Control of a Serratia marcescens outbreak in a maternity hospital

Management and investigation of a Serratia marcescens outbreak in a neonatal unit in Switzerland - the role of hand hygiene and whole genome sequencing

Background

Many outbreaks due to Serratia marcescens among neonates have been described in the literature but little is known about the role of whole genome sequencing in outbreak analysis and management.

Methods

Between February and March 2013, 2 neonates and 2 infants previously hospitalised in the neonatal unit of a tertiary care centre in Switzerland, were found to be colonised with S. marcescens. An investigation was launched with extensive environmental sampling and neonatal screening in four consecutive point prevalence surveys between April and May 2013. All identified isolates were first investigated by fingerprinting and later by whole genome sequencing. Audits of best practices were performed and a hand hygiene promotion programme was implemented.

Results

Twenty neonates were colonised with S. marcescens. No invasive infection due to S. marcescens occurred. All 231 environmental samples were negative. Hand hygiene compliance improved from 51% in April 2013 to 79% in May 2013 and remained high thereafter. No S. marcescens was identified in point prevalence surveys in June and October 2013. All strains were identical in the fingerprinting analysis and closely related according to whole genome sequencing.

Conclusions

Improving best practices and particularly hand hygiene proved effective in terminating the outbreak. Whole genome sequencing is a helpful tool for genotyping because it allows both sufficient discrimination of strains and comparison to other outbreaks through the use of an emerging international database.

Serratia marcescensBacteremia: Nosocomial Cluster Following Narcotic Diversion

OBJECTIVE

To describe the investigation and control of a cluster ofSerratia marcescensbacteremia in a 505-bed tertiary-care center.

METHODS

Cluster cases were defined as all patients withS. marcescensbacteremia between March 2 and April 7, 2014, who were found to have identical or related blood isolates determined by molecular typing with pulsed-field gel electrophoresis. Cases were compared using bivariate analysis with controls admitted at the same time and to the same service as the cases, in a 4:1 ratio.

RESULTS

In total, 6 patients developedS. marcescensbacteremia within 48 hours after admission within the above period. Of these, 5 patients had identicalSerratiaisolates determined by molecular typing, and were included in a case-control study. Exposure to the post-anesthesia care unit was a risk factor identified in bivariate analysis. Evidence of tampered opioid-containing syringes on several hospital units was discovered soon after the initial cluster case presented, and a full narcotic diversion investigation was conducted. A nurse working in the post-anesthesia care unit was identified as the employee responsible for the drug diversion and was epidemiologically linked to all 5 patients in the cluster. No further cases were identified once the implicated employee’s job was terminated.

CONCLUSION

Illicit drug use by healthcare workers remains an important mechanism for the development of bloodstream infections in hospitalized patients. Active mechanisms and systems should remain in place to prevent, detect, and control narcotic drug diversions and associated patient harm in the healthcare setting.

Infect Control Hosp Epidemiol2017;38:1027–1031

Rapid Eradication of a Cluster ofSerratia marcescensin a Neonatal Intensive Care Unit: Use of Epidemiologic Chromosome Profiling by Pulsed-Field Gel Electrophoresis

Objective:

To investigate a cluster of patients infected and colonized withSerratia marcescensin a neonatal intensive care unit (NICU).

Methods:

In June 2001, two neonates in the NICU had clinical infections withS. marcescensand one died. Infection control surveillance data for the NICU revealed that S.marcescenswas rarely isolated from clinical specimens. Surveillance and environmental cultures were performed and isolates were typed using pulsed-field gel electrophoresis. Staff and neonates were cohorted and a waterless, alcohol-based handwashing agent was introduced. A case-control study was performed.

Results:

From June 2 through August 20, 2001, 11 neonates withS. marcescensinfection and colonization were identified. The incidence ofS. marcescensinfections increased from 0.19 per 1,000 patient-days in 2000 to 0.52 per 1,000 patient-days in 2001 (P< .0001). In the first 3 weeks of the investigation, there were 2 sets of patients and sinks with indistinguishable strains; however, in subsequent weeks, all isolates were of unique strains, signifying no further transmission of the two initial predominant strains. Neonates withS. marcescenswere more likely to have a lower gestational age and birth weight. There was no association between cases and healthcare workers (HCWs).

