Skip to main content
NCBI home page
Clinical and Experimental Dental Research logoLink to Clinical and Experimental Dental Research
. 2019 Sep 10;5(6):683–691. doi: 10.1002/cre2.238

The underestimated problem of oral Candida colonization—An observational pilot study in one nursing home

Hannah Elisa Kottmann 1, Sonja Henny Maria Derman 1, Michael Johannes Noack 1, Anna Greta Barbe 1,
PMCID: PMC6934342  PMID: 31890306

Abstract

Objectives

Older people are at increased risk of intraoral yeast colonization. In this observational case series, we assessed Candida colonization among nine nursing home residents to investigate possible correlations with their individual characteristics, general health parameters, and oral care. We also described the effect of professional dental cleaning (PDC) including prosthesis cleaning on colonization cases.

Materials and methods

General clinical and oral health was assessed in nine residents, and samples were taken from six oral mucosa sites or prosthetic surfaces. PDC was performed to achieve macroscopically clean results, and residents were re‐examined 2 weeks later.

Results

We found that six residents were intraorally colonized with Candida albicans; four also had Candida glabrata. Prostheses were particularly infected. Dementia, multimorbidity, and presence of prostheses reduced oral hygiene ability; requiring assistance for oral hygiene care was a risk indicator for Candida colonization. PDC reduced C. albicans (at the expense of increased C. glabrata) but was not optimal for maintaining Candida reduction.

Conclusion

In this pilot study, Candida colonization is prevalent among nursing home residents, especially those with cognitive impairment, multimorbidity, or reduced oral hygiene capacity. Potential negative effects on general health necessitate diagnostic and therapeutic guidelines. PDC alone did not maintain the reduction in Candida colonization; additional methods for daily oral care are necessary.

Keywords: nursing homes, oral hygiene, yeasts

1. INTRODUCTION

Factors such as decreasing immune function, low salivary flow rates, or wearing prostheses can increase the risk of intraoral yeast colonization in older people.(Adachi, Ishihara, Abe, & Okuda, 2007; Adams, 1996) Poor oral hygiene is another risk factor for Candida colonization, (Arendorf & Walker, 1987) particularly in nursing homes, where the oral hygiene of residents is often insufficient. (Barbe, Kottmann, Derman, & Noack, 2019) This is partly due to lack of knowledge of good oral hygiene practices and high workload among nursing staff(Barbe, Kottmann, Hamacher, Derman, & Noack, 2019) and the cognitive limitations of residents.

Candida albicans and many other Candida species are part of the physiological human intraoral microbial flora(Bardia et al., 2019); their detection is not necessarily associated with disease. However, various pathological conditions have been associated with individual aspects of candidiasis. It is currently believed that the most common species causing systemic candidiasis is C. albicans,(Beighton, Hellyer, Lynch, & Heath, 1991) closely followed by Candida glabrata.(Brodin & Davis, 2017; Budtz‐Jlrgensen, Mojon, Banon‐Clement, & Baehni, 1996) Oral candidiasis occurs on the bottom of an uncontrolled proliferation of yeasts in the oral cavity, so local infections can lead from oropharyngeal candidiasis to systemic candidiasis.(Budtz‐Jorgensen, Mojon, Rentsch, & Deslauriers, 2000) An association exists between colonization of the oral cavity with C. glabrata or Candida dubliniensis and a low body mass index, interpreted as a sign of a limited general health status.(El‐Solh, 2011) Recent studies also show that oropharyngeal colonization with Candida and other yeasts poses a threat to the respiratory system, increasing the occurrence of pneumonia in general and aspiration pneumonia in particular.(Gupta, Gupta, & Varma, 2015; Haron, Vartivarian, Anaissie, Dekmezian, & Bodey, 1993; Hoad‐Reddick, Grant, & Griffiths, 1990; Holbrook & Hjorleifsdottir, 1986; Konsberg & Axell, 1994) Aspiration pneumonia is the most common cause of death among older people, and oropharyngeal aspiration is the most important factor that can trigger such pneumonia. This is mainly due to the progression of neurological diseases, noticeable in patients by the lack of coughing irritation and difficulty swallowing.(Kontoyiannis et al., 2002)

In recent years, high germ counts and documented oral candidiasis have been reported in 9–65% of nursing home residents,(Arendorf & Walker, 1987; Marik & Kaplan, 2003; Masur, Rosen, & Armstrong, 1977; Narhi, Ainamo, & Meurman, 1993; Patil, Rao, Majumdar, & Anil, 2015; Pfaller et al., 2004; Pound, Drew, & Perfect, 2002; Quagliarello et al., 2005) and it is well known that Candida infection in nursing homes exists. However, it seems that the problem and treatment strategies—despite the obvious impact—are not in the focus of dentists in daily clinical practice. A preventive oral hygiene program, consisting of regular tooth cleaning and oral hygiene instructions (recall intervals up to a maximum of 6 months), reduced the occurrence and germ counts of Candida.(de Resende, de Sousa, de Oliveira, Koga‐Ito, & Lyon, 2006) It remains unclear what direct effect oral hygiene measures such as professional dental cleaning (PDC) have on germ counts, occurrence, and selection of species of Candida yeasts in the oral cavity of residents of nursing homes.

