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The Veterinary Clinics of North... Sep 2023Acute kidney injury (AKI) is a sudden, severe decrease in kidney function which can occur in any species. There are various causes of AKI, some of which are seen in... (Review)
Review
Acute kidney injury (AKI) is a sudden, severe decrease in kidney function which can occur in any species. There are various causes of AKI, some of which are seen in domestic species and some that are unique to birds, reptiles, and amphibians. These species present unique challenges with AKI management, such as differences in anatomy and physiology, intravenous and urinary catheterization, repeated blood sampling, and their tendency to present in advanced states of illness. This article will discuss AKI, diagnosis, treatment, and prognosis for non-mammalian exotic species.
Topics: Animals; Animals, Exotic; Critical Care; Amphibians; Reptiles; Acute Kidney Injury; Critical Illness
PubMed: 37516459
DOI: 10.1016/j.cvex.2023.05.008 -
Parasitology Research May 2023The knowledge of the diversity and geographic distribution of parasite species is the first step towards understanding processes of global epidemiology and species...
The knowledge of the diversity and geographic distribution of parasite species is the first step towards understanding processes of global epidemiology and species conservation. Despite recent increases in research on haemosporidian and haemogregarine parasites of reptiles and amphibians, we still know little about their diversity and parasite-host interactions, especially in the Iberian Peninsula, where a few studies have been conducted. In this study, the haemosporidian and haemogregarine diversity and phylogenetic relationships of the parasites in southwestern Iberian amphibians and reptiles were assessed using PCR approaches on blood samples of 145 individuals from five amphibian and 13 reptile species. The amphibians did not present any of both groups of parasites studied. Regarding reptiles, five Hepatozoon, one Haemogregarina, and one Haemocystidum haplotypes were found infecting four different species, revealing new host records for these parasites. Among them, we found one new Haemocystidium haplotype and three new and a previously reported Hepatozoon haplotype from a north African snake. The latter finding suggests that some Hepatozoon parasites may not be host-specific and have large geographic ranges even crossing geographical barriers. These results increased the knowledge about the geographic distribution and the number of known host species of some reptile apicomplexan parasites, highlighting the great unexplored diversity of them in this region.
Topics: Humans; Animals; Phylogeny; Reptiles; Amphibians; Snakes; Eucoccidiida
PubMed: 36933067
DOI: 10.1007/s00436-023-07814-6 -
The Veterinary Clinics of North... May 2020This article details emerging infectious diseases that have devastating impacts on captive and wild squamates. Treatment advances have been attempted for Cryptosporidium... (Review)
Review
This article details emerging infectious diseases that have devastating impacts on captive and wild squamates. Treatment advances have been attempted for Cryptosporidium infections in squamates. Gram-positive bacteria, Devriesea agamarum and Austwickia chelonae, are contributing to severe disease in captive and now in wild reptiles, some critically endangered. Nannizziposis, Paranannizziopsis, and Ophidiomyces continue to cause fatal disease as primary pathogens in wild and captive populations of squamates and sphenodontids. Nidovirus, bornavirus, paramyxovirus, sunshine virus, and arenavirus have emerged to be significant causes of neurorespiratory disease in snakes. Controlled studies evaluating environmental stability, disinfection, transmission control, and treatment are lacking.
