US20120216360A1 - Medical Implement Cleaning Device - Google Patents
Medical Implement Cleaning Device Download PDFInfo
- Publication number
- US20120216360A1 US20120216360A1 US13/466,976 US201213466976A US2012216360A1 US 20120216360 A1 US20120216360 A1 US 20120216360A1 US 201213466976 A US201213466976 A US 201213466976A US 2012216360 A1 US2012216360 A1 US 2012216360A1
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- United States
- Prior art keywords
- cleaning
- medical implement
- site
- cleaning material
- cap
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M39/00—Tubes, tube connectors, tube couplings, valves, access sites or the like, specially adapted for medical use
- A61M39/10—Tube connectors; Tube couplings
- A61M39/16—Tube connectors; Tube couplings having provision for disinfection or sterilisation
- A61M39/162—Tube connectors; Tube couplings having provision for disinfection or sterilisation with antiseptic agent incorporated within the connector
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2/00—Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor
- A61L2/16—Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor using chemical substances
- A61L2/18—Liquid substances or solutions comprising solids or dissolved gases
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B90/00—Instruments, implements or accessories specially adapted for surgery or diagnosis and not covered by any of the groups A61B1/00 - A61B50/00, e.g. for luxation treatment or for protecting wound edges
- A61B90/70—Cleaning devices specially adapted for surgical instruments
Definitions
- pathogens include microorganisms such as bacteria and viruses.
- the transmission of pathogens into a patient may result in an infection that could be life threatening.
- nosocomial infection describes those infections that originate from or occur in a hospital or hospital-like setting. In the U.S., nosocomial infections are estimated to occur in at least 5% of all acute care hospitalizations. The estimated incidence is more than two million cases per year, resulting in an added expenditure in excess of $4.5 billion.
- Nosocomial infections are estimated to more than double the mortality and morbidity risks of any admitted patient, and likely result in about 90,000 deaths a year in the United States.
- Common sites for such transmissions are found on such medical implements as a luer port, vial, needle free valve, or an injection port of a vessel, tubing, or catheter.
- Even non-intrusive medical implements such as stethoscopes can transmit pathogens to a patient.
- the incidence of infection in patients is presently numerous and increasing, and Infection Control Practitioners (ICP's) often cite improper cleaning of sites as a major source of these infections.
- cleaning a potentially contaminated surface includes a protocol of alcohol swabbing prior to making the necessary connections to the site.
- Today alcohol swabs a small pad of cotton gauze soaked in isopropyl alcohol, are packed individually in a foil package.
- the foil package is relatively inexpensive, and is used to retain the alcohol within the package and to prevent evaporation.
- the package is opened at or near the site to be swabbed. With gloved hands, the pad is removed by a healthcare provider and wiped across the top and side surfaces of the site, and the pad and foil package are discarded.
- the site should be allowed to dry, usually twenty to thirty seconds, immediately prior to making any connection. This “drying” period is important: when alcohol dries, it breaks open the cellular walls of microorganisms, thereby killing them.
- the cleaning device includes a cap having an opening to an inner cavity, the opening being adapted to receive a site of the medical implement.
- the cleaning device further includes a compressible cleaning material that contains a cleaning agent prior to receipt of the site of the medical implement, i.e. the cleaning material is pre-loaded with the cleaning agent.
- the compressible cleaning material is at least partially secured in the inner cavity and adapted to swab and clean the site with the cleaning agent.
- a cleaning system for a threaded medical implement in another aspect, includes a cap having an inner cavity and an opening to receive a site of the medical implement into the inner cavity.
- the system further includes a threaded ring connected to the inner cavity at the opening to the cap, and having threads that correspond to threads on the threaded medical implement.
- the system further includes a cleaning material in the inner cavity adapted to provide radial compression against the threaded medical implement, the cleaning material containing a cleaning agent prior to receipt of the site of the medical implement.
- the opening is preferably covered by a removable vacuum seal.
- a method of cleaning a site of a medical implement includes the steps of at least partially saturating a cleaning material with a cleaning agent in an inner cavity of a cap; and contacting a top of the site of the medical implement to a first portion of the cleaning material.
- the method further includes steps of compressing the first portion of cleaning material with the site of the medical implement to contact a side of the site with a second portion of the cleaning material provided around the first cleaning material, and attaching the cap over the site of the medical implement.
- a cleaning device for a medical implement includes a cap having an opening to an inner cavity, an inner surface of the opening including one or more threads adapted to receive a site of the medical implement.
- the cleaning device further includes a cleaning material formed of a compressible material that is at least partially secured in the inner cavity, the cleaning material containing a cleaning agent.
- a cleaning system for a medical environment includes a plurality of caps.
- Each cap includes an inner cavity and an opening to receive a site of the medical implement into the inner cavity, and a cleaning material in the inner cavity adapted to provide radial compression against a site of a medical implement, the cleaning material containing a cleaning agent prior to receipt of the site of the medical implement.
- the system further includes a seal that covers the opening of each of the plurality of caps, and from which individual ones of the plurality of caps can be selectively removed to be used for cleaning the site of the medical implement.
- FIG. 1 is a cross-sectional, exploded view of a cleaning device.
- FIG. 2 is a cross-sectional view of an assembled cleaning device.
- FIG. 3 illustrates operation of a cleaning device for connection to a site of a medical implement.
- FIG. 4 illustrates a cleaning device connected to a medical implement and cleaning a site of the medical implement.
- FIG. 5 shows another embodiment of an assembled cleaning device.
- FIG. 6 is a cross-sectional view of an assembled cleaning device in accordance with an embodiment.
- FIG. 7 is a perspective view of another cleaning device.
- FIG. 8 is a cross section of a cleaning device.
