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Blood Vessels http://www.majordifferences.com/2013/02/difference-between-artery-and-vein.html#.WiSD2VVKt0w ateries veins • Carry blood away from the • Carry blood toward the heart heart • Elastic arteries resist • Low pressure pressure and even it out • Thin walls (partially) • Large lumen • Muscular arteries maintain • Valves to prevent backflow & control pressure and promote flow of blood • Arterioles control blood in only one direction flow into capillaries capillaries – only endothelium http://anatomybody101.com/the-heart-is-made-of-what- muscle/the-heart-is-made-of-what-muscle-blood-vessels- tunica-intima-endothelium-subendothelial-layer-internal-or- external-elastic-membrane-tunica-media-externa-basement- membrane-artery-vein-capillary-bed/ muscular artery – vein – nerve elastin stain http://zoomify.lumc.edu/histonew/cardiovascular/dms108/popup.html Diagram of the tunics of an arterial wall (above): On the left, the drawing illustrates a typical stain and the tunica media smooth muscle are apparent; on the right, the same arterial wall has been stained with a special stain for elastin and you can see the elastin fibers running between the smooth muscle cells of the tunica media as well as through the loose connective tissue of the tunica externa. http://www.apsubiology.org/anatomy/2020/2020_Exam_Reviews/Exa m_1/CH19_Vessel_Wall_Histology.htm Elastic artery – stained for elastin https://casweb.ou.edu/p bell/Histology/Caption s/Cardiovascular/46.ela stic.art.10x.html Capillaries come in 3 varieties – most are “continuous” though http://ib.bioninja.com.au/standard-level/topic-6-human-physiology/62-the-blood-system/capillaries.html Major Circulatory Routes • Pulmonary circulation • Systemic circulation [includes] • Cardiac circulation • Cerebral circulation – really to the whole brain • Hepatic portal system • Note that there are other portal systems as well • Fetal circulation Circle of Willis – more details … and the details go on … http://www.proprofs.com/flashcards/story.php?title=neurology-circle-willis Hepatic portal drainage note that input comes from - celiac trunk - superior mesenteric artery - inferior mesenteric artery http://humananatomylibrary.com/hepatic-portal-vein-anatomy/hepatic-portal-vein-anatomy-anatomy-of-the-hepatic-portal-system-human-anatomy-diagram/ Fetal Circulation Note especially the ductus venosus http://what-when-how.com/nursing/normal-pregnancy- maternal-and-newborn-nursing-part-2/ Fetal Circulation http://www.studyblue.com/notes/note/n/antphy-2201-study- guide-2010-11-maddux/deck/9736669.

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Chapter 20 *Lecture Powerpoint the Circulatory System: Blood Vessels and Circulation
Chapter 20 *Lecture PowerPoint The Circulatory System: Blood Vessels and Circulation *See separate FlexArt PowerPoint slides for all figures and tables preinserted into PowerPoint without notes. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Introduction • The route taken by the blood after it leaves the heart was a point of much confusion for many centuries – Chinese emperor Huang Ti (2697–2597 BC) believed that blood flowed in a complete circuit around the body and back to the heart – Roman physician Galen (129–c. 199) thought blood flowed back and forth like air; the liver created blood out of nutrients and organs consumed it – English physician William Harvey (1578–1657) did experimentation on circulation in snakes; birth of experimental physiology – After microscope was invented, blood and capillaries were discovered by van Leeuwenhoek and Malpighi 20-2 General Anatomy of the Blood Vessels • Expected Learning Outcomes – Describe the structure of a blood vessel. – Describe the different types of arteries, capillaries, and veins. – Trace the general route usually taken by the blood from the heart and back again. – Describe some variations on this route. 20-3 General Anatomy of the Blood Vessels Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Capillaries Artery: Tunica interna Tunica media Tunica externa Nerve Vein Figure 20.1a (a) 1 mm © The McGraw-Hill Companies, Inc./Dennis Strete, photographer • Arteries carry blood away from heart • Veins
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The Circulatory System
Lec. 3 General Histology Instructor: Assist. Prof. Rasha A. Azeez The circulatory system The circulatory system provides a means of conveying nutrients and oxygen to and wastes out of the internal cells that make-up our bodies. There are two major components of the circulatory system. A. The cardiovascular system 1. Arteries, 2. Arterioles, 3. Capillaries, 4. Veins 5.Venules 6. Heart. B. The lymph vascular system 1. Blind ended lymphatic capillaries that collect lymph fluid from tissues. 2. Larger lymphatic vessels that connect with one and other and finally empty collected lymph into large veins in the neck where the lymphatic and cardiovascular systems merge. The cardiovascular system 1. Arterial system: There are three main types of arteries: o Elastic arteries o Muscular arteries o Arterioles o Elastic arteries These arteries that receive blood directly from the heart; includes the Aorta and the pulmonary artery; they need to be elastic because when the heart contracts, and ejects blood into these arteries, the walls need to stretch to accommodate the blood surge. The walls of these arteries have lots of elastin. a- Tunica intima is made up of an epithelium, which is a single layer of flattened epithelial cells, together with a supporting layer of elastin rich collagen. This layer also has fibroblasts and 'myointimal cells' that accumulate lipid with ageing, and the intima layer thickens, one of the first signs of atherosclerosis. a- Tunica media is broad and elastic with concentric fenestrated sheets of elastin, and collagen and only relatively few smooth muscle fibers. b- Tunica adventitia - has small vasa vasorum "a network of small blood vessels is present in the adventitia" as the large arteries need their own blood supply.
