INTRODUCTION
Mediterranean spotted fever (MSF) is a tick-borne infection caused by Rickettsia (R.) conorii and is endemic in the Mediterranean basin [Reference Font-Creus1]. The habitual reservoir and dominant vector is the dog tick, Rhipicephalus (Rh.) sanguineus [Reference Rovery and Raoult2, Reference Gilot3]. Dogs play an important role in MSF epidemiology, carrying infected ticks close to human beings. In our experience, between 85% and 91% of patients with MSF report contact with dogs [Reference Font-Creus1, Reference Font Creus4].
MSF seems to have cyclical variation in incidence, but the causes of these variations are unknown [Reference Rovery, Brouqui and Raoult5]. In Catalonia, as in Italy and southern France, the incidence of the disease increased sharply in the 1980s [Reference Segura-Porta6–Reference Raoult8]. By contrast, in the last 15 years we have observed a significant reduction in the incidence of the disease.
Seroprevalence in humans and especially in dogs has been considered a good epidemiological marker of R. conorii infection [Reference Rovery and Raoult2, Reference Mannelli9–Reference Ortuño11]. In the region of Vallès Occidental (Catalonia, Spain), we performed a seroepidemiological study in humans and dogs in 1987, which documented a wide diffusion of R. conorii [Reference Espejo-Arenas12].
The aim of this study was to determine the current prevalence of antibodies to R. conorii in humans and dogs in Catalonia and to compare it with that obtained in 1987.
MATERIALS AND METHODS
The Hospital de Terrassa is located in the region of Vallès Occidental (Catalonia) and serves a population of about 200 000. From 1987, all cases of MSF diagnosed at our institution were prospectively recorded in a database. MSF is a notifiable disease in Catalonia. The reported incidence rate of MSF in Catalonia (cases/100 000 persons per year) was obtained from the Health Department, Government of Catalonia.
The methodology for obtaining samples of human and canine serum was the same as that used in the 1987 study [Reference Espejo-Arenas12].
Human serum samples
Between May 2008 and July 2009, human serum samples from 383 individuals over 14 years undergoing routine medical examination at the Hospital de Terrassa were collected. The selection of subjects was performed according to the gender and age frequency distribution for the area, as performed in the 1987 survey. In each case a questionnaire was completed, in which the following variables were recorded: age, sex, occupation, place of residence, contact with dogs, contact with other animals, and outdoor activities in the last 10 years. Veterinarian, cattle rancher, and farmer were considered risky occupations. Hiking, horticulture, and hunting were considered risky practices. Patients with an active infectious disease, immune abnormalities or a history of MSF were excluded. The study population was stratified by age (<40 years, 40–70 years, >70 years). A sample size of 383 was calculated to detect a statistically significant difference of 40% in the prevalence between the current study and the 1987 study (11·5%), with 80% power and 5% significance level.
Dog serum samples
During the summer months of 2012 and 2013, serum samples were collected from 100 dogs attending a veterinary clinic located in Terrassa (Catalonia). The veterinary clinic was one of the two that had participated in the 1987 study. Dogs requiring a blood test were selected following the procedure of that study. All dogs were privately owned and information about breed, age, habitat, presence of ticks and use of anti-tick treatments was obtained in each case. A sample size of 100 was calculated to detect a statistically significant difference of 33% in the prevalence between the current study and the 1987 study (36·8%), with 80% power and 5% significance level.
Serological technique
The serum samples were assayed by indirect immunofluorescence using commercially available antigens obtained from a Vero cell culture infected with R. conorii. For human sera, determination of antibodies was carried out using anti-human IgG globulin labelled with fluorescein (Rickettsia conorii IgG IFI PRICOG; Vircell, Spain). For canine sera, a fluorescence-labelled anti-dog IgG conjugate (MegaScreen FLUO RICKETTSIA, Eurovet Veterinaria, Spain) was used. The procedure was conducted according to the manufacturer's instructions. Twofold dilutions, beginning at 1:40, were made for each serum. Titres of ⩾1:40 were considered positive.
Statistical analysis
Descriptive analysis was performed using percentages with 95% confidence intervals (CIs) for categorical variables and means with standard deviation (s.d.) for continuous variables. Statistical comparison of categorical variables was performed by χ 2 test, or Fisher's exact test for 2 × 2 tables where any cell contained <5 cases. Statistical comparison of continuous variables was performed with the Student's t test and, when the assumptions of t test were not met, with the Mann–Whitney U test. P⩽0·05 was considered statistically significant. Statistical analysis was performed using Epidat v. 3.1 (epidat.software.informer.com/3.1).
Ethical standards
The institutional review board of the Hospital de Terrassa approved the study and written informed consent was obtained from all participants in the study. Informed consent was also obtained from each dog-owner and all applicable international and national guidelines for the care and use of animals were followed.
RESULTS
Figure 1 shows the evolution of the annual incidence of MSF reported to the notifiable diseases surveillance system in Catalonia, and the evolution of the number of MSF cases diagnosed at our institution from 1987 to 2011. A significant decrease in the incidence of the disease over time can be seen.