- FIGS. 9 and 10 show a cleaning device being used to clean a site of a medical implement.
- FIG. 11 is a perspective view of a ring that attaches to a corresponding structure of a medical implement.
- FIG. 12 is a cross sectional view of another alternative embodiment of a cleaning device.
- FIG. 13 shows yet another alternative embodiment of a cleaning device.
- FIG. 14 shows a cap of a cleaning device in accordance with some embodiments.
- a cleaning device includes a cap having a shape and/or external features to promote easy gripping and a cleaning material in the cap that holds or is in contact with a cleaning agent, such as isopropyl alcohol, for application of the cleaning agent to a site of a medical implement.
- a cleaning agent such as isopropyl alcohol
- the cleaning material can be any substance that can conform, mold or compress in a manner that enables the effective wiping of the site, including the top surface of the site, side surface, and any threads or grooves, if present, and provide the cleaning agent at least at a surface level.
- the cleaning material include cotton, open or closed cell foam such as polyethylene foam, or other substance that can hold or carry the cleaning agent.
- the cleaning agent can be any chemical, substance or material that cleans the site of bacterial or even viral microorganisms, or any carrier that contains such chemical, substance or material. Examples of a cleaning agent include isopropyl alcohol, chlorhexidine, povidone-iodine, hydrogen peroxide, soap, and hydrochloric acid.
- medical implement is used to denote any tool or object that can be used in a medical setting and that can connect to a site cleaning device as described herein according to a number of embodiments.
- medical implements include, but are not limited to, access ports on tubing sets (extension sets, T-connectors and IV sets), access ports on catheters (both peripheral and central lines), needle free valves, stopcocks, luer connectors, stethoscopes and other components or devices whereby regular cleaning is desired.
- Medical implements are commercially available in standard sizes. Thus, the end or opening of a site cleaning device can be provided with fittings to accommodate such standard size medical implements.
- the cap of the cleaning device is made of a material that is compatible with the cleaning materials and agents to be used, examples of materials would include, sealed foam, plastic, glass, or metal.
- the cleaning device may need to undergo sterilization.
- the cleaning device can include attachment mechanisms such as “snap-fit” mechanisms or clamps to hold it in place on the other device.
- the cleaning material in the cap may conform to the sides of the medical implement to thereby “grip” and remain secured to the medical implement.
- the cap also may have threading to secure it in place on a medical implement.
- the cap may have some cutaway portions on its walls to enable the use of some undercuts during the molding process, and to allow the cleaning material to flex outward both during use.
- the cap can be made from polyethylene or another material that is stable when in the presence of alcohol or other cleaning agent.
- the opening of the cap is sealed with a foil-based seal or other material suitable for retaining a cleaning agent in the cleaning material and preventing evaporation of the cleaning agent.
- the cap seal may also be formed in a manner whereby several caps could be attached i.e. a strip, where individual caps can be peeled from the strip in order to be used. These strips of caps can be made conveniently accessible, i.e. hung from intravenous (IV) poles or IV sets, in patient rooms and medication carts, to name just a few. The strips provide the convenience of having several caps available in one location.
- the cleaning material in the cap can be an alcohol-soaked piece of gauze, foam or similar cleaning material.
- the cleaning material can be formed into the general interior shape of the cap from one or more pieces.
- the cleaning material can include a ring for circumscriptive coverage and cleaning of the site, and further include a cylinder within the ring for coverage and cleaning on a distal end of the site.
- a single piece of cleaning material may also be cut or formed to perform the same coverage and cleaning functions as the two pieces described above.
- the cleaning material may also cover the threads and/or be formed as part of the threads.
- the cleaning material may be made entirely or partially of the cleaning agent.
- the cleaning material can be formed of an open cell foam or plastic that is chemically or physically impregnated with a cleaning agent such as povidone or iodine, or isopropyl alcohol.
- FIG. 1 shows a cross-sectional, exploded view of a cleaning device, embodied as a cap 10 with a housing 4 that defines an inner cavity 20 of the cap 10 .
- a foil seal 1 is configured to attach to a sealing surface 2 of the housing 4 .
- the housing 4 further includes internal threads 3 .
- the internal threads 3 are sized and arranged to accommodate luer threads, i.e. standardized male threads designed to mate with the female threads on a medical implement to which the cap 10 attaches.
- the housing 4 also has a mating surface 5 for attachment of a bottom portion 6 .
- the first cleaning material 7 may be attached to the walls of housing 4 by glue, solvent or some other attachment composition or mechanism, or may be held in the housing 4 by compression or trapped between the bottom portion 6 and housing 4 . Ribs or protrusions on the inside of the housing 4 may also be used to prevent the cleaning material 7 from slipping or rotating.
- the first cleaning material 7 is compressible, and is preferably doughnut-shaped or ring-shaped. The first cleaning material 7 is positioned and configured to compress radially in an outwardly direction to scrub or wipe the circumscriptive surface of the site and the surface of the threads of an inserted medical implement.
- a second cleaning material 8 is designed to compress in the axial direction upon insertion of the medical implement and is designed to wipe the distal end and distal surface of the inserted medical implement.
- the second cleaning material 8 may be attached to the walls of bottom portion 6 by glue, solvent or some other attachment composition or mechanism, or affixed to first material 7 by glue, solvent or some other attachment composition or mechanism. Protrusions on the inside of the bottom portion 6 may also be used to prevent the cleaning material 8 from rotating or removal.
- the first cleaning material 7 and second cleaning material 8 may be formed from a single piece of compressible cleaning material of cotton, foam or other suitable cleaning material adapted for scrubbing. This single piece may be cut completely or partially cut to achieve a similar effect as two separate pieces of cleaning material.
