Vétérinaire

Superficial anatomical structures:Tip of the nose (Apez nasi)Right and left wings of the nose (Alae nasi)Nonglandular skin on the tip of the nose (Planun nasale)Superficial disscetion on the left side:On the left side, the skin has been removed to identify the main anatomical structures,which are described grouped below.Muscles of the facial neuromuscular system:• M. nasolabial levator (M. levator nasolabialis)• M. canine (M. caninus)• M. buccinator (M. buccinator)• M. Zygoma9c (M. zygoma:cus)• M. parodidoauricularisMuscles of the mandibular neuromuscular system (mas9cators):• M. masseter (M. masseter)• M. Temporary (M.temporalis)Nerves:• Facial nerve: (N . facialis)• Dorsal buccal Branch (Rami buccales)• Ventral buccal Branch (Rami buccales)• Bucolabial branches (Rami buccolabiales)• N. Auriculopalpebral (N. Auriculopalpebralis)Vascular:• Facial artery (Arteria facialis)• External jugular vein: (V. Jugularis externa)o Maxillary vein (V. Maxillaris)o Linguofacial vein (V. Linguofacialis)Salivary glands:• Parotid gland and paro9d duct (Glandula parotis) (Ductus parotideus)• Mandibular gland Glandula mandibularisLymph nodes:• N. L. mandibular (Lymphonodi mandubulares)Deep dissection on the right side:On this right side mandible has been removed to see deeper anatomical structures. You can see the surfaces of the temporal bone for the temporomandibular joint (Articulatio Temporomandibularis). The medial pterygoid muscle (M. pterygoideus medialis) is identified and sectioned in its insertion area to the ramus of the mandible (Ramus mandibulae). Next to this muscle, the branches of the mandibular nerve (N. mandibularis) are identified, as well as the maxillary nerve (nevus maxillaris) and the maxillary artery (arteria maxillaris). Near the external acoustic meatus (Meatus acusticus externus), the facial nerve (N . facialis) has been maintained, with one of its branches,the auriculopalpebral nerve (N. Auriculopalpebralis), running parallel to the zygomatic arch (Arcus zygomaticus), visible atier removing the parotd salivary gland (Glandula parotis). The tongue is identified in its entire caudal extension, and the styloglossus (M. stylogossus), genioglossus (M. genioglossus) and genihyoid (M. geniohydeus) muscles reach it. Next to these muscles, the hypoglossal nerve (N. hypoglossus) is identified. In relation to the pharynx (Pharynx), the constrictor muscles of the pharynx (Mm. constrictors phyngis caudalis) are identified. In the most caudal area, in relation to the neck, the course of the common caro9d artery (arteria caarotis communis) and the vagosympathetic trunk nerve (Truncus vagosympathicus) are identified.

Derived from CT and MR co-registered data, anatomically accurate and lifesize. 3D printed in full color, each anatomical component is individually colored. Hoof capsule is available separately and anchors the distal limb in the stance position. The series consists of four models: starting from Model 1 showing the full anatomy of the foot and comprised of 25 anatomical structures to step-by-step reduced models showing deeper structures.Model 1:Structures: Third metacarpal bone; Proximal sesamoid bones; Proximal phalanx; Middle phalanx; Distal phalanx; Distal sesamoid (navicular) bone; Ungular cartilages; Collateral ligaments of the metacarpophalangeal joint; Collateral ligaments of the proximal interphalangeal joint and the abaxial palmar ligaments of the foot; Collateral ligaments of the distal interphalangeal joint; Collateral ligament of the distal sesamoid (navicular) bone; Distal sesamoidean impar ligament; Proximal scutum and intersesamoidean ligament; Cruciate sesamoidean ligament; Short sesamoidean ligaments; Oblique sesamoidean ligaments; Straight sesamoidean ligament; Axial palmar ligaments of the foot; Suspensory ligament and extensor branches; Deep digital flexor tendon; Superficial digital flexor tendon; Common digital extensor tendon.

Derived from CT and MR co-registered data, anatomically accurate and lifesize. 3D printed in full color, each anatomical component is individually colored. Hoof capsule is available separately and anchors the distal limb in the stance position. The series consists of four models: starting from Model 1 showing the full anatomy of the foot and comprised of 25 anatomical structures to step-by-step reduced models showing deeper structures.Hoof Capsule:The corresponding hoof capsule is separate and anchors the distal limb in the stance position.Suitable for: VET4400, VET4410, VET4420 and VET4430.

This specimen demonstrates the superficial anatomy of a dog's right thoracic limb from the scapula to the hand. The shoulder flexor and extensor muscles of the scapular region have been preserved, along with the arm flexor and extensor muscles of the elbow. In the forearm and hand are the flexor and extensor muscles of the carpus and fingers. On the medial side of the axillary region the main nerves of the brachial plexus have been preserved. Similarly, the paths of the brachial and median arteries and their respective veins are identified. In a superficial position, the cephalic vein has been preserved together with the antebrachialis lateral cutaneous nerve of the forearm. Detailed anatomical description on request.