Topics: Actinobacteria; Animals; Communicable Diseases, Emerging; Cryptosporidiosis; Cryptosporidium; Lizards; Snakes
PubMed: 32327041
DOI: 10.1016/j.cvex.2020.01.009 -
Biological Reviews of the Cambridge... Oct 2021Marine reptiles and mammals are phylogenetically so distant from each other that their marine adaptations are rarely compared directly. We reviewed ecophysiological... (Review)
Review
Marine reptiles and mammals are phylogenetically so distant from each other that their marine adaptations are rarely compared directly. We reviewed ecophysiological features in extant non-avian marine tetrapods representing 31 marine colonizations to test whether there is a common pattern across higher taxonomic groups, such as mammals and reptiles. Marine adaptations in tetrapods can be roughly divided into aquatic and haline adaptations, each of which seems to follow a sequence of three steps. In combination, these six categories exhibit five steps of marine adaptation that apply across all clades except snakes: Step M1, incipient use of marine resources; Step M2, direct feeding in the saline sea; Step M3, water balance maintenance without terrestrial fresh water; Step M4, minimized terrestrial travel and loss of terrestrial feeding; and Step M5, loss of terrestrial thermoregulation and fur/plumage. Acquisition of viviparity is not included because there is no known case where viviparity evolved after a tetrapod lineage colonized the sea. A similar sequence is found in snakes but with the haline adaptation step (Step M3) lagging behind aquatic adaptation (haline adaptation is Step S5 in snakes), most likely because their unique method of water balance maintenance requires a supply of fresh water. The same constraint may limit the maximum body size of fully marine snakes. Steps M4 and M5 in all taxa except snakes are associated with skeletal adaptations that are mechanistically linked to relevant ecophysiological features, allowing assessment of marine adaptation steps in some fossil marine tetrapods. We identified four fossil clades containing members that reached Step M5 outside of stem whales, pinnipeds, sea cows and sea turtles, namely Eosauropterygia, Ichthyosauromorpha, Mosasauroidea, and Thalattosuchia, while five other clades reached Step M4: Saurosphargidae, Placodontia, Dinocephalosaurus, Desmostylia, and Odontochelys. Clades reaching Steps M4 and M5, both extant and extinct, appear to have higher species diversity than those only reaching Steps M1 to M3, while the total number of clades is higher for the earlier steps. This suggests that marine colonizers only diversified greatly after they minimized their use of terrestrial resources, with many lineages not reaching these advanced steps. Historical patterns suggest that a clade does not advance to Steps M4 and M5 unless these steps are reached early in the evolution of the clade. Intermediate forms before a clade reached Steps M4 and M5 tend to become extinct without leaving extant descendants or fossil evidence. This makes it difficult to reconstruct the evolutionary history of marine adaptation in many clades. Clades that reached Steps M4 and M5 tend to last longer than other marine tetrapod clades, sometimes for more than 100 million years.
Topics: Adaptation, Physiological; Animals; Biological Evolution; Cattle; Female; Fossils; Phylogeny; Reptiles
PubMed: 33904243
DOI: 10.1111/brv.12724 -
Physiological and Biochemical Zoology :... 2023AbstractHow do large and small reptiles defend against infections, given the consequences of body mass for physiology and disease transmission? Functionally equivalent...
AbstractHow do large and small reptiles defend against infections, given the consequences of body mass for physiology and disease transmission? Functionally equivalent mammalian and avian granulocytes increased disproportionately with body mass (i.e., scaled hypermetrically), such that large organisms had higher concentrations than expected by a prediction of proportional protection across sizes. However, as these scaling relationships were derived from endothermic animals, they do not necessarily inform the scaling of leukocyte concentration for ectothermic reptiles that have a different physiology and evolutionary history. Here, we asked whether and how lymphocyte and heterophil concentrations relate to body mass among more than 120 reptile species. We compared these relationships to those found in birds and mammals and to existing scaling frameworks (i.e., protecton, complexity, rate of metabolism, or safety factor hypotheses). Both lymphocyte and heterophil concentrations scaled almost isometrically among reptiles. In contrast, functionally equivalent granulocytes scaled hypermetrically and lymphocytes scaled isometrically in birds and mammals. Life history traits were also poor predictors of variation in reptilian heterophil and lymphocyte concentrations. Our results provide insight into differences in immune protection in birds and mammals relative to that in reptiles through a comparative lens. The shape of scaling relationships differs, which should be considered when modeling disease dynamics among these groups.
Topics: Animals; Reptiles; Biological Evolution; Birds; Mammals; Leukocytes
PubMed: 38237194
DOI: 10.1086/727050 -
The Veterinary Record Jun 2024
Topics: Animals; Reptiles; United Kingdom; Pets
PubMed: 38819883
DOI: 10.1002/vetr.4339 -
Tierarztliche Praxis. Ausgabe K,... Apr 2020Viruses are the cause of several important diseases in reptiles. In recent years, numerous novel reptile-infecting viruses have been discovered. There are also an... (Review)
Review
Viruses are the cause of several important diseases in reptiles. In recent years, numerous novel reptile-infecting viruses have been discovered. There are also an increasing number of tests available for detecting viral infections in these animals. This review offers an overview of common and important viral infections in reptiles, the associated diseases as well as their diagnosis. Specific viruses presented include those infecting reptiles commonly kept as pets, specifically squamates (snakes and lizards), turtles, and tortoises. In this context, the review includes the adenoviruses, which are particularly common in bearded dragons (). The paramyxoviruses and tobaniviruses (also known as nidoviruses or serpentoviruses) are likewise discussed, both of which may cause severe respiratory disease foremost in various snake species. Reptarenaviruses, the causative agents of inclusion body disease (IBD) in boas and pythons are discussed as well. The squamate viruses listed also encompass the iridoviruses including the ranaviruses, invertebrate iridoviruses, and hemocytiviruses, all of which are, amongst others, found in various lizard species. For the chelonians, herpesviruses of tortoises and turtles are discussed separately, followed by the ranaviruses and picornaviruses, all of which have been associated with upper respiratory and upper digestive tract disease, but can also cause other clinical signs, such as picornavirus-induced severe softening of the shell in juvenile tortoises.
