June 3rd, 2021
1:00 PM – 2:15 PM EDT
Panel Discussion including live Q&A

Bedroom for patient in a hospital, Empty bed and wheelchair on hospital ward

COVID-19 treatment has created a sharp increase in the need for isolation rooms now and in future expansion and redevelopment plans. As a follow-up to its March session on “Isolation Room Design” that outlined design principles and strategies, the Canadian Centre for Healthcare Facilities is bringing together a multi-disciplinary panel in a special session to share insights and answer audience questions. The panel of subject matter experts will share their experiences and insights in healthcare settings from planning, design, architectural, maintenance and operations perspectives. The audience will have the opportunity to share comments and ask questions, in order to better understand the unique considerations at hospitals and other care settings as the need for Isolation Rooms increases during the current pandemic and in plans going forward.

To register, go to www.cchf.net or click on the link below.
https://us02web.zoom.us/webinar/register/WN_vIlOFdjHQmqjqcCchGhH4A

Panelists:

Gordon Burrill, P.Eng., FASHE, CHFM, CHC
President, Teegor Consulting & CCHF Co-founder, Board of Directors' President

Craig Doerksen
Divisional Director, Facility Management, Health Sciences Centre, Winnipeg

Jessica Fullerton, M.Sc. CIC
Construction Lead – Infection Prevention and Infection Prevention and Control, The Ottawa Hospital

Scott Patterson, P.Eng., PMP
Senior Director, Facilities Planning and Development, Sinai Health

Robin Snell
Principal, Parkin Architects Limited

Nick Stark, P. Eng., CED, LEED AP, ICD.D
Vice-President Knowledge Management, HH Angus and Associates 

Moderator:

Rita Mezei, MSc.
Executive Director & Co-Founder, CCHF

COVID-19 treatment has created a sharp increase in the need for isolation rooms now and in future expansion and redevelopment plans. As a follow-up to its March session on “Isolation Room Design” that outlined design principles and strategies, the Canadian Centre for Healthcare Facilities is bringing together a multi-disciplinary panel in a special session to share insights and answer audience questions. The panel of subject matter experts will share their experiences and insights in healthcare settings from planning, design, architectural, maintenance and operations perspectives. The audience will have the opportunity to share comments and ask questions, in order to better understand the unique considerations at hospitals and other care settings as the need for Isolation Rooms increases during the current pandemic and in plans going forward.

To register, go to www.cchf.net or click on the link below.
https://us02web.zoom.us/webinar/register/WN_vIlOFdjHQmqjqcCchGhH4A

Panelists:

Gordon Burrill, P.Eng., FASHE, CHFM, CHC
President, Teegor Consulting & CCHF Co-founder, Board of Directors' President

Craig Doerksen
Divisional Director, Facility Management, Health Sciences Centre, Winnipeg

Jessica Fullerton, M.Sc. CIC
Construction Lead – Infection Prevention and Infection Prevention and Control, The Ottawa Hospital

Scott Patterson, P.Eng., PMP
Senior Director, Facilities Planning and Development, Sinai Health

Robin Snell
Principal, Parkin Architects Limited

Nick Stark, P. Eng., CED, LEED AP, ICD.D
Vice-President Knowledge Management, HH Angus and Associates 

Moderator:

Rita Mezei, MSc.
Executive Director & Co-Founder, CCHF

Join HH Angus’ Nick Stark and The Ottawa Hospital’s Jessica Fullerton as they discuss Considerations for Planning & Design of Isolation Rooms to Improve Safety in Healthcare Environments. ”

Date: March 18 @ 1PM – 2 PM EDT

45 minute Panel Discussion followed by live Q&A
Webinar Registration Fee: $65 (including taxes and fees)
www.cchf.net

Isolation Rooms help to separate patients and residents in healthcare settings as needed to protect patients and staff. Typically, acute care hospitals allocate isolation rooms in hospitals, with some being simply private rooms, and others having specialized engineering depending on the clinical needs of the patient and the safety requirements presented.  Given COVID, hospitals, long-term care homes and other healthcare facilities are looking at increasing and potentially upgrading the design of their isolation rooms, and reconsidering engineering design to enhance safety in the facility.

