Different Types of Door-Opening Motions as Contributing Factors to Containment Failures in Hospital Isolation Rooms
2013
PLOS ONE
Journal Article
Issue 6
Volume 8
Pages e66663
Author(s): Tang, J. W., Nicolle, A., Pantelic, J., Klettner, C. A., Su, R., Kalliomaki, P., Saarinen, P., Koskela, H., Reijula, K., Mustakallio, P., Cheong, D. K. W., Sekhar, C., Tham, K. W., Costa, C.
When under negative pressure, hospital isolation rooms are essential for both the containment of patients emitting airborne infectious agents as well as the protection of other patients from these agents. A plethora of different doors are used in the construction of these rooms, but relatively few studies have analyzed how certain door-opening motions and the passage of healthcare workers through these doors can affect the overall performance of isolation rooms.
Added December 2016
Secondary exposure risks to patients in an airborne isolation room: Implications for anteroom design
2016
Building and Environment
Journal Article
Author(s): Mousavi, E. S., Grosskopf, K. R.
Previous research has shown that negatively pressurized Airborne Infectious Isolation Rooms (AIIRs) can protect hospitals from fatal airborne pathogens such as tuberculosis. But this use of negative pressurization can simultaneously increase the chances of isolated patients contracting secondary infections, or healthcare-acquired infections (HAIs), caused by air blowing in from adjacent spaces. Research is needed to better assess the actual likelihood of secondary infections occurring in these scenarios so that steps can be taken to mitigate these risks.
Added December 2016
Impact of the Physical Environment of Residential Health, Care, and Support Facilities (RHCSF) on Staff and Residents A Systematic Review of the Literature
2015
Environment and Behavior
Journal Article
Issue 10
Volume 48
Pages 1203-1241
Author(s): Joseph, A., Choi, Y.-S., Quan, X.
Strategies related to the design of the built environment should be considered within the context of the culture of the organization and the resident population. This study of the physical environment of residential health, care, and support facilities addresses the range of settings and population, where other studies have been lacking. The literature review strongly suggests that the built environment is an important component of care provided in residential care settings.
Added May 2016
Design of the environment of care for safety of patients and personnel: Does form follow function or vice versa in the intensive care unit?
2010
Critical Care Medicine
Journal Article
Issue 8 Supplement
Volume 38
Pages S388-S398
Author(s): Bartley, J., Streifel, A. J.
Added September 2015
Measurement of ventilation and airborne infection risk in large naturally ventilated hospital wards
2013
Building and Environment
Journal Article
Author(s): Gilkeson, C. A., Camargo-Valero, M. A., Pickin, L. E., Noakes, C. J.
In healthcare environments, the transmission of airborne pathogens is a matter of concern. Ventilation has been identified as one of the key factors in the risk of infection. The authors indicate that most of the evidence on ventilation and infection risk has been in controlled spaces like operating rooms and isolation rooms, and that naturally ventilated spaces like wards have not been studied. They conducted a series of experiments in an unused ward to measure the transmission of pathogens in conditions of natural ventilation, mechanical ventilation, and no ventilation.
Added March 2015
A decade of adult intensive care unit design: a study of the physical design features of the best-practice examples
2006
Critical Care Nursing Quarterly
Journal Article
Issue 4
Volume 29
Pages 282-311
Author(s): Rashid, M., Abushousheh, A.
This article reports a study of the physical design characteristics of a set of adult intensive care units (ICUs), built between 1993 and 2003. These ICUs were recognized as the best-practice examples by the Society of Critical Care Medicine, the American Association of Critical Care Nurses, and the American Institute of Architects.
Added July 2014
Life Safety Code Comparison
2013
American Society for Healthcare Engineering
Journal Article
Author(s): Crowley, M. A., Harper, J. E.
Added May 2014
Nurses’ Perception of Single-Occupancy Versus Multioccupancy Rooms in Acute Care Environments: An Exploratory Comparative Assessment
2006
Applied Nursing Research
Journal Article
Issue 3
Volume 19
Pages 118-125
Author(s): Chaudhury, H., Mahmood, A., Valente, M.
As people are living longer and the baby boomers age, the demand for hospital beds will increase. As new facilities are built to handle this influx of patients, the challenge for hospital designers and administrators is to design patient rooms that promote therapeutic goals, foster positive patient outcomes, and function as intensive care rooms. Recent research suggests that single-occupancy rooms are more suitable for infection control and patient care than multioccupancy rooms. However, no research has been done about nursing staff members’ perception of single-occupancy and multioccupancy patient rooms in acute care settings as it relates to patient care.
Added April 2014
Healthcare Environmental Terms and Outcome Measures: An Evidence-based Design Glossary
Author(s): Quan, X., Malone, E., Joseph, A., Pati, D.
Added October 2012
Designing for Patient Safety: Developing Methods to Integrate Patient Safety Concerns in the Design Process
Author(s): Joseph, A., Taylor, E. M. , Quan, X., Jelen, M.
Added October 2012
Critical Issues in Healthcare Environments
Author(s): Cohen, Uriel , Allison, David
Added October 2012
Building the evidence base for evidence-based design: Editors' introduction
2008
Environment and Behavior
Journal Article
Issue 2
Volume 40
Pages 147-150
Author(s): Zimring, C., Bosch, S.
Added October 2012
Ward Design in Relation to Postoperative Wound Infection. I
1971
British medical journal
Journal Article
Issue 740
Volume 1
Pages 67-72
Author(s): Smylie, H.G., Davidson, A.I., Macdonald, A., Smith, G.
Added October 2012
Increased recovery of Aspergillus flavus from respiratory specimens during hospital construction.
1982
The American Review of Respiratory Disease
Journal Article
Issue 1
Volume 125
Pages 33-38
Author(s): Sarubbi, F.A., Jr, Kopf, H.B., Wilson, M.B., McGinnis, M.R., Rutala, W.A.
Added October 2012
Intensive care unit design and environmental factors in the acquisition of infection
2000
Journal of Hospital Infection
Journal Article
Issue 4
Volume 45
Pages 255-62
Author(s): O'Connell, N.H., Humphreys, H.
Added October 2012
Microbiological surveillance of hospital ventilation systems in departments at high risk of nosocomial infections
2006
Journal of Preventive Medicine And Hygiene
Journal Article
Issue 3
Volume 47
Pages 105-109
Author(s): Crimi, P., Argellati, F., Macrina, G., Tinteri, C., Copello, L., Rebora, D., Romania, L., Rizzetto, R.
Bacteria exist in large numbers in moist, organic environments and are also found in the air, in water, and on surfaces, particularly in healthcare environments. Patients who are considered high risk are more susceptible to infection by some of these bacteria given the nature of their illness and the treatment they undergo.
Added October 2012
The healing environment in our communities and healthcare settings: research excellence into practice
2005
Clinical Medicine
Journal Article
Issue 3
Volume 5
Pages 296-8
Author(s): Craft, N.
Added October 2012
Taking on toxics II: Health care without harm
2001
The Multinational Monitor
Journal Article
Issue 1/2
Volume 22
Pages 21
Author(s): Cray, C..
Added October 2012
Standard principles for preventing and controlling infection
2006
Nursing Standard
Journal Article
Issue 23
Volume 20
Pages 57
Author(s): Chalmers, C., Straub, M.
Added October 2012
Symposium looks into healthy designs
2008
Pebble Project-Published Articles
Journal Article
Issue August 2008
Volume Daily Journal of Commerce
Pages 1
Author(s): Bennett, S.
Added October 2012
