DOCSLIB.ORG

Arteries of the Neck Common Carotid Artery

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Arteries of the Neck Common Carotid Artery Arteries of the neck Common carotid artery Beginning: On the right, the CCA arises from the brachiocephalic artery as it passes behind the sternoclavicular joint. On the left, it arises directly from the arch of the aorta in the superior mediastinum. End: upper border of the thyroid cartilage, by dividing into ECA and ICA. Branches: it gives no branches except its terminal branches(ECA and ICA). Internal carotid artery Beginning: from CCA lateral to the upper border of the thyroid cartilage. End: in the cranial cavity by dividing into anterior and middle cerebral arteries. External carotid artery Beginning: from CCA lateral to the upper border of the thyroid cartilage. End: in the substance of the parotid gland behind the neck of the mandible, by dividing into superficial temporal and maxillary arteries. Course: At its origin, it lies in the carotid triangle and lies anteromedial to the ICA. It later becomes anterior, then lateral, to the internal carotid as it ascends. It first ascends forwards and then inclines backwards and laterally, to pass midway between the tip of the mastoid process and the angle of the mandible. Relations: Superficial relations Deep relations - skin and superficial fascia. - lateral wall of the pharynx. - cervical branch of the facial n. - internal carotid artery. - sternocleidomastoid muscle. NB: ICA sparated from ECA - posterior belly of digastric ms. by: - posteromedial surface of the - styloid process. parotid gland. - styloglossus ms. - stylopharyngeus muscle. - glossopharyngeal nerve. - pharyngeal br. of vagus n. - part of the parotid gland. Branches of ECA: 1- Superior thyroid artery: just below the level of the greater cornu of the hyoid bone to supply thyroid gland. 2- Ascending pharyngeal artery: It arises near ECA beginning. to supply the pharynx and tonsils. 3- Lingual artery: arises opposite the tip of greater cornu to supply the tongue and the floor of the mouth. Mid. cerebral a. Ant. cerebral a. Cavernous sinus containing ICA Branches of ECA: 4- Facial artery: it arises above the greater cornu of the hyoid bone. It supplies the neck and face 5- Occipital artery: It passes backwards, up deep to posterior belly of digastrics to supply mastoid and occiput. 6- Posterior auricular artery: it arise just above digastric and stylohyoid muscles to supply digastric, stylohyoid, sternocleidomastoid and the parotid gland. Branches of ECA: A- branches from anterior surface: 1- superior thyroid A. 2- lingual A. 2- facial A. B- branches from posterior surface: 1- occipital A. 2- posterior auricular A. C- branches from medial surfac 1- ascending pharyngeal A. D- branches from termination: 1- maxillary A. 2- superficial temporal A. Veins of the neck(jugular veins): 1- Internal jugular v. 2- External jugular v. 3- Anterior jugular v. Internal jugular vein Beginning: at the base of the skull (at jugular foramen) as a continuation of sigmoid sinus. End: by union with the subclavian vein to form the brachiocephalic vein. Course: descends in the carotid sheath on the side of the neck. Relations : # Deep relations: - transverse process of the atlas. - cervical plexus, phrenic n. and thyrocervical trunk. - vertebral v. and 1st of the subclavian artery. # Medially: ICA, CCA and vagus nerve. # Superficial relations: - sternocleidomastoid - parotid gland. - styloid process & accessory n. - posterior belly of digastrics. - sup. belly of omohyoid. - posterior auricular and occipital arteries. Tributaries : 1- inferior petrosal sinus 2- Common facial vein 3- lingual vein 4- superior thyroid vein 5- middle thyroid vein 6- pharyngeal veins. External jugular vein(EJV) - Beginning: Posterior auricular vein + posterior branch retromandibular vein within substance of parotid. - Course: runs vertically downwards, superficial to sternomastoid muscle, 1 inch above midclavicular point it end. - End: in the subclavian vein - Tributaries: 1- transverse cervical vein. 2- suprascapular. 3- anterior jugular vein. Anterior jugular vein (AJV) Beginning: union of a few small veins near the hyoid bone. End in (drain into): EJV. Course: it runs downwards paramedian till suprasternal notch. CAROTID SHEATH Definition: It is a tube of connective tissue around the main vessels of neck. Attachments: 1- Above: to base of skull around carotid and jugular foramens. 2- below: blends with adventitia of arch of aorta. 