DOCSLIB.ORG

Histology Histology

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

HISTOLOGY HISTOLOGY ОДЕСЬКИЙ НАЦІОНАЛЬНИЙ МЕДИЧНИЙ УНІВЕРСИТЕТ THE ODESSA NATIONAL MEDICAL UNIVERSITY Áiáëiîòåêà ñòóäåíòà-ìåäèêà Medical Student’s Library Серія заснована в 1999 р. на честь 100-річчя Одеського державного медичного університету (1900–2000 рр.) The series is initiated in 1999 to mark the Centenary of the Odessa State Medical University (1900–2000) 1 L. V. Arnautova O. A. Ulyantseva HISTÎLÎGY A course of lectures A manual Odessa The Odessa National Medical University 2011 UDC 616-018: 378.16 BBC 28.8я73 Series “Medical Student’s Library” Initiated in 1999 Authors: L. V. Arnautova, O. A. Ulyantseva Reviewers: Professor V. I. Shepitko, MD, the head of the Department of Histology, Cytology and Embryology of the Ukrainian Medical Stomatologic Academy Professor O. Yu. Shapovalova, MD, the head of the Department of Histology, Cytology and Embryology of the Crimean State Medical University named after S. I. Georgiyevsky It is published according to the decision of the Central Coordinational Methodical Committee of the Odessa National Medical University Proceedings N1 from 22.09.2010 Навчальний посібник містить лекції з гістології, цитології та ембріології у відповідності до програми. Викладено матеріали теоретичного курсу по всіх темах загальної та спеціальної гістології та ембріології. Посібник призначений для підготовки студентів до практичних занять та ліцензійного екзамену “Крок-1”. Arnautova L. V. Histology. A course of lectures : a manual / L. V. Arnautova, O. A. Ulyantseva. — Оdessa : The Оdessa National Medical University, 2010. — 336 p. — (Series “Medical Student’s Library”). ISBN 978-966-443-034-7 The manual contains the lecture course on histology, cytology and embryol- ogy in correspondence with the program. The theoretical course on all the top- ics of general and special histology is given. The manual can be used by stu- dents during their preparation to the practical trainings and to the license test examination “Krok-1”. The manual is recommended for the students of medical and dental facul- ties of higher medical universities. UDC 616-018:378.16 BBC 28.8я73 © L. V. Arnautova, O. A. Ulyantseva, 2011 ISBN 978-966-7733-47-6 (series)©The Odessa National ISBN 978-966-443-034-7 Medical University, 2011 4 PREFACE A necessity in the lectures course publication for English-speaking stu- dents has appeared because there is no textbook corresponding to the regu- lations of education issued by the Ministry of Public Health of Ukraine. As a result of conversion to the credit-modular system of education the hour- time of the lectures and practical trainings was changed, that resulted in redistribution of the schedule of the lectures course. The current textbooks on histology published abroad do not meet the requirements to our syllabus. Thus, for example biochemical processes of the cell are overviewed out in detail excessively while the morphology of vital organs (the hypothalamus, the spinal cord and so on) is not described sufficiently. Moreover, there are differences in classifications of the organs. The histology lectures are designed to prepare the student for practical trainings. They are dedicated to the overview of basic and secondary char- acteristics of tissue structure and training student’s skills of histological sample analysis. Some topics of the lectures course contain too much information, so that the students really have no time to scrap-note the data along with the lecturer; this fact and the lack of a textbook makes the preparation to prac- tical classes even more complicated for them. Therefore, we present the lectures course in English that answers the requirements of the Ministry of Public Health of Ukraine and can be used for education of students of medical and dental faculties. 5 Lecture 1 INTRODUCTION TO THE COURSE OF HISTOLOGY, CYTOLOGY AND EMBRYOLOGY. CYTOLOGY The Department of Histology and Embryology of the Novorossiysk Uni- versity was organized in May 1900 and it was one of the first fundamental departments of the Medical university. The founder of the histologists a Kiev school professor V. V. Podvysot- sky was directed to Odessa for organization of the medical faculty of histol- ogists and microbiologists in 1989. In May 1900 he was nominated as a chief of the Histology Department. Scientific activity of professor V. V. Podvysotsky was directed to cancer research and development of some questions of immunology. Professor A. F. Mankovsky had headed the Department of Histology, Cytology and Embryology from 1905 to 1917. The range of his scientific interests covered the questions on embryology and endocrinology. From 1917 to 1920 the Histology Department of the Odessa Medical University had been consecutively managed by professor V. V. Voronin, academician D. K. Tretiyakov and assistant professor V. E. Yanishevsky. Professor F. N. Zhmaylovich had headed the department from 1920 to 1923. The main direction of his scientific studies were the questions of cytology. Professor M. N. Zaevloshin had headed the Histology Department for a long time (1923–1944). He is an author of more than 40 scientific works on histology and patomorphology. Assistant professor B. I. Kardashevich had been at the head of the de- partment twice, from 1944 to 1946, and from 1950 to 1954. During that period the main scientific trend of the department were the questions to age morphology. 