You are currently viewing: Medela - English
You can select an alternative Medela website in one of these countries:

Professional Vacuum Systems Insights

Four basic principles for infection control

Time to read: 3 min.

Reduce Infection Risk With 4 Simple Strategies for Waste Disposal

If you want to reduce infection risk in your hospital, nursing home, or outpatient facility, treat every fluid collection system you handle as an infectious event waiting to happen.

Why? Because every splash, spill, spray, splatter, and airborne contamination:

  • Is a serious event
  • Can turn critical when untrained and/or unprotected staff are exposed
  • May spread dangerous blood-borne pathogens, including HIV and hepatitis B and C
  • Can lead to absenteeism, financial burdens on your institution, and emotional distress for affected staff.1

asset_image

When pathogenic substances splash out of fluid waste containers among unprotected healthcare staff, it creates the perfect storm for the potential spread of dangerous infections.

In this article, we will focus on how the choice of fluid waste management products can help you reduce these infection risks and achieve greater infection control.

asset_image


You can help ensure your fluid management system is optimally equipped to mitigate the risk of infections by relying on four basic, yet essential, principles.


1 Prevent infection with highly efficient filter systems:

Viral and anti-bacterial filters help keep out airborne contaminants as well as those that may result from suctioned fluid overflowing from the canisters. The use of filters is essentially mandated in the latest ISO 10079 recommendations as “a means to prevent contamination of the vacuum pump” in electronically powered suctioned equipment such as fluid containment systems.6


2 Contain fluids upstream with overflow/backflow protection:

Overflow and backflow of fluids from the canister into other parts of the suction system are constant sources of concern. The latest iteration of ISO includes a requirement for robust overflow protection.6 Make sure your system comes equipped with easy-to-use shutoff mechanisms, to counter the dangers of backflow and overflow.


3 Reduce infection risk through use of a solidifying agent

Solidifying agents can be extremely effective in helping to eliminate splashes, spills, and aerosolization of fluid biomedical waste that increase the risk of contamination and exposure.5,7  Importantly, when fluid medical waste is solidified it may be rendered non-infectious.8 In some areas of the world, this allows for the disposal of canisters as non-regulated instead of regulated medical waste.5 This has the potential to significantly decrease medical waste disposal costs for a healthcare facility.5 Check local regulations to determine if this applies to your institution.


4 Follow best practices with a proven disposable collection system:

≈80% of hospitals in the US have made the switch to disposables for better infection control.7

Facilities using disposable collection bags must still be sure to follow best practices to avoid exposure. These include always discarding disposables:7

  • When the canister is full, removed, or when treatment is finished.
  • In a non-patient care area designated for disposal.
  • With the container properly sealed before it is transported to the disposal site.
  • With everyone on the disposal team wearing the proper protective equipment.

Choose a system designed to reduce infection risk

One of the most effective ways to ensure reduced infection risk is by selecting a system that can help you to prevent the type of exposure incidents that spread healthcare-associated infections.

The Medela Disposable Collection System’s infection risk reduction features include*:

Virus and bacteria filters aligned with the latest ISO 10079-1: 2015 recommendations

  • 99.999% retention.
  • Overflow protection and smoke pre-filter to protect the pump and environment.

Optimized protection thanks to reliable disposable collection bags

  • Double-layered, highly burst-resistant 1 PA/PE foil.
  • Non-return valve to prevent backflow and splashing.
  • Integrated bacteria filter for additional safety.

Liners with integrated solidifier optionally available

  • To help eliminate spill risk of highly infectious waste.
  • May reduce medical waste disposal costs.

If you are interested in reducing infection risk in your institution today, your local Medela representative can provide additional information about the advantages of the Medela Disposable Container System and help arrange a demonstration or trial in your facility.

Related Products

Disposable Collection System (DCS)

Provides peace of mind through clever design. Safety made easy. Find out how to manage fluid collection easily and safely.

Read more

Vacuum Assisted Delivery System

Reliability and flexibility whenever the birth process requires vacuum assistance.

Read more

Reusable Collection System (RCS)

The Medela Reusable Collection System is made of durable, autoclavable, high-quality components. The portfolio is easy to use and virtually indestructible.

Read more

Disposable Collection System (DCS)

Provides peace of mind through clever design. Safety made easy. Find out how to manage fluid collection easily and safely.

Read more

Vacuum Assisted Delivery System

Reliability and flexibility whenever the birth process requires vacuum assistance.

Read more

Reusable Collection System (RCS)

The Medela Reusable Collection System is made of durable, autoclavable, high-quality components. The portfolio is easy to use and virtually indestructible.

Read more
References

1. Goss, L. Reduce splashes, increase infection prevention. Infection Control Today 2015. Accessed March 19, 2019. Internet: https://www.infectioncontroltoday.com/general-hais/reduce-splashes-increase-infection-prevention

2. Mathias, JM. Safe options for suction canister waste. OR Manager. 2004 April; 20(4). Accessed March 19, 2019. Internet: https://www.ormanager.com/wp-content/uploads/pdfx/002/ORMVol20No4SuctionWaste.pdf

3. World Health Organization. Health-care waste fact sheet. Accessed March 19, 2019. Internet: https://www.who.int/news-room/fact-sheets/detail/health-care-waste

4. Doebbeling BN, Vaughn TE, McCoy KD, et al. Percutaneous injury, blood exposure, and adherence to standard precautions: are hospital-based health care providers still at risk? Clin Infect Dis 2003;37(8):1006-13.

5. Key Group Research “Fluid Management & Waste Disposal Survey” June 30, 2017 as quoted by Bean M. Stop the splashes, spills: how hospitals can ensure safe disposal of infectious fluid waste. Becker’s Hospital Review 2018. Accessed March 19, 2019. Internet: https://www.beckershospitalreview.com/quality/stop-the-splashes-spills-how-hospitals-can-ensure-safe-disposal-of-infectious-fluid-waste.html?tmpl=component%E2%80%A6

6. The International Standards Organization. 10079-1:2015. Medical suction equipment – Part 1: electrically powered suctioned equipment.

7. Tydell P, Donaldson J. Control of infections in liquid waste management. Infection Control Today 2001. Accessed March 19, 2019. Internet: https://www.infectioncontroltoday.com/view/control-infections-liquid-waste-management

8. Chun C, Zohdy M. Medical Suction and Fluid Waste Management: Patient and Workplace Safety Considerations for Health Care Organizations. Joint Commission International. 2017. Internet: http://www.jointcommissioninternational.org/assets/3/7/JCI_WP_Med_Suction_and_Fluid_Waste_Mgt_Final_(1).pdf. Accessed March 19, 2019.