The present invention relates to recovering single use medical devices (SUDs) from existing hospital medical waste streams, and more specifically, to an apparatus and method to recover SUDs, which would otherwise be destroyed along with other medical waste contained within sealed sharps containers.
Health care organizations are continually under pressure to find ways to lower or limit health care costs. One such opportunity for health care organizations to reduce costs is by recycling materials and supplies, in particular, by recovering SUDs that can be cleaned and sterilized for reuse, consistent with FDA regulations. Chapter 9 of the Federal Food, Drug and Cosmetic Act defines a medical device as an instrument, apparatus, implement, machine, contrivance, implant, in vitro reagent, or other similar or related article, including any component, part, or accessory, which is (1) recognized in the official National Formulary, or the United States Pharmacopeia, or any supplement to them, (2) intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease, in man or other animals, or (3) intended to affect the structure or any function of the body of man or other animals, and which does not achieve its primary intended purposes through chemical action within or on the body of man or other animals and which is not dependent upon being metabolized for the achievement of its primary intended purposes.
For purposes of this patent application, medical devices fall into two categories. The first category is Reusable devices, which are sold as reusable and can be cleaned and sterilized for reuse by a health care organization, such as a hospital, without regulatory approval. Reusable, manufacturer designated multiple-use medical devices are sold with the expectation the medical devices can and will be processed for reuse by hospitals or surgery centers within their own walls. Such medical devices are sold once and are typically cleaned and resterilized many times for use on multiple patients. These medical devices are collected after use by hospital or surgery center personnel and are cleaned, resterilized in an autoclave or by exposure to ethylene oxide or other appropriate sterilant, repackaged as necessary, and then reused in the same facility.
The second category is Reprocessible devices, which are designated by the manufacturer for single use only or as disposable; these medical devices can legally be reused only if reprocessed consistent with FDA regulations. These SUDs are designated for only a single use, but many can, if properly cleaned and sterilized by a regulated process, be recycled for additional patient use. The FDA closely regulates the third party reprocessing industry that provides this service by requiring separate regulatory approvals for each device-type SUD to be reprocessed. An FDA approval (which is obtained through an FDA 510k application) for such devices is a premarket notification by the FDA that is issued in response to a party demonstrating that a medical device the party wants to sell/reprocess is as safe and as effective as or substantially equivalent to an existing approved medical device that was or is currently on the United States market. Because hospitals do not have FDA 510k authorizations to reprocess SUDs, and because it does not appear that any hospital has applied for and received any FDA 510k authorizations to reprocess SUDs, a third party reprocessor industry has evolved with the engineering/regulatory infrastructure necessary to submit and receive multiple FDA 510k approvals, enabling these third parties to reprocess SUDs for the benefit of the medical industry.
Because medical devices are often “sharp” and used on patients in invasive procedures, strict requirements exist for their disposal after use. After use, such medical devices are unclean, often having been in contact with blood or other bodily fluids of a patient, but are still sharp. Indeed, many of these medical devices have a point or edge sharp enough to penetrate typical waste collection containers. Accordingly, hospital procedures require that a large proportion of such SUDs be disposed after use in a “sharps” container. Sharps containers are well known to those who work in medical care facilities and are intended to be used to collect potentially dangerous, used sharp medical devices that are capable of cutting or penetrating skin or penetrating a conventional waste package container. Typically, sharps containers contain a large volume of used syringes, needles, and broken glass. They also often contain used SUDs. These containers are periodically picked up from the facility by a regulated waste collector and transported to a central site for permanent destruction.