Derived from CT and MR co-registered data, anatomically accurate and lifesize. 3D printed in full color, each anatomical component is individually colored. Hoof capsule is available separately and anchors the distal limb in the stance position. The series consists of four models: starting from Model 1 showing the full anatomy of the foot and comprised of 25 anatomical structures to step-by-step reduced models showing deeper structures.Model 2:As Model 1, however, this model shows the proximal sesamoidean ligaments, impar ligament and the collateral ligaments of the distal sesamoid(navicular) bone.

Derived from CT and MR co-registered data, anatomically accurate and lifesize. 3D printed in full color, each anatomical component is individually colored. Hoof capsule is available separately and anchors the distal limb in the stance position. The series consists of four models: starting from Model 1 showing the full anatomy of the foot and comprised of 25 anatomical structures to step-by-step reduced models showing deeper structures.Model 3:Similar to Model 1, but this model, with the deep digital flexor tendon sectioned, shows the tendon’s relationship to the distal sesamoid bone and the impar ligament. One ungular cartilage is absent to show the collateral ligaments of the distal sesamoid bone.

Derived from CT and MR co-registered data, anatomically accurate and lifesize. 3D printed in full color, each anatomical component is individually colored. Hoof capsule is available separately and anchors the distal limb in the stance position. The series consists of four models: starting from Model 1 showing the full anatomy of the foot and comprised of 25 anatomical structures to step-by-step reduced models showing deeper structures.Model 4:This model, stripped of tendons and the suspensory ligament, shows the bones of the foot and their deep supporting ligaments.

This specimen preserves a superficial dissection of the lower hindlimb musculature from the mid-thigh to the foot, as well as nerves and vessels of the femoral canal and popliteal fossa.The insertions of the muscles of the thigh in the stifle joint and tibial bone are visible. The capsule of the stifle joint has been opened to demonstrate the menisci and the collateralligaments. Extensor and flexor muscles of the tarsus and fingers are exposed. The dissection preserves the topography of the lateral saphenous vein on the foot surface and caudal aspect of the leg Dorsal and palmar anatomical structures of the foot are dissected. Detailed anatomical description on request.

Ce spécimen représente la topographie du cœur après l'ablation du poumon gauche lors d'une dissection de la cavité thoracique et de l'abdomen crânien d'un chien abordé par le côté gauche. Les lobes crâniens et accessoires du poumon droit restent in situ et servent de points de référence anatomiques. Dans le médiastin crânien, le tronc brachiocéphalique et l'artère sous-clavière gauche sont identifiables en tant que branches principales issues de l'arc aortique.La partie thoracique de l'œsophage traverse le médiastin en direction craniocaudale. Le diaphragme a été préservé pour servir de repère aux organes rétrodiaphragmatiques tels que le foie et l'estomac.Les crêtes diaphragmatiques et leur relation avec le hiatus aortique sont conservées, de même que les branches viscérales initiales de l'aorte abdominale, à savoir le tronc cœliaque et l'artère mésentérique crâniale. Une partie de la paroi auriculaire droite a été enlevée pour exposer la valve auriculo-ventriculaire droite (tricuspide), y compris les muscles chordaetendineae et papillaires.En outre, la trabécule septomarginale (bande modératrice) est visible dans le ventricule droit, ainsi que la trajectoire du ventricule vers le tronc pulmonaire. La paroi auriculaire gauche est également ouverte pour montrer sa lumière.

Cœur de chien disséqué montrant les cavités cardiaques.Ce spécimen présente les caractéristiques anatomiques de la surface externe du cœur, y compris les faces auriculaire et atriale. À la base du cœur, l'aorte ascendante et sa relation avec le tronc pulmonaire sont clairement visibles, ainsi que les sites d'entrée des veines caves crânienne et caudale dans l'oreillette droite. La bifurcation du tronc pulmonaire en artères pulmonaires peut être observée, ainsi que la terminaison des veines pulmonaires dans l'oreillette gauche. Les sillons interventriculaires et coronaires sont visibles. Une partie de la paroi de l'oreillette droite a été enlevée pour exposer la valve auriculo-ventriculaire droite (tricuspide), y compris les chordae tendineae et les muscles papillaires. En outre, la trabécule septomarginale (bande modératrice) est visible dans le ventricule droit, ainsi que la trajectoire du ventricule vers le tronc pulmonaire. La paroi de l'oreillette gauche est également ouverte pour montrer sa lumière.