In our recent study, the results of PDC by external dental professionals among nursing home residents were evaluated.(Rodriguez, Rex, & Anaissie, 1997; Ruhnke, 2006) In a subgroup of this study population, we also documented possible Candida colonization to indicate the overall infestation of Candida in nursing home residents and to record the impact of PDC on Candida manifestation and thus justify further studies with larger numbers of volunteers. Accordingly, species and colony numbers before and 2 weeks after PDC were characterized by microbiological examination, clinical characteristics, oral health, and oral hygiene habits of the residents. On the basis of clinical experience, among nursing home residents with dementia and multimorbidities, we hypothesize that we would not find any residents without Candida colonization. This case series, presented here, should also indicate possible patient‐related risk factors for Candida colonization. In the long term, this might lead to increased sensitivity for this problem and better identification of nursing home residents with an increased risk for systemic candidiasis.

2. MATERIALS AND METHODS

2.1. Subjects

Our case series included nine volunteers who lived in a retirement home (Bornheim, Germany) between December 2016 and March 2017. These were the last nine subjects that had been included in a randomized clinical trial investigating PDC performed by an external dental professional in a retirement home.(Ruhnke, 2006) Those additional oral health parameters reported in this study were not part of the initial study design. They were additionally assessed due to the obvious necessity to document the resident's candidiasis and prostheses colonization situation encountered in the overall study clinical trial. They were not supposed to give external validity with regard to the entire population of nursing home residents but were supposed to describe problems in individuals as precisely as possible because the group of nursing home residents is very heterogeneous. All subjects who agreed to the study were checked for exclusion criteria (less than four remaining teeth, foreseeable loss of remaining teeth due to diagnosed inflammation, or life‐threatening diseases at risk of dying soon). Before participating in the study, all subjects or their legal guardians provided written informed consent.

2.2. Study design

The general clinical and oral health status (tooth status, prosthetic situation, and periodontal status) was assessed for each subject. Personal parameters (number of months the subject had lived in the facility, oral care practices, that is, self‐cleaning or cleaned by the nurse, and nursing degree) and general health parameters (prescribed medication, systemic diseases, and cognitive status) were documented using medical information in the subjects' files at the nursing home. Decisive for the classification into a nursing degree according to German law is the degree of independence. In the process, the whole person and mental restrictions should be considered. There are five levels of care, and long‐term care is calculated by the number of points determined from a detailed set of questions for which an expert asks 64 criteria.

Subjects were examined at baseline (BL), and samples were taken with ESwabs™ (Copan Diagnostics) from six oral mucosa sites or prosthetic surfaces, if present. Subsequently, PDC was performed until macroscopically clean results were achieved. Two weeks later, the subjects were re‐examined (follow‐up [FU]) and samples taken using ESwabs, as before.

2.3. Procedure in the retirement home

All subjects received PDC to reach standardized prerequisites for oral hygiene. At study start, the dental nurse (HK) prepared all necessary materials (scalers, toothbrushes, ultrasound equipment for tooth cleaning, and interdental brushes) in the central bathroom of the nursing home. The subjects were visited by dental staff in their rooms and accompanied to the bathroom. Once the subjects were seated, the examination began. PDC was performed with all necessary aids permitted by the subject until a macroscopically clean situation was achieved. Prostheses were cleaned with a new manual brush and clean water.

2.4. ESwabs

The first and second ESwab was obtained from the inner surface of the upper and lower prosthesis. If no prosthesis was present, the swab was taken from the upper and lower anterior third of the palate or floor of the mouth. The third and fourth swabs were taken from the right and left vestibule, the fifth and sixth swabs from the right and left cheek mucosa. The ESwabs were stored at 4–8°C for a maximum of 24 hr.

2.5. Laboratory procedure

To allow the examiner to determine C. albicans and non‐C. albicans species, 0.5 ml of each ESwab was spread on a suitable CHROMagar™ plate. On the basis of the coloration, C. albicans, C. dubliniensis, Candida krusei, C. glabrata, and Candida tropicalis could be clearly determined. Different reactions of species‐specific enzymes with chromium as substrate allowed the growth and expression of specific colors. After 48 hr of incubation at 37°C, the colonies were determined by color and appearance. The absolute number of colonies was counted. The extent of culture growth was determined using the following scale: 0 colony‐forming unit (CFU) = no Candida growth; 1–20 CFU = subject carries Candida; 21–100 CFU = subject is infected with Candida; and >100 CFU = subject is highly infected with Candida.(de Resende et al., 2006)

2.6. Statistical analysis

The data were analyzed descriptively: Absolute and relative frequencies were assigned for qualitative variables, and the mean (standard deviation [SD]) was used for quantitative variables. All calculations were performed with SPSS Statistics 24 (IBM Corp. Armonk, NY, USA). The data were entered twice and revised for inconsistency.

3. RESULTS

3.1. Clinical characteristics

Nine nursing home residents or their legal guardians gave their written informed consent. The mean age was 85 years (SD: 10 years), and the mean number of months the respondent had lived in the home was 6 months (SD: 6 months). The mean number of preexisting conditions was 7 (SD: 2), and active components in the prescribed drugs was 12 (SD: 3). During the oral clinical examination, the subjects had an average of 9 (SD: 9) remaining teeth. The mean Decayed/Missed/Filled‐Teeth Index was 16.44 (SD: 7.18), and no change was observed during the study. One subject (11.1%) had a total prosthesis in the mandible, three subjects (33.3%) had partial dentures in the mandible, and two subjects (22.2%) had partial dentures in the maxilla. Four subjects (44.4%) did not wear a prosthesis. Eight subjects (88.9%) suffered from periodontitis.

