The single-patient room in the NICU: maternal and family effects
2012
Journal of Perinatology
Journal Article
Issue 7
Volume 32
Pages 545-551
Author(s): Pineda, R. G., Stransky, K. E., Rogers, C., Duncan, M. H., Smith, G. C., Neil, J., Inder, T.
The authors allude to the references in literature about the stress associated with being the parent of an infant in the Neonatal Intensive Care Unit (NICU). Indicating that the physical environment of a NICU may afford the possibility of alleviating such stress, the authors present the findings of this study which aimed to explore the relationship between the type of NICU room (single-patient versus open bay), parental practices and maternal health.
Added July 2015
Do hospital visitors wash their hands? Assessing the use of alcohol-based hand sanitizer in a hospital lobby
2012
American Journal of Infection Control
Journal Article
Issue 4
Volume 40
Pages 340-343
Author(s): Birnbach, D. J., Nevo, I., Barnes, S., Fitzpatrick, M., Rosen, L. F., Everett-Thomas, R., Sanko, J. S., Arheart, K. L.
Compliance with hand hygiene by healthcare workers is considered to be relevant to the prevention of healthcare-associated infections in hospitals and other healthcare facilities. There are no studies that indicate the significance of hand-hygient compliance (HHC) by hospital visitors, although both the World Health Organization and the Centers for Disease Control and Prevention suggest that hospital visitors can potentially carry infections from the community into hospitals.
Added November 2014
The antimicrobial efficacy of copper alloy furnishing in the clinical environment: a crossover study
2012
Infection Control & Hospital Epidemiology
Journal Article
Issue 1
Volume 33
Pages 3-9
Author(s): Karpanen, T. J., Casey, A. L., Lambert, P. A., Cookson, B. D., Nightingale, P., Miruszenko, L., Elliott, T. S.
Environmental hygiene has been regarded as one of the key areas in the prevention of HCAIs (healthcare associated infections) in hospital and acute care settings. Copper and its alloys have recently been considered for use in the healthcare environment as an antimicrobial surface material, and in 2008, the U.S. Environmental Protection Agency approved the registration of copper and its alloys as antimicrobial materials. The main aim of this study was to determine whether copper incorporated into hospital ward furnishings and equipment can reduce their surface microbial load.
Added September 2014
Where do hands go? An audit of sequential hand-touch events on a hospital ward
2012
Journal of Hospital Infection
Journal Article
Issue 3
Volume 80
Pages 206-211
Author(s): Smith, S. J., Young, V., Robertson, C., Dancer, S. J.
Added September 2014
Patient environment microbial burden reduction: A pilot study comparison of 2 terminal cleaning methods
2012
American Journal of Infection Control
Journal Article
Issue 6
Volume 40
Pages 559-561
Author(s): Schmidt, M. G., Anderson, T., Attaway, H. H., III, Fairey, S., Kennedy, C., Salgado, C. D.
Added September 2014
Application of copper to prevent and control infection. Where are we now?
2012
Journal of Hospital Infection
Journal Article
Issue 4
Volume 81
Pages 217-23
Author(s): O'Gorman, J., Humphreys, H.
Added September 2014
Infection Prevention Promotion Program Based on the PRECEDE Model: Improving Hand Hygiene Behaviors Among Healthcare Personnel
2012
Infection Control & Hospital Epidemiology
Journal Article
Issue 2
Volume 33
Pages 144-151
Author(s): Aboumatar, H., Ristaino, P., Davis, R. O., Thompson, C. B., Maragakis, L., Cosgrove, S., Rosenstein, B., Perl, T. M.
Hand hygiene is critical to prevent transmission of multidrug-resistant organisms and the development of healthcare-associated infections, yet compliance with recommendations is poor.
Added August 2014
Traffic Flow in the Operating Room: An Explorative and Descriptive Study on Air Quality During Orthopedic Trauma Implant Surgery
2012
Journal of Infection Control
Journal Article
Issue 8
Volume 40
Pages 750-755
Author(s): Andersson, A.E., Bergh, I., Karlsson, J., Eriksson, B.I. MD, Nilsson,K.
Three main strategies exist to prevent surgical site infections following surgery: 1) the patient, 2) the surgical technique, 3) the surgical environment. This study focuses on optimizing the effect of the surgical environment in preventing SSIs (surgical site infections). The authors attempt to understand that the protective potential of operating room (OR) ventilation under different conditions is crucial to optimizing the surgical environment.
Added April 2014