Cementatious Solidification of Healthcare Wastes

The most common cause for alarm pertaining to healthcare waste disposal is the exposure of workers to infectious wastes and contraction of diseases from these wastes. With the increased risk of exposure to blood-borne pathogens in handling body fluids and disposal of items that have been tainted by these fluids, awareness and education for the prevention of percutaneous wounds is the highest priority.

Landfill burial of free liquids on absorbents or biodegradable items that release the liquids under the pressure of the increased garbage levels are prohibited in most of the countries. Untreated items that are not incinerated, steam sterilized, or chemically treated for disinfection still have biological activity that can continue unchecked.

A low-cost alternative to existent medical waste disposal methods that meets these treatment standards and does not draw upon high energy costs is cementatious solidification.

Cementatious Solidification

Solidification processes are used for various hazardous waste disposal of items that cannot be recycled or disposed of in an effective manner, such as incineration. By physical and chemical treatment of hazardous wastes by solidification, the waste is fixated and stabilized in a cement matrix that will not allow release of the fluids under pressure.

Cementatious solidification incorporates a range of materials such as gypsum, lime and Portland cement to form slurry that will fixate the wastes. In most cases, the cement mixture is added directly over the container holding the wastes, although direct mixture of the cement and wastes do occur. As the setting process occurs, the outside oxygen supply and raising of the pH cause the biological activity to cease.

In most medical wastes, disposal of needles is commonplace. Having direct contact with people who have had injections or blood drawn, they would be the most likely item to need treatment. A number of devices are available to incinerate the needles; however, many facilities use a common needle disposal container prior to its being disposed of via a waste management company.

These containers can still pose a threat to the worker handling the items, as the needles are still in a free state. In addition, with the containers holding sharps such as razors, glass, dental devices, and surgical retractors, open exposure to infectious elements still exists. A person can conceivably still run the risk of being cut via handling these items. Cement stabilization is the solution to these preventable incidents.

Double-bagged "red bag" wastes commonly refer to wastes treated with some form of sterilization. However, the bags still do not prevent the possibility of the worker being injured and exposed in handling the items in transfer. Solidification of these wastes on-site provides the added benefit of safety and increased stabilization of the residue.

With hundreds and thousands of needle sticks a year occurring in the healthcare marketplace, the risk of exposure and injury is an alarming certainty. Treatment of medical sharps should be given utmost priority, and it begins at the source of its generation. On-site treatment of the wastes will provide a safe passing down for the handlers of the materials until its final destination. The solidified mass within the container gives this security to the handler, as its structural strength provides safety and security.

Conclusions

Cement solidification gives additional support to this emphasis on safety. With proper identification of treated biomedical materials in this manner, exposure and disposal risks are significantly reduced. Meeting the conditions of local, state, federal and international regulations for waste disposal will determine final costs and definition of the materials. Guidelines vary pertaining to designation of what is and is not considered biomedical wastes; however, there is universal acknowledgment that the dangers of exposure should not go unnoticed. 

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About Mark Ceaser

Mark A. Ceaser is the Director of OMNI/Ajax ,a Pennsylvania manufacturing firm focused on production of spill control materials for hazardous waste cleanup. He holds BA in Management and MBA in Finance & Investment and has written white papers regarding medical waste disposal, bloodborne pathogen handling and the recycling of mercury bearing wastes that have been published in various publications. He co-holds US patents for aerated foamed recycled cellulose fibers particularly as a replacement for clay cat litter and alternative daily landfill cover. Mark has over 20 years of experience in manufacturing spill control materials along with consulting clients on their waste management issues.

3 Responses to Cementatious Solidification of Healthcare Wastes

  1. Phill Love says:

    What happens when leeching occurs and what are your parameters

  2. Mark A. Ceaser says:

    Good morning Phill.
    When the cementatious matrix has completely hardened, there is no leeching. Often the waste has been treated inside a container with the OMNI-KAP slurry applied. Between the combination of the (usual) plastic waste container and the matrix, it is an inert solid block. As for parameters of the material, I can supply technical papers on the product if you wish via e mail?

    Kind regards,

    Mark A, Ceaser

  3. Pingback: Cementatious Solidification of Healthcare Wastes | Cleantech Solutions

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