DEVICE AND METHOD FOR EXTERNAL URINARY INCONTINENCE TREATMENT FOR MEN

Abstract

The present invention is a device and method for external urinary incontinence treatment for men that can be self-deployed by a patient or by a care giver. Via the device, a urine removal tube is reversible connected to the glans penis of a treated patient for the removal of urine from a treated patient. The device of the present invention is composed of a penis connecting component and a tube connector component. The tube connector component reversibly contact-connects a urine receiving component to the glans penis of a treated patient. The tube connector component is reversibly connected, anchored and fixated in place to the glans penis of the treated patient by the penis connection component. The connection, disconnection and again reconnection of the penis connection component to the glans penis is easy and simple to carry out.’ The connection stabilizes, fixates and adjusts the tightness of the contact-connection between the skin surrounding the orifice of the urethral tract of a treated patient and the urine receiving component. The urine receiving component has spring-like characteristics bestowed by “accordion-like” components that enable a urine leak-free contact-connection while minimizing the discomfort caused to the treated patient.

Claims

1) An external urinary incontinence treatment device for a man patient that reversibly connects to a urine removing tube comprising: a tube connector component and a penis connection component, wherein, said tube connector component comprises: a glans penis stabilizing component and a urine receiving component, wherein, said glans penis stabilizing component is constructed of a hollow dome structure with a hole at the top of the dome and at least two stabilizing sheets connected to the circumference rim of the dome, wherein, said urine receiving component comprises: a first tube, a hollow dome with a hole at its top and a second tube, wherein said hollow dome of said urine receiving component has a hole at its top, wherein, said hollow dome and second tube of urine receiving component have a resilient accordion configuration, wherein said first tube of said urine receiving component is inserted through the hole in said hollow dome of the urine receiving component and connects and communicates freely with the second tube of said urine receiving component, wherein, said penis connection component comprises; at least one connection sheet component and at least one connection sheet protection component, wherein said connection sheet component of said penis connection component, has an adhesive material coated layer side, wherein, said connection sheet protection component is connected to said an adhesive material coated layer side of said connection sheet component, wherein said glans penis stabilizing component and said urine receiving component are connected by inserting said first tube of the urine receiving component into the hole in the a hollow dome structure of the a hollow dome structure of the glans penis stabilizing component, wherein said tube connector component is positioned over the orifice of the urethral tract of said treated patient and the said stabilizing sheets contact of said glans penis stabilizing component contact connect to the skin of the glans penis of the treated patient, wherein, the rim of said second tube of said urine receiving component is contact connected to the skin surrounding the orifice of the urethral tract of said treated patient, wherein said connection sheet protection component of said penis connection component is peeled off said connection sheet component and the adhesive material coated layer side of the said connection sheet component wraps around said tube connector component and reversibly connects in an adjustable connection to the skin of the glans penis of said treated patient, wherein, said reversible adjustable connection of said connection sheet protection component of said penis connection component to the skin of the glans penis of said treated patient, anchors, stabilizes and fixates said tube connector component in its position over said orifice of the urethral tract of said treated patient and contact connects the second tube of said urine receiving component to the skin surrounding the orifice of the urethral tract of said treated patient in a urine leak free connection that minimizes the discomfort caused to the treated patient, wherein, the first tube of the said urine receiving component of said anchored, stabilized and fixated connector component reversibly connects to a urine removing tube.

2) The tube connector component of the external urinary incontinence treatment device of claim 1, wherein the glans penis stabilizing component and the urine receiving component of the tube connector component are produced as a single entity component.

3) The urine receiving component of the tube connector component of the external urinary incontinence treatment device of claim 1, wherein the first tube, the hollow dome and the second tube of the urine receiving component are produced as a single entity component.

4) The tube connector component of the external urinary incontinence treatment device of claim 1, wherein the tube connector component is produced of semi-rigid materials.

5) The penis connection component of the external urinary incontinence treatment device of claim 1, wherein the penis connection component is produced of sheets made of semi-rigid materials.

