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Category:Anatomy Category:Anatomy Show changes Subcategories This category has only the following subcategory. B ► Bones​ (1 P) Pages in category "Anatomy" The following 94 pages are in this category, out of 94 total. A Abdominal Aorta Adductor Canal Adductor Hiatus Portal:Anatomy Aorta Axilla Axon B Bile Biliary tract Bones of the thorax, connections, motility of the ribs C Carotid Triangle Carpal Tunnel Cerebrospinal Fluid Cervical Sympathetic System Circle of Willis Clavipectoral Triangle Coronary circulation Corticospinal tract Cubital Fossa D Deltoid Muscle Dendrite Descent of Testis Diaphragm Ductus deferens E Embryonic Development of Muscles Epicardium Epigastrium External Carotid Artery F Femoral Triangle G Gallbladder Gallbladder and Extrahepatic Bile Ducts Gerota's Fascia H Human Fetal Circulation I Infrapiriform Foramen Inguinal Hernia K Kidney L Lemniscal system Lung Lymph Nodes and Collectors of Head and Neck Lymph Nodes and Collectors of Upper and Lower Limbs M Meninges Migration and Transmigration of Teeth Mimic Muscles and Platysma Muscular and skin innervation of lower limb Muscular Lacuna O Oesophagus Ovary P Pancreas Parapharyngeal Space Pectoralis Major Penis Pharynx – description, divisions, muscles, syntopy, vascular supply, innervation Pineal gland Pneumothorax Popliteal Fossa Portal Vein Portocaval Anastomosis Prosencephalon Prostate Pulmonary circulation Q Quadrangular Space Portal:Questions for final examination in anatomy (1. LF, Dentistry) R Radial Fossa Renal Blood Vessels and Renal Segments Renal Pelvis and Calices Retina S Salivary Glands Scalene Fissure Scrotum Scrotum and Coverings of Testis Spatium Massetericomandibulare and Perimandibular Abscess Spatium Retropharyngeum Structure and Function of Axons and Dendrites Structure of Kidney Suprapiriform Foramen Syntopy of Kidney Systemic circulation T Tarsal Tunnel Temporomandibular joint - structure, movements Teres Major Teres Minor Testis and Epididymis Thymus Tonsills Portal:Topics of seminars in anatomy Triangular Space Trigonum Pirogovi Trigonum Submandibulare U Ureter Urinary Bladder Uterus V Vagina Vascular Lacuna Visceral Media in category "Anatomy" The following 39 files are in this category, out of 39 total. Anatomie.png Anatomy-urogenit… Anatomy-urogenit… Circulation fetal.png Circulation neonat… Fissura scalenoru… 50 × 50; 5 KB 628 × 373; 65 KB 725 × 436; 121 KB 500 × 800; 40 KB 500 × 800; 40 KB 575 × 488; 489 KB Gray410.png Gray411.gif Gray412.gif Gray414.gif Gray422.gif Gray424.gif 531 × 650; 125 KB 550 × 533; 76 KB 550 × 523; 51 KB 227 × 700; 46 KB 650 × 386; 46 KB 467 × 700; 50 KB Gray434.gif Gray507.gif Gray512.gif Gray523.gif Gray546.gif Gray549.gif 368 × 1,000; 117 725 × 800; 186 KB 500 × 433; 40 KB 683 × 600; 125 KB 500 × 385; 59 KB 550 × 600; 147 KB KB Gray550.gif Gray551.gif Gray816.gif Kidney syntopy ba… Kidney syntopy.png Ligaments of pelvi… 445 × 750; 99 KB 275 × 900; 101 KB 524 × 1,000; 112 480 × 480; 70 KB 480 × 480; 62 KB 900 × 640; 60 KB KB Ligamentsofpelvis… Pelvis-female fron… Pelvis-female fron… Pelvis-female sagi… Pelvis-female-sagi… Pelvis-frontalsecti… 2,338 × 1,700; 531 1,024 × 768; 233 1,024 × 768; 60 KB 960 × 800; 234 KB 2,338 × 1,700; 814 2,338 × 1,700; 900 KB KB KB KB Pelvis-frontalsecti… Pelvis-male frontal… Pelvis-male frontal… Pelvis-male sagitt… Penis-xsection.jpg Pevlis-male-sagitt… 2,338 × 1,700; 880 1,024 × 768; 207 1,024 × 768; 50 KB 960 × 800; 274 KB 2,338 × 1,700; 355 2,338 × 1,700; 748 KB KB KB KB Uterus+vagina.jpg Vagina uterus.png Vagina uterus.svg 1,912 × 941; 359 960 × 800; 160 KB 960 × 800; 64 KB KB Retrieved from "https://www.wikilectures.eu/index.php?title=Category:Anatomy&oldid=3084".