3.2. Case descriptions according oral hygiene habits

3.2.1. Oral hygiene performed by the nursing staff (N = 3)

Case 1

This subject was demented and multimorbid, had been living in the nursing home for 7 months, required nursing degree V, and her general condition was deteriorating. She wore a total prosthesis in the upper jaw and a partial prosthesis in the lower jaw, which could easily be removed by the patient on request but was not done daily except on explicit request (Table 1).

Table 1.

Clinical characteristics

Case 1 2 3 4 5 6 7 8 9
Diagnosis of dementia (yes[y]/no[n]) y y y n y y y n n
Gender (male [m] or female [f]) f f m m f f f f f
Age (years) 89 65 91 71 86 88 85 91 98
Mobile (m) or using wheelchair (w) w w m m m w m m m
Nursing grade ([2]; [25]; [14]; [20]; [28]) 5 5 3 2 4 5 2 2 3
Months living in the nursing home 7 2 3 11 3 6 10 5 21
Number of morbidities (n) 11 5 3 5 9 8 8 10 8
Number of prescribed medications (n) 6 8 5 11 4 12 5 1 12
Number of teeth (n) 7 20 3 23 6 20 30 16 6
Total prostheses in at least one jaw (yes[y]/no[n]) y n n n n n n n n
Partial protheses (yes[y]/no[n]) y n y y y n n y n
Prostheses can be removed independently (yes[y]/no[n]) y y n n y
Open in a new tab

ESwab results. At BL, C. albicans was colonized with 0 to >100 colonies that mainly affected the prosthesis surfaces in the upper and lower jaw. At FU, there was a large decrease in the number of colonies. The subject developed fatal pneumonia. There was no confirmed diagnosis of the responsible pathogen spectrum (Tables 2 and 3).

Case 2

This subject was also demented and multimorbid, had been living in the nursing home for 2 months, with nursing degree V, but had a good general condition. Due to her dementia, she either seldom swallowed or did not swallow at all, which meant that food and sweet drinks often remained in her mouth for hours. Her toothbrushing skills were zero, but she recognized what the toothbrush was. She could not rinse her mouth or spit it out.

Table 2.

ESwabs and oral indices: GI, OHI, and VMI Proband at BL and FU 2 weeks after professional dental cleaning

Case 1 2 3 4 5 6
BL FU BL FU BL FU BL FU BL FU BL FU
A graphic file with name CRE2-5-683-g001.jpg graphic file with name CRE2-5-683-g002.jpg graphic file with name CRE2-5-683-g003.jpg graphic file with name CRE2-5-683-g004.jpg graphic file with name CRE2-5-683-g005.jpg graphic file with name CRE2-5-683-g006.jpg graphic file with name CRE2-5-683-g007.jpg graphic file with name CRE2-5-683-g008.jpg graphic file with name CRE2-5-683-g009.jpg graphic file with name CRE2-5-683-g010.jpg graphic file with name CRE2-5-683-g011.jpg graphic file with name CRE2-5-683-g012.jpg
B graphic file with name CRE2-5-683-g013.jpg graphic file with name CRE2-5-683-g014.jpg graphic file with name CRE2-5-683-g015.jpg graphic file with name CRE2-5-683-g016.jpg graphic file with name CRE2-5-683-g017.jpg graphic file with name CRE2-5-683-g018.jpg graphic file with name CRE2-5-683-g019.jpg graphic file with name CRE2-5-683-g020.jpg graphic file with name CRE2-5-683-g021.jpg graphic file with name CRE2-5-683-g022.jpg graphic file with name CRE2-5-683-g023.jpg graphic file with name CRE2-5-683-g024.jpg
C graphic file with name CRE2-5-683-g025.jpg graphic file with name CRE2-5-683-g026.jpg graphic file with name CRE2-5-683-g027.jpg graphic file with name CRE2-5-683-g028.jpg graphic file with name CRE2-5-683-g029.jpg graphic file with name CRE2-5-683-g030.jpg graphic file with name CRE2-5-683-g031.jpg graphic file with name CRE2-5-683-g032.jpg graphic file with name CRE2-5-683-g033.jpg graphic file with name CRE2-5-683-g034.jpg graphic file with name CRE2-5-683-g035.jpg graphic file with name CRE2-5-683-g036.jpg
D graphic file with name CRE2-5-683-g037.jpg graphic file with name CRE2-5-683-g038.jpg graphic file with name CRE2-5-683-g039.jpg graphic file with name CRE2-5-683-g040.jpg graphic file with name CRE2-5-683-g041.jpg graphic file with name CRE2-5-683-g042.jpg graphic file with name CRE2-5-683-g043.jpg graphic file with name CRE2-5-683-g044.jpg graphic file with name CRE2-5-683-g045.jpg graphic file with name CRE2-5-683-g046.jpg graphic file with name CRE2-5-683-g047.jpg graphic file with name CRE2-5-683-g048.jpg
E graphic file with name CRE2-5-683-g049.jpg graphic file with name CRE2-5-683-g050.jpg graphic file with name CRE2-5-683-g051.jpg graphic file with name CRE2-5-683-g052.jpg graphic file with name CRE2-5-683-g053.jpg graphic file with name CRE2-5-683-g054.jpg graphic file with name CRE2-5-683-g055.jpg graphic file with name CRE2-5-683-g056.jpg graphic file with name CRE2-5-683-g057.jpg graphic file with name CRE2-5-683-g058.jpg graphic file with name CRE2-5-683-g059.jpg graphic file with name CRE2-5-683-g060.jpg
F graphic file with name CRE2-5-683-g061.jpg graphic file with name CRE2-5-683-g062.jpg graphic file with name CRE2-5-683-g063.jpg graphic file with name CRE2-5-683-g064.jpg graphic file with name CRE2-5-683-g065.jpg graphic file with name CRE2-5-683-g066.jpg graphic file with name CRE2-5-683-g067.jpg graphic file with name CRE2-5-683-g068.jpg graphic file with name CRE2-5-683-g069.jpg graphic file with name CRE2-5-683-g070.jpg graphic file with name CRE2-5-683-g071.jpg graphic file with name CRE2-5-683-g072.jpg
GI 3.0 1.0 3.0 2.0 3.0 3.0 3.0 3.0 3.0 3.0
OHI 4.0 3.0 8.0 1.5 6.0 3.0 8.4 5.0 4.0 4.0 11.7 4.7
VMI 9.5 0.0 6.0 2.8 8.0 0.0 11.0 0.0 15.0 0.0 10.0 0.0
Open in a new tab