- FIG. 2 illustrates an assembled cap 10 .
- the first and second cleaning materials 7 and 8 in the inner cavity 20 are at least partially saturated with a cleaning agent, such as isopropyl alcohol, or a mix of cleaning agents.
- the foil seal 1 is then attached to housing 4 at sealing surface 2 by glue, solvent, thermal bonding, etc.
- a bottom portion 6 is attached to housing 4 at point 5 by glue, welding, solvent, threads or other attachment mechanism or process. With the foil seal 1 and the bottom portion 6 attached to housing 4 , the inner cavity 20 is hermetically sealed.
- the housing 4 , bottom portion 6 , and first and second cleaning materials 7 , 8 are respectively made of a material or cleaning materials that are compatible with the cleaning agent.
- the housing 4 and bottom portion 6 can be constructed of a plastic such as polyethylene.
- the housing 4 and bottom portion 6 can be formed of a unitary piece of material, as explained further below.
- FIG. 3 illustrates a medical implement 30 moving toward housing 4 , in a direction A, which should be recognized as a reference only, and that the housing 4 can likewise be moved toward the medical implement 30 .
- the foil seal 1 is removed from housing 4 .
- the foil seal 1 can be a foil pouch or other sterilized material that would inhibit evaporation of the cleaning agent.
- a distal end surface 12 of the medical implement 30 is eventually contacted with the upper surface 50 of the second cleaning material 8 .
- the medical implement 30 As the medical implement 30 continues in direction A, it axially compresses second cleaning material 8 continuing to clean surface 12 with surface 50 . This movement also begins to radially compress the first cleaning material 7 and to conform the first cleaning material 7 with, and begin scrubbing, threads 11 .
- the cleaning materials 7 and 8 contain the cleaning agent so as to perform a thorough cleaning of the area about the threads 11 and the surface 12 .
- FIG. 4 illustrates the disinfecting cap 10 with a fully inserted medical implement 30 .
- the cap 10 can be removed immediately from the medical implement 30 after use, or be kept in place. If the cap 10 is removed the medical implement 30 surfaces 11 and 12 will be clean and ready for use upon the drying of the cleaning agent. If the cap 10 is kept secured to medical implement 30 , the cleaning agent in cap 10 will evaporate over time thereby destroying any microorganisms on the surfaces 12 and 11 of medical implement 30 . The cap 10 then maintains the surfaces 11 and 12 of medical implement 30 in a clean and ready-to-access state by eliminating any forms of touch contamination.
- FIGS. 5-10 illustrate an alternate embodiment of a cleaning device 100 .
- FIG. 5 is a perspective view of the cleaning device 100 formed of a cap 102 with a seal 104 that is connected to and covers the opening of the cap 102 .
- the cap 102 can have a number of gripping ridges or projecting members for ease of use.
- FIG. 6 is a cross-sectional view of the cleaning device 100 .
- the cap 102 forms an inner cavity with one opening that is large enough to receive a site of a medical implement.
- the seal 104 is affixed to the opening and is preferably entirely removable. In other embodiments, the seal 104 is permanently affixed, and is simply punctured by insertion of a site of a medical implement.
- the cap 102 houses a threaded ring 106 proximate to the opening.
- the threaded ring 106 includes one or more threads 105 and is adapted to receive the site of the medical implement to be disinfected, and thus defines the size and shape of the opening. This embodiment is advantageous because it creates a single circumferential seal point, seal 104 to the opening of cap 102 .
- the cap 102 and threaded ring 106 are formed of a unitary piece of material or cleaning material.
- the threaded ring 106 fits into a groove 109 that is formed in the inside edge surface of the cap 102 near the opening. In this latter configuration, the groove 109 maintains the position of threaded ring 106 near the open end of the cap where the threaded ring top surface may be flush with or slightly recessed from the cap open end walls, and the threaded ring 106 may also include or create with the cap wall a small vent aperture or opening to allow evaporation of a cleaning agent in the cap 102 .
- the threaded ring 106 can be mechanically kept from rotating with internal ribs or protrusions in cap 102 or groove 109 . Threaded ring 106 may be held in place within grove 109 and cap 102 by glue, welding, snap-fit, solvent bonding or any other mechanism or composition known to those of requisite skill.
- the cleaning device 100 further includes a first cleaning material 107 that holds the cleaning agent, such as isopropyl alcohol, and a second cleaning material 108 that also holds or is at least partially saturated by the cleaning agent.
- the first cleaning material 107 is formed as a hollow cylinder or ring positioned between the threaded ring 106 and the top inside surface of the cap 102 , and is adapted for radial compression against a site that is inserted into the cap 102 or over which the cap 102 is placed.
- the second cleaning material 108 is formed as a solid cylinder and positioned within the hollow space of the first cleaning material 107 , and is adapted for axial compression against a leading edge of the site that is inserted into the cap 102 or over which the cap 102 is placed.
- cleaning materials 107 and 108 can be made of a single piece of material and cut or formed so as to achieve the same result as described above. The cleaning agent is provided to the cleaning materials 107 , 108 prior to the opening being covered with the seal 104 .
- FIG. 7 is a bottom perspective view and FIG. 8 is a cross-sectional view of the cleaning device 100 with the seal 104 removed, showing the cap 102 , threaded ring 106 that sits within the cap 102 , and the second cleaning material 108 inside the cap 102 .
- the second cleaning material 108 can extend to and slightly beyond the opening of the cap 102 .
- FIG. 8 further shows the first cleaning material 107 that circumscribes the second cleaning material 108 and being positioned between the threaded ring 106 and the top inner surface of the cap 102 .
- FIG. 11 illustrates an example of the threaded ring 106 and its threads 105 . An attribute of this embodiment of the threaded ring 106 shown in FIG.
