The present invention relates generally to patient care equipment used in hospitals, nursing homes, psychiatric centers, hospitals and similar facilities. More particularly, the invention relates to methods and apparatus for storing and dispensing medicines and other patient care supplies in a manner that reduces the risk of infection and cross-contamination.
It is a known problem that patients entering a hospital or other care giving facility are at risk of contracting infections and other diseases that are the result not of the patients' underlying illness, but of the patients' close proximity to and contact with patient care equipment and personnel during treatment. These inflictions, known as nosocomial infections, may have a variety of sources. For example, even though patient care equipment or medicine may be sterile, if the container holding the equipment is not also sterile an infectious agent may be transmitted from the container to the equipment and ultimately to the patient. The Center for Disease Control estimates that 1 in 20 patients (2 million per year) acquire infections in the hospital. It is estimated that nosocomial infections from all microorganisms directly cause 19,000 deaths per year and contribute to 58,000 deaths per year, which makes them the 11th leading cause of death in the US.
Normally, hospitals and other patient care facilities classify nosocomial infection prevention measures into three general categories, based on the nature of the patient care equipment involved. Critical items (such as surgical instruments, catheters and implants) are sterilized, with the objective of destroying all forms of microbial life. Semicritical items (such as fiberoptic endoscopes and endotracheal tubes) often are subjected to a disinfection procedure. Disinfection in this context is intended to destroy vegetative microorganisms, most fungal spores, tubercle bacilii, and small nonlipid viruses. Noncritical items (such as medication carts, bins, bedboards and blood pressure cuffs) receive a simple cleaning which is designed to remove rather than to kill microorganisms.
An underestimated problem with traditional three-tiered prevention measures is the cross-contact between critical, semicritical and noncritical patient care items in the course of treatment. An additional complicating factor is the interaction of patient care personnel with these items in the course of providing treatment to patients. Specifically, the present invention is directed to reducing the risk of nosocomial infection transmission through cross-contact related to the use and care of medication carts.
Commonly, medication carts are comprised of multiple metal or plastic drawers or bins (used as interchangeable terms in this specification) in a mobile cabinet. The drawers are filled with medication in various solid or liquid forms and related patient care equipment. Each medication drawer is designated for the use of a single patient. Ideally, when a patient is released or transferred, or after a predetermined passage of time, that drawer is cleaned and reused for another patient. Presently, however, there are no standards or documented procedures for the cleaning and reusing of medication bins. Bins are frequently reused without the necessary cleaning, in part because a lack of adequate cleaning does not hinder the use of the bin as a container for medication or patient care equipment. In addition, bins are commonly designated to a specific patient by gummed labels that are only partially removable after use. Subsequent labels sometimes fall off and the sticky residue from multiple labels becomes another potential host site for bacteria and pathogens which may be transferred to the medication and then to the patient through repeated contact by the caregiver with the host site in the process of providing curative or palliative care.
It is therefore a problem with conventional medication bins that the bins receive inadequate cleaning and become a site for the transmission of nosocomial infections. What is needed is a way for patient care facilities (or others responsible for the care and maintenance of medication carts) to insure that medication and other patient care equipment is transported to the patient in a medication bin that reliably and repeatedly minimizes the risk of nosocomial infection.
The following terms are used in the claims of the patent as filed and are intended to have their broadest meaning consistent with the requirements of law. Where alternative meanings are possible, the broadest meaning is intended. All words used in the claims are intended to be used in the normal, customary usage of grammar and the English language.
“Liner” means any rigid or semi-rigid material, such as plastic, which is inserted within a bin or drawer, or within an individual compartment (whether formed by another drawer liner, or formed by a “cubie” or “mini-drawer,” non-limiting examples of which are shown in
The present invention is directed to medication bin liners that are lightweight and disposable after a single use. The invention is also directed to the use of these bin liners. A significant advantage of the present invention over prior art methods and devices is that there is no cleaning step involved. Whenever a bin liner is soiled, it can be immediately disposed of or discarded and replaced with another liner. In one embodiment, the bin liner can have a bottom of sufficient strength so that the medication bin itself does not require a bottom. This embodiment makes it impossible for patient care personnel to use the bins without including a disposable liner.
It is also a feature and an advantage of the present invention, in an alternative embodiment, that each liner has a tapered form that allows multiple liners to be stored in a nested arrangement, saving storage space. The liners may also be color-coded for various applications or patient types and gummed color labels may also be used without need for later removal and replacement. In addition, each liner may be formed to receive dividers for segmenting individual liners into smaller storage spaces. The invention embraces both permanent and disposable dispensing systems to manage the distribution of bin liners at a facility.
