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Rigaut C, Giaprakis A, Deruyver L, Goole J, Lambert P, Haut B. The air conditioning in the nose of mammals depends on their mass and on their maximal running speed. Sci Rep 2024; 14:9053. [PMID: 38643255 PMCID: PMC11032399 DOI: 10.1038/s41598-024-59768-z] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/31/2023] [Accepted: 04/15/2024] [Indexed: 04/22/2024] Open
Abstract
The nose of the mammals is responsible for filtering, humidifying, and heating the air before entering the lower respiratory tract. This conditioning avoids, notably, dehydration of the bronchial and alveolar mucosa. However, since this conditioning is not perfect, exercising in cold air can induce lung inflammation, both for human and non-human mammals. This work aims to compare the air conditioning in the noses of various mammals during inspiration. We build our study on computational fluid dynamics simulations of the heat exchanges in the lumen of the upper respiratory tract of these mammals. These simulations show that the efficiency of the air conditioning in the nose during inspiration does not relate only to the mass m of the mammal but also to its maximal running speed v. More precisely, the results allow establishing a scaling law relating the efficiency of air conditioning in the nose of mammals to the ratio v / log 10 ( m ) . The simulations also correlate the resistance to the flow in the nose to the efficiency of this air conditioning. The obtained scaling law allows predicting the air temperature at the top of the trachea during inspiration for nasal-breathing mammals, and thus notably for humans of various ages.
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Affiliation(s)
- Clément Rigaut
- TIPs (Transfers, Interfaces and Processes), Université libre de Bruxelles, 1050, Brussels, Belgium.
| | - Alice Giaprakis
- TIPs (Transfers, Interfaces and Processes), Université libre de Bruxelles, 1050, Brussels, Belgium
| | - Laura Deruyver
- Laboratoire de Pharmacie galénique et de Biopharmacie, Université libre de Bruxelles, 1050, Brussels, Belgium
| | - Jonathan Goole
- Laboratoire de Pharmacie galénique et de Biopharmacie, Université libre de Bruxelles, 1050, Brussels, Belgium
| | - Pierre Lambert
- TIPs (Transfers, Interfaces and Processes), Université libre de Bruxelles, 1050, Brussels, Belgium
| | - Benoît Haut
- TIPs (Transfers, Interfaces and Processes), Université libre de Bruxelles, 1050, Brussels, Belgium
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Kamali Y, Almasi R, Moradi HR, Fathollahi S. Intraspecific anatomical variations of the extensor tendons of the carpus and digits with a reexamination of their insertion sites in the domestic dog (Canis lupus familiaris): a cadaveric study. BMC Vet Res 2023; 19:197. [PMID: 37814315 PMCID: PMC10561507 DOI: 10.1186/s12917-023-03750-w] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/22/2023] [Accepted: 09/22/2023] [Indexed: 10/11/2023] Open
Abstract
BACKGROUND The aim of the current study was to investigate the frequency of variations of the extensor tendons of the carpus and digits in the domestic dog (Canis lupus familiaris) with a reexamination of their insertions as well as the morphometric measurements of the tendons and the brachioradialis muscle. In total, we investigated 68 paired thoracic limbs of the domestic dog (16 females and 18 males) which were fixed in a 10% formalin solution. RESULTS The extensor carpi radialis (ECR) tendons showed striking variations in both splitting and insertion sites. In 4.4% of dissections, ECR had three tendons. Of these tendons, the extra tendon either attached independently on the fourth metacarpal bone (one right) or joined its counterpart tendon at the distal end (cross-connections) (one bilateral). It is worth mentioning that one of the ECR tendons split into two or three slips which inserted on the first, second, third, or fourth metacarpal bone in 11 (16.2%) of the specimens. In addition, we found a long tendinous slip originating from the ECR tendons to digit II or III in 7.4% of the distal limbs. The most common type of contribution to digit III was a third tendon of the extensor digiti I et II (ED III) joining the extensor digitorum lateralis (EDL III) with a frequency of 17.6%. In other types of variations, the contribution to digit III was incomplete. A part of the abductor pollicis longus (APL) deep to the superficial part of the flexor retinaculum seemed to continue up to the flexor digitorum superficialis (FDS) tendon. CONCLUSIONS The rare intraspecific variations of the extensor tendons of the manus described in the current research are valuable from both clinical and phylogenetic perspectives. Nonetheless, their functional importance needs more studies.