6) The wherein the connection sheet component of the penis connection component of the external urinary incontinence treatment device of claim 1, where the adhesive material coated layer side is coated by an adhesive material thin film that is connected to the surface of the connection sheet.

7) The stabilizing sheets of the glans penis stabilizing component of the tube connector component of the external urinary incontinence treatment device of claim 1, wherein the stabilizing sheets have a concaved configuration that forms a segmented-hollow-dome spatial structure.

8) The hollow dome and the second tube of the urine receiving component of the tube connector component of the external urinary incontinence treatment device of claim 1, wherein the resilient accordion configuration of the hollow dome and the second tube bestow a spring-like characteristics to the urine receiving component.

9) The connection sheet component of the penis connection component of the external urinary incontinence treatment device of claim 1, wherein the connection sheet component has an elongated and flat configuration.

10) The connection sheets component of the penis connection component of the external urinary incontinence treatment device of claim 1, wherein the connection sheets form a spatial structure configuration of a segmented dome.

11) A method for the treatment of urinary incontinence treatment of a man by deploying an external urinary incontinence treatment device, the device comprising: a tube connector component and a penis connection component, wherein, said tube connector component comprises: a glans penis stabilizing component and a urine receiving component, wherein, said glans penis stabilizing component is constructed of a hollow dome structure with a hole at the top of the dome and at least two stabilizing sheets connected to the circumference rim of the dome, wherein said urine receiving component comprises: a first tube, a hollow dome with a hole at its top and a second tube, wherein, said hollow dome of said urine receiving component has a hole at its top, wherein, said hollow dome and second tube of urine receiving component have a resilient accordion configuration, wherein said first tube of said urine receiving component is inserted through the hole in said hollow dome of the urine receiving component and connects and communicates freely with the second tube of said urine receiving component, wherein, said penis connection component comprises; at least one connection sheet component and at least one connection sheet protection component, wherein, said connection sheet component of said penis connection component, has an adhesive material coated layer side, wherein, said connection sheet protection component is connected to said an adhesive material coated layer side of said connection sheet component, wherein said glans penis stabilizing component and said urine receiving component are connected by inserting said first tube of the urine receiving component into the hole in the a hollow dome structure of the a hollow dome structure of the glans penis stabilizing component, wherein said tube connector component is positioned over the orifice of the urethral tract of said treated patient and the said stabilizing sheets contact of said glans penis stabilizing component contact connect to the skin of the glans penis of the treated patient, wherein, the rim of said second tube of said urine receiving component is contact connected to the skin surrounding the orifice of the urethral tract of said treated patient, wherein said connection sheet protection component of said penis connection component is peeled off said connection sheet component and the adhesive material coated layer side of the said connection sheet component wraps around said tube connector component and reversibly connects in an adjustable connection to the skin of the glans penis of said treated patient, wherein said reversible adjustable connection of said connection sheet protection component of said penis connection component to the skin of the glans penis of said treated patient, anchors, stabilizes and fixates said tube connector component in its position over said orifice of the urethral tract of said treated patient and contact connects the second tube of said urine receiving component to the skin surrounding the orifice of the urethral tract of said treated patient in a urine leak free connection that minimizes the discomfort caused to the treated patient, wherein, the first tube of the said urine receiving component of said anchored, stabilized and fixated connector component reversibly connects to a urine removing tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] In order to better understand the present invention, and appreciate its practical applications, the following Figures are provided and referenced hereafter. It should be noted that the Figures are given as examples only and in no way limit the scope of the invention. Like components are denoted by like reference numerals.

[0027] FIG. 1 is an isometric from-above-and-side view of an illustration of an embodiment of an external urinary incontinence treatment device of the present invention, with the tube connector component and the penis connection component of the device, disassembled.

[0028] FIG. 1A is an isometric from-above-and-side view of an illustration of the tube connector component illustrated in FIG. 1 disassembled to a urine receiving component and a glans penis stabilizing component.

[0029] FIG. 2 is an isometric from-above-and-side view of an illustration of the embodiment of the external urinary incontinence treatment device illustrated in FIG. 1 in an assembled configuration.

