DOCSLIB.ORG

Copyrighted Material

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Copyrighted Material 265 Index a apical ligament 146 abaxial dorsal proper digital nerves 248 area for lung auscultation 67 abaxial palmar digital nerve IV 212 artery of the bulb of the penis 152 abaxial palmar proper digital nerve III 212 artery of the penis 152 abdominal tendon 99 articular disc 24 abdominal wall 95 arytenoid cartilage 43 abducent nerve (CN VI) 30, 36 ascending colon 105, 122 abomasal groove 116, 122 ascending duodenum 122, 125 abomasal volvulus 124 atlantoaxial joint 51 abomasum 105, 110, 121 atlantooccipital joint 51 accessory carpal bone 177, 196 atlas 24, 51 accessory cephalic vein 206 atria 82 accessory gluteal muscle 228 atrioventricular valves 88 accessory lung lobe 74 atrium ruminis 119 accessory nerve 37, 54 56 auricles 83 accessory pancreatic duct 130 auricular surface (heart) 82 accessory sex glands 144 auriculopalpebral nerve 36, 37 acetabular fossa 218 axial dorsal longitudinal groove 223 acromion 174 axial dorsal proper digital nerve 248 adductor muscles 231 axial dorsal proper digital nerves III and adnexa 144 IV 209, 249 alar foramina 51 axial palmar proper digital arteries III and ampulla 158 IV 205, 212 ampullary glands 157 axial plantar proper digital arteries III and anconeal process 177 IV 241 anconeus muscle 192COPYRIGHTEDaxial MATERIALplantar proper digital nerves III and annulus 25 IV 249 ansa axillaris 209 axial skeleton 2 ansa subclavia 81 axillary artery 77, 78 antebrachium 177 axillary lymph nodes 207 anterior chamber 49 axis 51 antimesenteric vessels 128 aorta 79 b aortic arch 76, 85 baby teeth 16 aortic hiatus 78 basal border of the lungs 66 aortic semilunar valve 88 basihyoid bone 45 Guide to Ruminant Anatomy: Dissection and Clinical Aspects, First Edition. Mahmoud Mansour, Ray Wilhite, and Joe Rowe. © 2018 John Wiley & Sons, Inc. Published 2018 by John Wiley & Sons, Inc. Companion Website: www.wiley.com/go/mansour/dissection Chapter No.: 1 Title Name: <TITLENAME> bindex.indd bindex.indd 265Comp. by: <USER> Date: 20 Apr 2017 Time: 02:44:43 PM Stage: printer WorkFlow:<WORKFLOW> Page Number: 2654/20/2017 2:44:43 PM 266 Index bicarotid trunk 77 caudal mesenteric lymph nodes 137 biceps brachii muscle 192 caudal mesenteric vein 136 biceps femoris muscle 228 caudal pillar 119, 120 bile duct 130 caudal superficial epigastric vein 78 body (shaft) of the ilium 140 caudal tibial artery 240 body of the mandible 4 caudal tibial muscle 238 bony rim of the orbit 4 caudal vena cava 75, 85, 135 border of the lung 67 caudal vertebrae 140 brachial artery 204 caudate process of the caudate lobe of the brachialis groove 176 liver 111 brachialis muscle 193 caudodorsal blind sac 116 brachiocephalic trunk 76, 77, 85 caudoventral blind sac 116 brachiocephalicus muscle, 54, 182 caval foramen 77 brachium 176 cecocolic orifice 122 broad ligament 157 cecum 122, 128, 129 broken mouth 22 celiac artery 135 buccal branches 37 celiac lymphocenter 136 buccinator muscle 28 cement 17 bulbar conjunctiva 45 central flexure 122, 124, 129 bulb of the penis 145, 150 central tarsal bone 222 bulbospongiosus muscle 146 centrifugal coils 122, 124, 129 bulbourethral glands 157 centripetal coils 122, 124, 129 butcher’s bible 121 centroquartal bone 223 cephalic vein 206 c ceratohyoid bone 45 calcanean bursae 238 cervicothoracic ganglia 81 calcanean tuber 237 cervix portio vaginalis 159 calcaneus 222 cheek teeth 16 calyx 133 chordae tendineae 86, 87 canines 16 choroid 47 cannon bone 179 ciliary body 47, 49 cardia 111, 116 ciliary muscle 48 cardiac glands 123 ciliary processes 49 carotid sheath 31 circumflex branch of left coronary carpal hygroma 200 artery 87 carpometacarpal joint 179 cisterna chyli 78 caruncles 159 clavicular intersection 