- threaded ring 106 there are only two opposing threads that travel 180 degrees before terminating. This enables the molding of threaded ring 106 without the use of a screw to create the thread feature in an injection molding tool.
- the threaded ring 106 can also be produced with an injection molding tool utilizing a screw.
- FIG. 9 illustrates the cleaning device 100 about to make contact with a site 120 of a medical implement.
- the site 120 can be a luer port, a, a needle free valve, an injection port of a vessel, or other medical implement that needs to be cleaned prior to use with a patient.
- the site 120 can include a set of threads 122 that correspond to the threads 105 in the threaded ring 106 of the cleaning device 100 .
- the cleaning materials 107 and 108 are preloaded with a cleaning agent, before removal of the seal and contact by the site 120 . Accordingly, as shown in FIG. 10 , the site 120 makes contact with the cap 102 by a screwing motion relative to the cap 102 .
- the second cleaning material 108 is compressed axially and swabs against the leading edge of the site 120 , while the first cleaning material 107 is compressed radially and swabs against sides of the site 120 .
- FIG. 11 illustrates the molded thread ring 106 with two opposing threads 105 that traverse opposing 180 degree portions of the ring.
- This design enables the thread ring 106 to be molded without the use of a screw that is typically used to create threaded parts in a molding process.
- the threaded ring 106 can be manufacture very inexpensively.
- the threaded ring 106 can also clean some of the threads when the cap is placed into position, and may or may not cover all the threads.
- the threaded ring 106 can be molded from the cleaning material, or the cleaning material is formed only of the threaded ring 106 . In such embodiments, the cleaning may only occur on threads of the site and in an axial direction.
- FIG. 12 shows an alternative embodiment of a cleaning device 130 having a cap 132 that is filled with a cleaning material.
- the cap 132 has side walls 134 and a top 136 that define an inner cavity with an opening 132 .
- the cleaning material includes at least a first cleaning material 138 , such as cotton or foam, that delivers a cleaning agent.
- the cleaning material can include a second cleaning material 140 to hold more cleaning agent.
- the second cleaning material 140 can be circumscribed by the first cleaning material 138 .
- the first cleaning material 138 can completely envelope the second cleaning material 140 , each providing their own compressibility and capacity to hold a cleaning agent.
- the first and second cleaning materials 138 , 140 can be formed of a single piece of material.
- the cleaning material(s) are filled at least partially with a cleaning agent, prior to sealing of the opening 132 with a seal and closure of the inner cavity.
- FIG. 13 shows an alternate embodiment of a cleaning device 150 .
- the cleaning device 150 includes a housing 152 that is formed as a threaded cap.
- the inner surface of the housing 152 is covered, at least in part, by a cleaning layer 154 that is bonded to the inner surface of the housing 152 .
- the cleaning layer 154 can be a cleaning material such as cotton, foam, or other porous and pliable material that suitably holds and/or delivers a cleaning agent such as isopropyl alcohol.
- the cleaning layer 154 is sized and positioned inside the housing 152 so as to be able to swab the top and a portion of the sides of a part of a medical implement that is inserted therein, or over which the housing 152 is placed. Accordingly, the cleaning layer 154 can have any thickness or compressibility.
- FIG. 14 shows yet another alternative embodiment of a cleaning device 160 , illustrating an outer view of a rounded housing 162 for an expanded inner chamber to hold more cleaning agents or cleaning materials that hold such agents.
- Holes 164 in the housing 162 can promote evaporation of the cleaning agent, particularly when the housing covers a site of a medical implement to be disinfected.
- the location of the vent holes is variable and the vent holes can also be sealed with a filter type membrane that permits the drying of the cleaning agents but does not allow entry of microorganisms or fluid.
- the healthcare worker would, with gloved hands, open the foil package and place this cap over the site of a medical implement to be cleaned.
- the alcohol soaked cleaning material wipes all of the port's surfaces. This wipe could be accomplished by either a turning motion (if threads are used) or by simply pushing the cap onto the port. In this way the cap eliminates errors in the practice of swabbing due to poor training or excessive workloads.
- the cap would then remain secured in place by threads, mechanical tension provided by the foam, cotton, etc., snaps or some other mechanism.
- a cap in place on a medical implement is a positive indication that a desired site of the medical implement is clean.
- a vibrant color may be used to allow instant visualization of a cap's presence from a door or hallway. ICP's can review compliance by merely observing sites to see whether or not a cap is in place. The cap could remain in place for periods of up to three days or more. For extended periods the alcohol will likely evaporate, which assures that the site is clean. With the cap in place, it continues to keep the site clean even after the alcohol has evaporated.
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Abstract
Description
- This application is a continuation of U.S. patent application Ser. No. 13/189,457 filed on Jul. 22, 2011, entitled, “Medical Implement Cleaning Device,” which is a continuation of U.S. patent application Ser. No. 12/860,825 filed on Aug. 20, 2010, issued on Jul. 26, 2011 as U.S. Pat. No. 7,985,302, and entitled “Medical Implement Cleaning Device,” which is a continuation of U.S. patent application Ser. No. 11/705,805 filed on Feb. 12, 2007, issued on Aug. 24, 2010 as U.S. Pat. No. 7,780,794, and entitled “Medical Implement Cleaning Device,” which claims the benefit under 35 U.S.C. §119(e) of U.S. provisional patent application Ser. No. 60/832,437 filed on Jul. 21, 2006 and entitled “Disinfecting Cap” and also claims the benefit under 35 U.S.C. §119(e) of U.S. Provisional patent application Ser. No. 60/850,438 filed on Oct. 10, 2006 and entitled “Disinfecting Cap.” The disclosures of all applications to which the current application claims priority are incorporated by reference herein in their entireties.
