Introduction. Bacteria of the genus Bartonella sp. are small, short, pleomorphic, Gram-negative coccobacilli (0.5 by 1 to 2 µm), and today almost 40 species are known, along with numerous unnamed or Candidatus species. Bartonella henselae is the most important species of zoonotic significance, the principal etiologic agent of cat scratch disease (CSD) in humans, most commonly manifested by localized lymphadenopathy with or without bacteremia. The main reservoirs of bacteria B. henselae are cats, and the causative agent is most often transmitted to humans by contamination of the scratch site with feces of the cat flea (Ctenocephalides felis), which contains viable multiplied pathogens. Cats are chronic asymptomatic carriers of bacteria B. henselae, which infects their erythrocytes, making isolation from the cat’s blood on blood agar plates more successful than from other animals and humans. Epizootiological studies have shown a prevalence of Bartonella infection in cats of 10-30% by culture from cat’s blood. Although protocols for proving Bartonella are different, isolation by cultue on agar plates is still considered the "gold standard" of diagnosis. It is also a method by which sufficient amounts of DNA can be obtained for further genetic analysis of bacteria B. henselae, such as analysis of multiple gene loci. Due to the slow growth and fastidious cultivation, isolation on culture media is a diagnostic challenge. In spite of Bartonella are widespread throughout the world and pose a threat to human health, research on species / isolates in Croatia has not been carried out systematically so far. Serological studies and various clinical manifestations of people has proven the presence of pathogens in Croatia. To date, no studies by culture and / or molecular investigation of bacteria B. henselae in cats, or genotyping methods of species / isolates have been performed, so this is the first study of its kind in Croatia. B. henselae isolates show a considerable genetic heterogeneity and bacteria is divided into sequence types (ST), which today are most often determined by multilocus sequence typing (MLST) analysis. Prior to the start of this study, 32 different STs were known, and today there are a total of 37 enrolled in the PubMLST database (https://pubmlst.org/organisms/bartonella-henselae). Beside to study the prevalence of infection and optimal culture procedures, the aim of this paper is to perform B. henselae-genotyping, gain insight into the diversity and distribution of sequence types and contribute to knowledge of the genetics of the bacteria B. henselae in Southeast Europe. Determining the sequence types isolated from cats in Croatia is important, because they differ in virulence and zoonotic potential. Material and methods. A total of 279 cats were searched. 189 blood samples of live cats collected in 20 veterinary clinics from 13 different locations in the Republic of Croatia were analyzed. Samples were inoculated on five types of solid and two types of biphasic culture media, previously tested using ATCC strains of bacteria B. henselae (49882) and B. clarridgeiae (700095), and analysed in parallel by polymerase chain reaction (PCR). Any colony growth indicating species of the genus Bartonella was screened by PCR, and isolates were stored in pure culture by freezing at –80 °C, in broths with added glycerol, or in a commercial bacterial storage system. In addition to samples of live cats, 90 samples of blood from the hearts of dead cats were analyzed, tested only by culture. Each sample was accompanied by a questionnaire which contains anamnestic, clinical and epizootiological data on animals, in order to determine the risk factors associated with infection of cats with bacteria of the genus Bartonella sp. Five solid culture media were used, Columbia agar with 5% sheep blood (COL), Brain heart agar with 5% rabbit blood (BH), Chocolate agar with 10% sheep blood (ČOK), Tryptic soy agar with 5% sheep blood (TSA) and Esculin blood agar with 5% sheep blood (EKA). In addition, two biphasic media were used, made by a combination of liquid and solid culture media: Tryptic soy broth with Tryptic soy agar (TSA+TSB) and Brucella broth with Brain heart agar (BH+BB). To identify Bartonella sp. from blood and isolates by conventional PCR, primers for the target genes 16SrRNA and ITS (16S-23S rRNA) were used. Detection of B. henselae species and sequence types determination was performed by multi locus sequence typing (MLST) at eight gene loci (16SrRNA, batR, ftsZ, gltA, groEL, nlpD, ribC and rpoB) from isolates obtained by culture of blood samples of 31 cats. Nucleotide sequence determination was performed at the commercial company Macrogen Inc. (Amsterdam, The Netherlands). The obtained sequences were processed using the computer program BioNumercis, which compared the nucleotide sequences of both directions, in order to obtain a unique nucleotide sequence. Alleles and STs were determined using the MLST online database (https://pubmlst.org/organisms/bartonella-henselae) for bacteria B. henselae and were assigned an eight-digit numerical code, consisting of a combination of alleles at each locus. Alleles were compared with each other on the basis of categorical coefficient and UPGMA, and presented in the form of dendrograms and MST (minimum spanning tree). The obtained STs with this research were compared with the existing STs from different countries and regions of the world. In the statistical processing of epizootiological data, we used the computer program STATA 13.1. Univariate and multivariante logistic regression was used to analyze the statistical correlation of epizootiological data from the questionnaires and