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The Circulatory System
TheThe CirculatoryCirculatory SystemSystem Xue Hui DepartmentDepartment ofof HistologyHistology && EmbryologyEmbryology TheThe CirculatoryCirculatory SystemSystem Cardiovascular system (blood vascular system) Heart Artery Capillary Vein Lymphatic vascular system Lymphatic capillary Lymphatic vessel Lymphatic duct II GeneralGeneral structurestructure ofof thethe bloodblood vesselsvessels Tunica intima Tunica media Tunica adventitia Drawing of a medium-sized muscular artery, showing its layers. II GeneralGeneral structurestructure ofof thethe bloodblood vesselsvessels IIII ArteryArtery Large artery Medium-sized artery Small artery Arteriole II Artery LargeLarge arteryartery Structure Tunica intima Tunica media 40-70 layers of elastic lamina Smooth muscle cells, collagenous fibers Tunica adventitia Function Carry the blood from the heart to the middle arteries Tunica Tunica intima intima Tunica Tunica media media Tunica Tunica adventitia adventitia Transverse sections showing part of a large elastic artery showing a well developed tunica media containing several elastic laminas. II Artery MediumMedium--sizedsized arteryartery Structure Tunica intima: clear internal elastic membrane Tunica media: 10-40 layers of smooth muscle cells Tunica adventitia: external elastic membrane Function Regulate the distribution of the blood to various parts of the body Tunica Internal intima elastic membrane Tunica media External elastic membrane Tunica adventitia II Artery SmallSmall arteryartery Structure characteristic Diameter:0.3-1mm Tunica intima: clear
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Histological Study of the Elastic Artery, Muscular Artery, and Their Junction in Neonate Dog
Winter & Spring 2016, Volume 13, Number 1 Histological Study of the Elastic Artery, Muscular Artery, and Their Junction in Neonate Dog Fatemeh Ramezani Nowrozani1* 1. Department of Anatomical Sciences, School of Veterinary Medicine, Kazerun Branch, Islamic Azad Univercity, Kazerun, Iran. Citation: Ramezani Nowrozani F. Histological study of the elastic artery, muscular artery, and their junction in neonate dog. Anatomical Sciences. 2016; 13(1):33-38. Dr. Fatemeh Ramezani Nowrozani is the assistant professor of anatomy, histology and embryology in the department of anatomical science at Kazerun Branch, Islamic Azad Univercity, Kazerun, Iran. She was graduated with a DVM and PhD from the College of Veterinary Medicine at Shiraz University. Since 2008, she has advised DVM students at Kazerun Branch, Islamic Azad Univercity anatomy, histology and embryology. Article info: A B S T R A C T Received: 12 Jan. 2015 Accepted: 02 Oct. 2015 Introduction: We did this study because there were a few studies about aorto-branch junction. Available Online: 01 Jan 2016 Methods: Four light microscope and electron microscope study, the abdominal aorta, renal artery, and the adjoining right and left renal arteries were dissected out from 4 neonate dogs. Results: Based on the results, there is only one cell type in the tunica intima of endothelium in both arteries. In abdominal aorta, there were open connective tissue spaces, containing elastic fibers between the internal elastic membrane and endothelium. In renal artery, endothelial cells were attached directly to the internal elastic membrane. In the abdominal aorta tunica media, layers of smooth muscle cells alternating with elastic lamellae were observed, but in renal artery, the smooth muscle cells were close to each other and a small quantity of collagen and elastic fibers were found between them.