[0030] FIG. 3 is an isometric from-above-and-side view of an illustration of a second embodiment of an external urinary incontinence treatment device of the present invention, with the tube connector component and the penis connection component of the device, disassembled.

[0031] FIG. 3A is an isometric from-above-and-side view of an illustration of the tube connector component illustrated in FIG. 3 disassembled to a urine receiving component and a glans penis stabilizing component.

[0032] FIG. 4 is an isometric from-above-and-side view of an illustration of the external urinary incontinence treatment device illustrated in FIG. 3, with the components of the device assembled.

[0033] FIG. 5A up to and including 5C are cross cut side-view illustration of consecutive stages of contact-connecting a urine receiving component of the an external urinary incontinence treatment device of the present invention to the skin of the glans penis of a treated patient.

[0034] FIG. 6A up to and including FIG. 6F, are illustrations of consecutive stages of deploying the external urinary incontinence treatment device of the present invention, illustrated in FIG. 1 and FIG. 2.

[0035] FIG. 7 is an illustration of the external urinary incontinence treatment device of the present invention illustrated in FIG. 3 and FIG. 4 in the final stage of deployment, connected to a urine removal tube.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENTS

[0036] It should be clear that the description of the embodiment and attached Figures set forth in this specification serves only for a better understanding of the invention, without limiting its scope.

[0037] Two embodiments of the external urinary incontinence treatment device of the present invention are described. The first embodiment is illustrated in FIG. 1, FIG. 1A and FIG. 2, the second embodiment is illustrated in FIG. 3, FIG. 3A and FIG. 4. In the detailed description of the deployment of a device of the present invention, illustrated in FIG. 6A up to and including 6F, the first embodiment of the device of the present invention is shown. The same consecutive stages of deployment illustrated in the figures are relevant for the second embodiment of a device of the present invention.

[0038] A device of the present invention (the two embodiments of the device are designated 10 and 11, respectively) is constructed of: a tube connector component (also referred to as TCC) (29) and a penis connection component (also referred to as: PCC) (23).

[0039] The TCC (29) is constructed of two connected components: a glans penis stabilization component (also referred to as GPSC) (16) and a urine receiving component (also referred to as: URC) (22). The PCC (23) is constructed of at least one connection-sheet-component (also referred to as: CSC) (12) having a sticky, adhesive material coated layer, side, and at least one connection-sheet-protection-component (also referred to as: CSPC) (14).

[0040] GPSC (16) is constructed of a hollow dome structure, referred to as cover-dome (19) with a hole at its dorsal (“top”) side (20) and stabilizing-sheet-components (18) that are connected to, and extend radially from, the rim of the dome, at its proximal (“bottom”) side. Stabilizing-sheet-components (18) are referred to interchangeably as: SSC Cover-dome (19) is made of a semi rigid material such as, but not limited to, silicone or rubber, or plastic. SSC (18) are structured as at least two sheets also made of semi-rigid flexible material such as, but not limited to, plastic, rubber or silicone. The SSC (18) are connected to cover-dome (19) in a configuration that forms a segmented dome connected to cover-dome (19), shown in FIG. 1A and FIG. 3A. In FIG. 1, two SSCs (18) are illustrated, in FIG. 3, three SSCs are shown. The GPSC (16) is produced as a single-entity component, or, alternatively, cover-dome (19) and the SSC (18) are produced as separate entity components and are connected to form the TCC (29).

[0041] URC is constructed of a first tube (24), a dome structure that has a hollow and opened tube that runs through the dome structure and extended from the dome (26) and an accordion tube (28). Tube (24) has an opening hole (30) in its dorsal (“top”) side to which a urine-removal-tube tube (31) reversibly connects and through which urine is flowed to a collecting vessel, typically, a urine collection bag (tube (31) shown in FIG. 6F). Tube (24) runs through the tube in dome (26) and connects to the dorsal side of the second tube (28). Tube (24) and tube (28) communicate freely. Dome (26) and tube (28) are structured in an “accordion dome” and “accordion tube” configuration, respectively. The components of the urine-receiving component (22) are made of semi-rigid material, such as, but not limited to, silicon and rubber, or plastic. Urine-receiving component (22) is produced as a single-entity component, or, alternatively, tube (24) dome (26) and tube (28) are produced as separate entity components and are connected to form the urine-receiving component (22).