Note. A, upper jaw prostheses; a, anterior third palate; B, lower jaw prostheses; b, anterior base of the mouth; C, vestibulum right; D, vestibulum left; E, right cheek mucosa; F, left cheek mucosa.

Abbreviations: BL, baseline; FU, follow‐up; GI, Gingivitis Index; OHI, Oral Hygiene Index; VMI, Volpe‐Manhold‐Index.

Table 3.

Number of colonies of Candida albicans and Candida glabrata (A–F) at BL (before PDC) and FU (2 weeks after PDC)

A B C D E F
Candida C. albicans C. glabrata C. albicans C. glabrata C. albicans C. glabrata C. albicans C. glabrata C. albicans C. glabrata C. albicans C. glabrata
Case 1
BL 130 0 >100 0 10 0 9 0 0 0 0 0
FU 0 0 3 0 6 0 27 0 0 0 1 0
Case 1
BL >100 >100 227 154 356 206 130 42 66 48 66 48
FU 35 491 38 116 163 >800 1 30 238 >100 3 14
Case 3
BL 39 155 L L 108 770 261 >100 39 316 63 342
FU 535 680 575 >1000 1084 3500 567 3816 198 2600 170 1268
Case 4
BL L L <100 <100 369 30 36 15 42 15 190 50
FU 812 1136 199 69 253 20 106 71 52 47 4 12
Case 5
BL 20 97 >100 >100 >100 >100 840 <100 163 300 86 >100
FU 43 >100 >100 >100 201 800 288 980 800 >100 43 165
Case 6
BL 2 0 24 0 8 0 22 0 12 0 17 0
FU 1 0 8 0 0 0 3 0 3 0 0 0
Open in a new tab

Note. A, upper jaw prostheses; a, anterior third palate; B, lower jaw prostheses; b, anterior base of the mouth; C, vestibulum right; D, vestibulum left; E, right cheek mucosa; F, left cheek mucosa; L, lane. Colors: none (green) = 0 CFU; carrier (yellow) = 0 to 20 CFU; infected (orange) = 21–100 CFU; massively infected (red) = over 100 CFU.

Abbreviations: BL, baseline; CFU, colony‐forming units; FU, follow‐up; PDC, professional dental cleaning.

ESwab results. At BL, C. albicans and C. glabrata were found, with lower C. glabrata colony numbers. At FU, C. albicans values on the dentures decreased, but C. glabrata colony counts either only slightly decreased or increased; four out of six sites were colonized with significantly fewer Candida colonies than at BL. The high Candida values in the oral cavity could be an indication that oral hygiene measures were almost completely abandoned in this patient. Her dementia made it almost impossible for nursing staff to brush the teeth in the time specified, which could explain the high infestation. Furthermore, it is possible that PDC had an effect on the habitat of C. albicans, at the expense of a niche becoming available for increased colonization by C. glabrata.

Case 3

This subject was a male dementia sufferer and had been living in the nursing home for 3 months, required nursing degree III, and had a good general condition. He had partial prostheses in his upper and lower jaw, which he could remove himself. Also, he showed intraoral mucous membrane bleeding and swelling with pain compatible with the diagnosis of intraoral candidiasis.

ESwab results. At BL, large quantities of C. albicans and C. glabrata were found, with the highest values on the prostheses. At FU, C. albicans had increased at almost all measuring points, whereas the number of colonies of C. glabrata increased massively (similar to Case 2). Despite his advanced dementia, the subject appeared very self‐reliant and self‐confident. It is uncertain whether he was assisted by nursing staff when brushing his teeth or whether there was only a monitoring/reminder. Whether the prosthesis was taken out of the mouth during the day or at night could not be confirmed. It is conspicuous that the subject sometimes exceeded 10 to >30 times the amount of Candida colonies needed to be considered massively infected. Again, it may be that PDC allowed new niches for C. glabrata to be created by the possible displacement of C. albicans. This subject also developed fatal pneumonia. A reliable diagnosis of the responsible pathogen spectrum is not available.

3.2.2. Self‐cleaning without external support

Case 4

This subject was a male suffering from Parkinson's disease, had been living in a nursing home for 11 months, required nursing degree II, and had a good general condition. He wore an upper jaw partial prosthesis that could not be removed by himself or nursing staff. His ability to brush his teeth was reduced, but he had not yet received help with oral hygiene. Also, he showed intraoral mucosal swelling with pain localized under the upper jaw prosthesis compatible with the diagnosis of intraoral candidiasis.