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Affiliation(s)
- Younes Kamali
- Department of Basic Sciences, School of Veterinary Medicine, Shiraz University, Shiraz, Iran.
| | - Reyhaneh Almasi
- Department of Basic Sciences, School of Veterinary Medicine, Shiraz University, Shiraz, Iran
| | - Hamid Reza Moradi
- Department of Basic Sciences, School of Veterinary Medicine, Shiraz University, Shiraz, Iran
| | - Saeid Fathollahi
- Department of Basic Sciences, School of Veterinary Medicine, Shiraz University, Shiraz, Iran
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Hall MI, Lindvall T, Suarez-Venot A, Valdez D, Smith HF. Comparative anatomy of the felid brachial plexus reflects differing hunting strategies between Pantherinae (snow leopard, Panthera uncia) and Felinae (domestic cat, Felis catus). PLoS One 2023; 18:e0289660. [PMID: 37556421 PMCID: PMC10411784 DOI: 10.1371/journal.pone.0289660] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/02/2023] [Accepted: 07/21/2023] [Indexed: 08/11/2023] Open
Abstract
The brachial plexus, a network of ventral rami providing somatic sensory and motor innervation to the forelimb, is of particular importance in felids. Large-bodied pantherines require powerful rotatory and joint stabilizing forelimb muscles to maintain secure holds on large prey, while smaller-bodied felines are small prey specialists reliant on manual dexterity. Brachial plexus dissections of two snow leopards (Panthera uncia) and two domestic cats (Felis catus) revealed that generally the morphology of the brachial plexus is quite conserved. However, differences in the nerves supplying the shoulder and antebrachium may reflect differing prey capture strategies between the subfamilies. The brachial plexus of both species derives from ventral rami of C6-T1. In P. uncia, an extensive musculus (m.) subscapularis with multiple pennations is innervated by a larger number of nn. subscapulares, deriving from more spinal cord levels than in F. catus. C6 continues to become n. suprascapularis in both taxa; however, in F. catus, it also gives branches that join with C7, while in P. uncia, it is dedicated to musculi (mm.) supraspinatus, infraspinatus, and a small branch to cervical musculature. In F. catus, nervus (n.) medianus receives direct contributions from more ventral rami than P. uncia, possibly reflecting a greater reliance on manual dexterity in prey capture in the former. In addition to primary innervation by n. thoracodorsalis, m. latissimus dorsi is also innervated by n. thoracicus lateralis near the axilla in both taxa, suggesting that it may belong to a complex of proximal forelimb musculature along with mm. pectoralis profundus and cutaneus trunci.
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Affiliation(s)
- Margaret I. Hall
- Department of Anatomy, College of Graduate Studies, Midwestern University, Glendale, Arizona, United States of America
- Arizona College of Osteopathic Medicine, Midwestern University, Glendale, Arizona, United States of America
- College of Veterinary Medicine, Midwestern University, Glendale, Arizona, United States of America
| | - Tyler Lindvall
- Arizona College of Osteopathic Medicine, Midwestern University, Glendale, Arizona, United States of America
| | - Ana Suarez-Venot
- Arizona College of Osteopathic Medicine, Midwestern University, Glendale, Arizona, United States of America
| | - Dominik Valdez
- Department of Anatomy, College of Graduate Studies, Midwestern University, Glendale, Arizona, United States of America
| | - Heather F. Smith
- Department of Anatomy, College of Graduate Studies, Midwestern University, Glendale, Arizona, United States of America
- Arizona College of Osteopathic Medicine, Midwestern University, Glendale, Arizona, United States of America
- College of Veterinary Medicine, Midwestern University, Glendale, Arizona, United States of America
- School of Human Evolution and Social Change, Arizona State University, Tempe, Arizona, United States of America
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Martens LL, Piersanti SJ, Berger A, Kida NA, Deutsch AR, Bertok K, Humphries L, Lassiter A, Hartstone-Rose A. The Effects of Onychectomy (Declawing) on Antebrachial Myology across the Full Body Size Range of Exotic Species of Felidae. Animals (Basel) 2023; 13:2462. [PMID: 37570271 PMCID: PMC10416871 DOI: 10.3390/ani13152462] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/30/2023] [Revised: 07/18/2023] [Accepted: 07/20/2023] [Indexed: 08/13/2023] Open
Abstract
While people are familiar with the practice of declawing domestic cats, "onychectomy", as it is also known, is also performed on non-domesticated species, including pantherines, to prolong their use for entertainment purposes. Although the surgery (the partial or complete removal of the distal phalanx) has clear osteological implications, its myological effects have never been studied. As the mass of an animal increases cubically as a product of its volume, while the areas of its paws only increase as a square, larger felids have higher foot pressures and, therefore, the surgery may have particularly substantial functional effects on larger cats. In this study, we evaluate the forearms of clawed and declawed non-domestic felid specimens that spanned the body size range of the whole family to evaluate the effects of onychectomy on muscle fiber architecture. We found that the deep digital flexors (the muscles most directly affected by onychectomy) of declawed felids are significantly lighter (~73%) and less powerful (46-66%) than those of non-declawed felids, while other muscles do not make up for these reductions. Thus, onychectomy has a substantial effect on the myological capabilities of cats, and because these deficiencies are not compensated for in biomechanically disadvantaged larger felids, it probably has even more functionally devastating consequences for these species.