Traditionally, there are two ways medical care facilities contract for waste collection and management of sharps containers. Medical care facilities can purchase sharps containers intended for disposal in a variety of sizes, as needed, and position the sharps containers inside patient rooms, laboratories, operating rooms, emergency rooms, etc. Medical care facilities personnel regularly monitor the status of individual sharps containers and collect them after they are full or after a predefined time period has elapsed. These containers are permanently “locked” at the point of collection, and a replacement empty sharps container is substituted for the full sharps container. These full sharps containers intended for disposal, after being permanently sealed, are aggregated in a designated area for collection by a regulated medical waste hauler, who picks up the full sharps containers and transports them to a disposal plant. The sharps containers and their contents are then incinerated or otherwise completely destroyed without the containers ever being opened.
Alternatively, medical care facilities may choose to rent reusable sharps containers, rather than purchase sharps containers that are intended for disposal. At the disposal site, the lids of the reusable sharps containers are removed with a specially designed mechanical apparatus and all of the contents are dumped directly into a waste disposal stream for immediate or near-immediate permanent disposal. The reusable sharps containers are then cleaned and disinfected and returned to a hospital or other medical care facility for reuse.
Although the reprocessing of SUDs is certainly more cost effective than the alternative of destruction, a study conducted in coordination with New York State environmental regulators determined that a very large number of potentially reprocessible SUDs were being disposed of in sharps containers and thus never reclaimed for reuse. In this study, sharps containers were accumulated from ten New York City hospitals for one week. Next, the sharps containers were forcibly opened, and the contents spread out on a stainless steel tray and sorted into two piles, including a pile of reprocessible SUDs, and a pile of all the other contents. Approximately twenty percent by volume of the contents of these containers were SUDs that, if properly reprocessed, could save the hospital approximately $1000 per sharps container. This figure equates to a savings of approximately $1,500 per hospital bed per year, or a $300,000 savings for a typical 200 bed hospital.
Therefore, it clearly would be desirable to provide a method and device that recovers SUDs from either disposal or reusable sharps containers. It would be desirable to substantially eliminate the need to purchase new SUDs and avoid the unnecessary waste by efficiently collecting and reprocessing SUDs that are reclaimed from sharps containers otherwise slated for destruction. It should be possible for medical care treatment facilities to proactively dispose of all SUDs in sharps containers. The sharps containers might then be collected, the contents removed and sorted, and all SUDs reprocessed for reuse. All of the remaining contents of the sharps containers, including the non-reusable medical devices and other medical waste, might then be disposed of using traditional disposal methods, such as incineration.
Recognizing a need to lower or at least limit medical care treatment costs, the present invention was thus developed to recycle and reprocess SUDs, which have been used in medical care treatments and disposed of in a sharps containers. One aspect of the invention is directed to a method for recovering medical devices that can be processed for reuse from a sharps container, which includes other medical waste materials that are to be destroyed. The sharps container is placed in a recovery device that facilitates handling of the sharps container and its contents in a manner that protects an operator from exposure to biohazards. The sharps container is then opened while in the recovery device. The recovery device is used to empty the contents of the sharps container onto a sorting surface that is disposed adjacent to the operator so that the operator is able to sort through the contents and manually remove any medical devices that are suitable for processing and reuse from the sorting surface, to an adjacent location. The other medical devices and medical waste remaining on the sorting surface are then placed in a disposal container.
In addition, the method includes the step of identifying a source of each sharps container that was submitted for disposal before the sharps container is placed in the recovery device, so that all medical devices that are removed from the sharps container for processing and reuse, and collected in a receptacle, are attributed to the source. These devices are cleaned and disinfected and are then eligible to be shipped by a common carrier without being labeled as biohazard infectious waste, in accordance with government regulations. In the alternative, the devices are shipped to another facility where they are cleaned, and disinfected for reuse.
Air is preferably exhausted from the vicinity of the sharps container and the sorting surface so that any aerosolized pathogens are exhausted before contacting the operator. This air is preferably exhausted through a filter that intercepts pathogens carried by the air before the air reaches the ambient environment.
When the sharps container is emptied, the sharps container is engaged with the recovery device, which manipulates the sorting surface so that it is positioned over an opening into the sharps container. The recovery device next manipulates the sharps container so that the contents of the sharps container move from inside the sharps container, through the opening, and fall onto the sorting surface. Finally, the sharps container is moved away from the sorting surface, enabling the operator to access any reusable medical devices that are on the sorting surface.