ESwab results. At BL, C. albicans and C. glabrata were present, particularly on the dentures. High values on the maxillary prosthesis could be explained by the fact that the subject had not removed it for 2 weeks. C. albicans was initially represented with higher colony numbers. At FU, higher numbers of C. glabrata than C. albicans were found on the prosthesis. In general, no significant reduction of candidiasis was achieved by PDC in this subject. The subject developed fatal pneumonia. A reliable diagnosis of the responsible pathogen spectrum was not available.

Case 5

This subject was demented and multimorbid. She had been living in the nursing home for 3 months, required nursing degree IV, and was in a bad general condition. She wore an upper and lower partial prosthesis, which she and the nursing home staff could not remove. She had insufficient tooth brushing skills and never brushed her teeth on her own, unless asked to do so.

ESwab results. At BL, five out of six oral sites were massively infected with Candida. Both C. albicans and often higher counts of C. glabrata were present. At FU, there was no reduction in the high number of colonies after PDC. A change from a higher number of C. albicans to C. glabrata colonies was once again observed.

Case 6

This subject was demented and multimorbid, had been living in a nursing home for 6 months, required nursing degree V, and had a good general condition. She had no prostheses. Her toothbrushing ability was good, but as her dementia mainly affected her short‐term memory, she brushes her teeth on her own.

ESwab results. At BL, low CFU values of C. albicans were found, without colonization by C. glabrata. At FU, a significant reduction in the number of Candida colonies was observed, and it was assumed that PDC reduced Candida colonization.

  • Cases 7, 8, and 9 were female and lived in a nursing home for between 5 and 21 months. All were in good general condition and self‐reliant, with no cognitive limitations. Two were diagnosed with depression, and one was an alcoholic (one bottle of wine per day). One subject had a lower jaw prosthesis, and two had no prostheses. Two subjects (Cases 7 and 8) had good toothbrushing skills, but Case 9 did not; all three brushed their teeth on their own.

    ESwab results. No Candida species were found at BL or FU. The cognitive abilities and very good oral hygiene care (in two subjects) might have prevented colonization with Candida. Despite poor oral hygiene in Case 9, the presence of just five teeth in the mandibular front (an exposed position directly in front of the salivary gland) and the absence of prostheses may explain the absence of Candida species.

4. DISCUSSION

As in other studies, our observational case series provides indications that intraoral colonization with C. albicans and C. glabrata is highly prevalent among nursing home residents. Risk factors for Candida colonization in our observational data included dementia, multimorbidity, the presence of prostheses, and reduced oral hygiene ability, and an increased need for assistance in oral hygiene care appeared to be a risk indicator. Six of our subjects were intraorally colonized with C. albicans, and four of these also had C. glabrata; C. glabrata only occurred in combination with C. albicans. If C. albicans and C. glabrata were found together, usually, more colonies of C. albicans were present. Overall, a strong prosthesis infestation was observed; in two subjects with maxillary prostheses, lawn growth was documented. In these subjects, the intraoral examination also showed clinical signs of candidiasis (mucosal swelling, pain, and mucosal bleeding).

The effects of the mainly mechanical PDC that is performed in outpatient care is unclear. We did not observe a sustained effect of PDC on Candida colonization of oral mucosa and prostheses. Two weeks after PDC, there was no sustained reduction in germ counts in three out of four of subjects, whereas in two cases, the number of colonies was even higher than at BL. It appears that PDC had some positive effects on C. albicans colonization, but mechanical cleaning seemed to shift the ecological niches and lead to new and increased colonization by other Candida species such as C. glabrata. It is unclear exactly what PDC can achieve regarding Candida infestation and its effects, particularly regarding its risks versus its benefits.

Studies show that C. albicans is an effective respiratory pathogen associated with aspiration pneumonia.(Konsberg & Axell, 1994) Pneumonia is the most common cause of infection‐related deaths in people aged ≥65 and accounts for 13–48% of all infections in retirement homes.(Salerno et al., 2011) In our study, three subjects developed pneumonia, which led to their death. Poor oral hygiene appears to be the greatest risk factor for pneumonia in nursing home residents(Samaranayake, Lamb, Lamey, & MacFarlane, 1989); our subjects who died of pneumonia had reduced oral hygiene ability and were colonized with high CFU numbers of C. albicans. C. albicans has been described as the triggering pathogen for Candida‐induced pneumonia, but mixed infections with various pathogens such as C. glabrata have also been reported.(Beighton et al., 1991) Our case series also indicates that C. albicans is more likely to occur alone in cases of low infestation and in combination with C. glabrata in cases of very severe infestation. A systematic review has shown that one in 10 pneumonia‐related deaths in older people could be prevented by better oral hygiene and thus better oral health.(Schou, Wight, & Cumming, 1987) Our case series indicates that PDC does not play a central role, at least not with regard to Candida colonization; we hypothesize that PDC was more likely to create new ecological niches that allowed an increase in C. glabrata colonization. Thus, the benefits of PDC versus potential risks in this vulnerable group need to be determined. Recommendations for action and guidelines for dentists working in the nursing home are urgently required. Such recommendations already exist, for example, in cardiac surgery,(Sjogren, Wardh, Zimmerman, Almstahl, & Wikstrom, 2016) where the risk of postoperative pneumonia is reduced by approximately one half among patients receiving preoperative chlorhexidine mouthwash; they suggest adoption of this recommendation in preoperative protocols could help improve patient outcomes.