Conclusions:

A cluster ofS. marcescenswas quickly terminated after the introduction of preventive measures including cohorting of infected and colonized neonates and HCWs, contact precautions, surveillance cultures, and a waterless, alcohol-based hand antiseptic. Chromosomal typing determined that strains with an indistinguishable pattern were no longer present in the unit after control measures were implemented.

A case report of pink breast milk

A woman presented for her postpartum examination alarmed about pink stains on her breast pads and on her infant's burp pads and diapers. The stains were also found in her breast pump and the infant's bottles. Out of concern, she stopped breastfeeding. The diagnosis was colonization of mother and infant with Serratia marcescens. They were managed conservatively without antibiotics. The mother was guided to restart breastfeeding. The infant resumed nursing and continued to thrive.

Serratia infections: from military experiments to current practice

Serratia species, in particular Serratia marcescens, are significant human pathogens. S. marcescens has a long and interesting taxonomic, medical experimentation, military experimentation, and human clinical infection history. The organisms in this genus, particularly S. marcescens, were long thought to be nonpathogenic. Because S. marcescens was thought to be a nonpathogen and is usually red pigmented, the U.S. military conducted experiments that attempted to ascertain the spread of this organism released over large areas. In the process, members of both the public and the military were exposed to S. marcescens, and this was uncovered by the press in the 1970s, leading to U.S. congressional hearings. S. marcescens was found to be a certain human pathogen by the mid-1960s. S. marcescens and S. liquefaciens have been isolated as causative agents of numerous outbreaks and opportunistic infections, and the association of these organisms with point sources such as medical devices and various solutions given to hospitalized patients is striking. Serratia species appear to be common environmental organisms, and this helps to explain the large number of nosocomial infections due to these bacteria. Since many nosocomial infections are caused by multiply antibiotic-resistant strains of S. marcescens, this increases the danger to hospitalized patients, and hospital personnel should be vigilant in preventing nosocomial outbreaks due to this organism. S. marcescens, and probably other species in the genus, carries several antibiotic resistance determinants and is also capable of acquiring resistance genes. S. marcescens and S. liquefaciens are usually identified well in the clinical laboratory, but the other species are rare enough that laboratory technologists may not recognize them. 16S rRNA gene sequencing may enable better identification of some of the less common Serratia species.

Premature termination of nursing secondary to Serratia marcescens breast pump contamination

BACKGROUND

Serratia marcescens, a known pathogen associated with postpartum mastitis, may be identified by its characteristic pigmentation.

CASE

A 36-year-old P0102 woman presented postpartum and said that her breast pump tubing had turned bright pink. S marcescens was isolated, indicating colonization. She was started on antibiotics. After viewing an Internet report in which a patient nearly died from a Serratia infection, she immediately stopped breastfeeding.

CONCLUSION

Serratia colonization may be noted before the development of overt infection. Because this pathogen can be associated with mastitis, physicians should be ready to treat and should encourage patients to continue nursing after clearance of the organism. Exposure to sensational Internet reports may make treatment recommendations difficult.

Three consecutive outbreaks of Serratia marcescens in a neonatal intensive care unit

We investigated an outbreak of Serratia marcescens in the neonatal intensive care unit (NICU) of the University Hospital of Zurich. S. marcescens infection was detected in 4 children transferred from the NICU to the University Children's Hospital (Zurich). All isolates showed identical banding patterns by pulsed-field gel electrophoresis (PFGE). In a prevalence survey, 11 of 20 neonates were found to be colonized. S. marcescens was isolated from bottles of liquid theophylline. Despite replacement of these bottles, S. marcescens colonization was detected in additional patients. Prospective collection of stool and gastric aspirate specimens revealed that colonization occurred in some babies within 24 hours after delivery. These isolates showed a different genotype. Cultures of milk from used milk bottles yielded S. marcescens. These isolates showed a third genotype. The method of reprocessing bottles was changed to thermal disinfection. In follow-up prevalence studies, 0 of 29 neonates were found to be colonized by S. marcescens. In summary, 3 consecutive outbreaks caused by 3 genetically unrelated clones of S. marcescens could be documented. Contaminated milk could be identified as the source of at least the third outbreak.

