metricas
covid
Buscar en
Enfermedades Infecciosas y Microbiología Clínica
Toda la web
Inicio Enfermedades Infecciosas y Microbiología Clínica First evidence for the existence of Simkania negevensis in the genitalia of huma...
Journal Information
Vol. 41. Issue 2.
Pages 79-84 (February 2023)
Share
Share
Download PDF
More article options
Visits
926
Vol. 41. Issue 2.
Pages 79-84 (February 2023)
Original article
Full text access
First evidence for the existence of Simkania negevensis in the genitalia of human females
Primera evidencia de la existencia de Simkania negevensis en los genitales femeninos humanos
Visits
926
Raneem A. Abu-Saifa, Asma S. Al-Bashab, Hesham M. Al-Younesa,
Corresponding author
alyounes@ju.edu.jo

Corresponding author.
a Department of Biological Sciences, School of Science, the University of Jordan, Amman, Jordan
b Department of Obstetrics and Gynecology, School of Medicine, the University of Jordan, Amman, Jordan
This item has received
Article information
Abstract
Full Text
Bibliography
Download PDF
Statistics
Abstract
Introduction

Simkania negevensis has been linked to some respiratory and non-respiratory diseases. However, there is still a serious lack of clinical investigations that attempt to determine possible body sites that could be inhabited by this microorganism and evaluate its true pathogenic capacity. The goal of this study was to examine the potential presence of Simkania and its prevalence in the genital tract of human adult females.

Methods

Lower vaginal swabs from 169 Jordanian adult females who attended Obstetrics and Gynecology clinic were collected and tested for Simkania DNA by PCR method.

Results

The presence of bacterial nucleic acids was confirmed in the genital system of adult females with an overall prevalence of 24.26% (41/169). Interestingly, the positivity of Simkania DNA was significantly higher in women of reproductive age than females of non-reproductive age (28.03% versus 10.81%; p0.05). Moreover, the presence of S. negevensis was evident in approximately 43% of females suffering from vaginal itching and/or abnormal discharge, exhibiting about two-fold increase in the positivity rate compared to detection rates assessed for women who attended the clinic for routine checkup or menstruation problems. However, the current work failed to find any link between the bacterial agent and spontaneous abortion (miscarriage).

Conclusions

This study showed for the first time the presence of S. negevensis in the genitalia of human females. These novel data could provide a basis to clarify the exact role of S. negevensis in the female genitalia and its potential involvement in genital system disorders.

Keywords:
Females
Genitalia
Jordan
PCR
Prevalence
Simkania
Abbreviations:
CAP
PCR
Cpn 60
IUD
CI
WHO
NGS
IVF
IUI
Resumen
Introducción

Simkania negevensis se ha asociado a algunas enfermedades respiratorias y no respiratorias. Sin embargo, todavía existe una importante carencia de investigaciones clínicas para intentar determinar posibles lugares del cuerpo que puedan ser colonizados por este microorganismo, y evaluar su auténtica capacidad patogénica. El objetivo de este estudio era examinar la potencial presencia de Simkania y su prevalencia en el tracto genital de mujeres adultas.

Métodos

Se recogieron hisopos vaginales de 169 mujeres adultas de Jordania que acudieron a una clínica de obstetricia y ginecología y se analizaron para detectar ADN de Simkania mediante PCR.

Resultados

Se confirmó la presencia de ácidos nucleicos bacterianos en el aparato genital femenino adulto, con una prevalencia global del 24,26% (41/169). Una observación interesante fue que la positividad a ADN de Simkania fue significativamente superior en mujeres en edad reproductiva en comparación con las mujeres en edad no reproductiva (28,03 frente al 10,81%; p0,05). Además, la presencia de S. negevensis era evidente en aproximadamente el 43% de las mujeres que sufrían picor vaginal y/o flujo vaginal anormal, mostrando un incremento cercano al doble en la tasa de positividad en comparación con las tasas de detección evaluadas para mujeres que acudían a la clínica para revisiones de rutina o por problemas menstruales. Sin embargo, la investigación no logró encontrar una asociación entre el agente bacteriano y el aborto espontáneo (aborto natural).