Candida‐associated prosthetic stomatitis has been found in 60–65% of prosthesis wearers in long‐term care as we could show among participants (Cases 3 and 4) with an upper and lower jaw prostheses with intraoral clinical signs of candidiasis. It is described as the most common form of oral candidiasis.(Arendorf & Walker, 1987) Prosthetic stomatitis causes mucous membrane bleeding, dry mouth, swelling, taste disorders, and burning mouth or pain sensations(Vigild, 1987; Wilkieson, Samaranayake, MacFarlane, Lamey, & MacKenzie, 1991). In the vulnerable group of older people with dementia, who may not be able to express pain, this is a problem that can lead to reduced food intake. The accumulation of microbial biofilm on the prosthesis surface and its contact with the oral mucosa is a local predisposing factor that can lead to the development of prosthesis stomatitis.(Arendorf & Walker, 1987) The high colonization of Candida in the oral cavity can also lead to an oropharyngeal spread of Candida infection and promote systemic candidiasis.(Budtz‐Jorgensen et al., 2000) In four out of five of our subjects who had prosthesis, Candida was present in high colony numbers. In three of these four subjects, the partial (mainly lower jaw) prostheses had the highest Candida count compared with the entire oral cavity. Although lower jaw partial prostheses rarely cause prosthetic stomatitis,(Zakaria et al., 2017) they make a large contribution to the total amount of Candida in the oral cavity. Our results provide first indications that partial prostheses represent a hygiene problem and should therefore become a focus of clinical investigations.

Further studies are needed to clarify possible risk factors that predispose subjects to systemic Candida infections in oral Candida occurrences. In our cases, there were indications that residents with dementia, multimorbidity, limited oral hygiene ability, and dental prostheses had the highest Candida levels; this should be confirmed in studies with larger case numbers. It is known that multimorbidity and polymedication worsen oral health, as do the presence of dementia and lack of mobility.(Zenthofer et al., 2017; Zenthofer, Schroder, Cabrera, Rammelsberg, & Hassel, 2014)

In the long term, it is possible that nursing home residents at risk could benefit from Candida screening of the oral cavity, according to MRSA screening at every hospital admission. When they move into the nursing home, they undergo an intensive medical check‐up; currently, microflora screening is not part of this routine. If the need for assistance is not obvious due to previous illnesses, the extent of the lack of oral hygiene skills is often not recognized. Such investigations could not only detect Candida colonization but also potentially help prevent pneumonia and systemic candidiasis. Considering how easily a swab can be taken from the mucosa within a few seconds, this procedure is suitable for routine examinations. We confirm that the use of ESwabs for Candida screening is simple and effective in assessing the risk of oral candidiasis and could therefore help to prevent clinical complications such as pneumonia in elderly residents by providing evidence of necessary assistance, dental treatment, or drug intervention.

Our small number of participants (nine subjects) is responsible for the fact that our results are very limited and individual; as far as their significance and external validity is concerned, they cannot be applied to the entire population of nursing home residents. The group of nursing home residents is very heterogeneous and difficult to generalize. It should be discussed whether clinical research within this group requires more individual study designs with more precise patient descriptions, as few factors can be generalized within these groups.

The prevalence of Candida colonization is high among nursing home residents, especially those with additional risk factors (cognitive impairment, multimorbidity, and reduced oral hygiene capacity). The potential negative effects on general health suggest a need for diagnostic and therapeutic guidelines. PDC alone in this small study population did not maintain the reduction in Candida colonization; additional methods for daily oral care are necessary.

In summary, the small number of our study participants seems to correspond to the literature regarding the well‐known problem of oral Candida infection, which remains underestimated in daily dental care of nursing home residents, especially those with additional risk factors (cognitive impairment, multimorbidity, and reduced oral hygiene capacity) with possible negative effects on their general health and well‐being. Observational data of this case series suggest that PDC alone in this population cannot maintain the reduction in Candida colonization; additional methods for daily oral care are necessary, and the results underline the need for necessary diagnostic and therapeutic guidelines.

CONFLICT OF INTEREST

None of the authors report any conflict of interest.

ETHICS

The University of Cologne local ethics review board (16‐204) approved the study, which was registered in the German Clinical Trials register (https://www.germanctr.de; number DRKS00010767) before the first subject was included.

ACKNOWLEDGMENTS

We thank the nursing home's cooperating dentist, Dr. Susan Kottmann, for her ongoing support. Thanks to Deborah Nock (Medical WriteAway, Norwich, UK) for English language editing. No funding.

Kottmann HE, Derman SHM, Noack MJ, Barbe AG. The underestimated problem of oral Candida colonization—An observational pilot study in one nursing home. Clin Exp Dent Res. 2019;5:683–691. 10.1002/cre2.238

