首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Venomous reptiles are common in zoo, research, and private collections. These animals will require veterinary care at some time during their captivity, and treating venomous reptiles can be both challenging and rewarding. Extensive training and experience in handling venomous reptiles, particularly snakes, is required before making the important decision on whether to add these patients to one’s practice. Veterinarians who have a desire to treat venomous reptiles should be familiar with proper equipment, handling techniques, and special considerations required for these species. Veterinarians should also be prepared in the event of an emergency and aware of specific medical conditions affecting these species.  相似文献   

2.
Venomous reptiles should be handled in a safe and consistent man-ner, even after death. Owners and staff should be warned not to handle the venomous reptile, and one should have emergency protocols in place before the properly bagged and encased reptile is presented. It is important to know what one is treating as well as one's limitations. After being carefully removed from the bag, the venomous reptile may be transferred to a handling container, tubed, or squeezed with the appropriate equipment. The author usually induces injectable or gas anesthesia at this point. Veterinarians who are inexperienced with venomous reptiles should learn how to handle them through a reputable seminar or class before electing to see them in their practice.  相似文献   

3.
Venomous snakes may be maintained as captive animals and are commonly exhibited in both zoos and private zoological collections. Veterinarians who treat reptile species may be asked to provide medical care to venomous snakes. The addition of venomous snakes to the practice can be exciting and rewarding. Training and experience handling venomous snakes are required before treating these animals in a veterinary practice. Both training and experience with handling venomous snakes are important not only to protect hospital personnel but the owner and patient as well. Veterinarians who wish to provide care for venomous snakes need to be familiar with the many tools used to make restraint and handling venomous animals as safe as possible.  相似文献   

4.
Eighteen snakes representing 11 species were subject to mouth swabbing on 58 occasions. Of these swabs, 52.2% were positive for bacteria. A total of 92 bacterial isolates were cultured, representing 30 species of which 81.5% were Enterobacteriaceae, 16.3% gram positive cocci, and 2.2% anaerobes. Swabs from non-venomous snakes were more commonly bacteriologically sterile than those from venomous snakes (P = 0.0107). The oral bacterial flora did not differ between captive and newly captured snakes. The bacterial species found were not constant in a single snake with time, in the same snake species, the same serpentarium or geographically. The bacteria most commonly cultured were Proteus spp., Pseudomonas spp., Salmonella arizonae and Staphylococcus epidermidis. Colony counts tended to be low. Three or more bacterial species per venomous snake per occasion were more common in winter than summer (P= 0.0192).  相似文献   

5.
The species of pets owned in the Netherlands are constantly changing, and it is important that veterinary practitioners have information about the number and species of pets presented in veterinary practice. Using the same methodology as in 1994, we determined the relative importance of the various pet species in 2005 and compared these data with those for 1994. The most notable findings were a 25% increase in the number of birds and exotic animals seen in small and large animal practices (from about 10% to about 12.5%), a doubling of the number of birds and tripling of the number of pigeons seen in mixed practices, a doubling of the number of reptiles seen in small animal practices, and a 10-fold increase in the number of fish seen in veterinary practices in general. There was a significant decrease in the proportion of cats (from 46% to 40.7%) and an increase in the proportion of dogs (from 44% to 46.7%). These trends in veterinary practice consultations did not parallel those seen in pet ownership. The increase in the number of birds (especially pigeons), reptiles, and fish seen in veterinary practice emphasizes the need to pay attention to these species in the standard companion animal curriculum.  相似文献   

6.
Reptiles are growing in popularity as pets.The colonization of reptiles and amphibians by parasites and the resulting disease conditions are the most common problems seen in captive animals.This review focuses on pentastomiasis and sparganosis, important parasitic zoonoses of reptiles and amphibians, respectively, and free living-amoebae. Humans are suitable accidental hosts for some pentastomid species (particularly Armillifer and Porocephalus). In geographical areas with special ethnics, such as in West and Central Africa, and East Asia, 8-45% of the human population can be affected. Usually the larvae are coincidentally found during abdominal surgeries. However, fatalities have been described. Extreme caution is necessary when handling infected reptiles. Ocular or cerebral sparganosis is not uncommonly found in humans in East Asia. This disease is caused by spargana, tapeworm larvae (plerocercoids) of Spirometra sp. The infection occurs when uncooked meat from reptiles or amphibians is applied to wounds or eyes and the parasites migrate directly to human tissue, or by consumption of contaminated food or water. As a consequence of the reptile's predatory behaviour, the full spectrum of endo- and ectoparasites from potential prey animals can be found as transiting parasites in the intestinal tract, e. g. Hymenolepis nana, Cryptosporidium (C.) muris, C parvum or Capillaria hepatica. Occasionally, free-living amoebae are also found in reptile faeces (Acanthamoeba, Naegleria, Hartmanella, Vahlkampfia or Echinamoeba sp.).  相似文献   

