Syringe device, system and method for delivering ozone gas
Abstract
In accordance with at least one exemplary embodiment, a syringe device, method and system for delivering a therapeutic amount of ozone are disclosed. A sterility case can enclose a syringe portion and can maintain sterility while the syringe device is interfaced to an ozone generator. A valvably-controlled fluid channel can extend from the barrel of the syringe through the case. Conducting elements can be attached to the case and can breach the case. The conductive elements can be connected to electrodes. The electrodes can be attached to the syringe. The syringe portion can be filled with oxygen gas via the valvably-controlled fluid channel. An electric current can be provided to the conductive elements from an ozone generator resulting in a corona discharge from at least one electrode. A therapeutic amount of ozone gas can be produced from the oxygen gas and the syringe delivered into the sterile field without compromise.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A syringe device, comprising:
a syringe having a plunger slidably engaged with a barrel, the barrel and the plunger cooperating to define a gas chamber; a case for providing substantial sterility, the case including an opening and configured to enclose the syringe;
a fluid channel penetrates through the opening of the case when the case operatively encloses the syringe, the fluid channel in fluid communication with the gas chamber;
wherein the syringe and case are configured to interface with an ozone conversion unit, and the case maintains sterility of the syringe while interfaced with the ozone conversion unit to effectuate a corona discharge and produce an amount of ozone gas from an amount of oxygen gas within the gas chamber.
2 . The syringe device of claim 1 , further comprising:
a sterility cap having a portion that is configured to be inserted into the opening of the case and allows for the fluid channel to extend through the sterility cap when the case operatively encloses the syringe.
3 . The syringe device of claim 1 , further comprising:
a filter in fluid communication with the syringe, the filter within the case when the case operatively encloses the syringe.
4 . The syringe device of claim 1 , further comprising:
a first electrode and a second electrode attached to, or contacting, the syringe; and two or more conducting elements on the case, the two or more conducting elements including a first conducting element and a second conducting element configured to directly or indirectly contact the first electrode and the second electrode, respectively.
5 . The syringe device of claim 4 , wherein the first electrode is one of a wire electrode and a foil electrode and the second electrode is one of a wire electrode and a foil electrode.
6 . The syringe device of claim 4 , wherein at least one of the first electrode and the second electrode is in a breaching relationship with the barrel.
7 . The syringe device of claim 4 , wherein the first conducting element and the second conducting element breach the case, the first conducting element directly contacting the first electrode and the second conducting element directly contacting the second electrode.
8 . The syringe device of claim 6 wherein at least one of the first conducting element and the second conducting element have a projection in a breaching relationship with the case, the projection for contacting one of the first electrode and the second electrode.
9 . The syringe device of claim 1 wherein the case includes a removable sterility cap permitting the syringe to be extracted after a desired ozone concentration is produced.
10 . The syringe device of claim 1 wherein the case is rigid or flexible.
11 . The syringe device of claim 1 wherein the case is tubular.
12 . The syringe device of claim 1 wherein the ozone conversion unit uses ultraviolet light to measure an amount of ozone.
13 . The syringe device of claim 1 wherein the syringe device is configured to interface with an oxygen concentrator, or a tank of substantially pure oxygen.
14 . The syringe device of claim 1 wherein the case and the barrel allow for ultraviolet light transmission from the ozone generator to reach an inside and through the gas chamber.
15 . The syringe device of claim 1 wherein at least one element springs out when the syringe device is removed to impede reassembly.
16 . The syringe device of claim 1 , wherein the fluid channel is a valvably-controlled fluid channel extending from the barrel and defined through at least one of: one or more stopclock valves; one or more filters; one or more luer fittings; one or more O-rings; one or more sterility caps; and any combination thereof.
17 . The syringe device of claim 4 , wherein an electrical current is passed from the first and second conducting elements to the first and second electrodes.
18 . A syringe device, comprising:
a syringe having a plunger slidably engaged with a barrel, the barrel and the plunger cooperating to define a gas chamber; a case for providing substantial sterility, the case including an opening and configured to enclose the syringe; a fluid channel penetrates through the opening of the case when the case operatively encloses the syringe, the fluid channel in fluid communication with the gas chamber
wherein the syringe and case are configured to interface with an ozone conversion unit, and the case maintains sterility of the syringe while interfaced with the ozone conversion unit while the ozone conversion unit uses ultraviolet light to convert an amount of oxygen to an amount of ozone.Cited by (0)
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