Further features of the present invention relate to the use of a sealed cover for the bin liner to protect the contents of the liner during storage and/or transport. In addition, the bin liner may be provided with a variety of bottom configurations to protect the liner contents from inadvertent breakage and/or to facilitate the organized storage or arrangement of the liner contents.
The inventions may be used in patient care and home health care facilities, and at service provider sites for the health care and pharmaceutical industries. Invention applications include uses involving: institutional drug delivery systems (e.g., at hospitals, nursing homes and pharmacies), and other similar drug delivery systems, epidural trays, stock bins for general unit dose dispensing, receptacles for sorting of outpatient medicine, separation of narcotics for individual floors for patient medications/IV pick-up, team-R carts, code carts, cassettes for labor and delivery tackle boxes, cardiovascular operating room buckets, drawer liners for wooden and other types of cabinets or wire storage racks, buckets sent via dumbwaiter, pneumatic tubes for lab and blood-born pathogens (i.e., lab samples), and intravenous room separation of refrigerated IV solutions.
In a preferred embodiment, liners for use in combination with a drawer of a medication storage apparatus are provided, including a first liner sized to fit within the drawer. The first liner may have a plurality of compartments shaped and sized to hold medications. A plurality of second liners are also provided, and sized and adapted to be removably inserted within the plurality of compartments of the first liner. The second liners are preferably designed to be disposable.
The medication storage apparatus may be a manual device such as that shown in
It may be preferred to adopt a color-coding scheme for the first and/or the second liners. Such a color-coding scheme may be used, for example, to indicate the presence of medications having one or more of the following attributes: addicting; a similar-sounding name; look-alikes; innocuous or common in attributes or use; low therapeutic window; or pronounced therapeutic effects. Of course, it may be desirable to color-code for other medication or equipment attributes, as well.
Depending upon the type of medication storage device used, the liners may also include individual patient-specific information.
As typical with ADM use, upon entry of predesignated information by medical personnel, both the drawer of the ADM and a designated integral compartment automatically open to reveal the contents of the designated compartment. When used with ADMs, the invention may be adopted for use with “matrix” drawers as well as drawers containing “cubies” or “minis” (e.g., in the claims referenced as “a plurality of integral compartments sized and shaped to hold medications of different sizes and shapes, each integral compartment designed to electronically interconnect with the drawer”). Disposable compartment liners may be sized for removable insertion within the “cubies” or “minis.”
A method for reducing nosocomial infection in a hospital or other medical patient care facility also forms a part of the invention. In one embodiment of the method of the invention, a medication storage device is provided having one or more drawers for the storage and transporting of medications and/or medical treatment equipment. The medication storage device may be a medication cart with drawers or bins that are manually opened and closed, or an ADM. A first liner is positioned in the one or more drawers of the storage device. The first liner has a plurality of individual compartments for holding the medications and/or medical treatment equipment. A plurality of second liners may then be positioned within the plurality of individual compartments of the first liner. Each of the second liners are preferably sized and shaped for removable insertion within the individual compartments. Medications and/or medical treatment equipment may now be placed within the plurality of individual compartments of the drawer of the storage device having the second liners located therein. Selected medications and/or equipment may be transported to individual patients. The second liners may be periodically removed from the individual compartments of the first liner, and disposed of, and new second liners may be positioned in their place within the individual compartments. The first liners may be periodically cleaned, as well.
Other embodiments in keeping with the principles of the invention will be apparent to those of ordinary skill in the art, particularly after review of the following detailed description of the preferred embodiments and accompanying drawings.
The novel features which are characteristic of the invention are set forth in the appended claims. The invention itself, however, together with further objects and attendant advantages thereof, will be best understood by reference to the following description taken in connection with the accompanying drawings, in which:
FIGS. 14 and 15A-15C are perspective view of a prior art drawer liner (
The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention.
Set forth below is a description of what is currently believed to be the preferred embodiment or best example of the invention claimed. Future and present alternatives and modifications to this preferred embodiment are contemplated. Any alternatives or modifications which make insubstantial changes in function, in purpose, in structure or in results are intended to be covered by the appended claims.