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Affiliation(s)
- Lara L. Martens
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
| | - Sarah Jessica Piersanti
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
- Department of Biological Sciences, Arizona State University, Tempe, AZ 85281, USA
| | - Arin Berger
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
| | - Nicole A. Kida
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
| | - Ashley R. Deutsch
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
| | - Kathryn Bertok
- Carolina Tiger Rescue, Pittsboro, NC 27312, USA; (K.B.); (L.H.); (A.L.)
| | - Lauren Humphries
- Carolina Tiger Rescue, Pittsboro, NC 27312, USA; (K.B.); (L.H.); (A.L.)
| | - Angela Lassiter
- Carolina Tiger Rescue, Pittsboro, NC 27312, USA; (K.B.); (L.H.); (A.L.)
| | - Adam Hartstone-Rose
- Department of Biological Sciences, North Carolina State University, Raleigh, NC 27695, USA; (L.L.M.); (S.J.P.); (A.B.); (N.A.K.); (A.R.D.)
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Tarquini J, Mosto MC, Ercoli MD. Functional and phylogenetic interpretation of the forelimb myology of two South American carnivorans, the ring-tailed coati (Nasua nasua) and crab-eating raccoon (Procyon cancrivorus). J Morphol 2023; 284:e21587. [PMID: 37183491 DOI: 10.1002/jmor.21587] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/30/2022] [Revised: 03/27/2023] [Accepted: 04/05/2023] [Indexed: 05/16/2023]
Abstract
A comparative analysis of the forelimb myology of two neotropical procyonids (Nasua nasua and Procyon cancrivorus) was performed to assess how observed differences in their myological configuration would be related to their diverse ecological behaviors and phylogeny. Although both species are associated with the arboreal substrate, N. nasua is a more agile climber that usually digs; whereas P. cancrivorus spends most of its time on the ground foraging, climbing on the trees as shelter and is a good swimmer. Here, myological descriptions, muscle maps, phylogenetic optimizations, and muscle mass data of the forelimb of these two procyonids are presented. The main functional muscular groups are discussed in a comparative framework with other carnivorans that present a wide ecological diversity. Also, muscular characters were mapped onto a phylogeny to explore their evolution and to obtain ancestral state reconstructions. Results indicate clear myological differences among the two neotropical procyonids associated with their ecological preferences. One of the most remarkable anatomical differences is the arrangement and relative mass of the extrinsic musculature, mainly the musculus rhomboideus and the delto-pectoral complexes. In Nasua nasua, these suggested a greater stability in their shoulder girdle for climbing and digging and probably would provide stronger neck and head movements when they use them for foraging on the ground. Conversely, P. cancrivorus has a different extrinsic muscular configuration, which would allow an increment on the stride length and faster movements of the forelimb associated with more frequent terrestrial gaits. Also, significant differences are observed in the distal musculature, associated with strong movements of forepaws when climbing and digging in N. nasua; whereas, P. cancrivorus configuration suggested precise forearm and digits movements, related to manipulation of food items when they are catching prey or feeding. Most of the codified features of P. cancrivorus would reflect retention of plesiomorphies acquired in the common ancestor of caniforms or arctoids, whereas N. nasua shows derived traits, particularly in the proximal forelimb region. The present work increases the information available on the myology of these particular taxa and extant generalized arctoid models in general. The analyses presented here will be useful both for other comparative myological studies (morpho-functional and phylogenetic) and for muscular reconstruction in extinct procyonids, as well as other carnivorans.