7.
Captive reptiles are routinely identified as reservoirs of Salmonella spp. and the number of reports about reptile-associated salmonellosis is increasing. In the present study, Salmonella were detected in 86 of 159 (54.1%) faecal reptile samples cultured. The percentage of Salmonella positive samples was significantly lower in turtles as compared with lizards and snakes, as Salmonella were only detected in one sample from a single turtle out of 38 turtles investigated. In all, 42 different Salmonella serovars were found. All isolated Salmonella belonged to the species enterica, predominantly to the subspecies I (n=46) and IIIb (n=30), but also to subspecies II (n=3), IIIa (n=6) and IV (n=2). All isolates were sensitive to the antimicrobials examined. A comparison between the reptile owners indicated that either no Salmonella were found, or that Salmonella could be isolated from all or nearly all animals of the respective owners. A significantly higher percentage of Salmonella positive reptiles was detected in the group of owners who purchase reptiles in comparison with pure breeders. A total of 88.9% of Salmonella isolates were found in samples of reptiles bought in pet shops and 58.8% in samples from wild-caught animals. The high percentage of Salmonella in reptiles in our study confirms the risk for the transmission of the infection to humans.  相似文献   

8.
Blood loss due to trauma is recognized in all vertebrates. Other causes of blood loss, including coagulopathy and hemolysis, are common in mammals but rare in birds and reptiles. Blood loss syndromes may be underreported in birds and reptiles because of the inability of veterinarians to recognize these conditions. This review presents a summary of current knowledge of hemostasis in birds and reptiles, with emphasis on hemolytic and coagulopathic disorders that have been reported in these species. The focus of this article is on recognizing and diagnosing nontraumatic blood loss in birds and reptiles.  相似文献   

9.
杭州市野生动物救护中心于2010~2012年救护野生动物98种491只,其中杭州市有分布的动物种类占84.7%,在救护动物种类和数量上鸟类最多,其次为爬行类、哺乳类,最少为两栖类。救护动物的成活率两栖类(93.8%)和爬行类(92%)均比较高,而兽类(54.5%)最低。3a期间救护动物月分布频次亦为鸟类最高,依次为爬行类、兽类、两栖类:救护动物高峰为4~6月、8月、10—11月。本文通过对这些救护动物的种类分布、数量、保护级别、成活率、救护病因、救护主体和救护频次等进行分析,讨论出了今后救护野生动物更有效的方法,旨在促进杭州市野生动物救护工作。  相似文献   

10.
  相似文献   

11.
Fungal infections affecting the integumentary system, the upper and lower respiratory system and the gastro-intestinal tract have been reported in many species of captive reptiles. Systemic mycoses are diagnosed rarely in reptiles, and in most cases, they are a postmortem finding. Commonly, immunocompromised reptiles, kept in suboptimal environmental conditions are affected. In many cases, mixed bacterial and fungal infections of opportunistic organisms may be present. A diagnosis of a primary fungal infection is based on proper selection and collection of diagnostic specimens such as biopsies of infected tissues. Treatment of fungal infections in reptiles includes administration of effective antifungal agents and correction of inappropriate environmental conditions such as poor hygiene, too high or too low temperature and humidity, inadequate diet, and stress from overcrowding. Few studies have investigated effective dosages and dosage intervals of antifungal agents in reptiles.  相似文献   