[0042] The CSC (12) of PPC (23) is composed of at least one sheet made of flexible material such as, but not limited to, cloth or plastic or silicone. The sheet has a “sticky” side which is covered by a coating layer of an adhesive material and a plain, “not-sticky” side. The adhesive material can be spread directly on the surface of the sheet, or alternatively, the material is on a thin film that is connected to the surface of the sheet. The adhesive material is present on the surface of the sheet when the sheet is in storage, prior to deployment, or alternatively, the adhesive material is applied just prior to the deployment of the sheet.

[0043] In the embodiment (10) illustrated in FIG. 1 and FIG. 2, the CSC (12) is constructed of an elongated single sheet with a hole (21) in the middle. Typically, the elongated sheet has a rectangle configuration with two side protruding portions (27), bestowing a “T” shape configuration to the sheet.

[0044] In the embodiment (11) illustrated in FIG. 3 and FIG. 4, the CSCs (12) are constructed of at least two sheet-components with each component having a “slice-of-pie” configuration without the top, “sharp end”, section of the slice. The CSCs also have a spatial concave configuration, When placed side by side the CSCs form a hollow sliced dome configuration with a hole at its dorsal top-side.

[0045] CSPC (14) is composed of at least one sheet made of a flexible material such as, but not limited to, paper or plastic, or silicon. Each individual CSPC reversibly covers and connects to the sticky side of an individual CSC. The CSPC preserve the stickiness of sticky side on the CSC and are removed from the CSC and discarded prior to the deployment of the device of the present invention.

[0046] Reference is presently made to the figures:

[0047] FIG. 1 illustrates an isometric from-above-and-side view of an embodiment (10) of an external urinary incontinence treatment device of the present invention, with the TCC (29) and the PCC (23) of the device, disassembled. FIG. 1A illustrates an isometric from-above-and-side view of the TCC (29) illustrated in FIG. 1, disassembled into the URC (22) and the GPSC (16). FIG. 2 illustrates an isometric from-above-and-side view of the embodiment (10) of the external urinary incontinence treatment device illustrated in FIG. 1 in an assembled configuration.

[0048] FIG. 3 illustrates an isometric from-above-and-side view of an embodiment (11) of an external urinary incontinence treatment device of the present invention, with the TCC (29) and the PCC (23) of the device, disassembled. FIG. 3A illustrates an isometric from-above-and-side view of the TCC (29) illustrated in FIG. 3 disassembled into the URC (22) and the GPSC (16). FIG. 4 illustrates an isometric from-above-and-side view of the embodiment (11) of the external urinary incontinence treatment device illustrated in FIG. 3 in an assembled configuration.

[0049] FIG. 5A up to and including 5C are cross cut side-view illustration of consecutive stages of contact-connecting an URC (22) of the of an external urinary incontinence treatment device of the present invention (10, 11) to the skin of the glans penis (34) of a treated patient. The illustrations explain the “spring like” characteristics bestowed by the accordion configuration of the accordion dome (26) and accordion tube (28) to the URC (22).

[0050] FIG. 5A illustrates the formation of contact between the URC (22) and the skin surrounding the orifice of the urethral tract (36). Accordion tube (28) is illustrated in a slightly compressed configuration and accordion dome (26) is illustrated in a straight (not bent) configuration.

[0051] FIG. 5B illustrates the URC (22) in contact with the skin surrounding the orifice of the urethral tract (36). URC (22) is fixated its position with accordion tube (28) illustrated in a compressed configuration and accordion dome (26) illustrated in a straight (not bent) configuration.

[0052] FIG. 5C illustrates the URC (22) in contact with the skin surrounding the orifice of the urethral tract (36) and the tube (24) of the URC (22) connected by a urine-removing-tube (not shown in the figure) that leads to a urine collection vessel. URC (22) is fixated in its position with accordion tube (28) illustrated in a compressed configuration and accordion dome (26) is illustrated in a bent configuration. The bending is caused by the pull and weight of the urine-removing-tube (31) (tube shown in FIG. 6F).