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Anatomy Review: Blood Vessel Structure & Function
Anatomy Review: Blood Vessel Structure & Function Graphics are used with permission of: Pearson Education Inc., publishing as Benjamin Cummings (http://www.aw-bc.com) Page 1. Introduction • The blood vessels of the body form a closed delivery system that begins and ends at the heart. Page 2. Goals • To describe the general structure of blood vessel walls. • To compare and contrast the types of blood vessels. • To relate the blood pressure in the various parts of the vascular system to differences in blood vessel structure. Page 3. General Structure of Blood Vessel Walls • All blood vessels, except the very smallest, have three distinct layers or tunics. The tunics surround the central blood-containing space - the lumen. 1. Tunica Intima (Tunica Interna) - The innermost tunic. It is in intimate contact with the blood in the lumen. It includes the endothelium that lines the lumen of all vessels, forming a smooth, friction reducing lining. 2. Tunica Media - The middle layer. Consists mostly of circularly-arranged smooth muscle cells and sheets of elastin. The muscle cells contract and relax, whereas the elastin allows vessels to stretch and recoil. 3. Tunica Adventitia (Tunica Externa) - The outermost layer. Composed of loosely woven collagen fibers that protect the blood vessel and anchor it to surrounding structures. Page 4. Comparison of Arteries, Capillaries, and Veins • Let's compare and contrast the three types of blood vessels: arteries, capillaries, and veins. • Label the artery, capillary and vein. Also label the layers of each. • Arteries are vessels that transport blood away from the heart. Because they are exposed to the highest pressures of any vessels, they have the thickest tunica media.
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Blood Vessels: Part A
Chapter 19 The Cardiovascular System: Blood Vessels: Part A Blood Vessels • Delivery system of dynamic structures that begins and ends at heart – Arteries: carry blood away from heart; oxygenated except for pulmonary circulation and umbilical vessels of fetus – Capillaries: contact tissue cells; directly serve cellular needs – Veins: carry blood toward heart Structure of Blood Vessel Walls • Lumen – Central blood-containing space • Three wall layers in arteries and veins – Tunica intima, tunica media, and tunica externa • Capillaries – Endothelium with sparse basal lamina Tunics • Tunica intima – Endothelium lines lumen of all vessels • Continuous with endocardium • Slick surface reduces friction – Subendothelial layer in vessels larger than 1 mm; connective tissue basement membrane Tunics • Tunica media – Smooth muscle and sheets of elastin – Sympathetic vasomotor nerve fibers control vasoconstriction and vasodilation of vessels • Influence blood flow and blood pressure Tunics • Tunica externa (tunica adventitia) – Collagen fibers protect and reinforce; anchor to surrounding structures – Contains nerve fibers, lymphatic vessels – Vasa vasorum of larger vessels nourishes external layer Blood Vessels • Vessels vary in length, diameter, wall thickness, tissue makeup • See figure 19.2 for interaction with lymphatic vessels Arterial System: Elastic Arteries • Large thick-walled arteries with elastin in all three tunics • Aorta and its major branches • Large lumen offers low resistance • Inactive in vasoconstriction • Act as pressure reservoirs—expand
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Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria
Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) Servizo de Normalización Lingüística Universidade de Santiago de Compostela COLECCIÓN VOCABULARIOS TEMÁTICOS N.º 4 SERVIZO DE NORMALIZACIÓN LINGÜÍSTICA Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) 2008 UNIVERSIDADE DE SANTIAGO DE COMPOSTELA VOCABULARIO de morfoloxía, anatomía e citoloxía veterinaria : (galego-español- inglés) / coordinador Xusto A. Rodríguez Río, Servizo de Normalización Lingüística ; autores Matilde Lombardero Fernández ... [et al.]. – Santiago de Compostela : Universidade de Santiago de Compostela, Servizo de Publicacións e Intercambio Científico, 2008. – 369 p. ; 21 cm. – (Vocabularios temáticos ; 4). - D.L. C 2458-2008. – ISBN 978-84-9887-018-3 1.Medicina ��veterinaria-Diccionarios��. 2.Galego (Lingua)-Glosarios, vocabularios, etc. políglotas. I.Lombardero Fernández, Matilde. II.Rodríguez Rio, Xusto A. coord. III. Universidade de Santiago de Compostela. Servizo de Normalización Lingüística, coord. IV.Universidade de Santiago de Compostela. Servizo de Publicacións e Intercambio Científico, ed. V.Serie. 591.4(038)=699=60=20 Coordinador Xusto A. Rodríguez Río (Área de Terminoloxía. Servizo de Normalización Lingüística. Universidade de Santiago de Compostela) Autoras/res Matilde Lombardero Fernández (doutora en Veterinaria e profesora do Departamento de Anatomía e Produción Animal.