3- anteriory: continuous with pretracheal facia. 4- Posteriory: continuous with prevertebral facia. Relations: Superficial Deep relations - skin, superficial and - transverse processes of deep facias. cervical vertebrae. - sternomastoid ms. - lateral vertebral muscles. - posterior belly of - 1st part of subclavian digastric. artery. - infrahyoid ms. Contents: - In the upper part (above level of posterior belly of digastric). - ICA(anteromedially). - IJV(posterolaterally). - Lower 4 cranial nerves (in between them). - In the lower part (below the level of posterior belly of digastric) - CCA(anteromedially). - IJV(posterolaterally). - vagus nerve(in between them). NB: sympathetic chain: embedded in the posterior wall of carotid sheath. Ansa cervicalis, embedded in the anterior wall of carotid sheath. .
Load more

Recommended publications
  • Ipsilateral Subclavian Steal in Association with Aberrant Origin of the Left Vertebral Artery from the Aortic Arch
    411 Ipsilateral Subclavian Steal in Association with Aberrant Origin of the Left Vertebral Artery from the Aortic Arch John Holder1 Five cases are reported of left subclavian steal syndrome associated with anomalous Eugene F. Binet2 origin of the left vertebral artery from the aortic arch. In all five instances blood flow at Bernard Thompson3 the origin of the left vertebral artery was in an antegrade direction contrary to that usually reported in this condition. The distal subclavian artery was supplied via an extensive collateral network of vessels connecting the vertebral artery to the thyro­ cervical trunk. If a significant stenosis or occlusion is present within the left subc lavi an artery proximal to the origin of the left vertebral artery, the direction of the bl ood fl ow within the vertebral artery will reverse toward the parent vessel (retrograde flow). This phenomenon occurs when a negative pressure gradient of 20-40 torr exists between the vertebral-basilar artery junction and th e vertebral-subc lavian artery junction [1-3]. We describe five cases of subclavian steal confirmed by angiography where a significant stenosis or occlusion of the left subclavian artery was demonstrated in association with anomalous origin of th e left vertebral artery directly from the aortic arch. In all five cases blood flow at the origin of the left vertebral artery was in an antegrade direction contrary to that more commonly reported in the subclavian steal syndrome. Materials and Methods The five patients were all 44- 58-year-old men. Three sought medical attention for symptoms specificall y related to th e left arm .
    [Show full text]
  • Anatomy of the Thyroid, Parathyroid, Pituitary and Adrenal Glands, Surgery (2017), BASIC SCIENCE
    BASIC SCIENCE The neuroendocrine parafollicular (C) cells from neural crest Anatomy of the thyroid, tissue develop separately in the ultimobranchial body, which develops from the 4th pharyngeal pouch. These cells migrate into parathyroid, pituitary and the thyroid tissue following fusion of the ultimobranchial body with the thyroid gland. adrenal glands Glandular development is controlled by thyroid-stimulating hormone (TSH) and the thyroid becomes functional during the Sarah Hillary third month of gestation. Saba P Balasubramanian Gross anatomy The thyroid gland lies anterior to the cricoid cartilage and tra- Abstract chea, and slightly inferior to the thyroid cartilages. It comprises A detailed understanding of anatomy is essential for several reasons: two lateral lobes joined together by an isthmus. The lateral lobes to enable accurate diagnosis and plan appropriate management; to can be traced from the lateral aspect of the thyroid cartilage perform surgery in a safe and effective manner avoiding damage to down to the level of the sixth tracheal ring. The isthmus overlies adjacent structures; and to anticipate and recognize variations in the second and third tracheal rings. The entire gland is enclosed normal anatomy. This article will cover the anatomy of four major within the pretracheal fascia, a layer of deep fascia that anchors endocrine glands (thyroid, parathyroid, pituitary and adrenal). Other the gland posteriorly with the trachea and the laryngopharynx, endocrine glands (such as the hypothalamus, pineal gland, thymus, causing it to move during swallowing. The gland has a fibrous endocrine pancreas and the gonads) are beyond the scope of this outer capsule, from which septae run into the gland to separate it article.
