Search Results (97)

Neonatal puppies and kittens face a critical period after birth, during which their health depends heavily on the microorganisms they acquire from their mothers and environment. These microorganisms, known as the gut microbiota, help newborns develop their immune systems, digest nutrients, and protect against disease. This review explores how these microorganisms are transferred from the mother to her offspring before, during, and after birth, including the process of delivery, nursing, and maternal care. It also examines how factors such as birth type, hygiene, feeding, and maternal health can influence the development of these microbial communities. When this process is disrupted, it may lead to health problems such as infections, diarrhea, and immune disorders. Understanding how and when these microbes are passed to newborns, and how to support this process, is essential to improving survival rates and long-term health in puppies and kittens. Full article

Feline panleukopenia virus (FPV) is a major feline pathogen, but canine-derived FPV variants have recently been identified. Here, we compared the pathogenicity of a canine-derived FPV strain in cats with that of a lethal feline-derived FPV strain and evaluated the evolutionary significance of its NS1 mutations. Kittens infected with the canine-derived strain developed only mild, self-limiting diarrhea without fever or mortality, whereas those infected with the feline-derived strain developed severe disease and reached humane endpoints by 9 dpi. The canine-derived strain caused prolonged fecal shedding from 6 to 38 dpi but only low tissue viral loads (10¹–10³ copies/g), while the feline-derived strain reached markedly higher loads (10³–10⁶ copies/g), particularly in the ileum, jejunum, and lungs. Viral DNA levels in the lungs, ileum, caecum, and rectum were significantly higher in the feline-derived group. Sequence analysis identified four NS1 mutations, 115I, 132L, 247Q, and 595Q, which showed stepwise evolutionary accumulation and signatures of positive selection. These findings indicate that canine-derived FPV retains infectivity in cats but exhibits attenuated pathogenicity and reduced replication fitness, highlighting NS1 as a potential determinant of host adaptation. Full article

This study evaluated the nutritional adequacy of commercial dog and cat foods in South Korea by comparing analytically determined nutrient contents with recommended nutrient levels of the National Institute of Animal Science (NIAS) and the Association of American Feed Control Officials (AAFCO). A total of 96 pet food products for puppies (n = 50), adult dogs (n = 18), kittens (n = 17), and adult cats (n = 11) were collected. Nutrients, including crude protein, crude fat, essential amino acids, essential fatty acids, major minerals, and selected trace nutrients, were analyzed using accredited methods stipulated by the Korean Feed Control Act and compared with NIAS and AAFCO recommendations. Most adult dog and cat diets met recommended nutrient levels; however, deficiencies were identified in diets intended for growth. Puppy foods showed inadequate levels of eicosapentaenoic and docosahexaenoic acids (EPA + DHA, 72%), calcium (22%), and phosphorus (42%), as well as imbalanced calcium-to-phosphorus ratios (12%). In kitten diets, insufficient EPA + DHA (41.2%) and taurine (11.8%) were observed. In contrast, 82.3% of products met label-declared guaranteed analysis values for seven mandatory nutrients. These results provide baseline information on the nutritional adequacy and labeling compliance of pet foods across different life stages. Full article

This study systematically compared the lipidomes of canine, feline, bovine, and caprine milk. Feline milk contained the highest total lipid content (110.83 mg/mL), significantly exceeding that of canine (81.52 mg/mL), caprine (40.27 mg/mL), and bovine milk (36.25 mg/mL). The phospholipid content in both canine (0.97 mg/mL) and feline milk (0.90 mg/mL) was approximately three times higher than that in bovine and caprine milk (approximately 0.30 mg/mL). Compared to bovine and caprine milk (approximately 30%), canine and feline milk had markedly higher proportions of unsaturated fatty acids (approximately 70%) and were enriched with functional long-chain polyunsaturated fatty acids, including arachidonic acid and docosahexaenoic acid. A distinctive feature was that over 60% of palmitic acid was esterified at the sn−2 position of triacylglycerols in canine and feline milk, a structural similarity shared with human milk. Lipidomic analysis identified 2708 lipid molecules across the four milk types, revealing several triacylglycerol species as potential species-specific biomarkers. These findings provide a concrete scientific basis for developing precisely formulated milk replacers that meet the specific nutritional requirements of puppies and kittens. Full article