- Within the medical field, and in particular the area of infusion of fluids or aspiration of fluids to or from a patient, there is a need to prevent the transmission of pathogens into or onto a patient from a potentially contaminated surface of a medical implement, or “site”. Such pathogens include microorganisms such as bacteria and viruses. The transmission of pathogens into a patient may result in an infection that could be life threatening. Specific to healthcare settings, the term “nosocomial infection” describes those infections that originate from or occur in a hospital or hospital-like setting. In the U.S., nosocomial infections are estimated to occur in at least 5% of all acute care hospitalizations. The estimated incidence is more than two million cases per year, resulting in an added expenditure in excess of $4.5 billion. Nosocomial infections are estimated to more than double the mortality and morbidity risks of any admitted patient, and likely result in about 90,000 deaths a year in the United States. Common sites for such transmissions are found on such medical implements as a luer port, vial, needle free valve, or an injection port of a vessel, tubing, or catheter. Even non-intrusive medical implements such as stethoscopes can transmit pathogens to a patient. The incidence of infection in patients is presently numerous and increasing, and Infection Control Practitioners (ICP's) often cite improper cleaning of sites as a major source of these infections.
- Traditionally, cleaning a potentially contaminated surface includes a protocol of alcohol swabbing prior to making the necessary connections to the site. Today alcohol swabs, a small pad of cotton gauze soaked in isopropyl alcohol, are packed individually in a foil package. The foil package is relatively inexpensive, and is used to retain the alcohol within the package and to prevent evaporation. Properly used, the package is opened at or near the site to be swabbed. With gloved hands, the pad is removed by a healthcare provider and wiped across the top and side surfaces of the site, and the pad and foil package are discarded. The site should be allowed to dry, usually twenty to thirty seconds, immediately prior to making any connection. This “drying” period is important: when alcohol dries, it breaks open the cellular walls of microorganisms, thereby killing them.
- Unfortunately, because of increased duties and responsibilities, shrinking nursing staffs, and inadequate training, swabbing is often overlooked or is poorly executed. A poorly swabbed site can carry microorganisms that, if allowed to enter a patient's body, can cause serious infection. In addition, supervisory oversight is nearly impossible, because unless a supervisor can actually observe the swabbing being performed, the supervisor cannot know whether or not it was done properly or performed at all. Further, without at least a sufficient microscopic examination for microbial residue, there may be no evidence of an alcohol swab being performed. Thus, a need exists for an apparatus and technique for cleaning a site on a medical implement prior to contact with a patient, and which will eliminate technique-related issues and training issues, and provide an unequivocal indicator that a site is clean prior to accessing a patient's vascular system.
- A cleaning device, system and method for a medical environment is disclosed. In one aspect, the cleaning device includes a cap having an opening to an inner cavity, the opening being adapted to receive a site of the medical implement. The cleaning device further includes a compressible cleaning material that contains a cleaning agent prior to receipt of the site of the medical implement, i.e. the cleaning material is pre-loaded with the cleaning agent. The compressible cleaning material is at least partially secured in the inner cavity and adapted to swab and clean the site with the cleaning agent.
- In another aspect, a cleaning system for a threaded medical implement includes a cap having an inner cavity and an opening to receive a site of the medical implement into the inner cavity. The system further includes a threaded ring connected to the inner cavity at the opening to the cap, and having threads that correspond to threads on the threaded medical implement. The system further includes a cleaning material in the inner cavity adapted to provide radial compression against the threaded medical implement, the cleaning material containing a cleaning agent prior to receipt of the site of the medical implement. The opening is preferably covered by a removable vacuum seal.
- In yet another aspect, a method of cleaning a site of a medical implement includes the steps of at least partially saturating a cleaning material with a cleaning agent in an inner cavity of a cap; and contacting a top of the site of the medical implement to a first portion of the cleaning material. The method further includes steps of compressing the first portion of cleaning material with the site of the medical implement to contact a side of the site with a second portion of the cleaning material provided around the first cleaning material, and attaching the cap over the site of the medical implement.
- In yet another aspect, a cleaning device for a medical implement includes a cap having an opening to an inner cavity, an inner surface of the opening including one or more threads adapted to receive a site of the medical implement. The cleaning device further includes a cleaning material formed of a compressible material that is at least partially secured in the inner cavity, the cleaning material containing a cleaning agent.
- In still yet another aspect, a cleaning system for a medical environment includes a plurality of caps. Each cap includes an inner cavity and an opening to receive a site of the medical implement into the inner cavity, and a cleaning material in the inner cavity adapted to provide radial compression against a site of a medical implement, the cleaning material containing a cleaning agent prior to receipt of the site of the medical implement. The system further includes a seal that covers the opening of each of the plurality of caps, and from which individual ones of the plurality of caps can be selectively removed to be used for cleaning the site of the medical implement.
- The details of one or more embodiments are set forth in the accompanying drawings and the description below. Other features and advantages will be apparent from the description and drawings, and from the claims.
- These and other aspects will now be described in detail with reference to the following drawings.
-
FIG. 1 is a cross-sectional, exploded view of a cleaning device. -
FIG. 2 is a cross-sectional view of an assembled cleaning device. -
FIG. 3 illustrates operation of a cleaning device for connection to a site of a medical implement. -
FIG. 4 illustrates a cleaning device connected to a medical implement and cleaning a site of the medical implement. -
FIG. 5 shows another embodiment of an assembled cleaning device. -
FIG. 6 is a cross-sectional view of an assembled cleaning device in accordance with an embodiment. -
FIG. 7 is a perspective view of another cleaning device. -
FIG. 8 is a cross section of a cleaning device. -
FIGS. 9 and 10 show a cleaning device being used to clean a site of a medical implement. -
FIG. 11 is a perspective view of a ring that attaches to a corresponding structure of a medical implement. -
FIG. 12 is a cross sectional view of another alternative embodiment of a cleaning device. -
FIG. 13 shows yet another alternative embodiment of a cleaning device. -
FIG. 14 shows a cap of a cleaning device in accordance with some embodiments. - Like reference symbols in the various drawings indicate like elements.