    [Show full text]
  • Endocrine Block اللهم ال سهل اال ما جعلته سهل و أنت جتعل احلزن اذا شئت سهل
    OSPE ENDOCRINE BLOCK اللهم ﻻ سهل اﻻ ما جعلته سهل و أنت جتعل احلزن اذا شئت سهل Important Points 1. Don’t forget to mention right and left. 2. Read the questions carefully. 3. Make sure your write the FULL name of the structures with the correct spelling. Example: IVC ✕ Inferior Vena Cava ✓ Aorta ✕ Abdominal aorta ✓ 4. There is NO guarantee whether or not the exam will go out of this file. ممكن يأشرون على أجزاء مو معلمه فراح نحط بيانات إضافية حاولوا تمرون عليها كلها Good luck! Pituitary gland Identify: 1. Anterior and posterior clinoidal process of sella turcica. 2. Hypophyseal fossa (sella turcica) Theory • The pituitary gland is located in middle cranial fossa and protected in sella turcica (hypophyseal fossa) of body of sphenoid. Relations Of Pituitary Gland hypothalamus Identify: 1. Mamillary body (posteriorly) 2. Optic chiasma (anteriorly) 3. Sphenoidal air sinuses (inferior) 4. Body of sphenoid 5. Pituitary gland Theory • If pituitary gland became enlarged (e.g adenoma) it will cause pressure on optic chiasma and lead to bilateral temporal eye field blindness (bilateral hemianopia) Relations Of Pituitary Gland Important! Identify: 1. Pituitary gland. 2. Diaphragma sellae (superior) 3. Sphenoidal air sinuses (inferior) 4. Cavernous sinuses (lateral) 5. Abducent nerve 6. Oculomotor nerve 7. Trochlear nerve 8. Ophthalmic nerve 9. Trigeminal (Maxillary) nerve Structures of lateral wall 10. Internal carotid artery Note: Ophthalmic and maxillary are both branches of the trigeminal nerve Divisions of Pituitary Gland Identify: 1. Anterior lobe (Adenohypophysis) 2. Optic chiasma 3. Infundibulum 4. Posterior lobe (Neurohypophysis) Theory Anterior Lobe Posterior Lobe • Adenohypophysis • Neurohypophysis • Secretes hormones • Stores hormones • Vascular connection to • Neural connection to hypothalamus by hypothalamus by Subdivisions hypophyseal portal hypothalamo-hypophyseal system (from superior tract from supraoptic and hypophyseal artery) paraventricular nuclei.