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Affiliation(s)
- Juliana Tarquini
- Laboratorio de Paleontología de Vertebrados, Centro de Investigación Científica y de Transferencia Tecnológica a la Producción (CICYTTP, CONICET-Prov. ER-UADER), Diamante, Entre Ríos, Argentina
| | - M Clelia Mosto
- División Zoología Vertebrados, CONICET, Museo de La Plata, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, Buenos Aires, Argentina
| | - Marcos D Ercoli
- Instituto de Ecorregiones Andinas (INECOA, UNJu-CONICET), Jujuy, Argentina
- Laboratorio de Paleontología de Vertebrados, Instituto de Geología y Minería UNJu-CONICET, San Salvador de Jujuy, Argentina
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Vélez-García JF, Miglino MA. Evolutionary comparative analysis of the extrinsic thoracic limb muscles in three procyonids (Procyon cancrivorus Cuvier, 1798, Nasua nasua Linnaeus, 1766, and Potos flavus Schreber, 1774) based on their attachments and innervation. Anat Sci Int 2023; 98:273-292. [PMID: 36463570 DOI: 10.1007/s12565-022-00696-1] [Citation(s) in RCA: 1] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/20/2022] [Accepted: 11/07/2022] [Indexed: 12/05/2022]
Abstract
The procyonids (Procyon cancrivorus, Nasua nasua and Potos flavus) are Neotropical carnivorans with the ability to climb trees; however, each one has different locomotor preferences. Thereby, P. flavus is highly arboreal, P. cancrivorus is mainly terrestrial with abilities to swim, and N. nasua is also fossorial. These activities not only require movements of the hands but stabilize the thoracic limb, an action performed by the extrinsic muscles. Besides, former descriptions performed in procyonid species have obsolete terms for these muscles, generating confusion about the comparison among species. Thereby, muscle innervation has also been used to support the evolutionary derivation of the muscles. Therefore, this study aimed to describe the attachments and innervations of these muscles in three procyonids. There were intra- and interspecific anatomical variations in the attachments of all extrinsic thoracic limb muscles. However, based on the innervation, several evolutionary derivations in procyonids could be found, such as: the cleidobrachialis muscle derived from the deltoideus muscle; the atlantoscapularis muscle of P. flavus derived from the serratus ventralis cervicis muscle; the pectoralis transversus muscle derived from the pectoralis profundus and superficiales muscles; and the pectoralis abdominalis muscle derived from the cutaneus trunci muscle. Some functions could be associated with locomotor habits, among them a highly developed pectoralis abdominalis in Nasua for its fossorial habits and the atlantoscapularis in Potos for its arboreal and prehensile habits. Thus, the extrinsic muscles in procyonids have evolved for locomotor preferences, but mainly due to their phylogenetic relationship within the family Procyonidae.
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Affiliation(s)
- Juan Fernando Vélez-García
- Department of Animal Health, Faculty of Veterinary Medicine and Zootechnics, Universidad del Tolima, Barrio Santa Helena Parte Alta Cl 42 1-02, 730006299, Ibagué, Tolima, Colombia. .,Anatomy of the Domestic and Wild Animals Posgraduate Program, Department of Surgery, Faculty of Veterinary Medicine and Zootechnics, Universidade de São Paulo, Av. Prof. Orlando Marques de Paiva, 87-Cidade Universitária Armando de Sales Oliveira, São Paulo, SP, Brazil.
