Comparative analysis of origin and branches of phrenic nerve in the diaphragm of the crab-eating fox (Cerdocyon thous) and domestic dog (Canis lupus familiaris).

The crab-eating fox (Cerdocyon thous) is a canid widely distributed throughout South America, considered the only representative of the gender. There is a lack of information about anatomical aspects of the species, mainly regarded of nervous system anatomy. For clinical and surgical approaches of these animals, the domestic dog is adopted as anatomophysiological model. So, the aim of the present study was to analyse origin and branches of the phrenic nerve in the diaphragm of crab-eating fox compared to domestic dog. Four specimens of Cerdocyon thous and four of Canis lupus familiaris were used. The phrenic nerve originated from the ventral branches of the fifth (C5), sixth (C6) and seventh (C7) cervical spinal nerves. Phrenic nerves were distributed in the diaphragm as lumbocostal trunk and sternal branch (100%) in the crab-eating fox, and in costosternal trunk and lumbar branch (75%) and lumbocostal trunk and sternal branch (25%) in the domestic dog. In both species, the lumbar branch innervates the diaphragm pillars, the costal branch addresses all costal region, and the sternal branch distributes in the costal ventrolateral region and the sternal part of the diaphragm, to the left and to the right.

Rabbit as an Animal Model for Ocular Surface Disease, Tear Osmolarity, Electrolyte, and Tear Ferning Profiles.

SIGNIFICANCE: The tear film promotes ocular surface health and protection through its various constituents' functions. The application of methods for ocular surface examination is essential in the research of diseases that affect the tear film. Rabbits have been used as a model to study some human ocular diseases and to test ophthalmic products. PURPOSE: The aim of the present study was to determine the biochemical profile, osmolarity, and tear ferning patterns of rabbit tears. METHODS: Ten rabbits (Oryctolagus cuniculus) were evaluated for tear osmolarity, tear ferning types and grades (using Rolando and Masmali scales), and biochemical analysis of total protein, urea, and electrolytes (chloride, phosphorus, iron, sodium, potassium, and calcium). RESULTS: Median ± semi-interquartile range for tear osmolarity was 283.5 ± 7.5 mOsm/L. Tear ferning test grades were type 1.0 ± 0.5 on the Rolando scale and 1.0 ± 0.5 on the Masmali scale. Type I and grade 1 were the most commonly observed ferning classifications (60 and 50%, respectively) for the rabbits' tears. Results for electrolytes and other biochemical compounds were as follows: total protein 4.40 g/dL, urea 130.60 mg/dL, chloride 196.51 mEq/L, phosphate 7.35 mg/dL, iron 95.76 µg/dL, sodium 202.04 mmol/L, potassium 12.74 mmol/L, and calcium 11.53 mg/dL. CONCLUSIONS: The results of the various tests described herein may serve as a basis for research using rabbits as an ophthalmic disease model and in the development of diagnostic and therapeutic agents used for ocular health.

Anatomical, histological and computed tomography comparisons of the eye and adnexa of crab-eating fox (Cerdocyon thous) to domestic dogs.

An understanding of species' morphological and physiological parameters is crucial to developing conservation strategies for wild animals kept in human care. Detailed information is lacking for crab-eating fox (Cerdocyon thous) eyes and adnexa. Therefore, the aim of this study was to describe anatomical, histological and computed tomography (CT) features of the eye and adnexa in crab-eating fox, compared to domestic dogs. CT of the eye and adnexa of one live animal and a frozen specimen was performed for anatomical identification. In addition, the heads of five animals of each species were fixed in 10% buffered formalin for gross anatomical description of the eye and adnexa using topographic dissection and exenteration techniques. All steps were photographed and features such as location, shape, and distances and relationships between structures were described. For histological evaluation, two eyes of each species were fixed in 10% buffered formalin, processed by routine paraffin inclusion technique and stained with hematoxylin and eosin. The CT scan was difficult to evaluate, mainly that of the frozen head, which did not provide good definition of the soft tissues; nevertheless, it demonstrated the potential for structure visualization and description. The gross anatomical and histological evaluations showed the presence of eyelashes on the upper eyelid and of upper and lower lacrimal points, an incomplete orbit with supraorbital ligament, slightly exposed sclera with discretely pigmented limbus and pigmentation throughout the conjunctiva, and a slit-shaped pupil. Hematoxylin and eosin staining demonstrated structural similarities between the crab-eating fox and domestic dog. Thus, the possibility of using the domestic dog as a study model for the preventive and therapeutic management of wild dogs kept in human care is demonstrated.