54 caudal auricular artery 32 cleidobrachialis muscle 54, 183, 182 caudal auricular nerve 5 cleidocephalicus muscle 182, 183 caudal compartment of the frontal sinus 13 cleidomastoideus muscle 54, 182, 183 caudal duodenal flexure 122, 124, 125 cleidooccipitalis muscle 54, 182 caudal gluteal artery 152, 239, 141 clitoral fossa 162 caudal gluteal nerve 141, 243 cochlea 222 caudal groove 116 coffin bone 180, 181 colic 136 coffin joint 181 caudal laryngeal nerve 37, 57, 81 colon 128 caudal mediastinal lymph nodes 80 common calcanean (Achilles) tendon 237, 238 caudal mediastinum 74 common carotid artery 31, 57, 77 caudal mesenteric artery 135 common digital extensor muscle 194 bindex.indd 266 4/20/2017 2:44:43 PM Index 267 common extensor tendon of digits III and crural extensor retinacula 234 IV 194 crus 145 common fibular (peroneal) nerve 243, 245 cusps 87 conjunctiva 47 cutaneus colli muscle 98 conjunctival sac 45 cutaneus faciei muscle 25, 26, 27, 98 connecting pleura 73 cutaneus omobrachialis muscle 69, 95, 182 constrictor pupillae 48 cutaneus trunci muscle 69, 95, 182 conus arteriosus 84 coracobrachialis muscle 192 d cornea 47 deciduous incisors 22 cornual artery 5, 32 deep antebrachial fascia 194 cornual diverticulum 9, 14 deep artery of the penis 152 cornual nerve 5, 36, 38 deep cervical lymph nodes 34 cornual process 3, 4 deep circumflex artery 135 coronary circulation 75 deep digital flexor muscle 198, 237, 238 coronary groove 16, 84, 87, 116 deep gluteal muscle 227, 228 coronary sinus 75, 77, 85, 86 deep leaf of the greater omentum 107, 109 coronoid process 9 deep pectoral muscle 182 corpora nigra 48 deep peroneal nerve 240, 245 corpus cavernosum penis 144 deltoideus muscle 190 costal cartilage 66 deltoid tuberosity 176 costocervical trunk 77 dens 51 costochondral junction 66 dental pad 3, 17, 19 costodiaphragmatic recess 69 dentin 17 cotyledonary 159 depressor labii inferioris muscle 28 cranial flexure 125 descending aorta 76 cranial gluteal artery 239, 141, 243 descending colon 122, 129 cranial groove 116 descending duodenum 122 cranial laryngeal nerve 37, 57 descending pectoral muscle 185 cranial lung lobe 74 dewclaws 180, 224 cranial mediastinum 74 diaphragmatic line of pleural reflection 66, 67 cranial mesenteric artery 135 diastema 17, 20 lymphocenter 136 digastricus muscle 28 cranial mesenteric vein 136 digital joints (fetlock, pastern, and cranial nerves 36 coffin) 249 cranial part of the duodenum 122 dilator pupillae muscle 48 cranial pillar 119 distal bend of the sigmoid flexure 149 cranial sac 116, 119 distal digital annular ligament 201 cranial superficial epigastric vein 78 distal (metatarsal) extensor retinaculum 237 cranial tibial artery 240 distal interdigital ligament 201 cranial tibial muscle 233, 235 distal intertarsal joint 250 cranial vena cava 75, 77 distal loop 124, 129 cremaster muscle 154 distal paravertebral nerve blocks 96, 97 cricoarytenoideus dorsalis muscle 29 distal sesamoid bone 180 cricoid 43 dorsal artery of the penis 152 cricopharyngeus 29 dorsal axial longitudinal groove 179 crown 17 dorsal axial proper digital nerves III and crura 145 IV 211 retinacula 237 dorsal branch of the accessory nerve 37 bindex.indd 267 4/20/2017 2:44:44 PM 268 Index dorsal buccal branches (facial nerve) 32, 36, external occipital protuberance 7 37 external pudendal artery 167, 168 dorsal commissure 164 external pudendal vein 168 dorsal common digital nerve III 209, 248, external urethral orifice 146 249 external uterine (or cervical) ostium 159, 105 dorsal common digital nerves II and III 209 extraocular muscles 27 dorsal common digital nerves II, III, and extrinsic laryngeal muscles 29 IV 248 extrinsic lingual muscles 30 dorsal common digital vein III 206, 242 dorsal (right and left) coronary pillars 