Any portion of the contents of the sharps container that has not fallen onto the sorting surface is manually removed. The empty sharps container and its lid are then queued for cleaning or destruction consistent with whether the sharps container is intended for disposal or reuse.
Medical devices that can be found in a sharps container, but which may be reused, include trocars, laparoscopic devices, endoscopic devices, cutters, staplers, graspers, harmonic scalpels, burrs, blades, oxisensors, compression sleeves, catheters, bits, and saws.
A second aspect of this invention is directed towards a recovery device for recovering medical devices that can be processed for reuse from a sharps container, which includes other medical devices and medical waste materials that are to be destroyed. It includes a frame and a movable support member mounted on the frame and adapted to removably engage a sharps container. A sorting surface is movably coupled to the frame to receive the contents of a sharps container when the movable support surface is reoriented to transfer the contents onto the sorting surface.
The device also includes a first operator manipulative control that moves the sorting surface into a first position relative to the movable support member. While in the first position, the sorting surface overlies an opening in a sharps container. It also includes a second operator manipulative control that moves the movable support member to different orientations. This second operative manipulative control is operable to selectively move the movable support member and the sorting surface to a second position that enables any liquid contained within a sharps container to drain, and to a third position in which contents of a sharps container are transferred to the sorting surface.
The frame further comprises a support for a removable receptacle. The receptacle is adapted to receive medical devices that can be processed for reuse after they are transferred from the sorting surface. The recovery device also includes an exhaust fan and vent such that air is exhausted from a vicinity of a sharps container and the sorting surface to prevent any aerosolized pathogens in the air from contacting an operator. A filter is disposed in a path of the air that is being exhausted to prevent any pathogens carried by the air from being exhausted into an ambient environment, and a shield is disposed around a sharps container and the sorting surface to protect an operator from exposure to pathogens. An opening between the shield and the sorting surface provides an operator unobstructed access to the contents of the sorting surface. Also, the movable support member defines an opening sized to receive and retain a sharps container. The frame includes an opening adapted to enable the other medical devices and medical waste materials to be transferred into a container for disposal.
The sorting surface is sized to cover an opening in a sharps container. The opening provides access to contents of a sharps container. The sorting surface also includes an opening to facilitate transfer of the other medical devices and medical waste materials into the container for disposal.
The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
The present invention provides a safe and efficient method and apparatus whereby a sharps container whose contents would otherwise be incinerated or permanently disposed of, can be opened and sorted to separate SUDs that can be cleaned and sterilized for use from all other medical waste that should be destroyed. A sharps container is a basic container that is well known in the medical arts, for disposal of items with a sharp edge or point that is capable of cutting or piercing. The sharps container is typically made of a relatively hard plastic so that these used medical devices are safely contained within the sharps container and therefore not likely to penetrate the sides of the container, which could injure and/or transmit biohazard contaminants to people.
Sharps containers are generally intended to contain items such as hypodermic needles, syringes (both with and without needles attached), scalpels, pipettes, blood vials, broken glassware such as flasks, beakers, and specimen tubes, culture dishes, IV tubing, IV bags contaminated with visible blood, and dental wires. These medical devices are non-reusable and are properly intended to be permanently disposed of, usually by incineration. However, in addition to these properly non-reusable medical items, there may be medical devices that are suitable for cleaning and reuse, such as trocars, laparoscopic and endoscopic devices, cutters, staplers, graspers, harmonic scalpels, burrs, blades, oxisensors, compression sleeves, catheters, bits, and saws. The cost of replacing these potentially reusable medical devices with new medical devices is substantially greater than the cost of cleaning and sterilizing the improperly discarded medical devices, so that they can be reused. It is unfortunate that through inadvertence and negligence, potentially reusable medical devices are placed into sharps containers that are simply destroyed. In contrast, the present invention recognizes that sharps containers may indeed include reusable medical devices and enables an operator to safely peruse the contents of a sharps container and efficiently sort the contents to recover the reusable medical devices, while any remaining non-reusable medical devices and other medical wastes are discarded and slated to be destroyed.