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Blood and Lymph Vascular Systems
BLOOD AND LYMPH VASCULAR SYSTEMS BLOOD TRANSFUSIONS Objectives Functions of vessels Layers in vascular walls Classification of vessels Components of vascular walls Control of blood flow in microvasculature Variation in microvasculature Blood barriers Lymphatic system Introduction Multicellular Organisms Need 3 Mechanisms --------------------------------------------------------------- 1. Distribute oxygen, nutrients, and hormones CARDIOVASCULAR SYSTEM 2. Collect waste 3. Transport waste to excretory organs CARDIOVASCULAR SYSTEM Cardiovascular System Component function Heart - Produce blood pressure (systole) Elastic arteries - Conduct blood and maintain pressure during diastole Muscular arteries - Distribute blood, maintain pressure Arterioles - Peripheral resistance and distribute blood Capillaries - Exchange nutrients and waste Venules - Collect blood from capillaries (Edema) Veins - Transmit blood to large veins Reservoir Larger veins - receive lymph and return blood to Heart, blood reservoir Cardiovascular System Heart produces blood pressure (systole) ARTERIOLES – PERIPHERAL RESISTANCE Vessels are structurally adapted to physical and metabolic requirements. Vessels are structurally adapted to physical and metabolic requirements. Cardiovascular System Elastic arteries- conduct blood and maintain pressure during diastole Cardiovascular System Muscular Arteries - distribute blood, maintain pressure Arterioles - peripheral resistance and distribute blood Capillaries - exchange nutrients and waste Venules - collect blood from capillaries
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Diabetes, Cardiovascular Disease and the Microcirculation W
Strain and Paldánius Cardiovasc Diabetol (2018) 17:57 https://doi.org/10.1186/s12933-018-0703-2 Cardiovascular Diabetology REVIEW Open Access Diabetes, cardiovascular disease and the microcirculation W. David Strain1* and P. M. Paldánius2 Abstract Cardiovascular disease (CVD) is the leading cause of mortality in people with type 2 diabetes mellitus (T2DM), yet a signifcant proportion of the disease burden cannot be accounted for by conventional cardiovascular risk factors. Hypertension occurs in majority of people with T2DM, which is substantially more frequent than would be antici- pated based on general population samples. The impact of hypertension is considerably higher in people with diabetes than it is in the general population, suggesting either an increased sensitivity to its efect or a confounding underlying aetiopathogenic mechanism of hypertension associated with CVD within diabetes. In this contribution, we aim to review the changes observed in the vascular tree in people with T2DM compared to the general population, the efects of established anti-diabetes drugs on microvascular outcomes, and explore the hypotheses to account for common causalities of the increased prevalence of CVD and hypertension in people with T2DM. Keywords: Microcirculation, Type 2 diabetes mellitus, Hypertension, Cardiovascular disease, Microvascular changes, Microalbuminuria Background in T2DM and hypertension, which in turn have signif- Type 2 diabetes mellitus (T2DM) and hypertension cant implications with respect to future CV risk. are established risk factors for cardiovascular disease (CVD), and people with T2DM and hypertension have Vascular anatomy in cardiovascular disease an increased risk of cardiovascular (CV) mortality com- Although there is increasing evidence that the venous pared with those with either condition alone [1].
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Microscopic Anatomy of the Human Vertebro-Basilar System
MICROSCOPIC ANATOMY OF THE HUMAN VERTEBRO-BASILAR SYSTEM RENATO P. CHOPARD * — GUILHERME DE ARAÚJO LUCAS * ADRIANA LAUDANA* SUMMARY — Concerning the structure of connective-muscular components the authors stu died the walls of the terminal segments of the vertebral arteries as well as the basilar artery, utilizing the following staining methods: Azan modified by Heideinheim, Weigert's resor-¬ cin-fuchsin, and Weigert modified by van Gieson. It was established that wall of the verte-¬ bro-basilar system exhibits a mixed structure, muscular and elastic, by means of which the vessels are adjusted to the specific blood circulation conditions. Thus, vertebral arteries show in the most external layer of tunica media an evident external elastic lamina. In contrast, in the basilar artery the elastic tissue is localized mainly in the tunica media, and is distributed heterogeneously. In its caudal segment the elastic fibers are situated in the most internal layer of tunica media, and in the cranial segment the elastic component is homogenously distributed in the whole of tunica media. Anatomia microscópica do sistema, vértebro basilar no homem. RESUMO — Os autores estudam a disposição dos componentes fibromusculare» da parede das artérias vertebrais em seus segmentos terminais e a artéria basilar, usando os seguintes métodos de coloração: Azan modificado por Heidenheim, resorcina-fucsina de Weigert e Weigert modificado por van Gieson. O sistema vértebro-basilar apresentou em sua parede estrutura mista, muscular e elástica, pela qual os vasos se adaptam às condições circulató rias especificas daquela região. Besta forma, ias artérias vertebrais apresentam na camada mais externa da túnica média uma lâmina elástica limitante externa evidente, ao contrário do encontrado na artéria basilar.