Conclusiones

Este estudio mostró por primera vez la presencia de S. negevensis en los genitales femeninos humanos. Estos nuevos datos pueden sentar una base para clarificar con precisión el papel de S. negevensis en los genitales femeninos humanos y su potencial implicación en trastornos del aparato genital.

Palabras clave:
Mujeres
Genitales
Jordania
PCR
Prevalencia
Simkania
Full Text
Introduction

Simkania negevensis, originally characterized as a Chlamydia-like microorganism, belongs now to family Simkaniaceae within the Chlamydiales order.1 Similar to other Chlamydiales members, S. negevensis is an obligate intracellular Gram-negative bacterium and possesses a developmental cycle with two distinct phases: the large, non-infectious, intracellular, replicative reticulate body and the small intracellular, infectious elementary body.1

Seroepidemiological studies from different countries on apparently healthy individuals detected seropositivity rates ranging from 4.3% to 80%.2,3 Besides, this agent is considered as a potential emerging pathogen in the respiratory system, causing community-acquired pneumonia (CAP) and bronchiolitis, as confirmed by different techniques.1,3,4 However, other reports revealed no link between Simkania and chronic obstructive pulmonary disease, chronic cough, asthma or even CAP and bronchiolitis.5–9 Interestingly, because of the remarkable high and comparable prevalences of Simkania in cases suffering from CAP or bronchitis and in healthy controls (57.1% versus 62.5%), it was tempting to hypothesize that S. negevensis is not a causative agent of respiratory diseases and may exist as a commensal agent in the respiratory system.5 On the other hand, sporadic studies suggested a role of Simkania in nonrespiratory system conditions. For instance, DNA of Simkania has been amplified from an aortic aneurysm and intestinal biopsies from patients of Crohn's disease.10,11

In general, microorganisms belonging to the order Chlamydiales are medically important. For instance, the very well-known Chlamydia trachomatis and Chlamydia pneumoniae are mainly implicated in human genital and respiratory diseases, respectively.12,13 Moreover, recently discovered Chlamydia-like bacteria, including S. negevensis, Waddlia chondrophila and Parachlamydia acanthamoebae are associated with clinical conditions. W. chondrophila has been documented as an agent of adverse pregnancy outcomes, whereas, P. acanthamoebae is an emerging respiratory pathogen and may also be linked to adverse pregnancy outcomes in ruminants and humans.4,12,13

In addition to the biological characteristics of Simkania shared with other Chlamydiales members, tropism to inhabit certain body organs and disease potential of Simkania could be also similar to these related microbes. Thus, it is attractive to hypothesize that Simkania could be implicated in human urogenital infections, in addition to its being a respiratory microbe. Thus, this study aims at investigating the existence of Simkania in genital system of human adult females.

Materials and methodsStudy subjects and study design

This study was carried out during the period from July 2018 to August 2019. Here, 169 Jordanian women, who attended for different reasons the Obstetrics and Gynecology clinic of the University of Jordan Hospital, Amman, Jordan, participated in this study and provided genital samples. Females aged between 20 and 91 years with a mean age of 39.5±11.5 years. Subjects who had received antibiotics within the last 3 months prior to enrollment or were on menstrual cycle were excluded from the study. Demographic features, available clinical data and laboratory and diagnostic information were recorded for participating females. Moreover, an informed signed consent was obtained from each of them.

Sample collection and transport

Lower vaginal specimens were collected using sterile cotton-tipped swabs, immediately placed into a sterile tube containing 1ml sterile transport (2-sucrose-phosphate) medium, which consisted of 17.1g sucrose, 0.5g dibasic potassium phosphate, 0.25g monobasic potassium phosphate dissolved in 200ml distilled water, followed by the addition of 20% fetal bovine serum and adjustment of pH to 7.2. Tubes containing the swabs were vortexed for 30sec to dislodge any material into the liquid medium and the swabs were then removed and discarded. Next, the medium was transferred into a sterile 1.8-ml cryovial and stored at −72°C until use.

DNA isolation

DNA from 200μl of each specimen was harvested according to a protocol specific for isolating nucleic acids from body fluids, provided with the G-spin™ Total DNA Extraction kit (iNtRON Biotechnology, South Korea). Extracted DNA was eluted in a final volume of 50μl of a buffer provided with the kit, aliquoted and stored at −20°C until tested. DNA amounts were estimated spectrophotometrically.