6 Professor S. D. Shakhov has managed the Histology Department from 1954 to 1958. He is an author of more than 60 scientific works. The range of his scientific interests was very wide. Professor N. D. Zaytsev had headed the Histology Department from 1958 to 1976. He is an author of 67 scientific works devoted to the ques- tions of embryogenesis and problem of neurohistology. Professor N. D. Zaytsev has changed the professor V. F. Pchelyakov who had managed the department from 1976 to1993. His scientific works were devoted to study of the cornea of the eye in amimals and humans. Professor V. K. Napkhanyuk was elected the head of the department in May 1993 and prepared more than 20 research assistances. A young and perspective leader professor V. A. Ulyanov has headed the department since 2006. CYTOLOGY The cell is a functional unit of all living tissues, having a capacity to perform all the essential life functions. Within the different tissues and or- gans of the body, the constituent cells exhibit a wide range of functional specialization. Despite this extraordinary range of morphological forms and cells conform to a basic structural model which is the subject of this lecture. The process by which cells assume specialized structure and function is known as differentiation. Even with a primitive light microscopy, it was evident that cells are divided into at least two components, the nucleus and the cytoplasm, and as microscopic techniques advanced it became increasingly obvious that both the cytoplasm and nucleus contain a number of subcellular elements called organelles. The resolving power of the light microscope is limited to about 0.2 mm (200 nm) and the study of the ultrastructure of the cell had to await the advent of electron microscopy. The capacity of electron microscopes in current use permits the resolution of structures as small as 1.0 nm, this however, falls far short of many cellular processes which occur at the mo- lecular level. Light and electron microscopy have been successfully com- bined with biochemical and immunological techniques to define the location 7 of many biological processes; these techniques are known as histochemical and immunohistochemical respectively. All cells are bounded by an external limiting membrane called the plasma membrane or plasmolemma, which serves as a dynamic interphase between the internal environment of the cell and various external environments. The nucleus is the largest organelle and its substance, often referred to as the nucleoplasm, is bounded by a membrane system called the nuclear enve- lope. The cytoplasm contains the variety of organelles, most of which are also bounded by membranes. An extensive system of membrane-bound tubules, saccules and flattened cisternae, known as the endoplasmic reticu- lum, is widely distributed throughout the cytoplasm. A more distended sys- tem of membrane-bound saccules, the Golgi apparatus, is typically located close to the nucleus. Scattered free in the cytoplasm are a number of rela- tively large elongated organelles called mitochondria, which have a smooth outer membrane and convoluted inner membrane system. The cytoplasmic organelles are suspended in a fluid medium called the cytosol in which much of the intermediary metabolism of the cell takes place. Within the cytosol, there is a network of minute tubules and filaments collectively known as the cytoskeleton, which provides structural support for the cell and its organelles as well as providing a mechanism for cellular and intracellular movement; elements of the cytoskeleton are only visible with very high magnification. The current concepts of membrane structure derive from the work of Singer and Nicholson in the early 1970 year. In this model, cell membranes consist basically of phospholipid molecules arranged as a bilayer. Phos- pholipid molecules consist of a polar, hydrophilic (water-loving) head and non-polar, hydrophobic (water-hating) tail. The polar heads are mainly de- rived from glycerol conjugated to a nitrogenous compound such as choline, ethanolamine or serine via a phosphate bridge. The phosphate group is negatively charged whereas the nitrogenous group is positively charged. The non-polar tail of the phospholipid molecule consists of two long-chain fatty acids each covalently linked to the glycerol component of the polar head. The weak intermolecular forces which hold the bilayer together allow individual phospholipid molecules to move relatively freely within each lay- er and sometimes to ‘flip” between layers. Cholesterol molecules regulate the fluidity and stabilize the phospholipid bilayer. Associated with the bilay- er are a variety of protein molecules, which make up almost half of the total 8 mass of the membrane.
Recommended publications
  • Te2, Part Iii

