ABSTRACT
The axolotl (Ambystoma mexicanum) is a promising model organism for regenerative medicine due to its remarkable ability to regenerate lost or damaged organs, including limbs, brain, heart, tail, and others. Studies on axolotl shed light on cellular and molecular pathways ruling progenitor activation and tissue restoration after injury. This knowledge can be applied to facilitate the healing of regeneration-incompetent injuries, such as bone non-union. In the current protocol, the femur osteotomy stabilization using an internal plate fixation system is described. The procedure was adapted for use in aquatic animals (axolotl, Ambystoma mexicanum). ≥20 cm snout-to-tail tip axolotls with fully ossified, mouse-size comparable femurs were used, and special attention was paid to the plate positioning and fixation, as well as to the postoperative care. This surgical technique allows for standardized and stabilized bone fixation and could be useful for direct comparison to axolotl limb regeneration and analogous studies of bone healing across amphibians and mammals.
Subject(s)
Ambystoma mexicanum , Bone Plates , Femur , Osteotomy , Animals , Ambystoma mexicanum/surgery , Osteotomy/methods , Femur/surgeryABSTRACT
A ingestão de corpos estranhos em aquários artificiais é uma ocorrência frequente observada na clínica cirúrgica de anfíbios criados como pets, o que inclui os axolotes (Ambystoma mexicanum). O presente relato descreve um caso de ingestão de sete corpos estranhos em um axolote macho, de cinco meses de idade, com histórico de abaulamento irregular e irredutível da superfície corpórea ventral, de consistência firme. Na anamnese foi informado que o animal habitava um aquário com substrato de cascalhos. Ao exame físico, o axolote apresentou bom estado geral e parâmetros vitais dentro da normalidade para a espécie. Os materiais deglutidos foram identificados em região gástrica por meio de exame radiográfico corpóreo total, e suas características condiziam com o substrato utilizado no aquário do paciente. Como protocolo anestésico, foi priorizada a imersão em Isofluorano e gás oxigênio, com o objetivo de atingir a via branquial e, ocasionalmente, transdérmica. A remoção cirúrgica foi feita através de celiotomia e gastrotomia em ambiente aquático com temperatura, pH e coleção bacteriana controlados, conforme literatura disponível e tendo em consideração a natureza, diâmetro e localização dos corpos estranhos. Após cinco e quinze dias do procedimento, acompanhou-se a cicatrização da ferida cirúrgica, sendo possível constatar bom restabelecimento da continuidade dos tecidos e bom estado geral do paciente.
The ingestion of foreign bodies in artificial aquariums is a frequent occurrence observed in the surgical clinic of amphibians raised as pets, which includes axolotls (Ambystoma mexicanum). The present report describes a case of ingestion of seven foreign bodies in a male axolotl, five months old, with a history of irregular and irreducible bulging of the ventral body surface, with firm consistency. In the anamnesis, it was reported that the animal inhabited an aquariums with gravel substrate. On physical examination, the axolotl showed good general condition and vital parameters within the normal range for the species. The swallowed materials were identified in the gastric region by means of total body radiographic examination, and their characteristics were consistent with the substrate used in the patient's aquarium. As anesthetic protocol, immersion in Isofluorane and oxygen gas was prioritized, in order to reach the branchial and, occasionally, transdermal route. Surgical removal was performed through celiotomy and gastrotomy in an aquatic environment with controlled temperature, pH and bacterial collection, according to available literature and taking into account the nature, diameter and location of foreign bodies. After five and fifteen days of the procedure, the healing of the surgical wound was monitored, showing a good restoration of tissue continuity and a good general condition of the patient.
Subject(s)
Animals , Surgery, Veterinary/methods , Ambystoma mexicanum/surgery , Amphibians/surgery , Anesthesia/veterinary , Salamandra/surgery , Wound Healing , Aquatic Environment/methods , Foreign Bodies/veterinaryABSTRACT
This communication briefly describes the use of tricaine methanesulfonate (MS222) to induce chemical restraint/general anesthesia of a Mexican axolotl (Ambystoma mexicanum) for the endoscopic retrieval of a gastric foreign body. There is very little published scientific literature concerning the anesthesia of Mexican axolotls. The anesthesia used in this case was an immersion bath of tricaine methanesulfonate where the concentration of tricaine methanesulfonate was gradually increased to 500 mg/L (ppm) over a 15-min period. A loss of righting reflex was observed within 3 min of attaining the final concentration of the anesthetic bath. The first voluntary movements following the transfer to a freshwater bath occurred within 7 min. The recovery was uneventful. Tricaine methanesulfonate in this case proved to be an effective anesthetic agent for a short, minimally invasive procedure.