PCR assay

To detect the bacterial DNA, a polymerase chain reaction (PCR) assay, amplifying a 311bp fragment of the S.negevensischaperonin-60 (cpn 60) gene, was performed according to a protocol of Donati et al.14 with modification. Forward and reverse primers were 5′-GATGGAACGATGACTGTTGAA-3′ and 5′-GCACAAACTTTTAGTCCTGC-3′, respectively. Conditions for the PCR amplification were: denaturation for 4min at 94°C and 35 cycles, each of which consisted of denaturation step for 1min at 94°C, annealing for 1min at 57°C, extension for 1min at 72°C and a final elongation step for 7min at 72°C. In PCR runs, negative controls were included and contained all components of the amplification mixture and nuclease-free water instead of the purified DNA. Purified Simkania nucleic acids, generously provided by Thomas Rudel and Jo-Ana Herweg, Department of Microbiology, University of Würzburg, Würzburg, Germany, and the bacterial DNA isolated previously from Simkania-positive nasopharyngeal samples, served as positive controls.5 For sequencing purposes, some PCR amplicons were shipped with the required primers to MACROGEN (South Korea).

Statistical analysis

Statistical analysis of the results was calculated using chi-square test. A probability value (p) ≤0.05 was considered statistically significant.

Ethical statement

This work has been approved by the Institutional Review Board (IRB) of the University of Jordan Hospital. The individuals who participated in this work gave signed and informed consent. Anonymity and confidentiality were guaranteed at all times, as well as data protection.

Results

The majority of participating women were married at the time of enrollment (165/169; 97.63%), whereas 4 women were widowed or divorced (2.37%). Ninety seven females (57.4%) were middle-aged women (30-49 years). Sixty one females (36.09%) were apparently healthy subjects with no symptoms, among which 42 women visited the clinic for routine checkup and 19 women were seeking fertility, while the remainder (63.91%) suffered from various symptoms at attendance. About 84% of participants were pregnant for at least one time. In addition, more than half of the enrolled females (58%) did not utilize any birth control method (intrauterine device (IUD), contraceptive pills or condoms by their husbands). More sociodemographic and clinical profiles of the entire female population involved in the study are shown in Table 1. Here, PCR detected Simkania DNA in the genitalia of 41 out of 169 females, suggesting an overall prevalence of 24.26% among individuals examined (Table 2). Sequencing of some PCR amplicons confirmed the amplification of the desired domain within the bacterial gene cpn 60 (data not shown). To analyze the age-specific detection rates, subjects were divided into five age groups: 20–29 years, 30–39 years, 40–49 years, 50–59 years and ≥60 years. Only 7 cases were DNA positive out of 35 females in the youngest group aged 20–29 years, resulting in a prevalence of 20.00% (95% CI: 25.8±0.7). Clearly, the DNA positivity reached a peak (33.96%) in the age group of 30–39 years (95% CI: 34.6±0.896; 18/53) and gradually decreased in the subsequent groups, reaching 27.27% in the cohort of 40–49 years (95% CI: 43.62±0.912; 12/44) and 13.33% in the group of 50–59 years (95% CI: 53.5±1.103; 4/30). Remarkably, none of the participants older than 59 years was DNA positive (95% CI: 68±10.311; 0/7). Further analysis of the results showed the absence of an inverse or a proportional correlation between bacterial nucleic acid positivity and specific ages of females (data not shown). Interestingly, DNA of Simkania was evident in females with ages ≤55 years only, while all females older than 55 years (12 individuals) were found negative. Apparently, more than 50% of positive cases are clustered within the age brackets 29–35 years and 46–50 years. These relatively narrow age intervals account for approximately 29.27% (12/41) and 21.95% (9/41) of all PCR-positive cases, respectively. Sociodemographic and clinical information of the 41 PCR-positive women are summarized in Table 1.

Table 1.

Demographic and clinical features of the entire study population and those females who tested positive for S. negevensis.

