Microbiology of acute bacterial dacryocystitis: a tertiary institutional experience in South Australia

Purpose To provide a comprehensive microbiological profile of bacterial dacryocystitis in South Australia. By identifying the specific microorganism and antibiotic susceptibility, this study intends to aid ophthalmologists in choosing appropriate empirical antibiotic therapies and development of evidence-based clinical guidelines. Method A retrospective study was conducted at the Royal Adelaide Hospital (RAH) over five years (2018–2023) of patients with acute dacryocystitis. The study included 43 patients, and data encompassed demographic information, clinical presentation, microbiological analysis, management, and outcomes. Patients with chronic dacryocystitis were excluded. Results Among the 43 patients included in the study (female 28 (65%), mean age: 64 years old), the most common clinical features were pain (74%) and swelling (70%). Organisms were identified in 49% of patients, with the predominant bacteria being Staphylococcus aureus (42%), Streptococcus species (19%), and Escherichia coli (8%). Aggregatibacter species (8%), Morganella morganii (4%), Enterobacter cloaceae (4%), Hafnia alvei (4%), mixed anaerobes (4%), E coliforms (4%) and Pseudomonas aeruginosa (4%) were also identified. The most frequently prescribed empirical antibiotics were amoxicillin-clavulanic acid (50%), flucloxacillin (33%) and cefalexin (18%). Conclusion The microbiological trends of acute dacryocystitis have largely remained consistent, with a predominance of Gram positive organisms. This is the most recent profile analysis of acute dacryocystitis in South Australia and will help form evidence-based clinical guidelines. Supplementary Information The online version contains supplementary material available at 10.1007/s10792-024-03236-0.