Kittens are born with some maternally derived antibodies (MDA) that, together with maternal gut microbiota, bring some form of early defense against pathogens. However, this protection declines and the rapid changes and challenges the kitten typically encounters can adversely affect their health. Nutrition can modulate the immune system and gut microbiota, offering a boost to protection following weaning. This controlled, randomized, double-blinded study tests a dietary supplement containing nucleotides, oligosaccharides, vitamin E and β-carotene in 50 domestic short-haired kittens. Control kittens were fed standard, dry kitten diet whilst test kittens received the same diet with supplement for 52 weeks. Kittens received routine vaccinations and blood samples were collected throughout the study for standard hematology, serum antibodies and cytokine expression. Rectal fecal samples were analyzed for gut microbiota via 16S rRNA gene sequencing. Supplemented kittens showed significantly improved antibody response to Chlamydia vaccine at various timepoints versus controls, with no consistent effects of supplementation on responses to other vaccines. Several cytokines were significantly influenced by the supplement, which also significantly altered gut microbiota diversity. In conclusion, a dietary supplement was shown to promote immune response and gut microbiota changes in kittens and may help to support a healthy transition into adulthood. Full article

The shift from syntagmatic to paradigmatic associations is a developmental process occurring from approximately the ages of six to nine years and plays an important role in language development. Syntagmatic relationships refer to words that co-occur due to their mutual dependency connection (e.g., “The dog barks”). Paradigmatic relationships are words within the same category (e.g., cat, kitten). In Study 1, we tested 244 Spanish-English bilingual children in grades 1 to 3 (M age = 7.87 years, 54.5% female) enrolled in dual language programs in California, USA. Children completed a matching task in both English and Spanish featuring both syntagmatic and paradigmatic lexical associations. Results showed significantly higher accuracy for older students than for younger students, higher accuracy in English than in Spanish for both paradigmatic and syntagmatic associations, and higher accuracy in paradigmatic associations in English and syntagmatic associations in Spanish. In Study 2, we conducted cognitive interviews with a separate sample of 13 Spanish-English bilingual children (M age = 8.96 years, 46.15% female) to explore how they reasoned through their word pair choices when completing the task. Children primarily relied on paradigmatic associations, using strategies like synonymy, antonymy, and category overlap, while also employing syntagmatic associations and thematic relatedness as less frequent but important reasoning strategies. Implications for early language development are discussed. Full article

Background/Objectives: To this day, rabies remains a significant global threat. This threat remains even with the availability of vaccines for humans, wildlife, and domestic animals, which are used as part of a series of interventions to attempt to control the infection and disease. The number of annual human deaths from rabies globally remains significant, with infections being mainly caused by domestic dogs. Although a number of vaccines exist for domestic animals, most contain inactivated rabies virus with adjuvants. Methods: To investigate alternatives to conventional rabies vaccines for dogs and cats, we developed a novel, non-adjuvanted, low-volume (0.5 mL) vaccine, based on the Venezuelan equine encephalitis virus (VEEV) TC-83-derived RNA particle (RP) expressing the rabies glycoprotein (G). This novel vaccine combines the safety profile of a non-adjuvanted vaccine while inducing consistently high efficacy and an extended duration of immunity similar to that shown by adjuvanted vaccines. Results: In multiple studies, we demonstrated that young kittens and puppies can be safely vaccinated without serious adverse effects. In graded dose experiments with cats and dogs, the RNA particle vaccine induced neutralizing levels of antibodies. Additionally, in vaccination/challenge studies, 100% protection from virulent rabies was demonstrated in excess of three years post-vaccination from a single dose at 12 weeks of age in both dogs and cats. The safety of the RP-Rabies vaccine in dogs and cats as young as twelve weeks of age was demonstrated in field safety studies using two vaccine serials formulated at a field dose. Conclusions: Data from these studies suggest that the RP-Rabies vaccine offers an excellent alternative to current vaccines combining the safety of a non-adjuvanted vaccine in a low-volume, single dose with the induction of an extended duration of immunity of at least three years in both dogs and cats. Full article

Feline herpesvirus type-1 (FHV-1), a double-stranded DNA virus, which is a highly infectious upper respiratory tract infection of felids, particularly in kittens. Droplet digital PCR (ddPCR) provides an absolute quantification method with high sensitivity and accuracy. This study aimed to develop a highly sensitive and accurate ddPCR assay for the detection of FHV-1. We designed primers and a probe targeting the FHV-1 glycoprotein D (gD) gene and evaluated the assay’s limit of detection (LOD), sensitivity, repeatability, and specificity in comparison to quantitative real-time PCR (qPCR). The developed ddPCR assay demonstrated a strong linear dynamic range (R² ≥ 0.99) and an exceptionally low LOD of 0.18 copies/μL, which was significantly more sensitive than the method qPCR (LOD ~10 copies/μL). Additionally, the assay exhibited high specificity with no cross-reactivity against other common feline pathogens (feline calicivirus, FCV; feline panleukopenia virus, FPV; feline infectious peritonitis virus, FIPV; Bordetella bronchiseptica and Chlamydia felis) and displayed outstanding repeatability (inter-run CV < 1.35). When applied to 118 clinical samples, the ddPCR assay achieved a significantly higher positive detection rate (27.4%) compared to qPCR (14.8%). In conclusion, we have successfully established a reliable ddPCR assay for the absolute quantification of FHV-1, providing a superior tool for laboratory diagnosis and research. Full article