Fig. 1. Annual reported incidence rates of Mediterranean spotted fever in Catalonia (cases/100 000 persons per year), and annual number of cases diagnosed at Hospital de Terrassa, 1987–2011.
Human population
Of the 383 subjects studied, 181 (47·3%) were men and 202 (52·7%) were women. Ages ranged from 15 to 89 years, with a mean age of 46·4 years (s.d. = 18·1). A total of 312 (81·5%) subjects lived in urban areas and 71 (18·5%) lived in rural or semi-rural areas. A total of 111 (29·0%) subjects participated in outdoor activities and 25 (6·5%) were involved with horticultural practices. The distribution of these variables was not significantly different from that observed in the sample for the study conducted in 1987.
Overall, 19 human sera (5·0%, 95% CI 2·8–7·1) had antibodies to R. conorii. The titre of antibodies to R. conorii was 1:40 in three cases, 1:80 in 10 cases, 1:160 in five cases and 1:320 in one case. Table 1 shows the seroprevalence according to sex, age, habitat and outdoor activities. Seropositivity rate was higher in men than in women but the difference was not statistically significant (P = 0·058). There was strong evidence to suggest a difference in the mean age of seropositive subjects (58·9 years, s.d. = 16·5) and that of seronegative subjects (45·7 years, s.d. = 18·0) (P = 0·02). A significant correlation between seropositivity rate and occupation, contact with animals or risky practices was not detected.
Table 1. Seroprevalence to Rickettsia conorii in the human population according to several factors
* Defined by number of inhabitants of municipalities: rural <5000, semi-rural 5000–50000, urban >50000.
† Veterinarian, breeder or farmer.
The seroprevalence recorded in this study (5·0%) was significantly lower (P = 0·003) than that recorded in the 1987 survey (11·5%).
Canine population
Of the 100 dogs studied, 71 lived in an urban area and 29 in a rural or semi-rural area. Fifty-six dogs lived in an apartment and 44 in a house. Sixty-six dogs lived indoors and 34 outdoors. Regarding anti-tick treatment, 88 dogs were treated with permethrin-imidacloprid spot-on (Advantix, Bayer, Germany), 71 dogs were treated with a deltamethrin collar and 68 dogs were treated with both. Only nine dogs did not receive any anti-tick treatment.
Overall, 42 canine serum samples (42·0%, 95% CI 32·3–51·7) had antibodies to R. conorii, The titre of antibodies to R. conorii was 1:40 in 13 dogs, 1:80 in nine dogs, 1:160 in 12 dogs, 1:320 in four dogs, 1:640 in three dogs, and 1:1280 in one dog.
Table 2 shows the seroprevalence according to breed and habitat of the studied dogs. No significant differences were observed. Table 3 shows the seroprevalence regarding anti-tick treatment. There was weak evidence to suggest that dogs treated with permethrin-imidacloprid spot-on had a lower seroprevalence than those not treated with this method (P = 0·06). Attached ticks were observed in five dogs, three of which had antibodies to R. conorii.
Table 2. Seroprevalence to Rickettsia conorii in the canine population according to breed and habitat
* No statistically significant differences related to breed, habitat or dog accommodation were observed.
† Defined by number of inhabitants of municipalities: rural <5000, semi-rural 5000–50000, urban >50000.
Table 3. Seroprevalence to Rickettsia conorii in the canine population according to anti-tick treatment
* With or without deltamethrin collar.
† With or without permethrin-imidacloprid spot-on.
There was no significant difference between the current seroprevalence (42·0%) and that recorded in the 1987 survey (36·9%) (P = 0·45).
DISCUSSION
The causes of the cyclic variations of MSF incidence are unknown [Reference Rovery and Raoult2, Reference Rovery, Brouqui and Raoult5]. Various factors have been suggested to explain the increase in incidence observed in the early 1980s, such as an increased number of ticks, increased human contact with the habitat of infected ticks or ecological changes in the outskirts of large cities resulting from the movement of rural sources of infected ticks to suburban zones [Reference Rovery, Brouqui and Raoult5]. Climatic changes, such as increased temperature and decreased rainfall, are suspected to play a role in tick activity and MSF prevalence [Reference Espejo-Arenas13–Reference Estrada-Peña, Ayllón and De la Fuente16]. Another factor could be a shift in the anti-rickettsial effectiveness of the most used antibiotics as empirical therapy for patients with fever of unknown origin [Reference Rovery, Brouqui and Raoult5]; thus, in the late 1970s and early 1980s, decreased use of doxycycline and increased use of amoxicillin-clavulanate, which lacks anti-rickettsial activity, coincided with an increase in MSF incidence.
In Catalonia, where MSF is a notifiable disease, there has been a marked decrease in the incidence reported in the last 15 years. While it is likely that there is underreporting of the disease, there is no reason to believe that underreporting is greater now than it was 20 years ago. Moreover, the evolution of the number of cases as seen in the prospective registry at our hospital is consistent with this decrease, as noted also by other authors since 1998 [Reference Segura-Porta17].