Characteristics  Simkania DNA-positive females (total number of females in the category)  (%) 
Age (years)
Range  20–55   
Mean  37.78±9.79   
Median  37.5   
Age groups (years)
20–29  7 (35)  20.00 
30–39  18 (53)  33.96 
40–49  12 (44)  27.27 
50–59  4 (30)  13.33 
≥60  0 (7)  0.0 
Marital status
Married  41 (165)  24.85 
Widowed or divorced  0 (4)  0.0 
Birth control methods
IUDa  11 (44)  25.00 
Oral contraception  6 (15)  40.00 
Condoms  4 (12)  33.33 
None  20 (98)  20.41 
Previous pregnancies (births)
Yes  36 (142)  25.35 
No  5 (27)  18.52 
Type of previous pregnancies
No pregnancies at all  5 (27)  18.52 
Full-term delivery and no abortion history  21 (92)  22.83 
Spontaneous abortion (miscarriage)  15 (49)  30.61 
Ectopic pregnancy  0 (1)  0.00 
Stillbirth  0 (0)  0.00 
Number of previous pregnancies
Zero  5 (27)  18.52 
One  4 (20)  20.00 
Two  7 (24)  29.17 
Three  8 (28)  28.57 
Four  6 (19)  31.58 
≥five  11 (51)  21.57 
Self-reported symptoms at attendance
Vaginal itching and/or discharge  13 (44)  29.54 
Menstrual and bleeding complaints:
Bleeding between periods and after intercourse  2 (17)  11.76 
Heavy cycles  7 (18)  38.89 
Irregular cycles  3 (13)  23.08 
Missed (infrequent) cycles  2 (11)  18.18 
Mixed symptomsb  0 (2)  0.00 
Other symptomsc  0 (4)  0.00 
None  14 (60)  23.33 
a

Intrauterine device.

b

Vaginal itching and/or discharge with menstrual complaints.

c

Painful intercourse, blood in urine or vaginal dryness.

Table 2.

Correlation of DNA positivity in genital swabs collected from adult females with reasons for visiting the Obstetrics and Gynecology clinic.

Reasons for visit  No. examined  No. positive  Positivity %  95% CIa 
Vaginal inflammation: itching and/or discharge  30  13  43.33  0.254–0.625 
Menstrual and bleeding complaints  57  13  22.81  0.127–0.358 
Routine checkup (without symptoms)  42  10  23.81  0.120–0.394 
Multiple reasons (vaginal itching and/or discharge with menstrual complaint)  0.0   
Seeking pregnancy (n=37) (IVFb, IUIc)
Without symptoms  19  21.05  0.060–0.455 
With coincidental vaginal discharge  11  0.0   
With coincidental menstrual and bleeding complaints  20.00  0.005–0.716 
With coincidental painful intercourse  0.0   
With coincidental blood in urine  0.0   
Other reasonsd  0.0   
Total  169  41  24.26   
a

Confidence interval.

b

In vitro fertilization.

c

Intrauterine insemination.

d

Vaginal dryness.

To demonstrate the presence of any relation between the female reproductive age and some of its correlates with the positivity of S. negevensis in genital system, women were divided into two groups based on criteria set by WHO,15 which defined the reproductive age of females to be from 15 to 49 years. Accordingly, one group consisted of 132 reproductive age females (20–49 years old), while the second group comprised only 37 non-reproductive age females (with ages 50 years or older). Remarkably, about 2.5-fold significant increase in the prevalence of Simkania was obtained among women of the reproductive age compared to non-reproductive age individuals (28.03% versus 10.81%; p<0.05). Interestingly, Simkania DNA was detected in 30.61% (15/49) of females who experienced spontaneous abortion (miscarriage), compared to about 22.5% (21/93) of females with no history of miscarriage, suggesting possibly a correlation between the bacterium and this adverse pregnancy outcome (p<0.29).