to determine risk factors associated with B. henselae infection. Independent variables statistically significant in univariate analysis (p-value <0,05) were included in multivariable model and further tested to evaluate if remained associatied with feline Bartonella bacteremia. Results. Out of a total of 279 cats searched, Bartonella spp. were isolated from 31 live and one dead cat. Determined prevalece was 16,4% (CI 11,074 – 21,730) (total frequency of isolation was 11,5%, in live cats 16,4% and in dead 1,1%). On all types of solid culture media used in the primoisolation a growth of colonies was recorded, and the typical colonies for species B. henselae (hard, dry, difficult to break, and firmly embedded to the surface) were observed after four to 56 days of incubation. B. henselae was identified by amplification and sequencing of the 16SrRNA gene and the ITS region. By analyzing the nucleotide sequences of eight gene loci of all isolates uing the MLST method, five different sequence types (ST) of bacteria B. henselae were identified. Out of 31 infected live cats, a total of 30 complete MLST allelic profiles were obtained, and one was incomplete and was not assigned a sequence type with certainty. The most common genotype was ST5, isolated from 17 (56,7%) cats, and of the other sequence types ST6 was detected in seven (23,3%) cats, ST1 in four (13,3%) and ST24 in one (13,3%). The genotype of one cat was completely new due to a new combination of alleles, and was deposited into an online database (https://pubmlst.org/organisms/bartonella-henselae) as a sequence type ST33. Based on the determined combination of alleles, MLST analysis assigned a numerical code 2-3-3- 1-2-1-1-2, and phylogenetic analysis determined affiliation to one of the three previously described CCs of B. henselae species, clonal complex 2 (CC2). The best efficiency of isolation of B. henselae – bacteria on seven types of culture media, comparing the growth rate (days of incubation) and the isolation rate (share of isolates obtained from infected blood samples on specific media), in the primary isolation was on BH agar (87.5%, 21/24 isolates) and COL agar (82.4%, 14/17 isolates). Cat’s isolates with varying level of bacteremia were grown on both culture media, on BH agar with a range of 16 to 1960 CFU / mL, and on COL agar from 40 to 3050 CFU / mL. Slightly lower isolation rate was observed on EKA (80,0%) and ČOK (77,3%) agar and on biphasic medium TSA+TSB (80,0%). The advantage of a certain culture medium in the isolation of a particular sequence type of B. henselae has not been observed. B. henselae species was identified from an isolate grown on ČOK agar plate from a blood sample of a dead cat by PCR and sequencing. By examining the blood of live cats by PCR, we were unable to amplify the DNA fragment of Bartonella. By processing epizootiological data from the live cat by survey questionnaires, a statistically significant association (p <0,05) was found between the infection of cats with B. henselae and the area, age of cats and and first-time findings of intestinal parasites. The highest prevalence of infected animals was found in the cities of Zabok (66,7%, 2/3), Rijeka (50,0%, 5/10), Pula (40,0%, 8/20) and Jastrebarsko (30,4 %, 7/23), while in four out of the 13 locations (Osijek, Split, Vukovar and Velika Gorica) there were no cats infected with Bartonella. Cats ≤12 months of age were the most frequently infected (25,0%), and a trend of declining prevalence with increasing age of cats was observed. In the coastal area, cats were significantly more frequently infected than on the mainland, as were cats sampled between January and April compared to the rest of the year. Multivariate analysis revealed the strongest association between feline bacteremia and the presence of intestinal parasites. Conclusion. The prevalence of cat infection with bacteria B. henselae obtained on culture media (16,4%) is within the range found in similar studies in cats in Europe and the rest of the world, and it is the third most common infection in the domestic cat group. A slightly higher rate of isolation was observed in cats with respect to lifestyle (going out, lack of owners). It was found that coastal cats were more frequently infected with B. henselae than continental. Such a finding could be associated with an average warmer climate of coastal locations, which is more conducive to the life of cat fleas, the main vectors in Bartonella transmission. Infection with intestinal parasites and age up to one year are risk factors that are significantly associated with infection of cats with B. henselae. On the other hand, factors such as sampling in the summer months, antibiotic administration, flea control treatments, and age above one year are possible causes of differences in prevalence between sites. The identification of five different sequence types from isolates of 30 cats confirmed the genetic diversity of the bacterium B. henselae in the territory of the Republic of Croatia. For the first time in the Republic of Croatia and for the first time globally from the cat’s blood has been proven the ST33 genotype. It was not observed association of other genotypes with particular location because they were equally distributed. The culture method has proven successful for detecting B. henselae bacteria from the blood of cats. Combined use of several different culture media, with extended incubation time up to 60 days, are recommended for the isolation of bacteria B. henselae by culture from the blood of the cats. The zoonotic genotype ST5 was isolated from three cats in households with CSD patients suggesting that it is a common and virulent zoonotic genotype.