12.
The first comprehensive evaluation of more than 10 000 species in China based on the IUCN Red List Criteria and Regional Guidelines is complete. More than 100 experts have been involved in this evaluation, which covers a wide range of species, including invertebrates, vertebrates, gymnosperms and angiosperms. The present paper summarizes the major conclusions of the project. The number of threatened species in China was found to be much high than previously expected. In the past, the estimated percentages of species in each phylum that were endangered was 2‐30%. In this comprehensive evaluation, the percentages of threatened species were found to be 7.4‐100%. Compared with the status of threatened species worldwide (IUCN Red List 2006), groups such as fish, mammals and gymnosperms face much higher levels of threat in China then they do globally, and other groups, such as crustaceans, reptiles and birds, face lower levels of threat. Given the dire conclusions of this study, we recommend that more research be done on the threats faced by those groups of organisms that are most threatened.  相似文献   

13.
The identification of dangerous Australian snakes is important in instituting therapy for envenomation. Despite the availability of a number of identification guides with varying degrees of generality, identification can be problematic for several reasons. These include a diversity of common names, many of which are inappropriate or regionally applied to different species, identification keys that focus on variable features, intraspecific variation and interspecific convergence in colouration, and recent changes in scientific nomenclature of species and genera. Geographic distribution of the dangerously venomous species can be a useful aid to identification, by limiting the range of options in a region. However, delineation of the limits of distribution relies on fine scale mapping beyond the resolution of most identification guides. This article provides a summary of the geographic limits of the dangerously venomous Australian snakes, with particular emphasis on major population centres, and clarifies some problems in identification, particularly among brown-coloured snakes.  相似文献   

14.
Background: The Gila monster (Heloderma suspectum), one of several venomous lizard species in the world, is found within the United States and Mexico and is recognized as an iconic symbol of the American Southwest. Thus, Gila monsters are of growing interest in the captive reptile trade and within zoological and educational institutions. Objectives: The aims of this study were to determine results for CBCs, describe cytochemical reactions in WBCs, and obtain plasma biochemical and protein electrophoresis results from wild‐caught and captive‐bred H. suspectum. Methods: Ventral tail vein blood samples were obtained from 16 captive (14 wild‐caught and 2 captive‐bred) Gila monsters. CBCs, RBC morphometric analysis, plasma biochemical analysis, and protein electrophoresis were performed. Leukocytes were stained for peroxidase, Sudan black B (SBB), chloroacetate esterase, napthyl butyrate esterase, and leukocyte alkaline phosphatase, and blood smears were examined for the presence of hemoparasites. Results: The median (range) PCV was 37% (22–50%) and WBC count was 4.6 × 103/μL (3.3–6.4 × 103/μL) with approximately 50% heterophils and fewer lymphocytes, basophils, azurophils, and monocytes in decreasing order. Cytochemical reactions were unique among reptiles with strong staining for peroxidase and SBB in monocytes/azurophils. Biochemical results were similar to those of earlier reports with slight increases in uric acid and urea concentrations. Plasma electrophoretic results indicated that albumin was approximately equal to the combined globulin fractions. Conclusions: Results of blood analysis in healthy wild‐caught and captive‐bred H. suspectum may be useful for monitoring health status in this species.  相似文献   

15.
A total of 586 reptiles, belonging to 35 species and five subspecies, were examined in surveys aimed at determining the species spectrum and geographic distribution of ticks that infest them. Of these reptiles 509 were tortoises, 28 monitor or other lizards, and 49 snakes. Nine ixodid tick species, of which seven belonged to the genus Amblyomma, and one argasid tick, Ornithodoros compactus were recovered. Seven of the ten tick species are parasites of reptiles. Amongst these seven species Amblyomma marmoreum was most prevalent and numerous on leopard tortoises, Geochelone pardalis; Amblyomma nuttalliwas present only on Bell's hinged tortoises, Kinixys belliana; and most Amblyomma sylvaticum were collected from angulate tortoises, Chersina angulata. Amblyomma exornatum (formerly Aponomma exornatum) was only recovered from monitor lizards, Varanus spp.; most Amblyomma latum (formerly Aponomma latum) were from snakes; and a single nymph of Amblyomma transversale (formerly Aponomma transversale) was collected from a southern African python, Python natalensis. All 30 Namaqualand speckled padloper tortoises, Homopus signatus signatus, examined were infested with O. compactus. The seasonal occurrence of A. sylvaticum and the geographic distribution of this tick and of A. marmoreum, A. nuttalli, A. exornatum, A. latum and O. compactus are illustrated.  相似文献   