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  • Gross Anatomy
    www.BookOfLinks.com THE BIG PICTURE GROSS ANATOMY www.BookOfLinks.com Notice Medicine is an ever-changing science. As new research and clinical experience broaden our knowledge, changes in treatment and drug therapy are required. The authors and the publisher of this work have checked with sources believed to be reliable in their efforts to provide information that is complete and generally in accord with the standards accepted at the time of publication. However, in view of the possibility of human error or changes in medical sciences, neither the authors nor the publisher nor any other party who has been involved in the preparation or publication of this work warrants that the information contained herein is in every respect accurate or complete, and they disclaim all responsibility for any errors or omissions or for the results obtained from use of the information contained in this work. Readers are encouraged to confirm the infor- mation contained herein with other sources. For example and in particular, readers are advised to check the product information sheet included in the package of each drug they plan to administer to be certain that the information contained in this work is accurate and that changes have not been made in the recommended dose or in the contraindications for administration. This recommendation is of particular importance in connection with new or infrequently used drugs. www.BookOfLinks.com THE BIG PICTURE GROSS ANATOMY David A. Morton, PhD Associate Professor Anatomy Director Department of Neurobiology and Anatomy University of Utah School of Medicine Salt Lake City, Utah K. Bo Foreman, PhD, PT Assistant Professor Anatomy Director University of Utah College of Health Salt Lake City, Utah Kurt H.
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    Int. J. Morphol., 34(3):1063-1068, 2016. Infraclavicular Topography of the Brachial Plexus Fascicles in Different Upper Limb Positions Topografía Infraclavicular de los Fascículos del Plexo Braquial en Diferentes Posiciones del Miembro Superior Daniel Alves dos Santos*; Amilton Iatecola*; Cesar Adriano Dias Vecina*; Eduardo Jose Caldeira**; Ricardo Noboro Isayama**; Erivelto Luis Chacon**; Marianna Carla Alves**; Evanisi Teresa Palomari***; Maria Jose Salete Viotto**** & Marcelo Rodrigues da Cunha*,** ALVES DOS SANTOS, D.; IATECOLA, A.; DIAS VECINA, C. A.; CALDEIRA, E. J.; NOBORO ISAYAMA, R.; CHACON, E. L.; ALVES, M. C.; PALOMARI, E. T.; SALETE VIOTTO, M. J. & RODRIGUES DA CUNHA, M. Infraclavicular topography of the brachial plexus fascicles in different upper limb positions. Int. J. Morphol., 34 (3):1063-1068, 2016. SUMMARY: Brachial plexus neuropathies are common complaints among patients seen at orthopedic clinics. The causes range from traumatic to occupational factors and symptoms include paresthesia, paresis, and functional disability of the upper limb. Treatment can be surgical or conservative, but detailed knowledge of the brachial plexus is required in both cases to avoid iatrogenic injuries and to facilitate anesthetic block, preventing possible vascular punctures. Therefore, the objective of this study was to evaluate the topography of the infraclavicular brachial plexus fascicles in different upper limb positions adopted during some clinical procedures. A formalin- preserved, adult, male cadaver was used. The infraclavicular and axillary regions were dissected and the distance of the brachial plexus fascicles from adjacent bone structures was measured. No anatomical variation in the formation of the brachial plexus was observed. The metric relationships between the brachial plexus and adjacent bone prominences differed depending on the degree of shoulder abduction.
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  • Upper Extremity Venous Ultrasound
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  • Surface Anatomy
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    INTRODUCTION TO SURFACE ANATOMY OF UPPER & LOWER LIMBS OBJECTIVES By the end of the lecture, students should be able to: •Palpate and feel the bony the important prominences in the upper and the lower limbs. •Palpate and feel the different muscles and muscular groups and tendons. •Perform some movements to see the action of individual muscle or muscular groups in the upper and lower limbs. •Feel the pulsations of most of the arteries of the upper and lower limbs. •Locate the site of most of the superficial veins in the upper and lower limbs Prof. Saeed Abuel 2 Makarem What is Surface Anatomy? • It is a branch of gross anatomy that examines shapes and markings on the surface of the body as they are related to deeper structures. • It is essential in locating and identifying anatomic structures prior to studying internal gross anatomy. • It helps to locate the affected organ / structure / region in disease process. • The clavicle is subcutaneous and can be palpated throughout its length. • Its sternal end projects little above the manubrium. • Between the 2 sternal ends of the 2 clavicles lies the jugular notch (suprasternal notch). • The acromial end of the clavicle can be palpated medial to the lateral border of the acromion, of the scapula. particularly when the shoulder is alternately raised and depressed. • The large vessels and nerves to the upper limb pass posterior to the convexity of the clavicle. 4 • The coracoid process of scapula can be felt deeply below the lateral one third of the clavicle in the Deltopectoral GROOVE or clavipectoral triangle.