This webinar covers:

  1. Differentiating between the different types of isolation rooms to meet specific needs and corresponding design criteria.
  2. Identifying infection prevention and control risks related to the design of building HVAC systems in ‘pressure’ (positive / negative pressure) critical spaces.
  3. Reviewing the role of HVAC systems in the context of Pandemic Planning and Catastrophic Event Management

Speakers:

Nick Stark's headshot

Nick Stark P. Eng., CED, LEED AP, ICD.D
Vice President, HH Angus and Associates Limited Consulting Engineers

In 40+ years at HH Angus, Nick has pioneered many innovative and sustainable initiatives as solutions to difficult challenges faced by clients. His technical expertise also benefits staff as he directs HH Angus’ Knowledge Management initiatives, ensuring the firm’s skillsets continue to lead the industry. In 2017, Nick was awarded the PEO/OSPE Medal for Engineering Excellence for his outstanding contributions to the profession. He spearheads the design and management of HH Angus’ P3 hospital projects, and served as the firm’s Principal-in-Charge for the massive $2 billion+ CHUM P3 project in Montreal. The team’s work on the project was honoured with the 2018 Schreyer Award, Canada’s highest honor for engineering.  Nick chair’s the CSA Subcommittee on Special Requirements for HVAC Systems in Health care Facilities, is Vice Chair of the CSA Subcommittee on Z8000 Canadian Health Care Facilities, and is a former member of the CSA Subcommittee on Infection Control during Construction or Renovation of Health Care Facilities.

Jessica Fullerton's headshot

Jessica Fullerton, M.Sc. CIC
Construction Lead – Infection Prevention and Control, The Ottawa Hospita
l

As a member of the Infection Prevention and Control team at The Ottawa Hospital, Jessica specializes in health care facility design and construction, focusing on design elements to help prevent the spread of infection. She has provided Infection Prevention and Control expertise on a wide range of acute care, rehabilitation, ambulatory care, community health, and long-term care projects. Jessica’s passion lies in bridging the gap between health care design and how it can positively or negatively influence the care and safety of patients. She currently sits as a member of the Canadian Standards Association (CSA) Health Care Facilities Technical Committee providing expert content for several standards related to health care design and construction. Jessica is the Chair and member of CSA training faculty for the Z317.13 Standard, Infection Control During Construction, Renovation and Maintenance of Health Care Facilities.  

In the context of the current COVID-19 pandemic, healthcare facilities are looking more closely at options for safe  and fast conversions/retrofits of hospital infrastructure to increase their numbers of patient beds that can serve as airborne infection isolation rooms, as well as ensuring the safety of their operating rooms for performing surgical procedures on confirmed or suspected COVID-19 patients. Recently, HH Angus’ Nick Stark, Vice President, and Jessica Fullerton, Construction Lead – Infection Prevention and Control at The Ottawa Hospital, presented a webinar organized by the Canadian Healthcare Engineering Society, in which they discussed some of the critical design aspects of isolation rooms in healthcare facilities. Nick is Chair of CSA Z317.2, Special requirements for HVAC systems in healthcare facilities. Jessica is Chair of CSA Z317.13, Infection control during construction, renovation or maintenance of health care facilities.

With recent serious outbreaks such as SARS, MERS and now COVID-19, the design of healthcare facilities should take into consideration how these buildings can better address infectious disease control during pandemic crisis situations such as we are currently experiencing. Isolation rooms are one tool that hospitals can utilize as part of their overall approach to safely dealing with certain types of infectious diseases.

Key takeaways from the webinar and our firm’s experience with building systems serving infectious disease control procedures include:

Isolation Room Types

Isolation rooms are grouped under ‘Special Precautions Rooms’. They are sometimes confused with other types of isolation, such as segregation or seclusion rooms; for the purposes of this communication, the term refers to rooms that provide airborne isolation vs contact precautions.