In an attempt to correlate S. negevensis to clinical manifestations, detection rates of the bacterium in the females were analyzed based on the reasons for attending the Obstetrics and Gynecology clinic. Reasons were categorized into (1) vaginal inflammation (itching and/or discharge), (2) menstrual and bleeding complaints, (3) routine checkup, (4) multiple reasons, (5) seeking pregnancy and (6) other reasons. As illustrated in Table 2, 23.81% (10/42) of symptomless women, visiting the clinic for a regular checkup (pap smear screening, IUD checking, antenatal visit and postpartum follow-up), were positive for S. negevensis. A slightly less DNA positivity rate, which remained above 20% (4/19; 21.05%), was reported for women who were planning to conceive and with no detectable symptoms. However, among other pregnancy-seeking females with coincidental complaints (18 cases), only one case was DNA positive (Table 2). In females who attended for reasons related to menstrual cycle abnormalities, the prevalence rate was almost the same and did not exceed 25% (13/57). Surprisingly, the bacterial DNA was evident in 13 out of 30 females with symptoms of vaginal inflammation (itching and/or abnormal discharge), yielding about 2-fold increase in the nucleic acid positivity (43.33%), compared to rates reported for females who attended for checkup or menstrual cycle complaints (Table 2). Collectively, these data clearly demonstrate that S. negevensis may be linked to vaginal inflammation and its related signs, such as itching and abnormal secretions.

Discussion

To the best of our knowledge, this is the first investigation that confirmed the presence of S. negevensis in the female genitalia. During conducting the present research, Greub and his colleagues could not detect this microorganism in 22 urethral samples from both men and women and in 135 cervicovaginal swabs using their newly developed quantitative real-time PCR.16 Contradictory results using cell culture, PCR and serological methods were also noticed in studies that investigated the prevalence and the association of Simkania with pulmonary conditions.1,3,5 The obvious discrepancy between our findings and those of Vouga et al.16 may reflect variations in the DNA amplification techniques, types of clinical samples and their processing in addition to differences in the populations examined. Many in-house PCR methods are available in the literature for the detection of Simkania and other Chlamydiales members in clinical and environmental samples. In spite of that, the sensitivity and specificity of the majority of these tests remain unknown. Among these protocols are real-time PCR, nested-PCR, multiplex PCR and standard PCR.5,9,14,17 Here, we used a standard PCR method to target S. negevensis cpn 60 gene, using outer primers of a previously described nested PCR.14 This modified test was successfully used to detect Simkania nucleic acids in nasopharyngeal samples.5 The specificity of this assay was confirmed by sequence analyses of some randomly chosen amplicons produced in the present study, which showed more than 97% homology with the desired target in Simkania genome (data not shown). Generally, standard PCR test has most likely the advantage of a decreased risk of contamination, compared to nested PCR that is highly sensitive to this drawback by PCR product carryover. To corroborate our novel PCR-based finding that Simkania inhabits the female genitalia, the use of the cell culture approach for isolation and subsequent characterization of the microbe in addition to one of the modern culture-independent molecular techniques, such as next generation sequencing (NGS), is recommended.

Evaluation of age-related positivity rates clearly showed that about three quarters (73.17%) of Simkania-positive females aged between 30 and 49 years. Importantly, about half of the Simkania DNA-positive females aged between 29–35 years (12/41; 29.27%) and 46–50 years (9/41; 21.95%). Deeper analysis of age-specific prevalences demonstrated that DNA positivity reached the peak in females within the age range 30–39 years, slightly decreased in the subsequent age group of 40–49 years and then sharply decreased in females aged 50–59 years. In contrast, none of the females older than 60 years was positive for Simkania and this may be due to the low number of women investigated in this elderly cohort (only 7 subjects). Overall, based on these interesting novel findings, further studies with larger female populations are needed to gain a better understanding of the relatedness between the age and the incidence of S. negevensis in genitalia.