Hence, the result of this efficient sorting is that certain medical devices that have been used in a medical procedure by a medical care treatment facility and disposed of in a sharps container, may be recovered from the sharps container, cleaned, repackaged, resterilized, and reused by the medical care treatment facility. This recovery of reusable medical devices helps to lower or at least limit medical treatment care costs, especially considering the potential for certain medical devices to be reused multiple times.
Note that the term medical care treatment facility is not intended to in anyway be limiting on the types of medical facilities that can be a source of the sharps containers that are processed with this invention. The term without limitation is intended to include hospitals, outpatient clinics, physicians' offices, nursing homes, medical clinics, dentists offices, blood banks, medical research facilities, laboratories, and any other facilities where medical devices are used that might be disposed of in a sharps container.
Those skilled in the art will recognize that alternatives exist for both the brackets and latch. For example, clamps (not shown) could be used instead of the latch to hold the sharps container in place on the brackets. Also, plates (not shown) could be used to support the bottom and sides of the sharps container, which could be secured by one or more straps to the plates.
It will also be understood that either an electric motor or a hand-powered crank can alternatively be employed to drivingly rotate the sorting surface and the sharps container about axis 28, to any desired orientation. For example, the sharps container can be tipped sufficiently to enable any liquid contained in the sharps container to drain into a waste receptacle 44, and when positioned in a fully inverted orientation, the contents of the sharps container will be dumped onto the sorting surface. Although illustrated in
However, those skilled in the art will recognize that manipulation of the sharps container and the sorting surface about axis 28 may be accomplished without the hand crank and the main crank. For example, as shown in
In a preferred embodiment, sorting surface 26 includes a side 26a, a side 26b, and a side 26c, with an open fourth side 26d. This open side enables any liquid in the sharps container to be drained into waste receptacle 44 after the reusable medical devices have been removed from the sorting surface. Open side 26d of the sorting surface also enables the non-reusable medical devices and the other medical waste to be deposited into waste bin 44 after all of the reusable medical devices have been removed from the sorting surface. Side 26a, side 26b, and side 26c of the sorting surface should also be of a height sufficient so that when the contents of the sharps container are dumped onto the sorting surface, the contents will not spill over the sides of the sorting surface. As an alternative, the sorting surface might include small perforations, similar to a grating, such that when the sorting surface and the sharps container are inverted, any liquid contents will drain through the perforations and into waste receptacle 44. The perforations should be sized to enable any liquid contents to drain yet prevent any solid contents of the sharps container from passing through the perforations.
Those skilled in the art will realize that although the sorting surface is shown in a square-shaped configuration, the shape of the sorting surface may vary as desired, so long as the size is sufficient to cover the opening formed when the lid of the sharps container is removed.
The sorting surface must be rotatably movable about axis 28, and is preferably readily removable, such that it can be periodically cleaned, disinfected, and repaired. In addition, although not shown in
Frame 22 is preferably partially enclosed to ensure that the non-reusable medical devices and the other medical waste are directed towards waste bin 44 and do not readily escape onto the outer surface of the recovery device or onto a platform 100 surrounding the recovery device. However, at least a frame opening 46 is provided in platform 100 for enabling the remaining sorted waste materials and non-reusable medical devices (and any liquid in the sharps container) to drop into waste bin 44. This frame opening must be sized such that the non-reusable medical devices and the other medical waste can fall freely through the opening under the force of gravity. Thus, waste bin 44 is positioned under the frame to receive the non-reusable medical devices and the other medical waste, so that these items can be permanently destroyed—most likely by incineration.