116, f 119, 120 facial artery 32, 40 dorsal mesogastrium 105 facial nerve (CN VII) 28, 36 dorsal metatarsal artery III 240 facial tuberosity 3, 4 dorsal metatarsal nerve III 246 facial vein 33, 40 dorsal nerve of the penis 148 fascia lata 227, 228 dorsal pedal artery 240 fat pad 45 dorsal sac 116 femoral artery 239 dorsal vagal trunk 81 femoral nerve 243, 244 ductus deferens 154 fetal cotyledon 159 duodenocolic fold 122, 125 fetlock joint 180 duodenojejunal flexure 122, 125 fibrocartilaginous joint 25 duodenum 124 fibroelastic type 144 fibrous pericardium 82 e fibrous tunic 47 elbow joint 176, 177 fibula 221 enamel 17 fibularis (peroneus) longus muscle 233, 36 endothoracic fascia 73 fibularis (peroneus) tertius muscle 233, 234 epaxial muscles 70 flexor carpi radialis muscle 196 epicardium 82 flexor carpi ulnaris muscle 196 epiceras gland 38 flexor manica 198, 201 epidural 98 flexor retinaculum 200 epiglottis 43 fold of the flank 182 epihyoid bone 45 foramen magnum 7 epiploic foramen 109, 110, 111 foramen orbitorotundum 6, 36, 39 esophageal hiatus 81 forestomach 111 ethmoid meatuses 13 fornix 45 extensor carpi obliquus muscle 195 fossa 41 extensor carpi radialis muscle 194 fossa linguae 41 extensor groove 221 fossa ovalis 85, 86 extensor process 180 fourth carpal bone 179 extensor retinaculum 200 fourth digit 180 external abdominal oblique 98 fourth tarsal bone 222 external carotid artery 32 fovea capitis femoris 218 external iliac artery 152, 239 freemartin 159 external intercostal muscles 69 free part of the penis 148, 150 external jugular vein 33, 57 frontal bone 4 external lamina of the prepuce 150, 151 frontalis 28 external (outer or superficial) lamina of rectus frontal process of the zygomatic bone 5 sheath 103 frontal sinus 9, 13 bindex.indd 268 4/20/2017 2:44:44 PM Index 269 frontal vein 4, 33 horn sheath 4 fundus 49 humeral crest 176 fundus of the abomasum 112 humeral head 196, 198 Furstenberg’s rosette 166 hump 55, 183 fused interosseus III and IV 198 hyoid muscles 27 fused second and third carpal bones 179 hyopharyngeus muscle 29 hypoglossal canal 37 g hypoglossal nerve (CN XII)
Load more

Recommended publications
  • 4B. the Heart (Cor) 1
    Henry Gray (1821–1865). Anatomy of the Human Body. 1918. 4b. The Heart (Cor) 1 The heart is a hollow muscular organ of a somewhat conical form; it lies between the lungs in the middle mediastinum and is enclosed in the pericardium (Fig. 490). It is placed obliquely in the chest behind the body of the sternum and adjoining parts of the rib cartilages, and projects farther into the left than into the right half of the thoracic cavity, so that about one-third of it is situated on the right and two-thirds on the left of the median plane. Size.—The heart, in the adult, measures about 12 cm. in length, 8 to 9 cm. in breadth at the 2 broadest part, and 6 cm. in thickness. Its weight, in the male, varies from 280 to 340 grams; in the female, from 230 to 280 grams. The heart continues to increase in weight and size up to an advanced period of life; this increase is more marked in men than in women. Component Parts.—As has already been stated (page 497), the heart is subdivided by 3 septa into right and left halves, and a constriction subdivides each half of the organ into two cavities, the upper cavity being called the atrium, the lower the ventricle. The heart therefore consists of four chambers, viz., right and left atria, and right and left ventricles. The division of the heart into four cavities is indicated on its surface by grooves. The atria 4 are separated from the ventricles by the coronary sulcus (auriculoventricular groove); this contains the trunks of the nutrient vessels of the heart, and is deficient in front, where it is crossed by the root of the pulmonary artery.