Feline calicivirus (FCV) is widespread in multi-cat environments and typically causes acute upper respiratory tract disease (URTD). FCV also causes outbreaks of virulent systemic disease (VSD), mainly in adults, with multiple organ involvement. In this study, an FCV-VSD infection was described in a less-one-month-old Maine Coon kitten originating from a cattery where an outbreak of FCV-URTD had previously been reported. After spontaneous death, post-mortem examination as well as histopathological, immunohistochemical, bacteriological and virological investigations were carried out. Pathological findings were consistent with severe pneumonia and cutaneous oedema of the footpads. No concomitant bacterial infection was detected. FCV RNA was detected in several organs and the highest amount of viral RNA was observed in the lung sample, in which the presence of the FCV antigen was confirmed by immunohistochemistry. With the same immunohistochemical technique, the IBA-1 antibody detected sparse alveolar macrophages, the main viral target cell and pulmonary replication site. The nucleotide sequences of the viral ORF2 gene amplified from all positive tissues were identical with each other and phylogeny confirms that highly virulent FCV strains are not distinguishable from FCV-URTD phenotypes. Our findings reinforce the hypothesis that VSD outbreaks can occur even in small populations, due to the high genetic variability of FCV. Full article

The main goal of purebred cat breeding is to produce healthy offspring while maintaining breed purity. Pedigree cat breeders are affiliated with international federations that enforce similar breeding regulations, which helps prevent the overexploitation of cats in breeding. The minimum age for allowing a cat to breed is at least 10 months. This study aimed to analyze the breeding performance of three cat breeds: Maine Coon (MCO), British Shorthair (BSH), and Devon Rex (DRX). These breeds are classified as late-maturing (MCO), medium-late maturing (BSH), and early-maturing (DRX). The analysis was based on pedigree data obtained from the Polish Felinological Association, which operates under the auspices of the World Cat Federation. In total, data from 1016 litters (453 MCO, 453 BSH, and 110 DRX) were analyzed. Breeds differed significantly in age at first birth (p = 0.041), mean interval between litters (p < 0.01), and mean number of kittens per litter (p < 0.01). Breed effects were also noted for the mean interval between births (p < 0.01), mean number of kittens per litter (p < 0.01), and the total number of kittens sired by the mother (p = 0.007). Within each breed, differences were found in the sex ratio of litters, with a predominance of males in DRX (p = 0.049), MCO (p = 0.003), and overall breeds (p = 0.036). In contrast, the BSH breed showed no significant difference in the sex ratio of litters (p = 0.455). In both the MCO and DRX breeds, the lowest average interval between litters was observed in females that gave birth to their first litter early compared to those that gave birth later. The total number of kittens raised by the mother was highest in the MCO breed (p ≤ 0.05), while the shortest litter spacing was found in the DRX breed (p ≤ 0.05). Full article

Background: Rectal temperature measurement in cats, while crucial, can cause discomfort and stress. This study evaluated non-contact infrared thermometry as a less invasive alternative. Methods: A total of 95 cats were enrolled in this study. The cats were categorized into three age groups: Group I (n = 20 kittens, 2–6 months), Group II (n = 34 young cats, 7–24 months), and Group III (n = 41 adult cats, >24 months). Results: The mean rectal temperature in cats was approximately 38 °C, which was significantly higher than both ocular temperature (p < 0.0001) and auricular pinna temperature (p < 0001). No statistically significant difference was found between rectal and perineal temperatures, nor in body temperatures between the age groups. Ocular temperature (p < 0.05) and auricular temperature (p < 0.0001) were influenced by ambient temperature. Perineal infrared temperatures showed a strong correlation and low bias compared to rectal temperature and were not affected by ambient temperature. Conclusions: Non-contact infrared thermometry offers advantages for feline temperature monitoring. Perineal infrared temperatures appear to be a useful, non-invasive alternative to rectal measurements in cats. Full article