In addition, frame 22 also includes a support for receptacle bin 48 that will receive the reusable medical devices removed by the operator from sorting surface 26. The receptacle bin is preferably disposed adjacent to the operator such that reusable medical devices may be speedily, safely, and efficiently transferred from the sorting surface to the receptacle bin for subsequent cleaning and sterilization.
Optional recovery device components that will ensure human safety and thus reduce exposure to biohazards include protective clothing (not shown) that is worn by the operator (including, optionally, a face mask with a supply of clean air), a shield 50 that overhangs the sharps container when initially fitted into the recovery device and the sorting surface, a vent 52, through which air from around and above the sorting surface is drawn, and a high-efficiency particulate arresting (HEPA) filter (not shown) that filters the air before it is exhausted to the outdoor ambient environment, so that any harmful pathogens are removed from the exhaust air. The operator will likely be garbed in protective gear in order to minimize contact with the sharps container biological and chemical contaminants. In addition, shield 50 will reduce the possibility of the operator being exposed to air-borne pathogens or aerosolized bio-contaminants or chemicals, as the sorting surface and sharps container are manipulated to rotate about axis 28 or while the operator is manually removing reusable medical devices from the sorting surface. Vent 52 also ensures that any pathogens or aerosolized harmful liquids in the sharps container such as fumes 54 are safely drawn away from the vicinity of the operator's working space.
Although a preferred embodiment only provides for the sorting of one sharps container at a time, those skilled in the art will recognize that the recovery device could be designed so that a plurality of sharps containers might be processed at one time to recover reusable medical devices for cleaning and sterilization. All of the sharps containers processed at one time would be from the same medical facility, to ensure that all of the reusable medical devices recovered from the sharps containers being processed at the same time are credited to the appropriate medical facility.
A step 64 provides for loading the sharps container into the recovery device and securing it therein with the latch. A step 66 indicates that the operator should check that the waste bin is properly disposed underneath the opening in the frame so that all non-reusable medical devices and the other medical waste can be disposed of properly once the contents of the sharps container have been sorted to recover any reusable medical devices (and to receive any liquid contents of the sharps container). A step 68 provides for removing the lid of the sharps container and disinfecting the total contents by thoroughly spraying the interior and contents with a disinfectant spray. All visible surfaces should be sprayed with the disinfectant until moist. The lid is removed by lifting one end and sliding it clear of the sharps container (or as otherwise appropriate for the design of the sharps container being processed). Removing the lid of the sharps container only after the sharps container is in the recovery device ensures that the benefits described above in connection with the operator protective clothing, the shield, the vent, and the HEPA filter are achieved.
In a step 70, the sorting surface is lowered onto the sharps container in response to the operator turning the hand crank. The sorting surface is then held in place over the open top of the sharps container by the force applied with the hand crank, while the main crank is engaged by the operator to control the rotation of the sorting surface and the sharps container as a unit. Alternatively, the sorting surface can be held in place by the protrusions (not shown) that secure it to the walls of the sharps container, as described above. However, there will be some nominal clearance between the sorting surface and the sharps container so that there is not a complete seal between the sorting surface and the sharps container in order for the liquid contents to drain from the sharps container and into the waste bin when the sharps container is rotated sufficiently to partially invert the sharps container.
At this point, in a step 72, the main crank is utilized to reorient the sorting surface and the sharps container such that at a step 74, the operator can pause the combination sufficiently long to enable any liquid contents to drain through the clearance opening between the sorting surface and the open top of the sharps container. The operator, in a step 76, then reorients the sorting surface and the sharps container such that the sharps container is substantially fully inverted relative to its original position.
A step 78 then provides for removing the sharps container from the sorting surface using the main crank. At this point, the entire contents of the sharps container less the bulk of the liquid contents should be deposited onto the sorting surface. If any medical waste or medical device still remains within the sharps container, the operator can pause with the sharps container still partially inverted over the sorting surface and rap the sides of the sharps container, causing the remaining medical waste or medical device to fall on the sorting surface. Or, the operator may need to reach inside the partially inverted sharps container with tongs or other suitable instrument to grasp the medical waste or medical device remaining inside and deposit it on the sorting surface.
