Tracheal couplings and associated systems and methods

The invention claimed is: 1. A tracheal coupling for interfacing between a patient and a gases source, the coupling comprising: a patient port for connecting to a trachea interface in or on a patient; an outlet end; a wall extending between the patient port and the outlet end; an inlet port for receiving an incoming flow of gases from the gases source, the inlet port defining an outflow end, wherein an entirety of the outlet end is spaced from the outflow end along an axis of the wall and is located on an opposite side of the outflow end from the patient port; and a flow restriction to restrict expiratory flow in use to produce PEEP of at least 1 cm H 2 O when flow to the inlet port is 50 liters per minute, the flow restriction located between the outflow end and the outlet end or at the outlet end, the flow restriction comprising an aperture having an area smaller than a cross-sectional area of the outflow end of the inlet port, the flow restriction comprising a blocking element configured to block a portion of the aperture, wherein the blocking element is adjustable to allow adjustment of the portion of the aperture blocked by the blocking element. 2. The tracheal coupling as claimed in claim 1 , in combination with a humidification chamber. 3. The tracheal coupling as claimed in claim 1 , further comprising a pressure relief valve. 4. The tracheal coupling as claimed in claim 1 in combination with the trachea interface, wherein the trachea interface comprises one or more of: a trachea button, a endotracheal tube, a tracheostomy tube, a laryngeal mask. 5. A system for supplying breathing gases to a patient, the system comprising an airflow source including an adjustable flow control, and the tracheal coupling according to claim 1 , wherein the PEEP produced by the coupling can be set by the adjustable flow control of the airflow source. 6. The tracheal coupling as claimed in claim 1 , wherein the outlet end is defined by or within a boundary of the wall. 7. The tracheal coupling as claimed in claim 1 , wherein the blocking element blocks the aperture from an interior of the wall. 8. The tracheal coupling as claimed in claim 1 , wherein the blocking element blocks the aperture from an exterior of the wall. 9. The tracheal coupling as claimed in claim 1 , wherein, during inhalation by the patient, a first portion of the incoming flow flows directly through the aperture and a second portion of the incoming flow flows through the patient port to be inhaled by the patient, and during exhalation by the patient, all of the incoming flow and the expiratory flow combines and the combined flow flows through the aperture. 10. The tracheal coupling as claimed in claim 1 , wherein a jet flow from the inlet port resists the combined flow flowing to the outlet end. 11. The tracheal coupling as claimed in claim 1 , wherein the inlet port is defined by a second wall, at least a portion of the second wall being disposed outside of the wall extending between the patient port and the outlet end. 12. The tracheal coupling as claimed in claim 11 , wherein a part of the second wall is disposed closer to the outlet end than is the outflow end of the inlet port. 13. The tracheal coupling as claimed in claim 1 , wherein the inlet port further comprises an inlet axis that intersects the axis of the wall. 14. The tracheal coupling as claimed in claim 13 , wherein the inlet axis forms an acute angle with a portion of the axis of the wall that extends between the outlet end and the inlet port. 15. The tracheal coupling as claimed in claim 1 , wherein an entirety of gas passing through the patient port and toward the trachea interface is provided by the incoming flow of gases passing through the inlet port. 16. A method of providing breathing gases to a patient comprising: a) attaching the tracheal coupling to a breathing tube of the patient, the tracheal coupling comprising a patient port connected to a trachea interface in or on a patient, an outlet end, a wall extending between the patient port and the outlet end, an inlet port for receiving an incoming flow of gases from a gases source, the inlet port defining an outflow end, wherein an entirety of the outlet end is spaced from the outflow end along an axis of the wall and is located on an opposite side of the outflow end from the patient port and a flow restriction to restrict expiratory flow in use to produce PEEP of at least 1 cm H 2 O when flow to the inlet port is 50 liters per minute, the flow restriction located between the outflow end and the outlet end or at the outlet end, the flow restriction comprising an aperture having an area smaller than a cross-sectional area of the outflow end of the inlet port, the flow restriction comprising a blocking element configured to block a portion of the aperture, wherein the blocking element is adjustable to allow adjustment of the portion of the aperture blocked by the blocking element; b) selecting a flow level for a supply of gases to the coupling to generate a desired amount of PEEP; c) supplying the flow level of gases to the inlet port of the coupling. 17. The method of claim 16 , wherein during inhalation by the patient, a first portion of the incoming flow flows directly through the aperture and a second portion of the incoming flow flows through the patient port to be inhaled by the patient, and during exhalation by the patient, all of the incoming flow and the expiratory flow combines and the combined flow flows through the aperture. 18. A method of providing breathing gases to a patient comprising: a) attaching the tracheal coupling to a breathing tube of the patient, the tracheal coupling comprising a patient port connected to a trachea interface in or on a patient, an outlet end, a wall extending between the patient port and the outlet end, an inlet port for receiving an incoming flow of gases from a gases source, the inlet port defining an outflow end, wherein an entirety of the outlet end is spaced from the outflow end along an axis of the wall and is located on an opposite side of the outflow end from the patient port and a flow restriction to restrict expiratory flow in use to produce PEEP of at least 1 cm H 2 O when flow to the inlet port is 50 liters per minute, the flow restriction located between the outflow end and the outlet end or at the outlet end, the flow restriction comprising an aperture having an area smaller than a cross-sectional area of the outflow end of the inlet port, the flow restriction comprising a blocking element configured to block a portion of the aperture, wherein the blocking element is adjustable to allow adjustment of the portion of the aperture blocked by the blocking element; b) adjusting the blocking element for the coupling according to an expected flow of gases and a desired amount of PEEP, c) supplying a flow of gases to the inlet port of the coupling. 19. The method of claim 18 , wherein, during inhalation by the patient, a first portion of the incoming flow flows directly through the aperture and a second portion of the incoming flow flows through the patient port to be inhaled by the patient, and during exhalation by the patient, all of the incoming flow and the expiratory flow combines and the combined flow flows through the aperture.