- In accordance with preferred embodiments, a cleaning device includes a cap having a shape and/or external features to promote easy gripping and a cleaning material in the cap that holds or is in contact with a cleaning agent, such as isopropyl alcohol, for application of the cleaning agent to a site of a medical implement.
- The cleaning material can be any substance that can conform, mold or compress in a manner that enables the effective wiping of the site, including the top surface of the site, side surface, and any threads or grooves, if present, and provide the cleaning agent at least at a surface level. Examples of the cleaning material include cotton, open or closed cell foam such as polyethylene foam, or other substance that can hold or carry the cleaning agent. The cleaning agent can be any chemical, substance or material that cleans the site of bacterial or even viral microorganisms, or any carrier that contains such chemical, substance or material. Examples of a cleaning agent include isopropyl alcohol, chlorhexidine, povidone-iodine, hydrogen peroxide, soap, and hydrochloric acid.
- The term “medical implement” is used to denote any tool or object that can be used in a medical setting and that can connect to a site cleaning device as described herein according to a number of embodiments. Examples of medical implements include, but are not limited to, access ports on tubing sets (extension sets, T-connectors and IV sets), access ports on catheters (both peripheral and central lines), needle free valves, stopcocks, luer connectors, stethoscopes and other components or devices whereby regular cleaning is desired. Medical implements are commercially available in standard sizes. Thus, the end or opening of a site cleaning device can be provided with fittings to accommodate such standard size medical implements.
- The cap of the cleaning device is made of a material that is compatible with the cleaning materials and agents to be used, examples of materials would include, sealed foam, plastic, glass, or metal. The cleaning device may need to undergo sterilization. For securing the cleaning device to another device, the cleaning device can include attachment mechanisms such as “snap-fit” mechanisms or clamps to hold it in place on the other device. Alternatively the cleaning material in the cap may conform to the sides of the medical implement to thereby “grip” and remain secured to the medical implement. The cap also may have threading to secure it in place on a medical implement. The cap may have some cutaway portions on its walls to enable the use of some undercuts during the molding process, and to allow the cleaning material to flex outward both during use. The cap can be made from polyethylene or another material that is stable when in the presence of alcohol or other cleaning agent.
- In preferred exemplary embodiments, prior to being applied to a site, and after the cleaning material is provided with a cleaning agent, the opening of the cap is sealed with a foil-based seal or other material suitable for retaining a cleaning agent in the cleaning material and preventing evaporation of the cleaning agent. The cap seal may also be formed in a manner whereby several caps could be attached i.e. a strip, where individual caps can be peeled from the strip in order to be used. These strips of caps can be made conveniently accessible, i.e. hung from intravenous (IV) poles or IV sets, in patient rooms and medication carts, to name just a few. The strips provide the convenience of having several caps available in one location.
- The cleaning material in the cap can be an alcohol-soaked piece of gauze, foam or similar cleaning material. The cleaning material can be formed into the general interior shape of the cap from one or more pieces. For instance, the cleaning material can include a ring for circumscriptive coverage and cleaning of the site, and further include a cylinder within the ring for coverage and cleaning on a distal end of the site. A single piece of cleaning material may also be cut or formed to perform the same coverage and cleaning functions as the two pieces described above. The cleaning material may also cover the threads and/or be formed as part of the threads.
- In still further embodiments, the cleaning material may be made entirely or partially of the cleaning agent. For example, the cleaning material can be formed of an open cell foam or plastic that is chemically or physically impregnated with a cleaning agent such as povidone or iodine, or isopropyl alcohol.