    Te2, Part Iii

    TERMINOLOGIA EMBRYOLOGICA Second Edition International Embryological Terminology FIPAT The Federative International Programme for Anatomical Terminology A programme of the International Federation of Associations of Anatomists (IFAA) TE2, PART III Contents Caput V: Organogenesis Chapter 5: Organogenesis (continued) Systema respiratorium Respiratory system Systema urinarium Urinary system Systemata genitalia Genital systems Coeloma Coelom Glandulae endocrinae Endocrine glands Systema cardiovasculare Cardiovascular system Systema lymphoideum Lymphoid system Bibliographic Reference Citation: FIPAT. Terminologia Embryologica. 2nd ed. FIPAT.library.dal.ca. Federative International Programme for Anatomical Terminology, February 2017 Published pending approval by the General Assembly at the next Congress of IFAA (2019) Creative Commons License: The publication of Terminologia Embryologica is under a Creative Commons Attribution-NoDerivatives 4.0 International (CC BY-ND 4.0) license The individual terms in this terminology are within the public domain. Statements about terms being part of this international standard terminology should use the above bibliographic reference to cite this terminology. The unaltered PDF files of this terminology may be freely copied and distributed by users. IFAA member societies are authorized to publish translations of this terminology. Authors of other works that might be considered derivative should write to the Chair of FIPAT for permission to publish a derivative work. Caput V: ORGANOGENESIS Chapter 5: ORGANOGENESIS
  • © 2019 First Aid for the USMLE Step 1 732 INDEX INDEX

    © 2019 First Aid for the USMLE Step 1 732 INDEX INDEX

    Index A Abnormal uterine bleeding (AUB), heart failure, 306 Achondroplasia, 454 A-a gradient 618, 619 hypertension, 312 chromosome disorder, 64 in elderly, 654 adenomyosis, 634 naming convention for, 253 endochondral ossification in, 450 with hypoxemia, 654, 655 anemia with, 410 preload/afterload effects, 282 inheritance, 60 restrictive lung disease, 661 Asherman syndrome, 634 teratogenicity, 600 AChR (acetylcholine receptor), 229 Abacavir, 201, 203 leiomyoma (fibroid), 634 Acetaldehyde, 72 Acid-base physiology, 580 Abciximab, 122 polyps (endometrial), 634 Acetaldehyde dehydrogenase, 70, 72 Acidemia, 580 Glycoprotein IIb/IIIa inhibitors, thecoma, 632 Acetaminophen, 474 diuretic effect on, 595 429 ABO blood classification, 397 vs. aspirin for pediatric patients, 474 Acid-fast oocysts, 177 thrombogenesis and, 403 newborn hemolysis, 397 free radical injury and, 210 Acid-fast organisms, 125, 140, 155 Abdominal aorta, 357 Abruptio placentae, 626 hepatic necrosis from, 249 Acidic amino acids, 81 atherosclerosis in, 300, 687 cocaine use, 600 N-acetylcysteine for overdose, 671 Acid maltase, 86 bifurcation of, 649 preeclampsia, 629 for osteoarthritis, 458 Acidosis, 578, 580 Abdominal aortic aneurysm, 300 Abscess, 470 toxicity effects, 474 contractility in, 282 Abdominal colic acute inflammation and, 215 toxicity treatment for, 247 hyperkalemia with, 578 lead poisoning, 411 lung, 670 Acetazolamide, 252, 539, 594 Acid phosphatase in neutrophils, 398 Abdominal pain Absence seizures idiopathic intracranial Acid reflux bacterial peritonitis, 384 characteristics
  • Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria

    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.
  • Human General Histology