    [Show full text]
  • The Chiari Network: an Anatomical Variation Or a Risk Factor? Case Report
    CASE REPORT Eur J Anat, 15 (2): 107-110 (2011) The Chiari network: an anatomical variation or a risk factor? Case report Elena Félix-Dominguez, Blanca Mompeó-Corredera Departamento de Morfología, Facultad de Ciencias de la Salud, Universidad de Las Palmas de Gran Canaria, Spain SUMMARY described in the 19th century, becoming important after the introduction of We report an association between a Chiari Echocardiography. Its morphology has been network and an abnormally long coronary studied by echography and it plays a role in sinus. The network, at the Eustachian valve differential diagnosis with some right heart and a morphologically similar network in the pathologies (Goedde et al., 1990; Patane et Thebesian valve, was also associated with a al., 2009). permeable foramen ovale. We review the embryological basis, associated anomalies, The variation is usually discovered during pathological conditions and clinical rele- diagnostic imaging studies, necropsies, and vance. surgical procedures (Loukas et al., 2010). Although it has often been considered clin- ically insignificant, it has been associated with Key words: Chiari network – Embryological some pathologies (Loukas et al., 2010), such as heart development – Vena cava valve – Coro- a patent foramen ovale, atrial septal nary sinus valve aneurysms, and paradoxical embolisms. It has also been described as associated with papil- lary fibroelastomas (Wasdahl et al., 1992), INTRODUCTION arrhythmias, and the development of tumours In human anatomy the concept of normali- (Stanley, 2001). ty includes a range of common morphologies, Some of these associations may be a conse- while less frequent morphologies considered quence of the behavior of the net itself, like normal are described as variations.
    [Show full text]
  • Thoracic Aorta and Abdominal Aorta
    Lung • It is the main organ of respiration where the gas exchange takes place between blood and atmospheric air. • It occupies the greater part of thoracic cavity. • Color: pink in well bled animals Anatomical features • The consistency of lung is soft, spongy and elastic. It has low specific gravity. • It floats in water (due to air contents). The lung of still born animals sink in water as it contain no air. • Each lung has apex, base, 3 surfaces and 3 borders • Apex: present cranially in cupula pleurae • Base: it is oblique, faces caudoventrally, lies on diaphragm • Dorsal border: between medial and costal surface Pulmonary lobules • It is a small unit of lung tissue with irregular borders. It surrounded by inter lobular CT. it may be ventilated by small bronchus or bronchioles. • The degree of lobulation depends on amount of inter lobular CT In dog lobulation not seen by naked eye (smooth appearance In pig: lobulation is visible In ox: lobulation is very clear In Sheep: lobulation is absent In goat: lobulation in cranial and middle lobe In horse: lobulation not clear Lobation of lung Species Left lung Right lung Cranial Divided cranial Middle Carnivores Caudal Caudal Accessory Cranial (Tracheal bronchus) Divided cranial Middle Pig Caudal Caudal Accessory Divided cranial (Tracheal bronchus) Divided cranial Ruminants Middle Caudal Caudal Accessory Cranial cranial Horse Caudal Caudal Accessory The thoracic Cavity • The thoracic cavity is the part of the body cavity that lies cranial to the diaphragm. • The part of the skeleton which consists of thoracic vertebrae, ribs with their cartilages and the sternum is known as, rib cage or Bony thorax (laterally flattened cone which is opened at both cranial and caudal ends, the apex of the cone lies cranially and its base lies caudally) Boundaries of the thoracic cavity Dorsal wall (Roof) Ventral wall (floor) Lateral wall 1- The muscles above the 1-The transverse thoracic 1- The ribs and the thoracic vertebrae.
