Anatomy of the brain of capybara (Hydrochoerus hydrochaeris) using magnetic resonance imaging

IF 0.8 4区 农林科学 Q4 ANATOMY & MORPHOLOGY Anatomia Histologia Embryologia Pub Date : 2024-04-26 DOI:10.1111/ahe.13043
Lidiane da Silva Alves, Luiz Carlos Vulcano, Carolina Hagy Girotto, Taís Harumi de Castro Sasahara, Bruno Cesar Schimming
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Abstract

Capybara is considered the largest living rodent and is widespread distributed in the South America and in the Brazilian territory. The purpose of this study was to provide the anatomical description of the brain in the capybara (Hydrochoerus hydrochaeris) using magnetic resonance imaging (MRI). Brains of ten normal capybaras were imaged and sectioned in the anatomical studies. MRI was acquired on 0.25 Tesla equipment, promoting good-quality images capable to identify and classify the main anatomical structures of clinical interest. MRI reference images were validated by comparing them with gross anatomical sections. The capybara sulci and gyri were named for its similar location and orientation to those described in the previous descriptions in the capybara and in the domestic dog. Capybaras presented prominent cerebral sulcus and gyrus in relation to other caviomorph rodents, but in reduced number when compared to domestic animals and other wild mammals such as elephants and giraffes. The findings of this study indicate that the shape of the capybara brain is remarkably similar to that of the caviomorph rodents with a higher neocortilization. The capybara rhinencephalon was well-developed implying a good sense of smell. Due to this development of the rhinencephalon, we can suggest that capybara brain is a macrosmatic brain. The MRI and gross anatomical sections of capybara brain may help veterinary researchers and clinicians increase the accuracy of brain MRI scans interpretation in these animals.

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利用磁共振成像解剖水豚(Hydrochoerus hydrochaeris)的大脑
水豚被认为是现存最大的啮齿类动物,广泛分布于南美洲和巴西境内。本研究的目的是利用磁共振成像(MRI)对水豚(Hydrochoerus hydrochaeris)的大脑进行解剖学描述。在解剖学研究中,对十只正常水豚的大脑进行了成像和切片。核磁共振成像是在 0.25 特斯拉设备上获得的,图像质量上乘,能够识别和分类临床关注的主要解剖结构。核磁共振参考图像与解剖切片进行了对比验证。水豚脑沟和脑回之所以被命名为水豚脑沟和脑回,是因为其位置和方向与之前描述的水豚和家犬脑沟和脑回相似。与其他腔肠动物相比,水豚的脑沟和脑回突出,但与家畜和其他野生哺乳动物(如大象和长颈鹿)相比,水豚的脑沟和脑回数量较少。这项研究结果表明,水豚大脑的形状与腔肠动物非常相似,但新皮质化程度较高。水豚的鼻脑非常发达,意味着嗅觉灵敏。由于鼻脑的这种发育,我们可以认为水豚的大脑是一个大体脑。水豚大脑的核磁共振成像和大体解剖切片可帮助兽医研究人员和临床医生提高这些动物大脑核磁共振成像扫描判读的准确性。
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来源期刊
Anatomia Histologia Embryologia
Anatomia Histologia Embryologia ANATOMY & MORPHOLOGY-VETERINARY SCIENCES
CiteScore
1.90
自引率
11.10%
发文量
115
审稿时长
18-36 weeks
期刊介绍: Anatomia, Histologia, Embryologia is a premier international forum for the latest research on descriptive, applied and clinical anatomy, histology, embryology, and related fields. Special emphasis is placed on the links between animal morphology and veterinary and experimental medicine, consequently studies on clinically relevant species will be given priority. The editors welcome papers on medical imaging and anatomical techniques. The journal is of vital interest to clinicians, zoologists, obstetricians, and researchers working in biotechnology. Contributions include reviews, original research articles, short communications and book reviews.
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