Molecular epidemiology of an outbreak of Serratia marcescens in a neonatal intensive care unit

OBJECTIVE

To investigate and control a biphasic outbreak of Serratia marcescens in a neonatal intensive care unit (NICU).

DESIGN

Epidemiological and laboratory investigation of the outbreak.

SETTING

The NICU of the 1,470-bed teaching hospital of the University "Federico II," Naples, Italy.

PATIENTS

The outbreak involved 56 cases of colonization by S marcescens over a 15-month period, with two epidemic peaks of 6 and 3 months, respectively. Fourteen (25%) of the 56 colonized infants developed clinical infections, 50% of which were major (sepsis, meningitis, or pneumonia).

METHODS

Epidemiological and microbiological investigations, analysis of macrorestriction pattern of genomic DNA through pulsed-field gel electrophoresis (PFGE) of clinical and environmental isolates, and institution of infection control measures.

RESULTS

Analysis of macrorestriction patterns of genomic DNA by PFGE demonstrated that the vast majority of S marcescens isolates, including three environmental strains isolated from two handwashing disinfectants and the hands of a nurse, were of the same clonal type. The successful control of the outbreak was achieved through cohorting of noncolonized infants, isolation of S marcescens-infected and -colonized infants, and an intense educational program that emphasized the need for adherence to glove use and handwashing policies. The NICU remained open to new admissions.

CONCLUSIONS

Outbreaks caused by S marcescens are very difficult to eradicate. An infection control program that includes molecular typing of microorganisms and the proper dissemination among staff members of the typing results is likely to be very effective in reducing NICU-acquired infections and in controlling outbreaks caused by S marcescens, as well as other multiresistant bacteria.

An outbreak of Serratia marcescens in two neonatal intensive care units

Outbreaks of infection in neonatal intensive care units (NICUs) due to Serratia marcescens are well recognized. In some outbreaks no point source has been found, whereas in others cross-infection has been associated with contaminated ventilator equipment, disinfectants, hands and breast pumps. We report an outbreak due to S. marcescens that involved two geographically distinct NICUs. The outbreak occurred over a six week period; 17 babies were colonized, 12 at Glasgow Royal Maternity Hospital (GRMH) and five at the Queen Mothers Hospital (QMH). At GRMH three babies developed septicaemia, of whom two died. The outbreak isolates were of the same serotype and phage type and were indistinguishable on the basis of restriction fragment length polymorphism analysis. During the outbreak, two babies shown consistently to be negative on screening, were transferred between the two units. In addition, two members of medical staff attended both units. In QMH no means of cross infection was identified. However, in GRMH the outbreak strain of S. marcescens was isolated from a laryngoscope blade and a sample of expressed breast milk.

Investigation of a nosocomial outbreak due to Serratia marcescens in a maternity hospital

OBJECTIVES

To investigate an outbreak of Serratia marcescens in a maternity hospital (November 1994 to May 1995).

DESIGN

Retrospective analysis of epidemiological data and prospective study of systematic bacteriological samples from patients and environment, with genotyping of strains by arbitrarily primed polymerase chain reaction.

SETTING

A private maternity hospital, Saint-Etienne, France.

RESULTS

In the neonatal unit, 1 newborn developed a bacteremia, and 36 were colonized in stools with S marcescens. As the colonization of some newborns was shown to occur only a few hours after delivery, the inquiry was extended to other maternity wards, where 8 babies and 4 mothers were found to be colonized. Environmental sampling led to the isolation of S marcescens from a bottle of enteral feed additive in the neonatal unit and from the transducers of two internal tocographs in the delivery rooms. The genotyping of 27 strains showed two different profiles: a major epidemic profile shared by 22 strains (18 from babies of the neonatal unit, 2 from babies of other units, and 2 from breast milk) and another profile shared by 5 strains (2 from transducers of internal tocographs, 2 from babies, and 1 from a mother). The strain isolated from lipid enteral feeding was not available for typing. Although this source of contamination was removed soon from the neonatal unit, the outbreak stopped only when infection control measures were reinforced in the delivery rooms, including the nonreuse of internal tocographs.

