Cap design for pharmaceutical container closure systems

What is claimed is: 1. A cap for a sealing a pharmaceutical glass container, the cap comprising: a cap skirt comprising an annular body and a crimp region at a first end of the annular body; and a top cover coupled to a second end of the cap skirt, the top cover comprising a solid disc or annular disc; wherein: the crimp region comprises a crimpable metal; the annular body of the cap skirt comprises a coefficient of thermal expansion (CTE) greater than a CTE of a metal consisting of aluminum, a stiffness greater than or equal to 2 times a stiffness of the crimp region, or both; the CTE refers to the CTE over a temperature range of from −200° C. to 300° C.; and stiffness is defined as a Young's modulus times a cross-sectional area divided by an axial length. 2. The cap of claim 1 , wherein the CTE of the annular body of the cap skirt is greater than the CTE of the metal consisting of aluminum by a difference of at least 100×10 −7 K −1 . 3. The cap of claim 1 , wherein the CTE of the annular body of the cap skirt is greater than or equal to 260×10 −7 K −1 . 4. The cap of claim 1 , wherein the CTE of the annular body of the cap skirt is greater than or equal to 260×10 −7 K −1 at a temperature less than or equal to −45° C. 5. The cap of claim 1 , wherein the stiffness of the annular body of the cap skirt is greater than or equal to 2 times a stiffness of a comparable cap skirt annular body consisting of aluminum metal and having a radial thickness of 0.19 mm and identical axial length. 6. The cap of claim 1 , further comprising a stopper, wherein the stiffness of the annular body of the cap skirt is within 30% of a stiffness of the stopper in a compressed state at temperatures less than or equal to the glass transition temperature T g of the stopper. 7. The cap of claim 1 , wherein the annular body of the cap skirt has a Young's modulus of greater than or equal to 140 GPa, a radial thickness greater than or equal to 0.24 mm, or both. 8. The cap of claim 1 , wherein the CTE of the annular body of the cap skirt is greater than 260×10 −7 K −1 and the stiffness of the annular body is greater than 2 times a stiffness of a comparable cap skirt annular body consisting of aluminum metal and having a radial thickness of 0.19 mm and identical axial length. 9. The cap of claim 1 , wherein the crimpable metal of the crimp region comprises aluminum or an aluminum alloy. 10. The cap of claim 1 , wherein the annular body of the cap skirt comprises a metal or metal alloy having a CTE greater than the CTE of a metal consisting of aluminum. 11. The cap of claim 1 , wherein the cap skirt comprises a polymer-metal composite structure. 12. The cap of claim 11 , wherein the annular body of the cap skirt comprises a polymer material and the crimp region comprises the crimpable metal coupled to the polymer material of the annular body. 13. The cap of claim 12 , wherein the polymer material of the annular body has a CTE of from 260×10 −7 K −1 to 3,000×10 −7 K −1 . 14. The cap of claim 12 , wherein the annular body of the cap skirt has a stiffness that is greater than or equal to 80% of a stiffness of a comparable cap skirt annular body consisting of aluminum metal and having a radial thickness of 0.19 mm and identical axial length. 15. A sealed pharmaceutical container comprising: a glass container comprising a shoulder, a neck extending from the shoulder, and a flange extending from the neck, the flange comprising: an underside surface extending from the neck; an outer surface extending from the underside surface, the outer surface defining an outer diameter of the flange; and a sealing surface extending between the outer surface and an inner surface defining an opening in the sealed pharmaceutical container; a sealing assembly comprising a stopper extending over the sealing surface of the flange of the glass container and covering the opening, and the cap of claim 1 , wherein: the cap secures the stopper to the flange; and the sealing assembly maintains a helium leakage rate of the sealed pharmaceutical container of less than or equal to 1.4×10 −6 cm 3 /s as the sealed pharmaceutical container is cooled to a temperature of less than or equal to −45° C. 16. The sealed pharmaceutical container of claim 15 , wherein the stopper has a glass transition temperature (T g ) that is greater than or equal to −70° C. and less than or equal to −45° C. 17. The sealed pharmaceutical container of claim 15 , wherein a glass transition temperature of the stopper is less than or equal to −75° C. 18. The sealed pharmaceutical container of claim 15 , wherein the sealing assembly maintains the helium leakage rate of the sealed pharmaceutical container of less than or equal to 1.4×10 −6 cm 3 /s as the sealed pharmaceutical container is cooled to a temperature of less than or equal to −80° C. 19. The sealed pharmaceutical container of claim 15 , wherein the sealing assembly maintains the helium leakage rate of the sealed pharmaceutical container of less than or equal to 1.4×10 −6 cm 3 /s as the sealed pharmaceutical container is cooled to a temperature of less than or equal to −100° C. 20. The sealed pharmaceutical container of claim 15 , wherein the sealing assembly maintains the helium leakage rate of the sealed pharmaceutical container of less than or equal to 1.4×10 −6 cm 3 /s as the sealed pharmaceutical container is cooled to a temperature of less than or equal to −120° C. 21. The sealed pharmaceutical container of claim 15 , wherein the glass container is constructed of a glass composition having a coefficient of thermal expansion that is greater than or equal to 0 and less than or equal to 70×10 −7 K −1 . 22. The sealed pharmaceutical container of claim 15 , wherein an absolute value of the difference between the CTE of the cap skirt and a CTE of the stopper is less than or equal to 50×10 −7 K −1 . 23. The sealed pharmaceutical container of claim 15 , wherein the CTE of the annular body of the cap skirt is greater than a CTE of the stopper. 24. The sealed pharmaceutical container of claim 15 , wherein the annular body of the cap skirt has a stiffness that is within 30% of a stiffness of the compressed rubber stopper at temperatures less than or equal to the glass transition temperature T g of the stopper. 25. The sealed pharmaceutical container of claim 15 , wherein the sealed pharmaceutical container maintains the helium leakage rate at is less than or equal to 1.4×10 −6 cm 3 /s as it is cooled to the temperature at a rate of less than or equal to 5° C. per minute. 26. The sealed pharmaceutical container of claim 25 , wherein the cap maintains continuous compression of the stopper against the flange of the glass container as the sealed pharmaceutical container is cooled. 27. A method of sealing a sealed pharmaceutical container, the method comprising: providing a pharmaceutical container comprising a shoulder, a neck extending from the shoulder and a flange extending from the neck, the flange comprising: an underside surface extending from the neck; an outer surface extending from the underside surface and defining an outer diameter of the flange; and an upper sealing surface extending from the outer surface to an inner surface of the sealed pharmaceutical container, wherein the inner surface defines an opening; inserting a pharmaceutical composition into the pharmaceutical contai