Many Simkania-like bacteria have been associated with diseases relevant to the urogenital system and/or respiratory system. Globally, C. trachomatis is considered the most common sexually transmitted pathogen, leading to cervicitis, urethritis, ectopic pregnancy, miscarriage, epididymitis, prostatitis and male infertility.12,13,18 The prevalence of this pathogen was estimated at about 100 million new cases in 2005.12Chlamydia abortus is abortigenic in mammals and is involved in miscarriage and stillbirths.12,13 Additionally, W. chondrophila has been associated with miscarriage and ectopic pregnancy in humans and animals.4,12,13P.acanthamoebae and C. pneumoniae were initially identified as an emerging respiratory pathogens and they are now linked to adverse pregnancy aspects.4,12,13 Based on the literature and the novel results of this work, Simkania appears to exist in other body parts in addition to the respiratory system. Very recently, S. negevensis DNA was significantly detected in intestinal biopsies taken from patients diagnosed with Crohn's disease.11 Consistently, the present study revealed the bacterial nucleic acids in another nonrespiratory site, namely, the female genitalia. Intriguingly, a significant link between the presence of S. negevensis and the reproductive age of women was found. The current work also provides evidence for a possible association of S. negevensis with the vaginal inflammation. However, these results are still immature and need to be backed up by further investigations to verify the ability of this organism to exhibit tropism to the female genital tract and its pathogenic potential in the genitalia.

As mentioned above, this study clearly demonstrated significant higher prevalence of Simkania DNA in vaginal swabs from women of the reproductive age. One of the important correlates of the reproductive age is miscarriage. Among risk factors known to associate with this spontaneous abortion are advancing maternal and paternal age, genetic abnormalities, immunological and implantation disorders, uterine and endocrine abnormalities and lifestyle factors.19 Another risk factor linked to increasing chance of miscarriage is the infection with certain microbes.18 For instance, a significant correlation between Waddlia seropositivity in women who experienced miscarriage was demonstrated, compared to those who had no history of miscarriage.4,12,13 Comparably, a correlation between C. trachomatis infection and miscarriage was also documented.12,13,18,20 In addition, many studies have linked P. acanthamoebae with miscarriage in ruminants and humans.12,13,21 Consistent with these studies, the present research shows a possible involvement of S. negevensis in miscarriage. This result might be inconclusive due to the relatively small size of population examined. Therefore, future research is required to explore if Simkania is able to adversely affect the success of pregnancy in humans.

Possible sources of infection and modes of transmission for Simkania-like agents have been proposed. P. acanthamoebae and C. abortus may have zoonotic nature, leading to disorders in humans after contact with infected cattle.12,13,22,23 Cattle may contract P. acanthamoebae from the animal drinking water.4,21 Moreover, maternal-fetal transmission of this microbe has also been demonstrated and was postulated to be the result of zoonotic transmission.22W. chondrophila could be acquired from well water or following contact with infected animals and may be transmitted by sexual intercourse.13,24 Similar to Chlamydiales members, postulations on the source of infection/reservoir of Simkania and its mode of transmission have been reported. Different types of water, such as drinking and environmental water and reclaimed wastewater, were suggested to be a major source of the bacterium.3,14,25–29 Ticks were also proposed as a reservoir and a source of infection.30 Additional modes of transmission could be human-to-human transmission through aerosols or droplets, because of Simkania association with the respiratory system.3 With respect to the source of infection with Simkania in females tested positive in the current study, zoonotic transmission is very unlikely, as participants inhabit urban areas with no farms and no domestic animals are kept in or between houses. The use of bloodstream for Simkania dissemination from potentially infected or colonized respiratory system or other body organs to the genitalia of females could also be excluded at this point, as blood samples collected from 100 adult males and females were all negative for the bacterium (data not shown). It might be argued that the tested blood samples did not belong to the cohort of women tested here. Nevertheless, to resolve any dispute on this issue, further work is required to conclusively clarify the exact role of blood and its cells in the spread of Simkania in the human body. The possibility that the household water used for body washing was the source of infection is also ruled out. This seems reasonable because none of the females older than 55 years was found positive. It is, therefore, tempting to hypothesize that sexual transmission might be the source of microbial infection. This could be supported by the fact that all females with confirmed Simkania DNA positivity were married at the time of the study and the incidence of S. negevensis was found significantly associated with reproductive age. This attractive speculation can be explored in future work by detecting and characterizing the bacterium in females along with their sexual partners.

In summary, the present work provides the first evidence for the presence of S. negevensis in the human female genitalia, as confirmed by PCR technique. This study serves as a foundation to verify the causal role of Simkania, if present, in genital system disorders and its association with adverse pregnancy outcomes in addition to its potential being a sexually transmitted agent.

Funding information

This work was funded through a grant from the Deanship of Scientific Research, the University of Jordan, Amman, Jordan.