16.
Pseudomonas aeruginosa represents an opportunistic pathogen for animals and humans that is often associated with high disease morbidity and, at times, mortality. Captive reptiles have been shown to be reservoirs of P. aeruginosa strains that can be sources of exposure to humans that come in contact with these animals. In this study, the prevalence of P. aeruginosa among subclinical captive reptile species and the antimicrobial sensitivity of bacterial isolates were investigated. Sixty-five oral swabs were collected from captive reptiles belonging to 15 different species in which no overt signs of disease were evident. From this group of animals, 46 (70.8%) isolates were identified as P. aeruginosa. All of the P. aeruginosa strains were shown to have a wide range of antibiotic resistance. At present, there is a paucity of data regarding the prevalence of P. aeruginosa in various reptile species; therefore, continued scientific investigations are indicated to determine the significance of P. aeruginosa infection as it relates to captive reptile species.  相似文献   

17.
The snake has long been a contradictory species; you either love them or hate them. In the United States, these reptiles are popular pets.There is also a significant amount of energy placed into developing captive breeding programs to produce different color morphs for many species. In some cases, such as the ball pythons (Pythonregius), these color morphs can sell for 20,000 dollars to 30,000 dollars each. In comparison to domestic mammals, snakes are long-lived. It is not uncommon for corn snakes (Elaphe guttata guttata) to live for 15 to 25 years and for ball pythons to live 35 to 45 years. Because of the longevity and value of these animals, more snakes are being presented to the veterinarian to manage medical and surgical problems,as well as for routine medical care. Veterinary personnel working with snakes should familiarize themselves with the specific husbandry and medical requirements of these animals so that they can make informed decisions regarding their management.  相似文献   

18.
IBM-compatible software has been developed so that quantitative and qualitative haematological and biochemical reference data for over 500 species of mammals, birds and reptiles can be made readily accessible to veterinary surgeons. The LYNX software makes it possible to retrieve these data at different taxonomic levels (species, genera, families, orders and classes) and to select data by age and sex. The data for each variable may be presented in the form of a reference range or as a frequency histogram. Notes describing the variations in blood cell morphology observed in healthy individuals of each species are included in the database. The user's own haematological and biochemical data can also be entered, stored and used.  相似文献   

19.
In many reptiles the pars nervosa bears a striking resemblance to the mammalian median eminence. The structure of the ependymal cells lining the infundibular recess and the fact that many of them are in synaptic contact with nerve fibres suggests that they subserve more than a mere structural role and that they may be involed in secretory or transport functions forming functional units with neuronal elements of the hypothalamus. All species possess large numbers of typical peptidergic fibres although some have in addition a second, rarer type; aminergic fibres are also present but their numbers vary in different species. The pars intermedia contains nerve fibres only in snakes and Caiman but even in these species the innervation is sparse. This observation coupled with the organisation of the pars nervosa leads to the conclusion that the latter may act, in part at least, as the “median eminence” of the pars intermedia. A more extensive survey, particularly amongst the families of lizards thought to be related to the ancestors of snakes, might throw further light upon the course of evolution of control mechanisms within the pars intermedia of reptiles.  相似文献   

20.
Elapid snake envenomation in dogs is a commonly occurring yet poorly described clinical entity. Twelve species of dangerously venomous elapid snakes are found in New South Wales that are capable of causing disease in dogs. Geographical distribution of these species varies, as does their venom composition and systemic envenomation syndromes produced in target species. Elapid venom may be divided into the components of prothrombin activating enzymes, lipases and peptidic neurotoxins. Each species of elapid snake may possess venom components that fit any or all of these classifications. The action of these venom components may result in neurotoxic (pre-synaptic and post-synaptic), haemotoxic (red-cell destruction and coagulation disturbance), cardiovascular, myotoxic and secondary nephrotoxic effects. Marked variability may occur in venom composition between and within snake species, resulting in varying toxicity between species and also potentially unreliable clinical syndromes following envenomation. The existence of certain components consistently within the venom of each snake species allows the broad definition of basic pathological processes and clinicopathological changes resulting from snake species-specific envenomation and these are discussed. Diagnosis of snake envenomation is unreliable if based on clinical signs alone and the use of these signs in conjunction with history, physical examination and laboratory investigation, including snake venom detection kits, is recommended. Treatment of systemic envenomation should be undertaken with initial effective first aid and subsequent administration of snake species-specific antivenom.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号