    [Show full text]
  • Cervical Viscera and Root of Neck
    Cervical viscera & Root of neck 頸部臟器 與 頸根部 解剖學科 馮琮涵 副教授 分機 3250 E-mail: [email protected] Outline: • Position and structure of cervical viscera • Blood supply and nerve innervation of cervical viscera • Contents in root of neck Viscera of the Neck Endocrine layer – thyroid and parathyroid glands Respiratory layer – larynx and trachea Alimentary layer – pharynx and esophagus Thyroid gland Position: deep to sterno-thyroid and sterno-hyoid ms. (the level of C5 to T1) coverd by pretracheal deep cervical fascia (loose sheath) and capsule (dense connective tissue) anterolateral to the trachea arteries: superior thyroid artery – ant. & post. branches inferior thyroid artery (br. of thyrocervical trunk) thyroid ima artery (10%) Veins: superior thyroid vein IJVs (internal jugular veins) middle thyroid vein IJVs inferior thyroid vein brachiocephalic vein Thyroid gland Lymphatic drainage: prelaryngeal, pretracheal and paratracheal • lymph nodes inferior deep cervical lymph nodes Nerves: superior, middle & inferior cervical sympathetic ganglia periarterial plexuses • # thyroglossal duct cysts, pyramidal lobe (50%) # Parathyroid glands Position: external to thyroid capsule, but inside its sheath superior parathyroid glands – 1 cm sup. to the point of inf. thyroid artery into thyroid inferior parathyroid glands – 1 cm inf. to inf. thyroid artery entry point (various position) Vessels: branches of inf. thyroid artery or sup. thyroid artery parathyroid veins venous plexuses of ant. surface of thyroid Nerves: thyroid branches of the cervical sympathetic ganglia Trachea Tracheal rings (C-shape cartilage) + trachealis (smooth m.) Position: C6 (inf. end of the larynx) – T4/T5 (sternal angle) # trache`ostomy – 1st and 2nd or 2nd through 4th tracheal rings # care: inf. thyroid veins, thyroid ima artery, brachiocephalic vein, thymus and trachea Esophagus Position: from the inf.
    [Show full text]
  • The Variations of the Subclavian Artery and Its Branches Ahmet H
    Okajimas Folia Anat. Jpn., 76(5): 255-262, December, 1999 The Variations of the Subclavian Artery and Its Branches By Ahmet H. YUCEL, Emine KIZILKANAT and CengizO. OZDEMIR Department of Anatomy, Faculty of Medicine, Cukurova University, 01330 Balcali, Adana Turkey -Received for Publication, June 19,1999- Key Words: Subclavian artery, Vertebral artery, Arterial variation Summary: This study reports important variations in branches of the subclavian artery in a singular cadaver. The origin of the left vertebral artery was from the aortic arch. On the right side, no thyrocervical trunk was found. The two branches which normally originate from the thyrocervical trunk had a different origin. The transverse cervical artery arose directly from the subclavian artery and suprascapular artery originated from the internal thoracic artery. This variation provides a short route for posterior scapular anastomoses. An awareness of this rare variation is important because this area is used for diagnostic and surgical procedures. The subclavian artery, the main artery of the The variations of the subclavian artery and its upper extremity, also gives off the branches which branches have a great importance both in blood supply the neck region. The right subclavian arises vessels surgery and in angiographic investigations. from the brachiocephalic trunk, the left from the aortic arch. Because of this, the first part of the right and left subclavian arteries differs both in the Subjects origin and length. The branches of the subclavian artery are vertebral artery, internal thoracic artery, This work is based on a dissection carried out in thyrocervical trunk, costocervical trunk and dorsal the Department of Anatomy in the Faculty of scapular artery.