This horse half-head shows a superficial dissection on the right lateral aspect and a middle sagittal section on the medial aspect.On the lateral side the skin has been removed, except on the nostrils, lips and external ear. In the rostral part of the dissection are the muscles of facial mimicry, the levator nasolabialis, canine, levator labii superioris, zygomaticus, buccinator (buccal portion) and depressor labii inferioris muscles. The caudal part of the dissection is occupied by the masseteric muscle covered by the masseteric fascia from the facial crest of the maxillary bone. This muscle presents on the surface the course of the dorsal and ventral buccal branches of the facial nerve, which end rostrally as buccolabial branches. In the notch of the facial vessels, the facial artery and vein are located together with the parotid duct. In the dorsal and caudal part of the masseter muscle, the transverse facial artery and vein are located together with the auriculotemporal nerve. The parotid-auricular muscle, the parotid gland, and the maxillary and linguofacial veins are located in the cervicofacial transit.In the middle sagittal section, the nasal cavity is occupied by the ventral nasal concha, dorsal nasal concha, and middle nasal concha, separated by the dorsal, middle, and ventral nasal meatuses. The perpendicular lamina of the ethmoid bone is located in the caudal area of the nasal cavity. This bone is the rostral limit of the cerebral fossa. The cerebellar fossa is caudal to the anterior one. The vomer bone establishes the choanae as transit to the nasopharynx where the pharyngeal opening of the auditory tube is located. The oral cavity is limited dorsally by the hard palate, which continues caudally as the soft palate. The sagittal section of the tongue shows the proper lingual muscle as well as the genioglossus and genihyoid muscles. The oropharynx is occupied by the root of the tongue and the soft palate. The epiglottis, arytenoid cartilage, and cricoid cartilage limit the laryngeal cavity with the lateral ventricle, vocal fold, and infraglottic cavity. The laryngopharynx is occupied by the esophageal vestibule. The esophagus is located dorsal to the trachea and ventral to the long cervical and long capitis muscles. The mandibular lymph nodes are in the intermandibular space.

This specimen demonstrates the superficial anatomy of a right forelimb from the elbow joint to the hoof. The carpus and digital extensor and flexor muscles are located in the forearm related to the pathway of the median and cubital nerves. The main branches of the median artery as well as the median and cephalic veins have been maintained. Distal to the carpus the specimen shows the topographic relation of the palmar nerves with the digital tendon flexors. Distal to the metacarpophalangeal joint it is possible to see at both sides the palmar digital neurovascular bundle.

This specimen demonstrates the ligaments of the stifle joint with the leg in extension. In the anterior view, with the patella and the three patellar ligaments.The medial and lateral menisci, the caudal cruciate, the femoropatellar and the collateral ligaments are visible.

This specimen is focused on the sacroiliac joint, the two coxal bones (os coxae) are exposed in the dissection: Ilium, pubis and ischium, together with lumbar vertebrae and sacrum. At the sacroiliac joint, the dorsal sacroiliac ligament can be identified. The broad sacrotuberous ligament of the pelvis extends from the lateral sacral crest to the sciaticspine and ischial tuberosity. The greater sciatic foramen occupied by the lumbosacral trunk. From the vertebral bodies and part of the transverse processes of the lumbarvertebrae, the tendons of insertion of the psoas minor muscles are identified. The ventral longitudinal ligament connects the ventral aspect of most cranial lumbar vertebral bodies.

This dissected right-foot specimen displays a mixture of the vascular, nervous, ligaments and tendons. The plantar digital neurovascular bundles both sides of the flexor tendons. The two digital extensor tendons are identified in the proximal dorsal aspect of the specimen. Metatarsophalangeal and proximal interphalangeal joints show all ligaments. Between the plantar aspect of the metatarsal bones and the digital tendon flexors is the interosseus ligament with its sesamoid and extensor branches.

This dissected left-foot specimen displays the plantar digital neurovascular bundle both sides of the flexor tendons. The two digital extensor tendons are identified in the dorsal aspect of the specimen. The plantar aspect of the metacarpophalangeal and proximal interphalangeal joints show a dissection of the deep ligaments and their relationship with the neurovascular bundle.

This specimen preserves a superficial dissection of the lower limb musculature from the midthigh to the hoof. The capsule of the stifle and tarsus joints has been opened to demonstrate the menisci, the main ligaments and the topography of the tendons. Muscles extensor and flexor of these joints as well as the foot joints have been dissected from the origin in the femur and tibia bones, to the insertions tendons in the tarsus, metatarsus and phalanges bones. Nerves and vessels have been dissected in the popliteal fossa, tarsus and digit regions. Detailed anatomical description on request.

This specimen records the anatomy of an ox's right foot from the metatarsus to the distal phalanges. In the dorsal aspect, the insertion of the tendons of the common, lateral and medial digital extensor muscles are the main structures. In the plantar aspect, the relation of the tendons of the superficial and deep digital flexor muscles with deep structures such as the interosseous ligament can be detected. Capsular and extra-capsular ligaments of the metatarsophalangeal and interphalangeal joints are also preserved.