    [Show full text]
  • The Large Blood Vessels Connected with It
    A fibroserous sac Encloses the heart and the root of the large blood vessels connected with it. Fibrous pericardium Serous pericardium Inelastic layer Dorsally: Parietal layer Visceral layer Reaches the longus coli muscle. (Epicardium) Ventrally: Attached to the sternum through Lined the Encloses the sterno-pericardiac ligament (also fibrous layer heart and root pericardiophrenic lig. in dog). and attached of large blood to it. vessels. N.B: Pericardium is covered by pericardial pleura (part from Between both layers there‘s the mediastinal pleura) which is the pericardial space, which crossed by left phrenic nerve is filled with serous fluid Irregular flattened cone shape 0.4 % of the body weight In the middle of the mediastinal space, directed caudo-ventrally It is free in the pericardium; but it is attached dorsally from its base by the large blood vessels Two surfaces Two Borders Base Apex Atrial (Right or Dorsally diaphragmatic) Ventrally, located Auricular surface Centrally and dorsal to the last Right ventricular (cranial) border: sternebra convex and parallel to the sternum Left ventricular (caudal) border nearly vertical Right surface of the heart Left surface of the heart Coronary grooves Inter ventricular grooves Indicate the division of the atria and Interventricular Interventricular ventricles paraconal groove Subsinousal groove (Left) (Right) Caudally located Cranially located Not reaches the apex Reaches the apex Opposite to the 5th Opposite to the 4th and 6th intercostal intercostal spac spaces It forms the cranial part of the base. The internal atrial wall is covered by the endocardium. The wall is being smooth except the right and the auricle, which represented muscular ridges (pectinate muscle).
    [Show full text]
  • The Pulmonary Veins in Pigs and Horses: Research Towards the Development of a New Treatment Strategy of Atrial Fibrillation in Human Patients and Horses
    The pulmonary veins in pigs and horses: research towards the development of a new treatment strategy of atrial fibrillation in human patients and horses Tim Vandecasteele Dissertation submitted in fulfillment of the requirements for the degree of Doctor of Philosophy (PhD) in Veterinary Sciences 2018 Promoters: Prof. dr. P. Cornillie Prof. dr. G. van Loon Prof. dr. W. Van den Broeck dr. G. Van Langenhove Department of Morphology Faculty of Veterinary Medicine Ghent University Tim Vandecasteele 2018 The pulmonary veins in pigs and horses: research towards the development of a new treatment strategy of atrial fibrillation in human patients and horses Front cover: heart image by Henry Vandyke Carter (Gray’s Anatomy) Printed by University Press, Zelzate, Belgium www.universitypress.be Success consists of going from failure to failure without loss of enthusiasm -Winston Churchill- Table of contents List of abbreviations Preface………………………………………………………………………………………………………………………………… 7 Chapter 1: General introduction………………………………………………………………………………………… 11 1.1 Heart and pulmonary veins (PVs)………………………………………….……………………………….. 13 1.2 Cardiac conduction………………………………………………………………………………………………… 20 1.3 Atrial fibrillation (AF)………………………………………………………………………………………….….. 25 1.4 PVs in horses……………………………………………………………………………………………………….…. 45 1.5 Pigs as cardiovascular model……………………………………………………………………….…………. 46 Chapter 2: Scientific aims………………………………………………………………………………………….…….... 73 Chapter 3: The pulmonary veins of the pig………………………………………………………………………… 77 Chapter 4: Presence of ganglia