[0053] In FIG. 6A up to and including FIG. 6F, the SSC (18) is/are illustrated contact-connected to skin of the glans penis (34), thus stabilizing the TCC (29) in its position over the orifice of the urethral tract and the proximal rim of the accordion tube (28) of URC (22) in contact with the skin surrounding the skin of the orifice of the urethral tract of the treated patient. The CSC (12) of the PCC (23) is/are illustrated warping over (contact-connected) the TCC (29) and reversibly connected (by an adhesive material connection) to the skin of the glans penis (34) of the patient, thus, anchoring, stabilizing and fixating TCC (29) in its position. By disconnecting the connection between CSC (12) and the glans penis (34) and again reconnecting in a different location on the glans penis (34), the tightness as well as the exact positioning of the contact-connection between tube (24) and the skin of the glans penis can be altered and adjusted.

[0054] FIG. 6A up to and including FIG. 6F, are illustrations of consecutive stages of deploying the external urinary incontinence treatment device (10).

[0055] FIG. 6A illustrates one hand (50) of the patient (or care giver) holding the GPSC (16) while the second hand (52) holding the URC (22). Tube (24) of the URC is placed in an aligned position with hole (20) in the GPSC (16). If the TCC (29) is produced so that the GPSC (16) and the URC (22) are connected to form a single entity component, the deployment of the device is initiated in the following stage, illustrated in FIG. 3B.

[0056] FIG. 6B illustrates the insertion of tube (24) of URC (22) into hole (20) in the GPSC (16), thus, the TCC (29) is connected to the PCC (23) in a “perpendicular configuration”.

[0057] FIG. 6C illustrates the holding of the penis (32) by the treated patent (or care giver) by one hand (50) and placing with the other hand (52) the rim of accordion tube (28) of the URC (22) on the skin around the orifice of the urethral tract (36) (shown in FIG. 5A).

[0058] FIG. 6D illustrates the holding of the penis (32) by the treated patent (or care giver) by one hand (50) and with the other hand (52) the CSPC (14) is peeled off from the CSC (12) by pulling the margin of the CSPC (14) from the CSC (12).

[0059] FIG. 6E illustrates the GPSC (16) positioned over the glans penis (34), the URC (22) in contact-connection with the skin surrounding the orifice of the urethral tract of the treated patient (shown in FIG. 5A) and the sticky surface side of the CSC (12) exposed.

[0060] FIG. 6F illustrates the final stage of deploying of device (10). The sticky surface of the longitudinal edges of the CSC (12) are folded towards the glans penis (34) and reversibly connect to the circumference skin area beyond the GPSC (16) by the adhesive material. In following, protruding margins (27) of CSC (12) are wrapped around and reversibly connect with the adhesive material to the folded and connected longitudinal edges of the CSC (12) and to the still free skin areas of the glans penis (34). With the TCC (29) fixated in place, urine removing tube (31) is reversibly connected to hole (30) in tube (24).

[0061] FIG. 7 is an illustration of the second embodiment of the external urinary incontinence treatment device of the present invention (11) illustrated in FIG. 3 and FIG. 4. The device (11) is illustrated in the final stage of deployment, connected to a urine removal tube (31). In device (11), the TCC (29) is positioned over the glans penis (34), as illustrated in FIG. 6C for embodiment (10). The CSPCs (14) are individually peeled off from the CSC (12) by pulling the CSPCs from the CSCs, as shown for embodiment (10) in FIG. 6D. The exposed sticky sides of the CSCs (12) wrap around the GPSC (16) and reversibly connect to the skin surface of the glans penis (34) that is in the proximal circumference of the glans penis beyond the GPSC (16), as illustrated for embodiment (10) in FIG. 6F. To ensure the stability of the contact-connection of the TCC (29) to glans penis (34), the CSCs (12) overlap.

[0062] It should also be clear that a person skilled in the art, after reading the present specification could make adjustments or amendments to the attached Figures and above described embodiments that would still be covered by the present invention.