Medication cart drawers 13 (
In a preferred embodiment of the invention, the drawer 13 is constructed without a bottom. Prior to each use, the drawer 13 receives a liner 20 (see
The liner 20 may be made of any common and easily fabricated disposable material, such as injection- or vacuum-molded plastic. Preferably, liner 20 is made of bacteriostatic plastic. Dividers 28 are preferably made of the same material as the liner 20. Liners 20 and dividers 28 may be made in various colors or color combinations to allow for color coding according to patient or staff designations or any other desired classification system. The end tabs 30 may be sized to be complimentary to the ribs 27 and fit snugly between adjacent ribs 27 in the liner side panels 21 (see
In an alternative embodiment, the tapered corners 26 of the liner 20 allow a plurality of liners 20 to be stored in a nested stack 35 (see
For the convenience of the user, the preferred embodiment includes a dispenser system 40 (see
Dispensers 40 may be of a permanent or disposable type. A disposable dispenser 40 is preferably made of cardboard or similar material. A permanent dispenser 40 is preferably made of high impact plastic. In an alternative embodiment, a permanent dispenser 40 may be sized to hold a disposable dispenser 40. In either case, it is preferred that the dispenser 40 include a means to identify the color of the liners 20 being stored. Such means may include the use of color-coded labels, bar codes, windows and other techniques as are known in the art. In an alternative to the preferred embodiment, the drawer 13 need not be bottomless to obtain the benefits of the invention. While it is believed that the bottomless drawer 13 insures that a liner 20 is used and is therefore preferable, it is recognized that existing medication carts 10 have drawers 13 with bottoms 17 that are suitable for use with the invention. It is also recognized that medication carts 10 and drawers 13 have been and will be made in shapes other than regular geometric rectangles. It is within the scope of the invention then that liners 20, dividers 28, dispensers 40 and other components of the preferred embodiment may be of any shape that generally conforms to the interior contours of a drawer.
While the illustrated preferred embodiment is directed to use in medication carts 10, the principles of the invention are equally adaptable for other health care applications including other drug delivery systems, epidural trays, stock bins for unit dose (UD) dispensing, outpatient and home health care medicine receptacles, separation of narcotics, team-R carts, code carts, labor and delivery tackle boxes, cardiovascular operating room buckets, laboratory samples, intravenous solutions and other medical cabinets and storage systems as are known in the art.
As illustrated in
Likewise,
The bin liners may also be provided with bottom walls having varying configurations. An “egg carton” arrangement is employed in the bin bottom 59, as shown in
Referring now to
Referring to
To summarize, cubie and mini compartments allow limited access, while matrix compartments do not. The matrix drawer is used for drugs not requiring a high level of security and/or inventory control.
As should now be understood given the above description, the use of drawer liners 115 has been discovered by the inventor to be a particular source of the spread of nosocomial infections due to cross-contamination and ineffective cleaning. Simply put, medical personnel fail to clean drawer liners on any kind of consistent or periodic basis, and also do not clean them anywhere close to often enough. Given the inventor's surprising discovery in this regard, his solution largely solved the problem: individual, disposable plastic bin liners 140 (see, e.g.,
Compartment liners may be made in any size and configuration, to fit the size of individual drawer compartments and/or drawer liner compartments, as shown in
With matrix drawers, it is preferred that drawer liners be used, as their use can preserve the integrity of the bins themselves (i.e., when drawers without drawer liners are used, spilled liquid medications containing dextrose, fatty acids or other substances can leak from pocket to pocket and quickly grow microorganisms, for example). Individual plastic, disposable bin liners therefore find particularly advantageous use with ADMs or manual medication carts in which matrix drawers with individual compartments, but without drawer liners, are used. However, for cleaning efficiency (and to avoid drug destruction during wholesale cleaning of drawers without compartment liners), even when drawer liners are used, individual, disposable bin liners of the present invention find great advantage, as well, for the reasons discussed above.
In another aspect of the invention, drawer liners 115, or individual bin liners 140, may be color-coded to differentiate the presence of certain medications. As non-limiting examples: blue drawer liners and/or blue bin liners may be used to signal the presence of innocuous or common drugs (e.g., Tylenol®, aspirin); green could be used to signal the presence of “look-a-like” drugs (e.g., those with a similar physical appearance, such as those consisting of round white tablets, or drugs with sound-a-like names such as diphenhydramine and dimenhydrinate); and red could be used to signal the presence of potentially dangerous drugs if administered improperly (e.g., antibiotics similar to penicillin, due to potential allergic reactions; drugs with a narrow therapeutic window, such as digoxin, in which slightly more than recommended could result in toxic levels, drugs with very pronounced therapeutic effects such as “pressors” that increase blood pressure or those taken for sepsis/blood infection, and highly addictive drugs such as morphine).
The above description is not intended to limit the meaning of the words used in the following claims that define the invention. Rather, it is contemplated that future modifications in structure, function or result will exist that are not substantial changes and that all such insubstantial changes in what is claimed are intended to be covered by the claims.
This application is a continuation-in-part of U.S. application Ser. No. 10/795,823 filed Mar. 8, 2004, which is a continuation-in-part of U.S. application Ser. No. 10/246,058 filed Sep. 18, 2002.
Number | Date | Country | |
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Parent | 10795823 | Mar 2004 | US |
Child | 12478974 | US | |
Parent | 10246058 | Sep 2002 | US |
Child | 10795823 | US |