    [Show full text]
  • Selective Venous Sampling for Primary Hyperparathyroidism: How to Perform an Examination and Interpret the Results with Reference to Thyroid Vein Anatomy
    Jpn J Radiol DOI 10.1007/s11604-017-0658-3 INVITED REVIEW Selective venous sampling for primary hyperparathyroidism: how to perform an examination and interpret the results with reference to thyroid vein anatomy Takayuki Yamada1 · Masaya Ikuno1 · Yasumoto Shinjo1 · Atsushi Hiroishi1 · Shoichiro Matsushita1 · Tsuyoshi Morimoto1 · Reiko Kumano1 · Kunihiro Yagihashi1 · Takuyuki Katabami2 Received: 11 April 2017 / Accepted: 28 May 2017 © Japan Radiological Society 2017 Abstract Primary hyperparathyroidism (pHPT) causes and brachiocephalic veins for catheterization of the thyroid hypercalcemia. The treatment for pHPT is surgical dis- veins and venous anastomoses. section of the hyperfunctioning parathyroid gland. Lower rates of hypocalcemia and recurrent laryngeal nerve injury Keywords Primary hyperparathyroidism · Localization · imply that minimally invasive parathyroidectomy (MIP) is Thyroid vein · Venous sampling safer than bilateral neck resection. Current trends in MIP use can be inferred only by reference to preoperative locali- zation studies. Noninvasive imaging studies (typically pre- Introduction operative localization studies) show good detection rates of hyperfunctioning glands; however, there have also been Primary hyperparathyroidism (pHPT) is a common endocrine cases of nonlocalization or discordant results. Selective disease. Most patients have one adenoma, but double adeno- venous sampling (SVS) is an invasive localization method mas have been reported in up to 15% of cases [1]. Approxi- for detecting elevated intact parathyroid
    [Show full text]
  • Spontaneous Arteriovenous Malformations in the Cervical Area
    J Neurol Neurosurg Psychiatry: first published as 10.1136/jnnp.33.3.303 on 1 June 1970. Downloaded from J. Neurol. Neurosurg. Psychiat., 1970, 33, 303-309 Spontaneous arteriovenous malformations in the cervical area J. GREENBERG, M.D. From the Department of Neurology, Episcopal Hospital, Philadelphia, Pennsylvania 19125, U.S.A. SUMMARY Four patients with spontaneous arteriovenous malformations of cervical vessels have been presented. The embryology of these vessels has been discussed in order to suggest an ex- planation for the apparent difference in the incidence of arteriovenous malformations involving the internal carotid artery and those involving either the vertebral or the external carotid arteries. A fifth case (S.T.) is presented as a probable iatrogenic arteriovenous fistula and is to be added to the steadily growing reports of this phenomenon. Trauma is the most common cause of arteriovenous had sustained a minor injury to the posterior aspect communications between the blood vessels in of the right ear. Routine skull films at the time did not the cervical area (Aronson, 1961). Iatrogenic reveal a fracture, and there was no evidence of local Protected by copyright. deep tissue injury noted. fistulae occurring after carotid or vertebral angio- On the present admission, a slight prominence of the graphy are being reported with regularity in the right retroauricular region was noted and a thrill and recent literature (Sutton, 1962). Spontaneous mal- bruit were present. The bruit could be obliterated by formations in this area also occur. Thus far, eight local pressure. cases have been reported involving the vertebral The neurological examination was within normal vessels (Norman, Schmidt, and Grow, 1950; limits.
    [Show full text]
  • Ascending and Descending Thoracic Vertebral Arteries
    CLINICAL REPORT EXTRACRANIAL VASCULAR Ascending and Descending Thoracic Vertebral Arteries X P. Gailloud, X L. Gregg, X M.S. Pearl, and X D. San Millan ABSTRACT SUMMARY: Thoracic vertebral arteries are anastomotic chains similar to cervical vertebral arteries but found at the thoracic level. Descending thoracic vertebral arteries originate from the pretransverse segment of the cervical vertebral artery and curve caudally to pass into the last transverse foramen or the first costotransverse space. Ascending thoracic vertebral arteries originate from the aorta, pass through at least 1 costotransverse space, and continue cranially as the cervical vertebral artery. This report describes the angiographic anatomy and clinical significance of 9 cases of descending and 2 cases of ascending thoracic vertebral arteries. Being located within the upper costotransverse spaces, ascending and descending thoracic vertebral arteries can have important implications during spine inter- ventional or surgical procedures. Because they frequently provide radiculomedullary or bronchial branches, they can also be involved in spinal cord ischemia, supply vascular malformations, or be an elusive source of hemoptysis. ABBREVIATIONS: ISA ϭ intersegmental artery; SIA ϭ supreme intercostal artery; VA ϭ vertebral artery he cervical portion of the vertebral artery (VA) is formed by a bral arteria lusoria8-13 or persistent left seventh cervical ISA of Tseries of anastomoses established between the first 6 cervical aortic origin.14 intersegmental arteries (ISAs) and one of the carotid-vertebral This report discusses 9 angiographic observations of descend- anastomoses, the proatlantal artery.1-3 The VA is labeled a “post- ing thoracic VAs and 2 cases of ascending thoracic VAs. costal” anastomotic chain (ie, located behind the costal process of cervical vertebrae or dorsal to the rib itself at the thoracic level) to CASE SERIES emphasize its location within the transverse foramina.