The three main types of isolation room are:

  1. Airborne Isolation Room (AIR) or Airborne Infection Isolation Room (AIIR) — designed, constructed, and ventilated to limit the spread of airborne micro-organisms from an infected occupant to the surrounding areas of the healthcare facility. AIRs are designed to maintain negative pressurization relative to adjacent areas. The AIR room category also includes exam/treatment rooms, which require anterooms. ERs require an internal washroom, and these are recommended for Ambulatory Care areas.

     

  2. Protective Environment Room (PER) — designed, constructed, and ventilated to limit introduction of airborne micro-organisms from the surrounding areas to an immuno-compromised or immuno-suppressed occupant. PERs are designed to maintain positive pressurization relative to adjacent areas.

     

  3. Combination Airborne Isolation and Protective Environment Room (AIR/PER) — designed to protect immunocompromised patients who are also infectious.

Operating Rooms for Infectious Patients

These should be treated like a combination airborne isolation room/protective environment room (AIR/PER), and include operating rooms (OR) for infectious patients, along with the OR anteroom that serves as an airlock for stretchers.

The OR anteroom would be negatively pressurized relative to the both OR and corridor.

The OR air handling unit (AHU) requires 100% outdoor air.  Method of Procedure issues must also be addressed; for example, the movement of sterile supplies, identifying a site for intubation, and transportation of the patient to avoid cross contamination. 

Air Handling Unit (AHU)

Isolation Room Design Criteria

Key room design factors include high level air separation (7.5 Pa of negative or positive pressure, 12 air changes per hour and directional airflow, with non-aspirating diffusers and low-level exhaust near the head of the patient bed.) Also required: a higher level of airtightness to maintain pressure, and consideration of pressure testing during construction to verify effectiveness.

An important tip: during construction, ensure contractors clearly understand what the room will be used for, why sealing is so critical, and why it is vital that there be no leakage.

Regarding ‘grandfathering’ of existing rooms - these require a risk assessment to identify any deficiencies that must be addressed in order to meet the revised standard. Some common leakage sources include lighting fixtures, conduits, sliding doors and uneven floors.

Redundancy

Isolation rooms are designated as a Type 1 space under CSA HVAC standards, requiring uninterrupted operation for airflow, pressurization, temperature, exhaust systems for AIRs, and supply systems for PERs. AHUs require redundancy with parallel, interconnected systems with automated controls and emergency power.

Filtration

AIR supply air requires two-stage filtration. PER and combination AIR/PER supply air requires three-stage filtration, with HEPA filters downstream of MERV 8 and MERV 14 filtration. HEPA filters can be AHU mounted, duct mounted or terminal. All require accessible means of testing.  On the exhaust side, AIR and AIR/PER exhaust air is treated as contaminated exhaust, and must comply with CSA Z317.2 requirements.  Additionally, recent design improvements for contaminated exhaust include bag-in/bag-out HEPA filters on the exhaust system, in order to reduce the potential for outdoor wind, building wake zones and surrounding buildings to disperse contaminated air.

Anterooms

Anterooms are now required for all AIRs, per Z8000-18, to offer additional controls against unwanted air movement, and for the donning and removal of PPE, among other considerations. Air flow should be negative relative to the corridor and positive relative to the isolation room. Also required – dedicated exhaust from both patient room and anteroom, with the adjacent washroom connected to the dedicated exhaust.

Studies provide strong evidence supporting the use of anterooms, due to the re-emergence of infectious diseases, such as tuberculosis. The CSA has completed a research study of pressure differentials, which interested readers may benefit from consulting: “Pressure Differential in Health Care Facility Airborne Isolation Rooms”. The study, a comprehensive examination of available literature, is helping to inform CSA standards, as well as zoning for pandemic requirements. For example, one finding is that anterooms provide significantly improved containment of particles at pressure differentials above 2.5 Pa, especially during healthcare provider movement through doors. Other systems proven effective in augmenting traditional cleaning are ultraviolet germicidal irradiation systems (UVGI).

Pandemic Planning and Catastrophic Event Management

Designing for planning and management of pandemic and catastrophic events requires consideration of zoning, and how healthcare facilities can isolate entire areas of a healthcare facility. As well, the facility will need the ability to switch between 100% outdoor air to 100% recirculated air, depending on where contaminants originate.  Negative pressure ‘pods’ for ERs and ICUs are also a design consideration, providing the ability to lock down larger areas of a hospital. 