    [Show full text]
  • Fibrous Pericardium
    Circulatory System in Animals Organs of the cardiovascular system -Circulatory system made up of: 1- organ: -heart 2- tissues & cells: a-blood vessels -arteries -veins -capillaries b- blood: -red blood cells -plasma The blood vessels are arranged as two circuits of blood flow, following a figure of 8 pattern with the heart in the centre. The larger, systemic circulation conveys oxygenated blood from the heart to all the organs of the body and transports deoxygenated blood back to the heart. The smaller, pulmonary circulation conveys deoxygenated blood from the heart to the exchange tissue of the lungs, where it is oxygenated before it is returned to the heart. Circulatory systems open closed hemolymph blood • In fishes the blood only passes through the heart once on its way to the gills and then r o u n d t h e r e s t of t h e b o d y . • However, in mammals and birds that have lungs, the blood passes through the heart twice: once on its way to the lungs where it picks up oxygen and then through the heart again to be pumped all over the body. The heart is therefore two separate pumps, side by side Vertebrate Heart • 4-Chambered heart – atria (atrium) • thin wall • collection chamber left • receive blood atrium – ventricles right • thick wall pump atrium • pump blood out right left ventricle ventricle Lub-dub, lub-dub • 4 valves in the heart – flaps of connective tissue – prevent backflow • Heart sounds – closing of valves SL – “Lub” • force blood against AV closed AV valves AV – “Dub” • force of blood against semilunar valves • Heart murmur – leaking valve causes hissing sound – blood squirts backward through valve Pericardium • The pericardium, or heart sac, is the fibroserous covering of the heart.
    [Show full text]
  • Lab 12 Dissection Steps
    Lab 12 Dissection Steps: ❏ Identify the sympathetic trunk on both the left and right side. Follow the trunk on ​ ​ ​ ​ either side using blunt dissection, with the tip of an iris scissors, tracing it cranially. As you reach the transition from thoracic region to neck region look for and do the following: ❏ Identify the cervicothoracic ganglion ​ ❏ Identify the vertebral nerve (which will run alongside the vertebral a.) ​ ​ ❏ Identify the ansa subclavia (forming a ‘loop’ around the subclavian a.; the ​ ​ two sides of the ‘loop’ meet at the middle cervical ganglion) ❏ Identify the middle cervical ganglion ​ ❏ Attempt to identify one or two cardiac nerves ​ ❏ Re-identify the vagosympathetic trunk in the neck (in the carotid sheath, on both left ​ ​ and right sides; previously identified in Lab 9) and trace it caudally to the middle cervical ganglion ❏ Identify the vagus nerve (on both left and right sides) continuing caudally from the ​ ​ middle cervical ganglion ❏ On the left side, identify the left recurrent laryngeal nerve leaving the ​ ​ left vagus nerve. It will be seen curving around the aortic arch and then continues cranially in the neck, alongside the trachea. ❏ On the right side, identify the right recurrent laryngeal nerve leaving the ​ ​ right vagus nerve. It will be seen curving around the right subclavian artery and then continues cranially in the neck, alongside the trachea. ❏ Identify where the vagus nerve splits into dorsal and ventral branches on ​ ​ both left and right sides ❏ Where the left and right ventral branches unite on the ventral aspect of the esophagus, the ventral vagal trunk is formed; identify the ventral ​ vagal trunk.