    [Show full text]
  • The Rare Origin of the Suprascapular Artery Arising Off The
    eISSN 1308-4038 International Journal of Anatomical Variations (2011) 4: 182–184 Case Report The rare origin of the suprascapular artery arising off the internal thoracic artery in the presence of the thyrocervical trunk: clinical and surgical implications Published online December 2nd, 2011 © http://www.ijav.org Stavros ATSAS ABSTRACT Jacob N. FOX During routine dissection of the subclavian artery and its branches, the suprascapular artery was found arising from H. Wayne LAMBERT the proximal end of the internal thoracic artery in only the left side of a 68-year-old Caucasian male, despite the presence of the thyrocervical trunk on the ipsilateral side. The suprascapular artery ran deep to the proximal one- third of the clavicle then continued its usual course, running parallel to the suprascapular nerve and passing over the superior transverse scapular ligament distally. Knowledge of this variant origin of the suprascapular artery is clinically Department of Neurobiology and Anatomy, West Virginia University School of Medicine, important because the internal thoracic artery is utilized for a majority of the 800,000 coronary artery bypass surgeries Robert C. Byrd Health Sciences Center, Morgantown, West Virginia, USA. performed worldwide each year. Its course deep to the clavicle is also significant due to clavicular fractures accounting for approximately 5-15% of adult bone fractures. © IJAV. 2011; 4: 182–184. Dr. H. Wayne Lambert, PhD Associate Professor West Virginia University School of Medicine Robert C. Byrd Health Sciences Center Department of Neurobiology and Anatomy HSN 4052; P.O. Box 9128 Morgantown, WV, 26506-9128, USA. +1 304 293-0610 [email protected] Key words [anatomical variant] [suprascapular artery] [internal thoracic artery] [branches of subclavian artery] [thyrocervical trunk] [coronary bypass Received June 21st, 2011; accepted October 12th, 2011 surgery] [radical and modified neck dissections] Introduction In 2005, Weiglein et al.
    [Show full text]
  • Safe and Optimum Steps for Total / Hemi Thyroidectomy
    Otolaryngology Open Access Journal ISSN: 2476-2490 Safe and Optimum Steps for Total / Hemi Thyroidectomy Vikas Jain* Editorial Department of surgical oncology, Asian institute of medical sciences, Haryana, India Volume 1 Issue 2 Received Date: August 12, 2016 *Corresponding author: Vikas Jain, Department of surgical oncology, Asian institute Published Date: August 22, 2016 of medical sciences, Sector 21A, Badkhal road, Faridabad, Haryana, India, E-mail: DOI: 10.23880/OOAJ-16000120 [email protected] Introduction Step 1: Positioning to Draping Thyroidectomy is always an interesting surgery for all Correct optimal positioning is critical for proper general, ENT, endocrine and oncosurgeons. There is lot of exposure of thyroid bed and approach for maneuvers. paradigm shift in thyroid surgeries from no identification After general anesthesia and endotracheal intubation, to identification and tracking for recurrent laryngeal patient should be kept in supine position with full neck nerve and from open thyroidectomy to video-assisted and extension supported by sand bag underneath inter- minimal invasive thyroidectomy procedures. Most of scapular region and a silicone gel or sheath under surgeons in our country are more trained in open occipital region. Neck extension makes the swelling more thyroidectomy and basic principal in even minimal prominent and surgical landmarks more visible. For invasive surgeries also remains same for it which we are draping, take three sheets of cloth, across and under head discussing in this article for educational purpose of post region. Drop one sheet on operation table, one over the graduates of all sub specialties mentioned. Previously lot shoulders and upper most to cover head and face region of surgeries are described for thyroid lesion like hemi- upto the mandible lower border or chin.