Subject(s)
Ambystoma mexicanum/injuries , Aminobenzoates/administration & dosage , Anesthesia, General/veterinary , Anesthetics/administration & dosage , Endoscopy/veterinary , Foreign Bodies/veterinary , Ambystoma mexicanum/surgery , Animals , Foreign Bodies/surgery , Immersion , Immobilization/veterinary , Treatment OutcomeABSTRACT
INTRODUCTION: Immersion anaesthetic techniques are commonly used in amphibian species. Alfaxalone has been reported as an immersion anaesthetic in fish but not amphibians. CASE HISTORY AND EXAMINATION: A Mexican 56 g axolotl was presented with a 3-day history of anorexia. Anaesthesia was required for the surgical retrieval of two gastric foreign bodies. Prior to anaesthesia, on visual inspection the axolotl was bright and active. Branchial and gular respiratory movements occurred at approximately 24 respirations minute(-1) and heart rate was approximately 52 beats minute(-1) . MANAGEMENT: The axolotl was exposed to increasing concentrations (up to 5 mg L(-1) ) of alfaxalone (Alfaxan; Vetóquinol, UK) in a water bath. After becoming sedated the axolotl was removed from the water bath. Anaesthesia was induced and maintained with alfaxalone (5 mg L(-1) ) via continuous irrigation of the gills (branchial) and skin (cutaneous) with additional 30 µL drops of alfaxalone (10 mg mL(-1) ) administered branchially as required. Endoscopy and surgery were performed to remove two gastric foreign bodies. Branchial and gular respiratory movements persisted at what was considered an appropriate anaesthetic depth. Anaesthetic depth could be rapidly deepened by branchial irrigation of alfaxalone solutions and lightened by irrigation using fresh water. Anaesthesia lasted approximately 1 hour and recovery was rapid (within 15 minutes). Recovery was assisted through branchial and cutaneous irrigation with fresh water. FOLLOW-UP: No obvious adverse effects of anaesthesia were observed immediately post-anaesthesia or, according to the owner, in the following week. Conclusions Axolotls can be anaesthetized using alfaxalone administered via immersion and branchial/transcutaneous irrigation offering an alternative technique for anaesthetising axolotls for clinical and research purposes.
Subject(s)
Ambystoma mexicanum/surgery , Anesthesia, General/veterinary , Anesthetics , Foreign Bodies/veterinary , Pregnanediones , Stomach/surgery , Anesthesia, General/methods , Animals , Foreign Bodies/surgeryABSTRACT
OBJECTIVE: This case report describes the surgical removal of an intra-abdominal tumor from a Mexican axolotl (Ambystoma mexicanum). The animal was admitted with left abdominal swelling that had increased over 4 months. METHODS: Surgical removal was performed under general anesthesia with MS222 under an operating microscope. Exploratory laparotomy was performed through 2.5 dorsocranial skin incision in the left flank, followed by subcutaneous dissection. RESULTS: The tumor involved the spleen, was adjacent to the descending colon, and supplied by vessels from the spleen, stomach, and colon. The mass was removed by clamping and transecting the spleen and the peritoneum was closed with a continuous suture pattern, while abdominal muscles and skin were closed in layers. After a total duration time of anesthesia of 90 minutes the animal was kept in prophylactic antibiotic baths. Tissue sections revealed characteristics of both lymphangiosarcoma and lymphosarcoma with an appearance typical for a malignant tumor. CONCLUSIONS: Abdominal surgery was performed in an axolotl and the surgical wound healed without complication.
Subject(s)
Abdominal Neoplasms/veterinary , Ambystoma mexicanum/surgery , Abdominal Neoplasms/surgery , Animals , Lymphangiosarcoma/surgery , Lymphangiosarcoma/veterinary , Lymphoma, Non-Hodgkin/surgery , Lymphoma, Non-Hodgkin/veterinary , Male , Treatment OutcomeABSTRACT
Limb regeneration in the short-toes axolotl is impaired. Our goal was to characterize the regeneration process in this mutant by histological and immunocytochemical methods. Previous research indicates that age and a defective basement membrane may be instrumental factors in short-toes axolotl regeneration (Del Rio-Tsonis et al. [1992] Proc. Natl. Acad. Sci. U.S.A., 89:5502-5506). The present results show that limb regeneration can occur even in older (1-2-year-old) short-toes axolotls. The process was always significantly delayed, but the time required for complete regeneration varied. Even so, the basement membrane of short-toes regenerates showed no differences in thickness or shape compared with wild-type regenerates. Distally amputated short-toes limbs gave rise to more digits in the regenerate, indicating that regeneration may be somewhat dependent on the level of amputation. Since extracellular matrix (ECM) remodeling occurs extensively during regeneration, we compared the ECM of the short-toes and wild-type regenerates using monoclonal antibodies (mAbs) MT2 and ST1 (Tassava et al. [1996] Wound Rep. Reg., 4:75-81). The short-toes regenerates showed decreased reactivity to mAb MT2, which identifies type XII collagen, an ECM protein that is normally unregulated during regeneration, and increased reactivity to mAb ST1, which identifies a limb ECM component that typically undergoes breakdown in the distal stump. Thus, impaired regeneration in the short-toes axolotl is correlated with impaired ECM remodeling in the distal limb stump. This supports the view that ECM remodeling plays an important role in regeneration.