Vial access cap and syringe with gravity-assisted valve

What is claimed is: 1. A vial access cap comprising: a connector having an opening for providing access to a fluid pathway; a canella extending into an interior of a vial, the canella having a fluid lumen operatively coupled to the fluid pathway and a gas lumen; a gravity-assisted valve comprising a valve body defining an elongated valve cavity, a first port, a second port operatively coupled to the gas lumen, and a valve member movable between a sealable end of the elongated valve cavity proximal to the first port and a non-sealable end of the elongated valve cavity proximal to the second port; and a gas pathway extending from an interstitial space of the connector to the first port and from the second port to an interior volume of the vial. 2. The vial access cap of claim 1 , wherein the opening of the connector further provides sealable access to the gas pathway, and the first port of the gravity-assisted valve is operatively coupled to the gas pathway. 3. The vial access cap of claim 1 , wherein the valve member comprises a substantially spherical element. 4. The vial access cap of claim 1 , wherein the connector defines a longitudinal axis, and both the valve body and the canella are generally aligned in parallel with the longitudinal axis. 5. The vial access cap of claim 1 , wherein the elongated valve cavity includes an interior wall having one or more longitudinally extending channels. 6. The vial access cap of claim 5 , wherein the elongated valve cavity further includes an interior wall disposed on the non-sealable end having one or more laterally extending channels that are orthogonally aligned with respect to the one or more longitudinally extending channels. 7. The vial access cap of claim 2 , wherein one or more filters are disposed within the gas pathway. 8. The vial access cap of claim 2 , wherein a portion of the gas pathway includes an interstitial space of the connector. 9. The vial access cap of claim 8 , wherein the gravity-assisted valve is configured to allow bidirectional gaseous communications between the gas lumen and the interstitial space of the connector when the vial access cap is oriented with the opening of the connector pointing in a generally upward direction. 10. The vial access cap of claim 8 , wherein the gravity-assisted valve is configured to allow gaseous communications from the interstitial space of the connector to the gas lumen when the vial access cap is oriented with the opening of the connector pointing in a generally downward direction. 11. The vial access cap of claim 8 , wherein the gravity-assisted valve is configured to prohibit gaseous communications from the gas lumen to the interstitial space of the connector when the vial access cap is oriented with the opening of the connector pointing in a generally downward direction. 12. A syringe comprising: a connector body section defining a longitudinal axis and comprising, a tip portion for fluid ingress and egress; and a gravity-assisted valve comprising a valve body defining an elongated valve cavity generally aligned with the longitudinal axis, a first port operatively coupled to the tip portion, a second port, and a valve member movable between a sealable end of the elongated valve cavity proximal to the first port and a non-sealable end of the elongated valve cavity proximal to the second port; and a barrel section generally aligned with the longitudinal axis and slidably engaged with a plunger, the barrel section defining a fluid reservoir within a volume of the barrel section controllable by an end of the plunger proximal the connector body section, the fluid reservoir operatively coupled to the second port of the gravity-assisted valve, wherein the sealable end of the elongated valve cavity is proximal to the fluid reservoir and the non-sealable end is distal to the fluid reservoir. 13. The syringe of claim 12 , wherein the gravity-assisted valve is configured to allow bidirectional fluid communications between the tip portion and the fluid reservoir when the syringe is oriented with the tip portion pointing in a generally downward direction. 14. The syringe of claim 12 , wherein the gravity-assisted valve is configured to allow fluid communication from the tip portion to the fluid reservoir when the syringe is oriented with the tip portion pointing in a generally upward direction. 15. The syringe of claim 12 , wherein the gravity-assisted valve is configured to prohibit fluid communication from the fluid reservoir to the tip portion when the syringe is oriented with the tip portion pointing in a generally upward direction. 16. The syringe of claim 12 , further comprising a gas pathway extending from an interstitial space of the connector body section to an interior volume of the plunger defining a gas reservoir. 17. The syringe of claim 12 , wherein the tip portion is non-tapered and configured for sealed engagement with a female luer fitting. 18. A system for providing fluid communications, the system comprising: a vial access cap affixed to a vial, the vial access cap comprising, a connector having an opening for providing access to a fluid pathway and sealable access to a gas pathway; a canella extending into an interior of a vial, the canella having a fluid lumen operatively coupled to the fluid pathway and a gas lumen; and a first gravity-assisted valve comprising a first valve body defining a first elongated valve cavity, a first port of the first gravity-assisted valve operatively coupled to the gas pathway, a second port of the first gravity-assisted valve operatively coupled to the gas lumen, and a first valve member movable between a sealable end of the first elongated valve cavity proximal to the first port of the first gravity-assisted valve and a non-sealable end of the first elongated valve cavity proximal to the second port of the first gravity-assisted valve; and a syringe comprising, a connector body section defining a longitudinal axis and comprising, a tip portion for fluid ingress and egress; and a second gravity-assisted valve comprising a second valve body defining a second elongated valve cavity generally aligned with the longitudinal axis, a first port of the second gravity-assisted valve operatively coupled to the tip portion, a second port of the second gravity-assisted valve, and a second valve member movable between a sealable end of the second elongated valve cavity proximal to the first port of the second gravity-assisted valve and a non-sealable end of the second elongated valve cavity proximal to the second port of the second gravity-assisted valve; and a barrel section generally aligned with the longitudinal axis and slidably engaged with a plunger, the barrel section defining a fluid reservoir within a volume of the barrel section controllable by an end of the plunger proximal the connector body section, the fluid reservoir operatively coupled to the second port of the second gravity-assisted valve, wherein the tip portion of the syringe is removably coupled to the opening of the vial access cap, and the fluid pathway and the gas pathway of the vial access cap are operatively coupled to a fluid pathway and a gas pathway of the syringe. 19. The system of claim 18 , wherein the gas pathway of the vial access cap and the gas pathway of the syringe are configured for one of a venting or a non-venting arrangement.