    [Show full text]
  • Gross Anatomy of the Heart of Pampas Deer (Ozotoceros Bezoarticus, Linnaeus 1758)
    Published online: 2019-08-05 THIEME 190 Original Article Gross Anatomy of the Heart of Pampas Deer (Ozotoceros bezoarticus, Linnaeus 1758) Noelia Vazquez1 Dellis Dos Santos1 William Pérez1 Rody Artigas2 Victoria Sorriba3 1 Division of Anatomy, Facultad de Veterinaria, Universidad de la Address for correspondence Noelia Vazquez, MSc DMV, Área de República (UDELAR), Lasplaces, Montevideo, Uruguay Anatomía, Facultad de Veterinaria, Universidad de la República 2 Department of Genetics and Animal Breeding, Laboratorio de (UDELAR), Alberto Lasplaces 1550, CP 11600, Montevideo, Uruguay Análisis Genéticos de Animales Domésticos, Facultad de Veterinaria, (e-mail: [email protected]). Universidad de la República (UDELAR), Lasplaces, Montevideo, Uruguay 3 Imaging Department, Centro Hospital Veterinario, Facultad de Veterinaria, Universidad de la República (UDELAR), Lasplaces, Montevideo, Uruguay J Morphol Sci 2019;36:190–195. Abstract The pampas deer belongs to the Cervidae family (Artiodactyla order). It used to be a common and abundant species that had a wide distribution. However, at the end of the 19th century, the populations were decimated. In general, the hearts of mammals share many similarities, but size, shape, position, vessel organization and branching can vary among species. The objective of the present study was to describe the macroscopic morphology, topography and irrigation of the heart of the pampas deer. The anatomical study was conducted with 20 animals that had died of natural causes. Keywords The animals were studied by simple dissection. All animals had colored latex injected ► atrium into one of the common carotid arteries to facilitate the visualization. The position of ► cervidae the heart, with a 45° axis, the presence of a double sternopericardial ligament, and the ► coronary artery bilateral cardiac circulation were some of the notable findings.
    [Show full text]
  • Anatomy: Cardiovascular
    Anatomy: Cardiovascular Vessels Arteries Branching Cross-sectional area of A + B > parent vessel Directions o Recurrent – back in the direction of the parent vessel o Parallel o At an angle – smaller diameter = larger angle Circumflex Vessels – a pair of vessels arising from one parent vessel and forming a loop around a bone: medial circumflex femoral a. + lateral circumflex femoral a. End Arteries True – blood to one structure: blockage causes an infarct (kidneys) Functional – a potential but inadequate collateral connection exists (heart) Veins Grow larger at tributaries Most have valves Exceptions Dog – angularis oculi v. + venous sinuses (skull) Horse – buccal v. + deep facial v. Satellite Veins – veins draining capillaries that parallel the delivering artery Anastomoses Collateral Circulation – alternative pathway Arties Works well for gradual changes Portal Systems – connect two capillary networks Veins Example – portal vein: GIT liver Structure – surrounded by smooth muscle cusps Function Relaxed = open: blood bypasses the capillaries Arteries- Contracted = closed Veins Example Dermis – vasoconstriction / vasodilation Disease – attachment of the hoof wall to the dermal lamina: open = laminitis Blood Supply Erectile tissue – increased arterial supply + decreased venous drainage Nutritional (O2) and Functional Liver – nutritional = hepatic a., functional = portal v. Lung – nutritional = bronchoesophageal a., functional = pulmonary a. Sampling Arterial – femoral a. Venous – cephalic v. or external jugular
    [Show full text]
  • Cardiac Physiologist Training Manual
    Lancashire & South Cumbria Cardiac Network ANATOMY & PHYSIOLOGY MANUAL Cardiac Physiologist Training Manual ANATOMY OF THE HEART Surface Anatomy and Position The Anterior surface or sternocostal surface of the heart is formed mainly by the right ventricle. To the left is a small section of the left ventricle separated from the right by the anterior interventricular groove that carries the anterior descending branch of the left coronary artery. A small right atrial portion is found on the right. This anterior surface lies directly behind the sternum from which it is separated by the pericardium. The pleura and thin anterior parts of the lungs also partly cover it except for a small triangular area, the cardiac incisure in the left lung. The superior border is formed by the upper margins of the atria, mainly the left. It is largely hidden by the ascending aorta and pulmonary trunk. The superior border extends from the upper part of the left 2nd intercostal space to the lower part of the same space on the right. This line also marks the line of the pulmonary arteries which lie along this border of the heart. The SVC enters the right atrium at the right. The right border extends from the right end of the superior border to the right 6th costal cartilage, 1-2cm from the sternum. This convex border is formed by the right atrium and is vertical, the SVC and IVC entering in a vertical line at the top and bottom respectively. The left border is marked by a convex line joining left ends of the superior and inferior borders.