REFERENCES

  1. Adachi, M. , Ishihara, K. , Abe, S. , & Okuda, K. (2007). Professional oral health care by dental hygienists reduced respiratory infections in elderly persons requiring nursing care. International Journal of Dental Hygiene, 5(2), 69–74. 10.1111/j.1601-5037.2007.00233.x [DOI] [PubMed] [Google Scholar]
  2. Adams, R. (1996). Qualified nurses lack adequate knowledge related to oral health, resulting in inadequate oral care of patients on medical wards. Journal of Advanced Nursing, 24(3), 552–560. 10.1046/j.1365-2648.1996.22416.x [DOI] [PubMed] [Google Scholar]
  3. Arendorf, T. M. , & Walker, D. M. (1987). Denture stomatitis: A review. Journal of Oral Rehabilitation, 14(3), 217–227. 10.1111/j.1365-2842.1987.tb00713.x [DOI] [PubMed] [Google Scholar]
  4. Barbe, A. G. , Kottmann, H. E. , Derman, S. H. M. , & Noack, M. J. (2019). Efficacy of regular professional brushing by a dental nurse for 3 months in nursing home residents—A randomized, controlled clinical trial. International Journal of Dental Hygiene. 10.1111/idh.12389 [DOI] [PMC free article] [PubMed] [Google Scholar]
  5. Barbe, A. G. , Kottmann, H. E. , Hamacher, S. , Derman, S. H. M. , & Noack, M. J. (2019). Efficacy and acceptance of professional dental cleaning among nursing home residents. Clinical Oral Investigations, 23, 707–713. 10.1007/s00784-018-2487-x [DOI] [PubMed] [Google Scholar]
  6. Bardia, A. , Blitz, D. , Dai, F. , Hersey, D. , Jinadasa, S. , Tickoo, M. , & Schonberger, R. B. (2019). Preoperative chlorhexidine mouthwash to reduce pneumonia after cardiac surgery: A systematic review and meta‐analysis. The Journal of Thoracic and Cardiovascular Surgery. 10.1016/j.jtcvs.2019.01.014 [DOI] [PubMed] [Google Scholar]
  7. Beighton, D. , Hellyer, P. H. , Lynch, E. J. R. , & Heath, M. R. (1991). Salivary levels of mutans streptococci, lactobacilli, yeasts, and root caries prevalence in non‐institutionalized elderly dental patients. Community Dentistry and Oral Epidemiology, 19(5), 302–307. 10.1111/j.1600-0528.1991.tb00172.x [DOI] [PubMed] [Google Scholar]
  8. Brodin, P. , & Davis, M. M. (2017). Human immune system variation. Nature Reviews. Immunology, 17(1), 21–29. 10.1038/nri.2016.125 [DOI] [PMC free article] [PubMed] [Google Scholar]
  9. Budtz‐Jlrgensen, E. , Mojon, P. , Banon‐Clement, J. M. , & Baehni, P. (1996). Oral candidosis in long‐term hospital care: Comparison of edentulous and dentate subjects. Oral Diseases, 2(4), 285–290. [DOI] [PubMed] [Google Scholar]
  10. Budtz‐Jorgensen, E. , Mojon, P. , Rentsch, A. , & Deslauriers, N. (2000). Effects of an oral health program on the occurrence of oral candidosis in a long‐term care facility. Community Dentistry and Oral Epidemiology, 28(2), 141–149. 10.1034/j.1600-0528.2000.028002141.x [DOI] [PubMed] [Google Scholar]
  11. de Resende, M. A. , de Sousa, L. V. , de Oliveira, R. C. , Koga‐Ito, C. Y. , & Lyon, J. P. (2006). Prevalence and antifungal susceptibility of yeasts obtained from the oral cavity of elderly individuals. Mycopathologia, 162(1), 39–44. 10.1007/s11046-006-0029-6 [DOI] [PubMed] [Google Scholar]
  12. El‐Solh, A. A. (2011). Association between pneumonia and oral care in nursing home residents. Lung, 189(3), 173–180. 10.1007/s00408-011-9297-0 [DOI] [PubMed] [Google Scholar]
  13. Gupta, A. , Gupta, A. , & Varma, A. (2015). Candida glabrata candidemia: An emerging threat in critically ill patients. Indian J Crit Care Med, 19(3), 151–154. 10.4103/0972-5229.152757 [DOI] [PMC free article] [PubMed] [Google Scholar]
  14. Haron, E. , Vartivarian, S. , Anaissie, E. , Dekmezian, R. , & Bodey, G. P. (1993). Primary Candida pneumonia. Experience at a large cancer center and review of the literature. Medicine (Baltimore), 72(3), 137–142. 10.1097/00005792-199305000-00001 [DOI] [PubMed] [Google Scholar]
  15. Hoad‐Reddick, G. , Grant, A. A. , & Griffiths, C. S. (1990). Investigation into the cleanliness of dentures in an elderly population. The Journal of Prosthetic Dentistry, 64(1), 48–52. 10.1016/0022-3913(90)90152-3 [DOI] [PubMed] [Google Scholar]
  16. Holbrook, W. P. , & Hjorleifsdottir, D. V. (1986). Occurrence of oral Candida albicans and other yeast‐like fungi in edentulous patients in geriatric units in Iceland. Gerodontics, 2(5), 153–156. [PubMed] [Google Scholar]
  17. Konsberg, R. , & Axell, T. (1994). Treatment of Candida‐infected denture stomatitis with a miconazole lacquer. Oral Surgery, Oral Medicine, and Oral Pathology, 78(3), 306–311. 10.1016/0030-4220(94)90059-0 [DOI] [PubMed] [Google Scholar]
  18. Kontoyiannis, D. P. , Reddy, B. T. , Torres, H. A. , Luna, M. , Lewis, R. E. , Tarrand, J. , … Raad, I. I. (2002). Pulmonary candidiasis in patients with cancer: An autopsy study. Clinical Infectious Diseases, 34(3), 400–403. 10.1086/338404 [DOI] [PubMed] [Google Scholar]
