 . The mattress assembly of claim 26 , wherein the thermally conductive layer comprises foam and thermally conductive particles embedded therein. 30 . The mattress assembly of claim 29 , wherein the thermally conductive particles comprise carbon, gra