This study evaluated the consumption of dried whole black soldier fly larvae (DBSFL) to meet the nutritional requirements of gestating and lactating cats and their kittens post-weaning. Queens (n = 8/treatment) were randomly assigned to a control diet or diets containing 20% DBSFL through gestation and lactation. Weaned kittens (n = 8/treatment) were maintained on their dams’ diet for 10-weeks. There were no differences (p > 0.05) in the litter size, dietary intake, body weight, or fecal quality of the queens during the trial. The kittens receiving the DBSFL diet consumed more on an absolute or caloric basis than those fed the control diet at week 5 (p = 0.1) and week 10 (p = 0.03) and had higher body weights at weeks 6 through 10 (p < 0.05). The blood and urinalysis parameters were generally within normal ranges, with some variations observed between treatments that were not considered biologically significant. The dry matter, crude protein, and amino acid digestibility levels were higher in kittens fed the DBSFL diet (p = 0.05). These data are the first to demonstrate the safety and efficacy of DBSFL for the gestation and lactation of queens and for the growth of kittens, as well as its suitability in diets for cats of all life stages. Full article

The early developmental phase is a critical window for feline growth, during which immature digestive systems are susceptible to microbiome imbalances caused by environmental stressors. Our research employed macrogenomic analysis to evaluate how complex probiotic formulations influence growth metrics and gastrointestinal flora in juvenile felines. Two dozen healthy kittens were equally divided into the control group and the probiotics group following a 5-day environmental adaptation phase. Fecal scores were recorded daily for all kittens. Fresh fecal samples were collected on days 1 and 14 for macrogenomic analysis. The results showed a significantly lower rate of constipation in the probiotics group compared to the control group (p < 0.05). However, no significant differences were observed in intestinal microbial diversity or structure between the two groups. Metagenomic analysis revealed a higher relative abundance of Bifidobacterium animalis in the probiotics group compared to the control group (p < 0.05). Additionally, the probiotics group exhibited lower relative abundances of Lachnospiraceae bacterium 2 1 58FAA, Lachnospiraceae bacterium 1 1 57FAA, and Acidaminococcus intestini compared to the control group (p < 0.05). These results suggest that complex probiotics can regulate the intestinal microbiota, improve constipation, and promote intestinal health in kittens. Full article

The early postnatal period is a critical neurodevelopmental stage characterized by rapid neural maturation and is adversely affected by early-life stressors. This study explored the behavioural, physiological, and epigenetic consequences of early-life stress in a population of homeless rescue kittens. This longitudinal study included 50 kittens rescued and placed into foster care by the Prince Edward Island Humane Society. They underwent behavioural testing at 8, 10, and 12 weeks of age. Hair cortisol concentration was measured at 8 weeks and served as a physiological marker of the previous 3 months’ cumulative stress response, which, for these kittens, included the late gestation period. A blood sample for relative telomere length measurement was taken at 10–12 weeks to estimate epigenetic changes as young kittens. Data were analyzed with respect to age and performance in all repeated measures tests, status as a stray or a surrender, and the presence of the dam in their foster homes. As expected, the performance of kittens in all tests changed over the 5 weeks of testing. Kittens separated from their mothers exhibited significantly higher hair cortisol concentrations (p = 0.02) and elongated relative telomere lengths (p = 0.04). No correlation was found between hair cortisol concentration and relative telomere lengths (p = 0.99). These results support the need for further study on the effects of epigenetics and early-life stress, both in kittens and across species. Full article

Cats are popular companions for humans, and their health is of importance to a growing number of pet owners. The juvenile period is a critical stage of cat growth; in particular, the metabolic activity of the intestinal microbiome of kittens is critical for processing nutrients and supporting overall health. In this study, the effect of complex probiotics on the intestinal health of kittens was explored through a metabolomics analysis. Twenty-four healthy kittens were randomly assigned to two groups (n = 12): the control group was provided a basal diet and the probiotics group was provided the basal diet supplemented with complex probiotics (given at the same time daily). The kittens were acclimatized for 5 days, and the experiment was conducted for 14 days. We collected feces from each kitten on days 1 and 14 for metabolomic analyses. Compared to the control, the probiotics group had significantly higher (p < 0.05) methylmalonylcarnitine, lysyl-hydroxyproline, phenylpropionylglycine, and vitamin K3 levels, and significantly lower (p < 0.05) gamma-glutamyl-L-putrescine, cis-gondoic acid, myristic acid, 12,13-DiHOME, and glycodeoxycholic acid levels. The results of this study suggest that complex probiotics promote intestinal health in kittens by regulating changes in various metabolites in the intestine and may have a mitigating effect on intestinal inflammation. Full article