The installation of a decorative water fountain in a healthcare facility lobby introduces a potential environmental hazard that an infection preventionist must evaluate, guided by the Certification Board of Infection Control and Epidemiology (CBIC) principles and infection control best practices. Water features can serve as reservoirs for microbial growth and dissemination, particularly in settings with vulnerable populations such as patients. The key is to identify the most significant infection risk associated with such a water source. Let’s analyze each option:
A. Children getting Salmonella enteritidis: Salmonella enteritidis is a foodborne pathogen typically associated with contaminated food or water sources like poultry, eggs, or untreated drinking water. While children playing near a fountain might theoretically ingest water, Salmonella is not a primary concern for decorative fountains unless they are specifically contaminated with fecal matter, which is uncommon in a controlled healthcare environment. This risk is less relevant compared to other waterborne pathogens.
B. Cryptosporidium growth in the fountain: Cryptosporidium is a parasitic protozoan that causes gastrointestinal illness, often transmitted through contaminated drinking water or recreational water (e.g., swimming pools). While decorative fountains could theoretically harbor Cryptosporidium if contaminated, this organism requires specific conditions (e.g., fecal contamination) and is more associated with untreated or poorly maintained water systems. In a healthcare setting with regular maintenance, this is a lower priority risk compared to bacterial pathogens spread via aerosols.
C. Aerosolization of Legionella pneumophila: Legionella pneumophila is a gram-negative bacterium that thrives in warm, stagnant water environments, such as cooling towers, hot water systems, and decorative fountains. It causes Legionnaires’ disease, a severe form of pneumonia, and Pontiac fever, both transmitted through inhalation of contaminated aerosols. In healthcare facilities, where immunocompromised patients are present, aerosolization from a water fountain poses a significant risk, especially if the fountain is not regularly cleaned, disinfected, or monitored. The CBIC and CDC highlight Legionella as a critical concern in water management programs, making this the most important issue for an infection preventionist to consider.
D. Growth of Acinetobacter baumannii: Acinetobacter baumannii is an opportunistic pathogen commonly associated with healthcare-associated infections (e.g., ventilator-associated pneumonia, wound infections), often found on medical equipment or skin. While it can survive in moist environments, its growth in a decorative fountain is less likely compared to Legionella, which is specifically adapted to water systems. The risk ofAcinetobacter transmission via a fountain is minimal unless it becomes a direct contamination source, which is not a primary concern for this scenario.
The most important issue is C, aerosolization of Legionella pneumophila, due to its potential to cause severe respiratory infections, its association with water features, and the heightened vulnerability of healthcare facility populations. The infection preventionist should ensure the fountain is included in the facility’s water management plan, with regular testing, maintenance, and disinfection to prevent Legionella growth and aerosol spread, as recommended by CBIC and CDC guidelines.
[:, CBIC Infection Prevention and Control (IPC) Core Competency Model (updated 2023), Domain IV: Environment of Care, which addresses waterborne pathogens like Legionella in healthcare settings., CBIC Examination Content Outline, Domain III: Prevention and Control of Infectious Diseases, which includes managing environmental risks such as water fountains., CDC Toolkit for Controlling Legionella in Common Sources of Exposure (2021), which identifies decorative fountains as a potential source of Legionella aerosolization., , ]