A step 80 provides for reattaching the sharps container lid and placing the empty sharps container into a queue for cleaning and sterilization, so that the sharps container can be recycled and returned to the medical care treatment facility for future use. A step 82 indicates that the operator then removes all reusable medical devices from the sorting surface. The operator may remove the reusable medical devices using tongs or any kind of device that enables the operator to firmly grasp the reusable medical device and safely place it into the receptacle bin. Only those medical devices that are deemed reusable or federally regulated so that only licensed agencies can process them for reuse will be removed from the sorting surface and placed into the receptacle bin.
In a step 84, after all reusable medical devices have been removed from the contents on the sorting surface, the operator rotates the sorting surface into an inverted position using the hand crank so that the non-reusable medical devices and remaining medical wastes are caused to slide from the sorting surface and drop down into the waste bin. At this point, it may be necessary for the operator to remove any non-reusable medical devices from the sorting surfaces manually using the tongs or similar implement if the non-reusable medical devices and medical waste clings to the sorting surface and does not readily drop into the waste bin.
A step 86 then provides for disinfecting the receptacle bin (once it is full or once all of the sharps containers from a given medical treatment facility have been processed to place their reusable medical devices into the receptacle bin). This receptacle bin may then be shipped to an outside facility, as noted in a step 88, where the reusable medical devices will be processed for reuse, which includes cleaning, sterilizing, and repackaging, or alternatively, the receptacle bin will remain at the recovery device center for similar processing. At this point, the recovery process is completed as indicated in a step 90.
Although platform 100 is shown in all of the Figures, those skilled in the art will realize that frame 22 can be easily designed in an alternative configuration such that it completely encloses the waste bin, which is removable by opening an access panel. Therefore, operator 38 does not need to stand on the platform in this alternative embodiment in order to manipulate the recovery device and sort through the contents of the sharps container.
Prior to being loaded into recovery device 10, as described above, the label on the sharps container will have been noted and the receptacle bins will be labeled to indicate the source of the recovered reusable medical devices sorted from the contents of the sharps container, based upon the label of the sharps container. For example, a label 106a on a sharps container 14a might be appropriately labeled, “Caution, Biohazard, Infectious Waste, Metropolis City Hospital—Heart Surgery Department.” Similarly, the label on the receptacle bin that will be used to receive the reusable medical devices sorted from the contents of sharps container 14a will be labeled to indicate that the source of the reusable medical devices contained therein is the Metropolis City Hospital—Heart Surgery Department.
Operator 38, who is garbed in protective gear (not shown), is illustrated securely mounting sharps container 14 into recovery device 10 by sliding the edges of the sharps container onto brackets 24 and securing it in place with a latch 30. A lid 108 of the sharps container is still secured to sharps container 14 that is being mounted onto the brackets. Notice that a lid 108a is still secured to sharps container 14a that will be sorted after sharps container 14 has been sorted.
In
At this point, operator 38 begins to change the orientation of the sorting surface. In this preferred embodiment, the two cranks are manually activated by the operator to change the orientation of sorting surface 26 and then the combined sorting surface and sharps container 14. Activation of hand crank 32 on the recovery device enables sorting surface 26 to be rotated from an initial position 26′, as shown in
However, regardless of the method that is used to ensure that the sorting surface and the sharps container are temporarily engaged, the sorting surface is positioned or aligned over the sharps container so that when the contents are upended onto the sorting surface, there is no spillage of the contents of the sharps container over the sides of the sorting surface.