    Human General Histology

    135 اووم څپرکي انډوکراين سيستم (Endocrine system) (hormones) (target cells) (receptors) autonomic (sinusoids) ductless glands thyroid gland Pineal gland Hypophysis cerebri(pituitary glands) supra renal( adrenal glands) parathyroid glands 136 اووم څپرکي انډوکراين سيسټم islets cell corpora lutea interstitial tissue (placenta) GIT amines neurotransmitters amines neuromodulator 137 اووم څپرکي انډوکراين سيسټم APUD cells neuroendocrine system system adrenaline, (amino acid derivatives) thyroxin noradrenalin thyroid vasopressin encephalin (small peptides) releasing hormone(TRH) TSH(thyroid stimulating parathormone hormone) cortisol Testosterone estrogen (steroids) 5,12,3 (Hypophysis Cerebri) (brain) pituitary gland (stalk) Ventricle infundibulum stalk pituitary fossa sphenoid pineal hypothalamus body 138 اووم څپرکي انډوکراين سيسټم Hypophysis cerebri Pars pars anterior pars nervosa pars posterior intermediate hypothalamus infundibulum infundibulum stalk )Pars posterior neurohypophysis median eminence (tuber cinereum) infundibulum pars neurohypophysis median eminence pars intermediate pars distalis anterior Adenohypophysis infundibulum pars anterior pars tuberalis adenohypophysis 139 اووم څپرکي انډوکراين سيسټم Adenohypophysis pars intermediate pars anterior adenohypophyisis Pars anterior fenestrated sinusoids (cords) chromophil chromophobic acidophil chromophil basophils orange G eosin PAS-positive hematoxylline Beta cells basophil Alpha cells Acidophil basophils acidophil (dese cored vesicles) alpha Beta Histochemical 140 اووم څپرکي انډوکراين
  • Basic Histology (23 Questions): Oral Histology (16 Questions

    Basic Histology (23 Questions): Oral Histology (16 Questions

    Board Question Breakdown (Anatomic Sciences section) The Anatomic Sciences portion of part I of the Dental Board exams consists of 100 test items. They are broken up into the following distribution: Gross Anatomy (50 questions): Head - 28 questions broken down in this fashion: - Oral cavity - 6 questions - Extraoral structures - 12 questions - Osteology - 6 questions - TMJ and muscles of mastication - 4 questions Neck - 5 questions Upper Limb - 3 questions Thoracic cavity - 5 questions Abdominopelvic cavity - 2 questions Neuroanatomy (CNS, ANS +) - 7 questions Basic Histology (23 questions): Ultrastructure (cell organelles) - 4 questions Basic tissues - 4 questions Bone, cartilage & joints - 3 questions Lymphatic & circulatory systems - 3 questions Endocrine system - 2 questions Respiratory system - 1 question Gastrointestinal system - 3 questions Genitouirinary systems - (reproductive & urinary) 2 questions Integument - 1 question Oral Histology (16 questions): Tooth & supporting structures - 9 questions Soft oral tissues (including dentin) - 5 questions Temporomandibular joint - 2 questions Developmental Biology (11 questions): Osteogenesis (bone formation) - 2 questions Tooth development, eruption & movement - 4 questions General embryology - 2 questions 2 National Board Part 1: Review questions for histology/oral histology (Answers follow at the end) 1. Normally most of the circulating white blood cells are a. basophilic leukocytes b. monocytes c. lymphocytes d. eosinophilic leukocytes e. neutrophilic leukocytes 2. Blood platelets are products of a. osteoclasts b. basophils c. red blood cells d. plasma cells e. megakaryocytes 3. Bacteria are frequently ingested by a. neutrophilic leukocytes b. basophilic leukocytes c. mast cells d. small lymphocytes e. fibrocytes 4. It is believed that worn out red cells are normally destroyed in the spleen by a. neutrophils b.
  • Pineal Calcification, Melatonin Production, Aging, Associated