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Blood Vessels
BLOOD VESSELS Blood vessels are how blood travels through the body. Whole blood is a fluid made up of red blood cells (erythrocytes), white blood cells (leukocytes), platelets (thrombocytes), and plasma. It supplies the body with oxygen. SUPERIOR AORTA (AORTIC ARCH) VEINS & VENA CAVA ARTERIES There are two basic types of blood vessels: veins and arteries. Veins carry blood back to the heart and arteries carry blood from the heart out to the rest of the body. Factoid! The smallest blood vessel is five micrometers wide. To put into perspective how small that is, a strand of hair is 17 micrometers wide! 2 BASIC (ARTERY) BLOOD VESSEL TUNICA EXTERNA TUNICA MEDIA (ELASTIC MEMBRANE) STRUCTURE TUNICA MEDIA (SMOOTH MUSCLE) Blood vessels have walls composed of TUNICA INTIMA three layers. (SUBENDOTHELIAL LAYER) The tunica externa is the outermost layer, primarily composed of stretchy collagen fibers. It also contains nerves. The tunica media is the middle layer. It contains smooth muscle and elastic fiber. TUNICA INTIMA (ELASTIC The tunica intima is the innermost layer. MEMBRANE) It contains endothelial cells, which TUNICA INTIMA manage substances passing in and out (ENDOTHELIUM) of the bloodstream. 3 VEINS Blood carries CO2 and waste into venules (super tiny veins). The venules empty into larger veins and these eventually empty into the heart. The walls of veins are not as thick as those of arteries. Some veins have flaps of tissue called valves in order to prevent backflow. Factoid! Valves are found mainly in veins of the limbs where gravity and blood pressure VALVE combine to make venous return more 4 difficult.
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Nomina Histologica Veterinaria, First Edition
NOMINA HISTOLOGICA VETERINARIA Submitted by the International Committee on Veterinary Histological Nomenclature (ICVHN) to the World Association of Veterinary Anatomists Published on the website of the World Association of Veterinary Anatomists www.wava-amav.org 2017 CONTENTS Introduction i Principles of term construction in N.H.V. iii Cytologia – Cytology 1 Textus epithelialis – Epithelial tissue 10 Textus connectivus – Connective tissue 13 Sanguis et Lympha – Blood and Lymph 17 Textus muscularis – Muscle tissue 19 Textus nervosus – Nerve tissue 20 Splanchnologia – Viscera 23 Systema digestorium – Digestive system 24 Systema respiratorium – Respiratory system 32 Systema urinarium – Urinary system 35 Organa genitalia masculina – Male genital system 38 Organa genitalia feminina – Female genital system 42 Systema endocrinum – Endocrine system 45 Systema cardiovasculare et lymphaticum [Angiologia] – Cardiovascular and lymphatic system 47 Systema nervosum – Nervous system 52 Receptores sensorii et Organa sensuum – Sensory receptors and Sense organs 58 Integumentum – Integument 64 INTRODUCTION The preparations leading to the publication of the present first edition of the Nomina Histologica Veterinaria has a long history spanning more than 50 years. Under the auspices of the World Association of Veterinary Anatomists (W.A.V.A.), the International Committee on Veterinary Anatomical Nomenclature (I.C.V.A.N.) appointed in Giessen, 1965, a Subcommittee on Histology and Embryology which started a working relation with the Subcommittee on Histology of the former International Anatomical Nomenclature Committee. In Mexico City, 1971, this Subcommittee presented a document entitled Nomina Histologica Veterinaria: A Working Draft as a basis for the continued work of the newly-appointed Subcommittee on Histological Nomenclature. This resulted in the editing of the Nomina Histologica Veterinaria: A Working Draft II (Toulouse, 1974), followed by preparations for publication of a Nomina Histologica Veterinaria.
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