| | - Maria Angélica Miglino
- Anatomy of the Domestic and Wild Animals Posgraduate Program, Department of Surgery, Faculty of Veterinary Medicine and Zootechnics, Universidade de São Paulo, Av. Prof. Orlando Marques de Paiva, 87-Cidade Universitária Armando de Sales Oliveira, São Paulo, SP, Brazil
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Dunn RH, Beresheim A, Gubatina A, Bitterman K, Butaric L, Bejes K, Kennedy S, Markham S, Miller D, Mrvoljak M, Roge‐Jones L, Stumpner J, Walter C, Meachen JA. Muscular anatomy of the forelimb of tiger (Panthera tigris). J Anat 2022; 241:119-144. [PMID: 35107175 PMCID: PMC9178396 DOI: 10.1111/joa.13636] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/29/2021] [Revised: 01/14/2022] [Accepted: 01/14/2022] [Indexed: 11/28/2022] Open
Abstract
Dissection reports of large cats (family Felidae) have been published since the late 19th century. These reports generally describe the findings in words, show drawings of the dissection, and usually include some masses of muscles, but often neglect to provide muscle maps showing the precise location of bony origins and insertions. Although these early reports can be highly useful, the absence of visual depictions of muscle attachment sites makes it difficult to compare muscle origins and insertions in living taxa and especially to reconstruct muscle attachments in fossil taxa. Recently, more muscle maps have been published in the primary literature, but those for large cats are still limited. Here, we describe the muscular anatomy of the forelimb of the tiger (Panthera tigris), and compare muscle origins, insertions, and relative muscle masses to other felids to identify differences that may reflect functional adaptations. Our results reiterate the conservative nature of felid anatomy across body sizes and behavioral categories. We find that pantherines have relatively smaller shoulder muscle masses, and relatively larger muscles of the caudal brachium, pronators, and supinators than felines. The muscular anatomy of the tiger shows several modifications that may reflect an adaptation to terrestrial locomotion and a preference for large prey. These include in general a relatively large m. supraspinatus (shoulder flexion), an expanded origin for m. triceps brachii caput longum, and relatively large m. triceps brachii caput laterale (elbow extension), as well as relatively large mm. brachioradialis, abductor digiti I longus, and abductor digiti V. Muscle groups that are well developed in scansorial taxa are not well developed in the tiger, including muscles of the cranial compartment of the brachium and antebrachium, and m. anconeus. Overall, the musculature of the tiger strongly resembles that of the lion (Panthera leo), another large-bodied terrestrial large-prey specialist.
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Affiliation(s)
- Rachel H. Dunn
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Amy Beresheim
- Department of Cell and Molecular MedicineRush University Medical CenterChicagoIllinoisUSA
| | - Ariel Gubatina
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Kathleen Bitterman
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Lauren Butaric
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Katelyn Bejes
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Sarah Kennedy
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Sam Markham
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Dustin Miller
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Midhad Mrvoljak
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Lorraine Roge‐Jones
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Jessica Stumpner
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Cody Walter
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
| | - Julie A. Meachen
- Department of Anatomy, College of Osteopathic MedicineDes Moines UniversityDes MoinesIowaUSA
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Vélez-García JF, Marín-González L, Monroy-Cendales MJ, Miglino MA. Craniolateral forearm muscles of the crab-eating raccoon (Procyon cancrivorus) and a comparative review with other carnivorans. IHERINGIA. SERIE ZOOLOGIA 2022. [DOI: 10.1590/1678-4766e2022012] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 11/21/2022]
Abstract
ABSTRACT The crab-eating raccoon Procyon cancrivorus (Cuvier, 1798) is a species of the order Carnivora and family Procyonidae with a geographical distribution in Central and South America. Although crab-eating raccoons use scansorial locomotion, they also have aquatic habits, displaying greatly developed skills when handling their food. This species can frequently be found in wildlife care centers due to injuries caused by domestic dogs, humans, and car collisions. Having knowledge of the species’ gross anatomy and anatomical bases is imperative to perform the most appropriate medical and surgical procedures. Thus, the objective of this investigation was to analyze the interspecific and intraspecific differences of the craniolateral forearm muscles of Procyon cancrivorus. Gross dissections were performed in four specimens describing the origin, insertion, shape, innervation, and arterial supply of the craniolateral forearm muscles. There is a constant and well development of brachioradialis muscle comparatively to that described in strictly cursorial species; the extensor carpi radialis muscle has two bellies that are fused proximally; the extensor digitorum communis muscle can also extend the tendon to the digit I as an anatomical variant, and the extensor digiti I and II muscle also extends the tendon to digit III. All are innervated by the deep branch of the radial nerve, and their arterial supply is mainly by the radial collateral, cubital transverse, and cranial interosseous arteries. The anatomical characteristics observed in this study complement the previous descriptions for Procyon cancrivorus, and the anatomical variants found in this species can also be in other carnivorans. Thus, the intraspecific anatomical variations of the digital extensor muscles in P. cancrivorus are phylogenetic traits that can occur as a common pattern or as anatomical variants in other species of the order Carnivora.
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