CONCLUSIONS

In delivery rooms, the quality of hygiene needs to be as high as in surgery rooms to prevent nosocomial colonization or infection of neonates at birth.

Serratia marcescens infections in neonatal departments: description of an outbreak and review of the literature

An outbreak of colonization and infection with Serratia marcescens occurred in a neonatal intensive care unit (NICU). S. marcescens was isolated from five preterm infants (gestational age 25-30 weeks). Two infants developed septicaemia, which were both fatal, and one infant (the presumed index case) had conjunctivitis due to S. marcescens. Two infants were colonized without clinical signs of infection. All infants were treated with antibiotic regimens including ciprofloxacin and gentamicin. The DNA fingerprints of isolates were determined by enterobacterial repetitive intergenic consensus primers by the polymerase chain reaction. This showed that a single strain had spread in the NICU. An extensive investigation pointed to an infant born from a mother with an intra-uterine infection after prolonged rupture of foetal membranes as a presumed source of the outbreak. A reservoir, other than the infected or colonized infants and their immediate vicinity, was not found, with the sole exception of the waste jar of a Na+/ K(+)-analysis apparatus. Containment of the outbreak was achieved by closure of the NICU for new admissions, strict hygienic measures and cohort nursing of the infected and colonized infants. It was considered especially important to handle the infants with gloves, since frequent hand carriage of staff with S. marcescens was found when gloves were not used.

Use of molecular typing to study the epidemiology of Serratia marcescens

Although Serratia marcescens is a well-known nosocomial pathogen, investigation of its hospital ecology has been limited by the lack of available typing techniques. During an investigation of the occurrence of this organism in a neonatal intensive care unit, we evaluated a number of such techniques. Using a selective medium, we conducted prospective surveillance of neonatal rectal colonization and environmental contamination with S. marcescens. In 8 months of surveillance, 5.1% (20 of 394) of the infants admitted to the unit became colonized. Most sink surfaces and drains were also culture positive. Differences between isolates could not be detected in biotypes from a commercial identification system (MicroScan) or by antibiograms, total protein fingerprints, or plasmid profiles. Serogrouping and genomic DNA restriction endonuclease analysis revealed the presence of six strains that colonized infants and a similar number of environmental strains. These two methods were concordant, with the exception that genomic DNA analysis demonstrated lack of relatedness between some strains within the same serogroup. DNA restriction endonuclease analysis was practical and reliable. The differences this method detected between environmental and neonatal strains provided strong evidence that the environment was not an important reservoir for S. marcescens in our neonatal intensive care unit.

Epidemic of Serratia marcescens bacteremia and meningitis in a neonatal unit in Mexico City

A case-control study was conducted on an epidemic of bacteremia and meningitis caused by Serratia marcescens in the neonatal intensive care unit and special care nursery of a general hospital in Mexico City, Mexico. A 19.9% incidence of bacteremia and meningitis was recorded in contrast to 1.4% and 3.7% during preepidemic and post-epidemic periods; a 69% mortality rate was observed. Peripheral IV catheters and the use of mixed IV fluids prepared in the wards were the major risk factors (P less than 0.001). Rectal and nasopharyngeal cultures were positive in 68% of asymptomatic neonates and hand cultures were positive in 16.7% of personnel. Strains were resistant to all aminoglycosides and broad-spectrum penicillins, and belonged to the A5/8 biogroup. Containment of this outbreak was difficult because of failure to identify colonized infants early in the epidemic and because of persistent carriage of S marcescens by personnel. Comparisons between this hospital and tertiary care centers in Mexico suggest that in developing countries nosocomial infections could be of greater magnitude in secondary than in tertiary level centers.