With reference to
Those skilled in the art will notice that although partially inverted positions, position 14″ and position 26′″ appear to form an angle slightly greater than 90° relative to position 14′ and position 26″, so that the opening into the sharps container is at its lowest point, various greater angles will also allow for drainage of the liquid contents from the sharps container. An alternative would be to rotate the sorting surface and the sharps container about axis 28 in arc 112 and then rapidly back in an opposite direction in order to jostle the contents of the sharps container, so that any liquid contents trapped therein would be allowed to escape and drain into waste bin 44.
In order to enable the liquid contents to drain, the sorting surface does not seal against the top of the sharps container, and instead forms opening 42 between the top of the sharps container and the sorting surface. Opening 42 is sufficiently large to only enable the liquid contents to be drained from the sharps container, but not so large that reusable or non-reusable medical devices are able to slide through the opening and into the waste bin.
Once the operator has observed that there does not appear to be any more liquid contents 40 draining from the sharps container, the operator will then further rotate both the sorting surface and the sharps container as a unit into the respective positions shown in
At this point, operator 38 will engage main crank 34 so that sharps container 14 is disengaged from the sorting surface and rotated about axis 28 along arc 110 in a controlled manner, as shown in
Once the sharps container has completed its rotational movement, it will be at its loading position 14′, as shown in
Operator 38 will then sort through the reusable medical devices 16 and the non-reusable medical devices 18 in the sorting tray. Using tongs 56, operator 38 can reach between shield 50 and the top of sorting surface 26 and remove any reusable medical devices that may be resterilized, reused, and repackaged, and thus available for reuse. The operator will then place the reusable medical devices into receptacle bin 48 that is disposed near the operator.
As shown in
When operator 38 sees a reusable medical device that is suitable for cleaning and reuse, operator 38 will then place that reusable medical device into receptacle bin 48. The operator may use tongs 56 or any other implement that enables the operator to safely and securely grasp the medical device, since as mentioned above, the sharps container is intended to contain devices that are sharp, and therefore the operator could be injured by a sharp medical device if not properly handled. Some of the medical devices that may be reused and deposited in receptacle bin 48 include, but are not limited to the following: trocars, laparoscopic devices, endoscopic devices, cutters, staplers, graspers, harmonic scalpels, burrs, blades, oxisensors, compression sleeves, catheters, bits, and saws.
Once the operator has retrieved all of the reusable medical devices and placed them into receptacle bin 48, the types of medical devices left behind on the sorting surface that cannot be reused include, for example: hypodermic needles, syringes with and without needles attached, scalpels, pipettes, blood vials, broken glassware such as flasks, beakers, and specimen tubes, culture dishes, IV tubing, IV bags contaminated with visible blood, and exposed dental wires. Other types of non-reusable medical devices and medical waste can also be left on the sorting surface.
Turning now to
Another sharps container from the same department and medical facility may be loaded into the recovery device if the receptacle bin is not full, as shown in
If the next sharps container to be processed is from a different medical care facility, even though receptacle bin 48 is not full, it must be closed and queued since any reusable medical devices from the sharps container just processed should not be mixed with reusable medical devices in a sharps container from a different source. A new receptacle bin that includes an appropriate label corresponding to the label of the next sharps container will be disposed adjacent to the recovery device so that reusable medical devices from that sharps container may be placed in it during the next sorting cycle.
Although the present invention has been described in connection with the preferred form of practicing it and modifications thereto, those of ordinary skill in the art will understand that many other modifications can be made to the present invention within the scope of the claims that follow. Accordingly, it is not intended that the scope of the invention in any way be limited by the above description, but instead be determined entirely by reference to the claims that follow.
This application is a continuation of a copending patent application Ser. No. 12/547,701, filed on Aug. 26, 2009, which itself is a divisional of prior copending patent application Ser. No. 10/943,586, filed on Sep. 17, 2004, the benefit of the filing date of which are hereby claimed under 35 U.S.C. § 120.
Number | Date | Country | |
---|---|---|---|
Parent | 10943586 | Sep 2004 | US |
Child | 12547701 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 12547701 | Aug 2009 | US |
Child | 12561068 | US |