Conflicts of interest

The authors have no conflicts of interest in relation to this work.

Acknowledgements

The authors would like to thank Thomas Rudel and Jo-Ana Herweg, Department of Microbiology, University of Würzburg, Würzburg, Germany, who generously provided them with Simkania DNA.

References
[1]
M.G. Friedman, B. Dvoskin, S. Kahane.
Infections with the Chlamydia-like microorganism Simkania negevensis, a possible emerging pathogen.
Microbes Infect, 5 (2003), pp. 1013-1021
[2]
H.M. Al-Younes, M. Paldanius.
High seroprevalence of Simkania negevensis in Jordan.
Braz J Microbiol, 45 (2015), pp. 1433-1437
[3]
M. Vouga, D. Baud, G. Greub.
Simkania negevensis, an insight into the biology and clinical importance of a novel member of the Chlamydiales order.
Crit Rev Microbiol, 43 (2017), pp. 62-80
[4]
A. Taylor-Brown, L. Vaughan, G. Greub, P. Timms, A. Polkinghorne.
Twenty years of research into Chlamydia-like organisms: a revolution in our understanding of the biology and pathogenicity of members of the phylum Chlamydiae.
Pathog Dis, 73 (2015), pp. 1-15
[5]
H.M. Al-Younes, W. Al-Zereini, N.M. Obeidat.
Molecular evidence for the absence of an association between Simkania negevensis and respiratory diseases.
J Med Microbiol, 66 (2017), pp. 1324-1327
[6]
S. Johnsen, N. Birkebaek, P.L. Andersen, C. Emil, J.S. Jensen, L. Østergaard.
Indirect immunofluorescence and real time PCR for detection of Simkania negevensis infection in Danish adults with persistent cough and in healthy controls.
Scand J Infect Dis, 37 (2005), pp. 251-255
[7]
D. Lieberman, B. Dvoskin, D.V. Lieberman, S. Kahane, M.G. Friedman.
Serological evidence of acute infection with the Chlamydia-like microorganism Simkania negevensis (Z) in acute exacerbation of chronic obstructive pulmonary disease.
Eur J Clin Microbiol Infect Dis, 21 (2002), pp. 307-309
[8]
M. Korppi, M. Paldanius, A. Hyvärinen, A. Nevalainen.
Simkania negevensis and newly diagnosed asthma: a case–control study in 1–6-year-old children.
[9]
M. Kose, D. Ekinci, S. Gokahmetoglu, T. Elmas, M.K. Öztürk.
Simkania negevensis: is it a real respiratory pathogen?.
Acta Microbiol Immunol Hung, 62 (2015), pp. 161-166
[10]
J.M. Ossewaarde, A. Meijer.
Molecular evidence for the existence of additional members of the order Chlamydiales.
Microbiology, 145 (1999), pp. 411-417
[11]
E. Scaioli, R. Biondi, E. Liverani, A. Sartini, A. Troiano, L. Fuccio, et al.
Simkania negevensis in Crohn's Disease.
Dig Dis Sci, 64 (2019), pp. 3284-3290
[12]
A. Ammerdorffer, M. Stojanov, G. Greub, D. Baud.
Chlamydia trachomatis and Chlamydia-like bacteria: new enemies of human pregnancies.
Curr Opin Infect Dis, 30 (2017), pp. 289-296
[13]
D. Baud, L. Regan, G. Greub.
Emerging role of Chlamydia and Chlamydia-like organisms in adverse pregnancy outcomes.
Curr Opin Infect Dis, 21 (2008), pp. 70-76
[14]
M. Donati, E. Cremonini, A.D. Francesco, L. Dallolio, R. Biondi, R. Muthusamy, et al.
Prevalence of Simkania negevensis in chlorinated water from spa swimming pools and domestic supplies.
J Appl Microbiol, 118 (2015), pp. 1076-1082
[15]
World Health Organization. Reproductive health indicators: guidelines for their generation, interpretation and analysis for global monitoring. 2006.
[16]
