Improve Thermal Comfort

Traditional HVAC systems for operating rooms are prone to hot and cold spots, leading to uncomfortable room conditions. The Ultrasuite +Climate® system provides a more consistent room temperature that is comfortable for staff and patients.

Ultrasuite +Climate® offers full control of the operating room environment with an intuitive user interface and is able to rapidly change and maintain temperature to suit specific medical requirements.

Reduce Airborne Particulates

Surgical Site Infections (SSI) cost the U.S. healthcare system an estimated $3.5-$10 billion annually1 and there is correlation between airborne particulate levels and infection rates2.

Ultrasuite +Climate uses integrated HEPA filtration to remove 99.99%3 of particulate from the airflow supplied to the operating room, reducing airborne particulate levels in the surgical zone.

Current and legacy air distribution do little to remove surgical smoke from the operating room. Ultrasuite +Climate pushes surgical smoke away from the breathing zone of surgical staff and rapidly exhausts contaminated air from the space to mitigate exposure to surgical smoke.

Mitigate Surgical Smoke Exposure

Modern energy efficiency strategies have improved HVAC systems in many spaces however, operating rooms have typically been exempt due to their critical nature. The decentralized equipment approach used in the Ultrasuite +Climate system reduces the strain on central HVAC systems to improve energy efficiency and reduce initial equipment cost when compared to traditional systems.

Single-source supply reduces equipment lead-times and allows Ultrasuite +Climate components to be factory pre-assembled for the shortest possible construction down-time.

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Resources

1.Ban KA, Minei JP, Laronga C, et al. American College of Surgeons and Surgical Infection Society: Surgical site infection guidelines, 2016 update. J Am Coll Surg. 2017;1:59-74. Retrieved from https://pubmed.ncbi.nlm.nih.gov/27915053/

2.Lidwell OM, Lowbury EJ, Whyte W, Blowers R, Stanley SJ, Lowe D. Airborne contamination of wounds in joint replacement operations: the relationship to sepsis rates. J Hosp Infect. 1983 Jun;4(2):111-31. Retrieved from https://pubmed.ncbi.nlm.nih.gov/6195220/

3IEST-RP-CC001: HEPA and ULPA filters. Institute of Environmental Sciences and Technology. Retrieved from https://www.iest.org/Standards-RPs/Recommended-Practices/IEST-RP-CC001