IgG antibodies to R. conorii may remain detectable for a long time [Reference Mansueto18]. Thus, between 5 and 10 years after suffering from MSF, more than half of patients have IgG titres to R. conorii ⩾1:40 [Reference Espejo-Arenas12]. Therefore, the seroprevalence studies in the human population may reflect changes in incidence of the disease only if performed with a time separation of many years, as is the case in this study. Our finding of a significant decrease in the prevalence of antibodies to R. conorii in the human population in our area, over a period of 20 years, seems to confirm a lower exposure of this population to R. conorii.
While in our area more than 85% of patients with MSF report contact with dogs [Reference Font-Creus1, Reference Font Creus4], it is noteworthy that the contact with dogs did not represent an increase in seropositivity in this study. It is possible that some individuals had been in contact with dogs for >10 years before, since this is the time period that was investigated in this study. Moreover, it has been suggested that, in addition to unnoticed tick bites, inhalation or ingestion of dry products containing antigenically active rickettsial material could explain the seropositivity in some cases [Reference Herrero-Herrero10, Reference Espejo-Arenas12].
A higher prevalence of antibodies to R. conorii with advancing age was also observed in our previous study [Reference Espejo-Arenas12]. It probably reflects the accumulated exposure over the years because of the prolonged persistence of antibodies.
Unlike what occurs in humans, the duration of the immune response to R. conorii in dogs is relatively short [Reference Espejo19], with a much higher seroprevalence in summer than in winter and spring [Reference Ortuño11, Reference Espejo-Arenas12]. Therefore, it is recommended that prevalence studies in dogs be performed during summer [Reference Espejo19], as was the case in both our studies. Our finding that canine seroprevalence has not changed significantly in the last 20 years with regard to R. conorii seems to indicate that the contact of dogs with this bacterium remains stable.
The very frequent use of anti-tick treatment in the studied dogs is noteworthy. In fact, almost all dogs were treated with permethrin-imidacloprid spot-on and the majority also wore a deltamethrin collar during summer months. Various veterinarians confirmed that a large proportion of dogs in our area receive this preventive treatment. In the 1980s, the spot-on treatment had not yet been introduced and the use of a deltamethrin collar was most uncommon. Experimentally it has been demonstrated that treatment with permethrin spot-on reduces the infestation of dogs by Rh. sanguineus, but it does not suppress infestation completely [Reference Estrada-Peña and Venzal Bianchi20]. However, Lüssenhop et al. demonstrated that in dogs treated with permethrin-imidacloprid spot-on, most ticks were dead 6 h after experimental infestation with ticks of the genus Dermacentor reticulatus [Reference Lüssenhop21]. In fact, many dog-owners who use the spot-on treatment report that it is not uncommon to find ticks attached to the dog, but that usually these ticks are dead. Thus, it appears that these treatments do not completely eliminate the parasitic infestation (and therefore the possibility of infection by R. conorii, if the tick is infected) but significantly reduce its duration, such that the role of the dog as a vehicle that brings ticks into close contact with humans is significantly reduced. This could explain our findings of a stable seroprevalence in the dogs, and a decrease in the incidence of MSF and the seroprevalence in the human population. Of course, other factors might have contributed to the decrease in MSF incidence, such as the greater empirical use in recent years of macrolides and fluoroquinolones with anti-rickettsial activity.
The main limitation of this study is that only immunofluorescence was used to detect the presence of antibodies. Several studies have shown that use of Western blotting increases the specificity of the positive results, reducing the number of false positives due to cross-reactivity with species of Rickettsia other than R. conorii [Reference Babalis22]. However, taking into account that the main objective of the study was to compare the current seroprevalence with that obtained in 1987, we think that it was appropriate to reproduce as closely as possible the methodology used in that study, both with regards to obtaining samples and to the processing of the sera. Another limitation could be the time difference between the collection of human and canine sera, due to the fact that the study in dogs was designed and conducted after the completion of the study in humans. However, considering that the immune response to R. conorii persists for a long time in humans, the 4-year interval between the collection of the human sera and the canine sera is not significant with regard to the prevalence of antibodies to R. conorii.
In conclusion, our study shows a significant decrease in the prevalence of antibodies to R. conorii in the human population of Catalonia in the last 20 years, which corresponds to a decrease in the number of MSF cases, whereas the seroprevalence in the canine population has remained the same. We suggest that the widespread use of permethrin-imidacloprid spot-on treatment in dogs could limit the introduction of ticks to humans due to the resulting reduced infestation time in dogs, thus contributing to the decrease in MSF incidence.
ACKNOWLEDGEMENTS
The authors thank Maria Rosa Sala (Epidemiological Surveillance Unit, Health Department, Generalitat de Catalunya) for her assistance in obtaining the annual incidence rates of Mediterranean spotted fever in Catalonia. The authors also thank Míriam Nieto, Carles Prat, Francesc Darnacolleta and Alex De Jorge for their assistance in obtaining canine sera.
This work was supported in part by a grant from the Fundació Joan Costa Roma, Terrassa (2006–03).
DECLARATION OF INTEREST
None.