- To further illustrate and describe these concepts, reference is now made to
FIG. 1 , which shows a cross-sectional, exploded view of a cleaning device, embodied as acap 10 with ahousing 4 that defines aninner cavity 20 of thecap 10. A foil seal 1 is configured to attach to a sealingsurface 2 of thehousing 4. Thehousing 4 further includesinternal threads 3. In a preferred exemplary embodiment, theinternal threads 3 are sized and arranged to accommodate luer threads, i.e. standardized male threads designed to mate with the female threads on a medical implement to which thecap 10 attaches. Thehousing 4 also has amating surface 5 for attachment of abottom portion 6. - Within
housing 4 is afirst cleaning material 7. Thefirst cleaning material 7 may be attached to the walls ofhousing 4 by glue, solvent or some other attachment composition or mechanism, or may be held in thehousing 4 by compression or trapped between thebottom portion 6 andhousing 4. Ribs or protrusions on the inside of thehousing 4 may also be used to prevent thecleaning material 7 from slipping or rotating. Thefirst cleaning material 7 is compressible, and is preferably doughnut-shaped or ring-shaped. Thefirst cleaning material 7 is positioned and configured to compress radially in an outwardly direction to scrub or wipe the circumscriptive surface of the site and the surface of the threads of an inserted medical implement. - A
second cleaning material 8 is designed to compress in the axial direction upon insertion of the medical implement and is designed to wipe the distal end and distal surface of the inserted medical implement. Thesecond cleaning material 8 may be attached to the walls ofbottom portion 6 by glue, solvent or some other attachment composition or mechanism, or affixed tofirst material 7 by glue, solvent or some other attachment composition or mechanism. Protrusions on the inside of thebottom portion 6 may also be used to prevent thecleaning material 8 from rotating or removal. Thefirst cleaning material 7 andsecond cleaning material 8 may be formed from a single piece of compressible cleaning material of cotton, foam or other suitable cleaning material adapted for scrubbing. This single piece may be cut completely or partially cut to achieve a similar effect as two separate pieces of cleaning material. -
FIG. 2 illustrates an assembledcap 10. The first andsecond cleaning materials inner cavity 20 are at least partially saturated with a cleaning agent, such as isopropyl alcohol, or a mix of cleaning agents. The foil seal 1 is then attached tohousing 4 at sealingsurface 2 by glue, solvent, thermal bonding, etc. Abottom portion 6 is attached tohousing 4 atpoint 5 by glue, welding, solvent, threads or other attachment mechanism or process. With the foil seal 1 and thebottom portion 6 attached tohousing 4, theinner cavity 20 is hermetically sealed. Thehousing 4,bottom portion 6, and first andsecond cleaning materials housing 4 andbottom portion 6 can be constructed of a plastic such as polyethylene. Thehousing 4 andbottom portion 6 can be formed of a unitary piece of material, as explained further below. -
FIG. 3 illustrates a medical implement 30 moving towardhousing 4, in a direction A, which should be recognized as a reference only, and that thehousing 4 can likewise be moved toward the medical implement 30. The foil seal 1 is removed fromhousing 4. In alternative embodiments, the foil seal 1 can be a foil pouch or other sterilized material that would inhibit evaporation of the cleaning agent. Adistal end surface 12 of the medical implement 30 is eventually contacted with theupper surface 50 of thesecond cleaning material 8. - As the medical implement 30 continues in direction A, it axially compresses
second cleaning material 8 continuing to cleansurface 12 withsurface 50. This movement also begins to radially compress thefirst cleaning material 7 and to conform thefirst cleaning material 7 with, and begin scrubbing,threads 11. Thecleaning materials threads 11 and thesurface 12. Asthreads 11 of the medical implement 30 continue to be rotationally inserted into thethreads 3 of the housing, thedistal end surface 12 is automatically scrubbed bysurface 50 of thesecond cleaning material 8 and cleaned by cleaning agent held therein, and at least a portion of the side andthreads 11 of the medical implement 30 are automatically scrubbed by radial compression of thefirst cleaning material 7 and cleaned by a cleaning agent held therein.FIG. 4 illustrates the disinfectingcap 10 with a fully inserted medical implement 30. - The
cap 10 can be removed immediately from the medical implement 30 after use, or be kept in place. If thecap 10 is removed the medical implement 30surfaces cap 10 is kept secured to medical implement 30, the cleaning agent incap 10 will evaporate over time thereby destroying any microorganisms on thesurfaces cap 10 then maintains thesurfaces -
FIGS. 5-10 illustrate an alternate embodiment of acleaning device 100.FIG. 5 is a perspective view of thecleaning device 100 formed of acap 102 with aseal 104 that is connected to and covers the opening of thecap 102. Thecap 102 can have a number of gripping ridges or projecting members for ease of use.FIG. 6 is a cross-sectional view of thecleaning device 100. Thecap 102 forms an inner cavity with one opening that is large enough to receive a site of a medical implement. Theseal 104 is affixed to the opening and is preferably entirely removable. In other embodiments, theseal 104 is permanently affixed, and is simply punctured by insertion of a site of a medical implement. - The
cap 102 houses a threadedring 106 proximate to the opening. The threadedring 106 includes one ormore threads 105 and is adapted to receive the site of the medical implement to be disinfected, and thus defines the size and shape of the opening. This embodiment is advantageous because it creates a single circumferential seal point, seal 104 to the opening ofcap 102. - In some embodiments, the
cap 102 and threadedring 106 are formed of a unitary piece of material or cleaning material. In other embodiments, the threadedring 106 fits into agroove 109 that is formed in the inside edge surface of thecap 102 near the opening. In this latter configuration, thegroove 109 maintains the position of threadedring 106 near the open end of the cap where the threaded ring top surface may be flush with or slightly recessed from the cap open end walls, and the threadedring 106 may also include or create with the cap wall a small vent aperture or opening to allow evaporation of a cleaning agent in thecap 102. The threadedring 106 can be mechanically kept from rotating with internal ribs or protrusions incap 102 orgroove 109. Threadedring 106 may be held in place withingrove 109 andcap 102 by glue, welding, snap-fit, solvent bonding or any other mechanism or composition known to those of requisite skill. - The
cleaning device 100 further includes afirst cleaning material 107 that holds the cleaning agent, such as isopropyl alcohol, and asecond cleaning material 108 that also holds or is at least partially saturated by the cleaning agent. In preferred exemplary embodiments, thefirst cleaning material 107 is formed as a hollow cylinder or ring positioned between the threadedring 106 and the top inside surface of thecap 102, and is adapted for radial compression against a site that is inserted into thecap 102 or over which thecap 102 is placed. In some embodiments, thesecond cleaning material 108 is formed as a solid cylinder and positioned within the hollow space of thefirst cleaning material 107, and is adapted for axial compression against a leading edge of the site that is inserted into thecap 102 or over which thecap 102 is placed. In other embodiments, cleaningmaterials materials seal 104. -