Introduction
Acute dacryocystitis is the most common disease of the lacrimal drainage system [1,2].Bacterial aetiologies comprise between 6 and 95% of all dacryocystitis presentations [1].If not treated appropriately and promptly, there is risk of progression of the infection resulting in orbital cellulitis, abscess, meningitis and cavernous sinus thrombosis [1].The major risk factors for developing acute dacryocystitis include: female gender, nasolacrimal duct obstruction, nasal septal deviation and dacryolith [3].Whilst there are several studies of the microbiological profile of dacryocystitis [2][3][4][5][6][7][8][9], there are no recent studies looking into the microbiological profile of acute dacryocystitis in Australia, with the last one being conducted in 2005 [8].The most common pathogens isolated in dacryocystitis, both acute and chronic, are Staphylococcus aureus, Streptococcus pneumoniae, Haemophilus influenzae, Serratia marcescens and Pseudomonas aeruginosa, however, the proportions in which these are found differ depending on geographical region [3].This study aims to highlight the microbiological landscape of dacryocystitis, with the primary objective of characterising the spectrum of bacteria associated with acute dacryocystitis in South Australia.Overall, this study provides updated findings that may guide appropriate empirical antibiotic choice and inform clinical guidelines.
Tables 1 and 2 demonstrate the sensitivities of commonly tested antimicrobials in the Gram positive (Table 1) and Gram negative ( Vol:. ( 1234567890) [4].It can become a sight-or life-threatening infection with the potential to progress to orbital cellulitis, meningitis, and/or cavernous sinus thrombosis [10].
There are limited studies evaluating the microbiological profile of acute dacryocystitis, with the last study analysing dacryocystitis, both acute and chronic, in Australia being published in 2005 [8].By providing an update on the microbiological landscape in dacryocystitis, targeted treatment can benefit the patient, particularly at a time of growing concerns regarding antimicrobial resistance [11].
The spectrum of bacterial pathogens and antibiotic susceptibility are reasonably consistent across various geographical regions [2].Microbiological studies of dacryocystitis in Australia [8], North America [5], Iran [6,7], China [1] and India [2,4,9] report that Staphylococcus aureus is the common pathogen implicated in acute dacryocystitis, followed by Streptococcus species (including Streptococcus pneumoniae, Streptococcus pyogenes and Streptococcus anginosus).Razavi et al.'s earlier study from Iran identified Staphylococcus epidermidis as the most common cause of acute dacryocystitis [12], while Staphylococcus aureus is the predominant in more contemporary studies.S. epidermidis and other coagulase negative staphylococci are considered part of normal skin flora and therefore not routinely reported by our institution.Previous studies from Australia [8], China [1], India [4] and Iran [6] showed Pseudomonas aeruginosa and Haemophilus influenzae being common Gram negative isolates in dacryocystitis.In contrast, in this study, Escherichia coli and Aggregatibacter were the most common Gram negative organisms, with no cultures identifying Haemophilus influenzae.In this study, Gram positive isolates tended to predominate in acute dacryocystitis, which is consistent with much of the literature [2][3][4][5][6][7][8][9].One of the unique cases in this series was a patient who had an acute dacryocystitis secondary to Hafnia alvei, a Gram negative enteric and oropharyngeal bacillus [13].Infections caused by Hafnia alvei can occasionally be responsible for serious nosocomial and community acquired infections [14].Cahill & Burns was the only paper in the literature that described finding more Gram negative isolates than Gram positive in patients with acute dacryocystitis, but this study was published in 1993 and the microbiology of dacryocystitis has likely changed since then [15].Briscoe et al. found a predominance of Gram negative organisms,  but the authors focused on purulent acute and chronic dacryocystitis, which likely represented a population with more virulent organisms [16].MRSA infections are of increasing concern to clinical practitioners [17].Risk factors include recent hospitalization, nursing home residence, use of injectable drugs, antibiotic usage, and chronic illness [18] should be screened appropriately.In this retrospective study, two patients had MRSA, representing 18% of Staphylococcus aureus infections causing dacryocystitis, which is similar to the incidence of MRSA for all ophthalmic infections (22%) reported from the same institution in 2012 [19].MRSA has been found to be significantly associated with acute dacryocystitis as opposed to chronic presentations [5].Dacryocystitis secondary to MRSA can be challenging to manage as it is more likely to be refractory to conservative treatment, and a definitive dacryocystorhinostomy (DCR) is often required for resolution [17].In this study where there were two MRSA cases of acute dacryocystitis, one patient achieved resolution following an oral antibiotic course of clindamycin, while the other required an admission for IV vancomycin, a DCR within 1 week of admission, and was discharged onto oral trimethoprim-sulfamethoxazole.Both patients had resolution of dacryocystitis with no further recurrences documented.
In this study, the most common initial oral antibiotics prescribed were amoxicillin/clavulanic acid (13/20, 65%) and cefalexin (4/20, 20%).The current guidelines in Australia recommend cefalexin as the empirical treatment for dacryocystitis [20].For the pathogens isolated in this study, 77% would have been susceptible to cefalexin (tested on 15 pathogens) and 82% would have been susceptible to flucloxacillin (tested on 11 pathogens).On the 17 pathogens in which TMP/SXT was tested, 100% were sensitive.Given the predominance of Gram positive organisms in dacryocystitis, antibiotics such as cephalosporins and amoxicillin/clavulanic acid may appear to be appropriate choices for initial antibiotic therapy, however, 34% of patients had their antibiotic treatment changed based on culture results.Furthermore, flucloxacillin alone may have too narrow a therapeutic range for empiric therapy as Gram negative organisms are not uncommonly identified in this condition.Flucloxacillin in combination with ceftriaxone is recommended for inpatients for coverage of periorbital cellulitis in the context of dacryocystitis, as is supported by local therapeutic guidelines [21].This regimen would cover most of the organisms identified to cause dacryocystitis in this study, with the exception of the two cases of MRSA infection.Regarding Gram negative isolates in patients with purulent dacryocystitis, quinolones (e.g.ciprofloxacin), cephalosporins and aminoglycosides (e.g.gentamicin) have shown good coverage [4,6].If clinicians are concerned about a resistant organism, they may consider using amoxicillin/clavulanic acid as next-line empiric therapy [21].TMP/SXT should also be considered if there is concern regarding MRSA or Gram negative organisms resistant to amoxicillin-clavulanic acid due to pathogens (e.g.Morganella morganii, Hafnia alvei, Klebsiella aerogenes, Proteus vulgaris) that constitutively produce amp C beta-lactamases [22].
The results obtained from the study was compared with the typical antibiotic resistance profile in antibiograms provided by our institution for common ophthalmic, otolaryngologic and upper respiratory pathogens identified in the same time period (Supplement 1).With the exception of TMP/SXT, the resistance profile of the organisms causing dacryocystitis in our study were consistent with those of the larger dataset representing typical antimicrobial susceptibilities in South Australia for similar samples.
There were several limitations of this study including its small sample size and retrospective nature.An additional limitation is the use of conjunctival swabs for specimen collection rather than lacrimal aspiration.Whilst there is a theoretical increase in risk of contamination when utilising conjunctival swabs [3], all attempts were made in this study to collect discharge from the region of the medial and punctum as a representation of discharge secondary to a refluxable mucocele.Furthermore, performing a lacrimal aspirate can be a very painful procedure for the patient in the setting of an acute dacryocystitis.Nevertheless, it provides a snapshot of one tertiary Oculoplastic unit's experience with acute dacryocystitis and the prevalence of microorganisms over a 5-year period.Another caveat in this study is that there was a notable proportion of cultures not being available for analysis, either due to culture-negative samples or no sample being taken (22/43, 51%).This was due to a number of factors, including commencement of empirical treatment in the community prior to presenting at our institution thus resulting in sterile aspirates, or no purulent discharge available to be swabbed.

Conclusion
In conclusion, we present the microbiological profile of bacterial dacryocystitis in a major tertiary centre in Australia.This study has demonstrated that microbiological profiles remain relatively consistent across geographical regions.The sensitivities of the bacteria implicated in dacryocystitis can guide empirical antibiotic therapy in the future.Currently, cefalexin is considered first-line empiric therapy for acute dacryocystitis, with amoxicillin-clavulanic acid or TMP/SXT considered if there is initial failure of therapy or high risk of resistance or MRSA.MRSA continues to be a growing concern and such patients are at increased risk of treatment failure resulting in prolonged illness.This study can be used in conjunction with other future epidemiological and microbiological analyse to inform guidelines and choice of empirical antibiotics.

Table 1
Summary of sensitivity rate of commonly tested antimicrobials of Gram positive organisms--Staphylococcus aureus * Includes 2 cases of Methicillin-Resistant Staphylococcus aureus

Table 2
Summary of sensitivity rate of commonly tested antimicrobials of Gram negative organisms n, Number of Organisms; N/A, Not Applicable (Not tested on culture); Chloram, Chloramphenicol; Amox-Clav, Amoxicillin-Clavulanic Acid; TMP/SXT, Trimethoprim/Sulfamethoxazole * Microbiology report did not clarify type of E coliforms, only testing Amoxicillin-Clavulanic Acid Vol:. (1234567890)