Topics: Animals; Pets; Reptiles; Virus Diseases
PubMed: 32325527
DOI: 10.1055/a-1122-7805 -
The Veterinary Clinics of North... May 2020Chelonians are increasingly challenged by anthropogenic threats and disease. This article summarizes recent literature and clinical experiences regarding 4 emerging... (Review)
Review
Chelonians are increasingly challenged by anthropogenic threats and disease. This article summarizes recent literature and clinical experiences regarding 4 emerging infectious diseases in turtles and tortoises: ranaviruses, cryptosporidiosis, intranuclear coccodiosis of Testudines, and Emydomyces testavorans.
Topics: Animals; Coccidiosis; Communicable Diseases, Emerging; Cryptosporidiosis; DNA Virus Infections; Mycoses; Onygenales; Ranavirus; Reptiles; Turtles
PubMed: 32327035
DOI: 10.1016/j.cvex.2020.01.014 -
The Veterinary Clinics of North... Sep 2021Managing the health of reptile and amphibian collections is centered on providing appropriate environmental parameters, husbandry conditions, and nutrition as well as... (Review)
Review
Managing the health of reptile and amphibian collections is centered on providing appropriate environmental parameters, husbandry conditions, and nutrition as well as maintaining good welfare and careful collection planning. Disease transmission is reduced through quarantine, appropriate diagnostic testing, and annual veterinary health assessment."
Topics: Amphibians; Animal Husbandry; Animal Welfare; Animals; Disease Outbreaks; Reptiles
PubMed: 34366012
DOI: 10.1016/j.cvex.2021.05.005 -
Journal of Ethnobiology and... Oct 2023Reptiles are considered one of the most popular pets in the world and are often associated with an incorrect belief that they are simple, highly adaptable, and easy to...
BACKGROUND
Reptiles are considered one of the most popular pets in the world and are often associated with an incorrect belief that they are simple, highly adaptable, and easy to keep animals when compared with other pets, such as dogs and cats. However, keeping reptiles as pets can pose several challenges in meeting their needs in a domestic setting, requiring specific conditions and effort to maintain their health, well-being, and survival.
METHODS
During 2015, using online semi-structured questionnaires applied to 719 Brazilian pet reptile keepers who participated in online groups of reptile breeders on the social network Facebook, this study aimed to identify Brazilian keepers' motivations for maintaining reptiles as pets, investigate their monthly expenses, and the husbandry practices for the maintenance, such as housing and feeding conditions, handling of the animal, health issues, and treatment provided.
RESULTS
We found multiple motivations for keeping reptiles as pets (mostly snakes, lizards, and chelonians), the main motivation being emotional reasons, followed by entertainment and convenience reasons. The great majority of keepers (69%) declared to spend less than or up to US$30 per month in maintaining their reptiles. Most reptiles were kept alone in terrarium/aquarium enclosures, with basic environmental complexity in terms of physical elements. Lizards and chelonians were fed with a few insect species, cultivated fruits and vegetables, while snakes were fed mainly with domestic rodents, rabbits, or birds. Keepers declared frequent cleaning of the enclosure, but inappropriately handled their animals directly with their hands, which might result in potential threats to human and reptile health and safety. Several diseases or injuries were mentioned and 55.6% of the keepers declared taking the reptile to the vet for treatment.
CONCLUSIONS
Overall, our findings revealed several challenges that reptiles face when kept in domestic environments, including issues related to housing, nutrition, and healthcare. Even though keepers demonstrated positive feelings toward their pets, suggesting a positive relationship and a willingness to provide them with proper care, it seems that without the proper knowledge and awareness, reptiles may unintentionally be kept with poor husbandry. Addressing these challenges on husbandry practices is essential for improving reptiles' welfare and promoting a responsible pet ownership.
Topics: Humans; Animals; Dogs; Rabbits; Cats; Brazil; Motivation; Cat Diseases; Dog Diseases; Reptiles; Pets; Animal Husbandry
PubMed: 37865770
DOI: 10.1186/s13002-023-00618-z