    [Show full text]
  • Adipogenesis and Epicardial Adipose Tissue: a Novel Fate of the Epicardium Induced by Mesenchymal Transformation and Pparγ Activation
    Adipogenesis and epicardial adipose tissue: A novel fate of the epicardium induced by mesenchymal transformation and PPARγ activation Yukiko Yamaguchia, Susana Cavalleroa, Michaela Pattersona, Hua Shena, Jian Xub, S. Ram Kumarc, and Henry M. Sucova,1 aBroad Center for Regenerative Medicine and Stem Cell Research, cDepartment of Surgery, Keck School of Medicine, and bCenter for Craniofacial Molecular Biology, Ostrow School of Dentistry, University of Southern California, Los Angeles, CA 90089 Edited* by Eric N. Olson, University of Texas Southwestern Medical Center, Dallas, TX, and approved January 15, 2015 (received for review September 5, 2014) The hearts of many mammalian species are surrounded by an ex- transformation to generate mesenchymal cells that first reside in tensive layer of fat called epicardial adipose tissue (EAT). The the subepicardial space between the epicardium and myocar- lineage origins and determinative mechanisms of EAT development dium. One subset of these cells assembles around nascent cor- are unclear, in part because mice and other experimentally tractable onary endothelial tubes and constitutes the smooth muscle layer model organisms are thought to not have this tissue. In this study, of the mature coronary vessels. A separate subpopulation migrates we show that mouse hearts have EAT, localized to a specific region as single cells into the myocardium and becomes the predominant in the atrial–ventricular groove. Lineage analysis indicates that this source of cardiac fibroblasts that secrete extracellular matrix adipose tissue originates from the epicardium, a multipotent epi- needed for mature heart structure (12). These two fates are well thelium that until now is only established to normally generate established; additional speculated fates for the epicardium, in- cardiac fibroblasts and coronary smooth muscle cells.
    [Show full text]
  • Latin Term Latin Synonym UK English Term American English Term English
    General Anatomy Latin term Latin synonym UK English term American English term English synonyms and eponyms Notes Termini generales General terms General terms Verticalis Vertical Vertical Horizontalis Horizontal Horizontal Medianus Median Median Coronalis Coronal Coronal Sagittalis Sagittal Sagittal Dexter Right Right Sinister Left Left Intermedius Intermediate Intermediate Medialis Medial Medial Lateralis Lateral Lateral Anterior Anterior Anterior Posterior Posterior Posterior Ventralis Ventral Ventral Dorsalis Dorsal Dorsal Frontalis Frontal Frontal Occipitalis Occipital Occipital Superior Superior Superior Inferior Inferior Inferior Cranialis Cranial Cranial Caudalis Caudal Caudal Rostralis Rostral Rostral Apicalis Apical Apical Basalis Basal Basal Basilaris Basilar Basilar Medius Middle Middle Transversus Transverse Transverse Longitudinalis Longitudinal Longitudinal Axialis Axial Axial Externus External External Internus Internal Internal Luminalis Luminal Luminal Superficialis Superficial Superficial Profundus Deep Deep Proximalis Proximal Proximal Distalis Distal Distal Centralis Central Central Periphericus Peripheral Peripheral One of the original rules of BNA was that each entity should have one and only one name. As part of the effort to reduce the number of recognized synonyms, the Latin synonym peripheralis was removed. The older, more commonly used of the two neo-Latin words was retained. Radialis Radial Radial Ulnaris Ulnar Ulnar Fibularis Peroneus Fibular Fibular Peroneal As part of the effort to reduce the number of synonyms, peronealis and peroneal were removed. Because perone is not a recognized synonym of fibula, peronealis is not a good term to use for position or direction in the lower limb. Tibialis Tibial Tibial Palmaris Volaris Palmar Palmar Volar Volar is an older term that is not used for other references such as palmar arterial arches, palmaris longus and brevis, etc.
    [Show full text]