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  • Innervation of the Clavicular Part of the Deltoid Muscle by the Lateral Pectoral Nerve
    Zurich Open Repository and Archive University of Zurich Main Library Strickhofstrasse 39 CH-8057 Zurich www.zora.uzh.ch Year: 2020 Innervation of the clavicular part of the deltoid muscle by the lateral pectoral nerve Larionov, Alexey ; Yotovski, Peter ; Link, Karl ; Filgueira, Luis Abstract: INTRODUCTION: The innervation pattern of the clavicular head of the deltoid muscle and its corresponding topography were investigated via cadaveric dissection in the present study, focusing on the lateral pectoral nerve. MATERIALS AND METHODS: Fifty-eight upper extremities were dissected and the nerve supplies to the deltoid muscle and the variability of the lateral pectoral and axillary nerves, including their topographical patterns, were noted. RESULTS: The clavicular portion of the deltoid muscle received a deltoid branch from the lateral pectoral nerve in 86.2% of cases. Two topographical patterns of the lateral pectoral nerve were observed, depending on the branching level from the brachial plexus: a proximal variant, where the nerve entered the pectoral region undern the clavicle, and a distal variant, where the nerve entered the pectoral region from the axillary fossa around the caudal border of the pectoralis minor. These dissection findings were supported by histological confirmation of peripheral nerve tissue entering the clavicular part of the deltoid muscle. CONCLUSION: The topographical variations of the lateral pectoral nerve are relevant for orthopedic and trauma surgeons and neurologists. These new data could revise the interpretation of deltoid muscle atrophy and of thoracic outlet and pectoralis minor compression syndromes. They could also explain the residual anteversion function of the arm after axillary nerve injury and deficiency, which is often thought to be related to biceps brachii muscle function.
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    EANS/UEMS European examination in neurosurgery Part I (written) Variants of questions with answers (compilation - Vyacheslav S. Botev, Department of Neurosurgery, M.Gorky Donetsk National Medical University) Peripheral Nerves and Plexus. Questions. Questions 1 – 12 Directions: The questions below consist of lettered headings from figure followed by a set of numbered items. For each numbered item select one heading with which it is most closely associated. Each lettered heading may be used once, more than once, or not at all. 1. Nerve supplies muscles that are antagonists to the serratus anterior. 2. Injury to this nerve may result in winged scapula. 3. Innervates teres minor muscle. 4. Injury to this nerve will result in flexion weakness, especially when the forearm is supine. 5. Innervates supinator muscle. 6. Nerve most commonly affected by entrapment neuropathy. 7. A pure lesion of a branch of this nerve can result in weakness of the long flexors of the thumb and index finger (producing a pinch sign) and pronator quadratus. 8. Injury of this nerve may occur in Guayan’s canal. 9. Compression of this nerve may occur by a ligament that bridges the supracondylar process to the medial epicondyle. 10. Innervates the interossei muscles. 11. Supplies sensation to the anteromedial and posteromedial forearm down to the wrist. 12. Entrapment in quadrilateral space. Questions 13 – 17 Directions: The questions below consist of lettered headings from figure followed by a set of numbered items. For each numbered item select one heading with which it is most closely associated. Each lettered heading may be used once, more than once, or not at all.
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  • Anatomical Variations of Superficial Veins Pattern in Cubital Fossa Among North West Ethiopians
    ORIGINAL ARTICLE Anatomy Journal of Africa. 2018. Vol 7 (2): 1238 - 1243 ANATOMICAL VARIATIONS OF SUPERFICIAL VEINS PATTERN IN CUBITAL FOSSA AMONG NORTH WEST ETHIOPIANS Abebe Ayalew Bekel1 (MSc.), AssegeDech Bekele Bekalu2 (PhD), Abebe Muche Moges2 (PhD), Mueez Abraha GebretsaDik2 (MSc.) 1: Bahir Dar University College of Medicine and Health Sciences 2: Gondar University College of Medicine and Health Sciences Correspondence to Abebe Ayalew Bekel Department of Human Anatomy, College of Medicine and Health Sciences Bahir Dar University P. O. Box: 79, Bahir Dar, Ethiopia. Email: [email protected] Telephone: +251918040350, Fax: 058 220 5932 ABSTRACT Superficial veins in the cubital fossa are a common site for obtaining venous blood for analysis, transfusion, and intravenous therapy. These superficial veins are often visible through the skin, and are anatomically variable. These include cephalic vein, basilic vein, median cubital vein, and median antebrachial vein. The objective of this study is to assess variations of superficial veins arrangement in the cubital fossa. A tourniquet was applied 10 cm proximal to elbow crease for about three minutes with active flexion and extension of fingers until the veins are exposed for observation. Four types of superficial venous patterns were identified in cubital fossa. From the total of 800 studied arms 58.5%, 18.6%, 14%, 8.9% had type 1, type 2, type 3, and type 4 patterns, respectively. In the majority of studied subjects, the veins patterns go with the findings of former studies. However, some rare venous patterns were also identified. Key worDs: Cubital fossa; superficial veins; variations INTRODUCTION The main superficial veins in the cubital fossa are It courses superiorly along deltopectoral groove cephalic, basilic and median veins (median and enter to clavipectoral triangle.
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  • Memorix Anatomie
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