Outbreak Control Zone

These zones have already been in place in British Columbia for the past 12 years, primarily in inpatient areas and ICUs. To create an isolation pod, a typical 16-bed unit is identified and planned as an outbreak control zone. It is designed as a standard patient care unit, but one that can be self-contained. Within the walls of the unit, allowances have been made for clean and soiled holding areas in order to reduce traffic in and out of the control zone. In addition, the area design should provide for a relatively simple procedure to convert it to negative pressure. Also required are defined space for an anteroom that meets the standards for whole unit isolation with all air being exhausted, as well as pressure monitoring and alarms. In addition, controls must be programmed into the Building Management System at the required isolation unit settings, in order to provide single command implementation. These systems are then commissioned, balanced and demonstrated to the facility as part of the verification process.

Operations and Maintenance

CSA Z8001 Commissioning and CSA Z8002 Operation and Maintenance (O&M) standards both offer useful information for O&M processes. Some design considerations to facilitate O&M are: including accommodations for testing and precautions for those who will need to provide O&M for isolation rooms; accessible locations for safely changing bag-in/bag-out HEPA filters; servicing for ductwork inspection and cleaning (annually for CSA and semi-annually for MOL). 

Of special note:  isolation rooms tend to lose pressure over time. For HVAC performance, this stems from degradation of doors and frames, wall openings for maintenance work that were subsequently not properly sealed, damage to walls, and poor sealing of services penetrating walls above ceilings.

Reactivation, Conversion and Retrofits

During the current COVID-19 pandemic, hospitals are seeking to better protect healthcare workers from getting sick, as well as looking at options for safe and fast reactivation of medical and surgical beds to respond to increased demand, including conversions/retrofits of hospital infrastructure to enable this reactivation.

Other options for some healthcare facilities may involve identifying beds/units that were initially designed to serve as AIRs, but were since repurposed. These would require detailed inspection and testing, along with any attendant servicing to ensure the rooms/units meet all relevant codes and standards for patient and staff safety.  

In identifying potential conversion space, hospitals should look for an existing patient area where access to the area can be controlled to minimize interaction between COVID-19 patients and healthcare staff/other patients. The space should also have the ability to be converted to outside air/exhaust that can enable a slightly negative pressure condition relative to the adjacent space which helps in controlling the spread of infectious germs from patients throughout the area. Alternatively, consider modifying an existing private room(s) with individual ductless units which do not circulate through ductwork into a central HVAC system.

For any AIR, the key is to control airflow to manage all contaminants, whether gases or droplets. The air handling strategy utilized (mixed ventilation, displacement ventilation or other) will depend on the size of the room, layout and other factors.

Because speed of construction and becoming operational is critical, effective collaboration and trust between hospital administrators, engineers, designers and contractors is essential. The entire team has to get these rooms designed, approved, built and operating quickly.  

Guidance Documents

Canadian Standards Authority guidance documents dealing with standards for isolation rooms include:
CSA Z8000 Canadian health care facilities | latest issue 2018

CSA Z317.2 Special requirements for HVAC systems in health care facilities

CSA Z317.1 Plumbing

CSA Z317.13 Infection Control

CSA Z317.12 Cleaning and Disinfection – coming soon

Cancer Care Ontario Position Statement – Hospital isolation practices for hematopoietic stem cell transplantation

CSA Study Executive Summary:
Pressure Differential in Health Care Facility Airborne Isolation Rooms
Advisory Panel members include HH Angus’ Nick Stark and Rita Patel

If you would like to discuss any aspect of the design of your facility’s isolation rooms or plans, please contact:

Nick Stark portrait

Nick Stark, P.Eng., CED, LEED® AP, ICD.D
Principal | VP Knowledge Management
nick.stark@hhangus.com

Kim Spencer

Kim Spencer, P.Eng., LEED AP
Principal | Division Director, Health
kim.spencer@hhangus.com