M. Vouga, C. Kebbi-Beghdadi, J. Liénard, L. Baskin, D. Baud, G. Greub.
What is the true clinical relevance of Simkania negevensis and other emerging Chlamydiales members?.
New Microbes New Infect, 23 (2018), pp. 1-5
[17]
V.K. Zezekalo, K.F. Pochernyaev, V.M. Voloshchuk, L.V. Zasukha, N.S. Shcherbakova, S.M. Kulynych.
Multiplex PCR assay for Chlamydia-like bacteria detection.
Wiad Lek, 72 (2019), pp. 851-855
[18]
S. Giakoumelou, N. Wheelhouse, K. Cuschieri, G. Entrican, S.E. Howie, A.W. Horne.
The role of infection in miscarriage.
Hum Reprod Update, 22 (2016), pp. 116-133
[19]
M.H. Pinar, K. Gibbins, M. He, S. Kostadinov, R. Silver.
Early pregnancy losses: review of nomenclature, histopathology, and possible etiologies.
Fetal Pediatr Pathol, 37 (2018), pp. 191-209
[20]
A. Ahmadi, M. Khodabandehloo, R. Ramazanzadeh, F. Farhadifar, D. Roshani, E. Ghaderi, et al.
The relationship between Chlamydia trachomatis genital infection and spontaneous abortion.
J Reprod Infertil, 17 (2016), pp. 110-116
[21]
N. Wheelhouse, F. Howie, J. Gidlow, G. Greub, M. Dagleish, D. Longbottom.
Involvement of Parachlamydia in bovine abortions in Scotland.
Vet J, 193 (2012), pp. 586-588
[22]
D. Baud, G. Goy, S. Gerber, Y. Vial, P. Hohlfeld, G. Greub.
Evidence of maternal-fetal transmission of Parachlamydia acanthamoebae.
Emerg Infect Dis, 15 (2009), pp. 120-121
[23]
G. Walder, H. Hotzel, C. Brezinka, W. Gritsch, R. Tauber, R. Würzner, et al.
An unusual cause of sepsis during pregnancy: recognizing infection with Chlamydophila abortus.
Obstet Gynecol, 106 (2005), pp. 1215-1217
[24]
F. Codony, M. Fittipaldi, E. López, J. Morató, G. Agustí.
Well water as a possible source of Waddlia chondrophila infections.
Microbes Environ, 27 (2012), pp. 529-532
[25]
A. Angeletti, R. Biondi, G. Battaglino, E. Cremonini, G. Comai, Capelli F., et al.
Seroprevalence of a “new” bacterium Simkania negevensis, in renal transplant recipients and in hemodialysis patients.
BMC Nephrol, 18 (2017), pp. 133
[26]
S. Kahane, D. Greenberg, N. Newman, B. Dvoskin, M.G. Friedman.
Domestic water supplies as a possible source of infection with Simkania.
J Infect, 54 (2007), pp. 75-81
[27]
S. Kahane, N. Platzner, B. Dvoskin, A. Itzhaki, M.G. Friedman.
Evidence for the presence of Simkania negevensis in drinking water and in reclaimed wastewater in Israel.
Appl Environ Microbiol, 70 (2004), pp. 3346-3351
[28]
L.M. Pérez, F. Codony, K. Ríos, B. Adrados, M. Fittipaldi, G. De Dios, et al.
Prevalence study of Simkania negevensis in cooling towers in Spain.
Water Health, 9 (2011), pp. 312-316
[29]
L.M. Pérez, F. Codony, K. Ríos, G. Peñuela, B. Adrados, M. Fittipaldi, et al.
Searching Simkania negevensis in environmental waters.
Folia Microbiol (Praha), 57 (2012), pp. 11-14
[30]
A. Croxatto, N. Rieille, T. Kernif, I. Bitam, S. Aeby, O. Peter.
Presence of Chlamydiales DNA in ticks and fleas suggests that ticks are carriers of chlamydiae.
Ticks Tick Borne Dis, 5 (2014), pp. 359-365
Copyright © 2021. Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica
Download PDF
Article options
es en pt

¿Es usted profesional sanitario apto para prescribir o dispensar medicamentos?

Are you a health professional able to prescribe or dispense drugs?

Você é um profissional de saúde habilitado a prescrever ou dispensar medicamentos