FIG. 7 is a bottom perspective view andFIG. 8 is a cross-sectional view of thecleaning device 100 with theseal 104 removed, showing thecap 102, threadedring 106 that sits within thecap 102, and thesecond cleaning material 108 inside thecap 102. Thesecond cleaning material 108 can extend to and slightly beyond the opening of thecap 102.FIG. 8 further shows thefirst cleaning material 107 that circumscribes thesecond cleaning material 108 and being positioned between the threadedring 106 and the top inner surface of thecap 102.FIG. 11 illustrates an example of the threadedring 106 and itsthreads 105. An attribute of this embodiment of the threadedring 106 shown inFIG. 11 is that there are only two opposing threads that travel 180 degrees before terminating. This enables the molding of threadedring 106 without the use of a screw to create the thread feature in an injection molding tool. The threadedring 106 can also be produced with an injection molding tool utilizing a screw. -
FIG. 9 illustrates thecleaning device 100 about to make contact with asite 120 of a medical implement. As discussed above, thesite 120 can be a luer port, a, a needle free valve, an injection port of a vessel, or other medical implement that needs to be cleaned prior to use with a patient. In some embodiments, thesite 120 can include a set ofthreads 122 that correspond to thethreads 105 in the threadedring 106 of thecleaning device 100. The cleaningmaterials site 120. Accordingly, as shown inFIG. 10 , thesite 120 makes contact with thecap 102 by a screwing motion relative to thecap 102. Thesecond cleaning material 108 is compressed axially and swabs against the leading edge of thesite 120, while thefirst cleaning material 107 is compressed radially and swabs against sides of thesite 120. -
FIG. 11 illustrates the moldedthread ring 106 with two opposingthreads 105 that traverse opposing 180 degree portions of the ring. This design enables thethread ring 106 to be molded without the use of a screw that is typically used to create threaded parts in a molding process. Thus the threadedring 106 can be manufacture very inexpensively. The threadedring 106 can also clean some of the threads when the cap is placed into position, and may or may not cover all the threads. In some embodiments, the threadedring 106 can be molded from the cleaning material, or the cleaning material is formed only of the threadedring 106. In such embodiments, the cleaning may only occur on threads of the site and in an axial direction. -
FIG. 12 shows an alternative embodiment of acleaning device 130 having acap 132 that is filled with a cleaning material. Thecap 132 hasside walls 134 and a top 136 that define an inner cavity with anopening 132. The cleaning material includes at least afirst cleaning material 138, such as cotton or foam, that delivers a cleaning agent. The cleaning material can include asecond cleaning material 140 to hold more cleaning agent. In some embodiments, thesecond cleaning material 140 can be circumscribed by thefirst cleaning material 138. Alternatively, thefirst cleaning material 138 can completely envelope thesecond cleaning material 140, each providing their own compressibility and capacity to hold a cleaning agent. Still, in other embodiments, the first andsecond cleaning materials opening 132 with a seal and closure of the inner cavity. -
FIG. 13 shows an alternate embodiment of acleaning device 150. In this embodiment, thecleaning device 150 includes ahousing 152 that is formed as a threaded cap. The inner surface of thehousing 152 is covered, at least in part, by acleaning layer 154 that is bonded to the inner surface of thehousing 152. Thecleaning layer 154 can be a cleaning material such as cotton, foam, or other porous and pliable material that suitably holds and/or delivers a cleaning agent such as isopropyl alcohol. Thecleaning layer 154 is sized and positioned inside thehousing 152 so as to be able to swab the top and a portion of the sides of a part of a medical implement that is inserted therein, or over which thehousing 152 is placed. Accordingly, thecleaning layer 154 can have any thickness or compressibility. -
FIG. 14 shows yet another alternative embodiment of acleaning device 160, illustrating an outer view of arounded housing 162 for an expanded inner chamber to hold more cleaning agents or cleaning materials that hold such agents.Holes 164 in thehousing 162 can promote evaporation of the cleaning agent, particularly when the housing covers a site of a medical implement to be disinfected. The location of the vent holes is variable and the vent holes can also be sealed with a filter type membrane that permits the drying of the cleaning agents but does not allow entry of microorganisms or fluid. - The use of the various implementations and embodiments above entails the following: the healthcare worker would, with gloved hands, open the foil package and place this cap over the site of a medical implement to be cleaned. Upon placement the alcohol soaked cleaning material wipes all of the port's surfaces. This wipe could be accomplished by either a turning motion (if threads are used) or by simply pushing the cap onto the port. In this way the cap eliminates errors in the practice of swabbing due to poor training or excessive workloads. The cap would then remain secured in place by threads, mechanical tension provided by the foam, cotton, etc., snaps or some other mechanism. A cap in place on a medical implement is a positive indication that a desired site of the medical implement is clean. A vibrant color may be used to allow instant visualization of a cap's presence from a door or hallway. ICP's can review compliance by merely observing sites to see whether or not a cap is in place. The cap could remain in place for periods of up to three days or more. For extended periods the alcohol will likely evaporate, which assures that the site is clean. With the cap in place, it continues to keep the site clean even after the alcohol has evaporated.
- Although a few embodiments have been described in detail above, other modifications are possible. For instance, any of the embodiments described above may be sized and scaled for a particular medical implement, such as a stethoscope. Other embodiments may be within the scope of the following claims.
Claims (20)
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Also Published As
Publication number | Publication date |
---|---|
US20080019889A1 (en) | 2008-01-24 |
US8206514B2 (en) | 2012-06-26 |
US20110277788A1 (en) | 2011-11-17 |
US8999073B2 (en) | 2015-04-07 |
US8834650B2 (en) | 2014-09-16 |
US20140101876A1 (en) | 2014-04-17 |
US7985302B2 (en) | 2011-07-26 |
WO2008100950A2 (en) | 2008-08-21 |
WO2008100950A3 (en) | 2009-09-03 |
US7780794B2 (en) | 2010-08-24 |
US20100313366A1 (en) | 2010-12-16 |
US20150000062A1 (en) | 2015-01-01 |
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