    [Show full text]
  • An Unusual Origin and Course of the Thyroidea Ima Artery, with Absence of Inferior Thyroid Artery Bilaterally
    Surgical and Radiologic Anatomy (2019) 41:235–237 https://doi.org/10.1007/s00276-018-2122-1 ANATOMIC VARIATIONS An unusual origin and course of the thyroidea ima artery, with absence of inferior thyroid artery bilaterally Doris George Yohannan1 · Rajeev Rajan1 · Akhil Bhuvanendran Chandran1 · Renuka Krishnapillai1 Received: 31 May 2018 / Accepted: 21 October 2018 / Published online: 25 October 2018 © Springer-Verlag France SAS, part of Springer Nature 2018 Abstract We report an unusual origin and course of the thyroidea ima artery in a male cadaver. The ima artery originated from the right subclavian artery very close to origin of the right vertebral artery. The artery coursed anteriorly between the common carotid artery medially and internal jugular vein laterally. It then coursed obliquely, from below upwards, from lateral to medial superficial to common carotid artery, to reach the inferior pole of the right lobe of thyroid and branched repeatedly to supply the anteroinferior and posteroinferior aspects of both the thyroid lobes and isthmus. The superior thyroid arteries were normal. Both the inferior thyroid arteries were absent. The unusual feature of this thyroidea ima artery is its origin from the subclavian artery close to vertebral artery origin, the location being remarkably far-off from the usual near midline position, and the oblique and relatively superficial course. This report is a caveat to neck surgeons to consider such a superficially running vessel to be a thyroidea ima artery. Keywords Thyroid vascular anatomy · Thyroidea ima artery · Artery of Neubauer · Blood supply of thyroid · Variations Introduction (1.1%), transverse scapular (1.1%), or pericardiophrenic or thyrocervical trunk [8, 10].
    [Show full text]
  • SAY: Welcome to Module 1: Anatomy & Physiology of the Brain. This
    12/19/2018 11:00 AM FOUNDATIONAL LEARNING SYSTEM 092892-181219 © Johnson & Johnson Servicesv Inc. 2018 All rights reserved. 1 SAY: Welcome to Module 1: Anatomy & Physiology of the Brain. This module will strengthen your understanding of basic neuroanatomy, neurovasculature, and functional roles of specific brain regions. 1 12/19/2018 11:00 AM Lesson 1: Introduction to the Brain The brain is a dense organ with various functional units. Understanding the anatomy of the brain can be aided by looking at it from different organizational layers. In this lesson, we’ll discuss the principle brain regions, layers of the brain, and lobes of the brain, as well as common terms used to orient neuroanatomical discussions. 2 SAY: The brain is a dense organ with various functional units. Understanding the anatomy of the brain can be aided by looking at it from different organizational layers. (Purves 2012/p717/para1) In this lesson, we’ll explore these organizational layers by discussing the principle brain regions, layers of the brain, and lobes of the brain. We’ll also discuss the terms used by scientists and healthcare providers to orient neuroanatomical discussions. 2 12/19/2018 11:00 AM Lesson 1: Learning Objectives • Define terms used to specify neuroanatomical locations • Recall the 4 principle regions of the brain • Identify the 3 layers of the brain and their relative location • Match each of the 4 lobes of the brain with their respective functions 3 SAY: Please take a moment to review the learning objectives for this lesson. 3 12/19/2018 11:00 AM Directional Terms Used in Anatomy 4 SAY: Specific directional terms are used when specifying the location of a structure or area of the brain.
    [Show full text]