  19. Marik, P. E. , & Kaplan, D. (2003). Aspiration pneumonia and dysphagia in the elderly. Chest, 124(1), 328–336. 10.1378/chest.124.1.328 [DOI] [PubMed] [Google Scholar]
  20. Masur, H. , Rosen, P. P. , & Armstrong, D. (1977). Pulmonary disease caused by Candida species. The American Journal of Medicine, 63(6), 914–925. 10.1016/0002-9343(77)90546-0 [DOI] [PubMed] [Google Scholar]
  21. Narhi, T. O. , Ainamo, A. , & Meurman, J. H. (1993). Salivary yeasts, saliva, and oral mucosa in the elderly. Journal of Dental Research, 72(6), 1009–1014. 10.1177/00220345930720060301 [DOI] [PubMed] [Google Scholar]
  22. Patil, S. , Rao, R. S. , Majumdar, B. , & Anil, S. (2015). Clinical appearance of oral Candida infection and therapeutic strategies. Frontiers in Microbiology, 6, 1391 10.3389/fmicb.2015.01391 [DOI] [PMC free article] [PubMed] [Google Scholar]
  23. Pfaller, M. A. , Diekema, D. J. , & International Fungal Surveillance Participant G (2004). Twelve years of fluconazole in clinical practice: Global trends in species distribution and fluconazole susceptibility of bloodstream isolates of Candida . Clinical Microbiology and Infection, 10(Suppl 1), 11–23. 10.1111/j.1470-9465.2004.t01-1-00844.x [DOI] [PubMed] [Google Scholar]
  24. Pound, M. W. , Drew, R. H. , & Perfect, J. R. (2002). Recent advances in the epidemiology, prevention, diagnosis, and treatment of fungal pneumonia. Current Opinion in Infectious Diseases, 15(2), 183–194. 10.1097/00001432-200204000-00014 [DOI] [PubMed] [Google Scholar]
  25. Quagliarello, V. , Ginter, S. , Han, L. , Van Ness, P. , Allore, H. , & Tinetti, M. (2005). Modifiable risk factors for nursing home‐acquired pneumonia. Clinical Infectious Diseases, 40(1), 1–6. 10.1086/426023 [DOI] [PubMed] [Google Scholar]
  26. Rodriguez, L. J. , Rex, J. H. , & Anaissie, E. J. (1997). Update on invasive candidiasis. Advances in Pharmacology, 37, 349–400. [DOI] [PubMed] [Google Scholar]
  27. Ruhnke, M. (2006). Epidemiology of Candida albicans infections and role of non‐Candida albicans yeasts. Current Drug Targets, 7(4), 495–504. 10.2174/138945006776359421 [DOI] [PubMed] [Google Scholar]
  28. Salerno, C. , Pascale, M. , Contaldo, M. , Esposito, V. , Busciolano, M. , Milillo, L. , … Serpico, R. (2011). Candida‐associated denture stomatitis. Medicina Oral, Patología Oral y Cirugía Bucal, e139–e143. 10.4317/medoral.16.e139 [DOI] [PubMed] [Google Scholar]
  29. Samaranayake, L. P. , Lamb, A. B. , Lamey, P. J. , & MacFarlane, T. W. (1989). Oral carriage of Candida species and coliforms in patients with burning mouth syndrome. Journal of Oral Pathology & Medicine, 18(4), 233–235. 10.1111/j.1600-0714.1989.tb00769.x [DOI] [PubMed] [Google Scholar]
  30. Schou, L. , Wight, C. , & Cumming, C. (1987). Oral hygiene habits, denture plaque, presence of yeasts and stomatitis in institutionalised elderly in Lothian, Scotland. Community Dentistry and Oral Epidemiology, 15(2), 85–89. 10.1111/j.1600-0528.1987.tb00488.x [DOI] [PubMed] [Google Scholar]
  31. Sjogren, P. , Wardh, I. , Zimmerman, M. , Almstahl, A. , & Wikstrom, M. (2016). Oral care and mortality in older adults with pneumonia in hospitals or nursing homes: Systematic review and meta‐analysis. Journal of the American Geriatrics Society, 64(10), 2109–2115. 10.1111/jgs.14260 [DOI] [PubMed] [Google Scholar]
  32. Vigild, M. (1987). Oral mucosal lesions among institutionalized elderly in Denmark. Community Dentistry and Oral Epidemiology, 15(6), 309–313. 10.1111/j.1600-0528.1987.tb01741.x [DOI] [PubMed] [Google Scholar]
  33. Wilkieson, C. , Samaranayake, L. P. , MacFarlane, T. W. , Lamey, P. J. , & MacKenzie, D. (1991). Oral candidosis in the elderly in long term hospital care. Journal of Oral Pathology & Medicine, 20(1), 13–16. 10.1111/j.1600-0714.1991.tb00880.x [DOI] [PubMed] [Google Scholar]
  34. Zakaria, M. N. , Furuta, M. , Takeshita, T. , Shibata, Y. , Sundari, R. , Eshima, N. , … Yamashita, Y. (2017). Oral mycobiome in community‐dwelling elderly and its relation to oral and general health conditions. Oral Diseases, 23(7), 973–982. 10.1111/odi.12682 [DOI] [PubMed] [Google Scholar]
  35. Zenthofer, A. , Baumgart, D. , Cabrera, T. , Rammelsberg, P. , Schröder, J. , Corcodel, N. , & Hassel, A. J. (2017). Poor dental hygiene and periodontal health in nursing home residents with dementia: An observational study. Odontology, 105(2), 208–213. 10.1007/s10266-016-0246-5 [DOI] [PubMed] [Google Scholar]
  36. Zenthofer, A. , Schroder, J. , Cabrera, T. , Rammelsberg, P. , & Hassel, A. J. (2014). Comparison of oral health among older people with and without dementia. Community Dental Health, 31(1), 27–31. [PubMed] [Google Scholar]

Articles from Clinical and Experimental Dental Research are provided here courtesy of Wiley

RESOURCES