    Pineal Calcification, Melatonin Production, Aging, Associated

    molecules Review Pineal Calcification, Melatonin Production, Aging, Associated Health Consequences and Rejuvenation of the Pineal Gland Dun Xian Tan *, Bing Xu, Xinjia Zhou and Russel J. Reiter * Department of Cell Systems & Anatomy, UT Health San Antonio, San Antonio, TX 78229, USA; [email protected] (B.X.); [email protected] (X.Z.) * Correspondence: [email protected] (D.X.T.); [email protected] (R.J.R.); Tel.: +210-567-2550 (D.X.T.); +210-567-3859 (R.J.R.) Received: 13 January 2018; Accepted: 26 January 2018; Published: 31 January 2018 Abstract: The pineal gland is a unique organ that synthesizes melatonin as the signaling molecule of natural photoperiodic environment and as a potent neuronal protective antioxidant. An intact and functional pineal gland is necessary for preserving optimal human health. Unfortunately, this gland has the highest calcification rate among all organs and tissues of the human body. Pineal calcification jeopardizes melatonin’s synthetic capacity and is associated with a variety of neuronal diseases. In the current review, we summarized the potential mechanisms of how this process may occur under pathological conditions or during aging. We hypothesized that pineal calcification is an active process and resembles in some respects of bone formation. The mesenchymal stem cells and melatonin participate in this process. Finally, we suggest that preservation of pineal health can be achieved by retarding its premature calcification or even rejuvenating the calcified gland. Keywords: pineal gland; calcification; melatonin; aging; neurodegenerative diseases; rejuvenation 1. Introduction Pineal gland is a unique organ which is localized in the geometric center of the human brain. Its size is individually variable and the average weight of pineal gland in human is around 150 mg [1], the size of a soybean.
  • Nomina Histologica Veterinaria, First Edition

    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.
  • Observations on the Histology and Ultrastructure

    Observations on the Histology and Ultrastructure

    OBSERVATIONS ON THE HISTOLOGY AND ULTRASTRUCTURE OF THE PARS DISTALIS OF THE RABBIT HYPOPHYSIS IN ORGAN CULTURE A Thesis submitted for the degree of Doctor of Philosophy in the University of London by SNEHLATA PATHAK Department of Cellular Biology 1970 and Histology, St. Mary's Hospital Medical School, London W.2. ABSTRACT The histology and ultrastrueture of the pars distalis of the rabbit hypophysis was studied after different periods of organ culture, and the best technique for the maintenance of the maximum proportion of the explant was assessed by comparing cultures grown in different conditions. Explants in air with a medium buffered. with N.2-hydroxyethylpiperazine-N1-2- ethanesulphonic acid (HEPES), not previously used in organ culture, proved more satisfactory than explants in carbogen with bicarbonate buffered 199, and cultures were maintained for more than 3 weeks. Material from young animals survived better than from old. The survival of cells was assessed on the basis of their cytological integrity when explants were examined by light microscopy after specific staining and by electron microscopy; DNA and RNA fluorescence with acridine orange was a valuable indicator. Also, cell multiplication was identified by direct observation of mitosis, by the application of the colchicine technique and by autoradiography. During culture, prolactin cells showed physiological signs of secretion (demonstrated by combined culture with mammary gland) and morphological signs of an increase of secretory activity. Morphological signs of reduced secretory activity appeared in the presence of hypothalamic tissue (combined culture) or extract. Somatotrophs and gonadotrophs. showed signs of low-level secretory activity in solitary pars distalis culture and of increased activity in combined culture with hypothalamus.
  • Involvement of Gap Junctional Communication in Secretion

    Involvement of Gap Junctional Communication in Secretion

    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Elsevier - Publisher Connector Biochimica et Biophysica Acta 1719 (2005) 82 – 101 http://www.elsevier.com/locate/bba Review Involvement of gap junctional communication in secretion Laetitia Michon 1, Rachel Nlend Nlend 1, Sabine Bavamian, Lorraine Bischoff, Nathalie Boucard, Dorothe´e Caille, Jose´ Cancela, Anne Charollais, Eric Charpantier, Philippe Klee, Manon Peyrou, Ce´line Populaire, Laurence Zulianello, Paolo Meda * Department of Cell Physiology and Metabolism, University of Geneva, C.M.U., 1 rue Michel Servet, 1211 Geneva 4, Switzerland Received 11 July 2005; received in revised form 31 October 2005; accepted 7 November 2005 Available online 18 November 2005 Abstract Glands were the first type of tissues in which the permissive role of gap junctions in the cell-to-cell transfer of membrane-impermeant molecules was shown. During the 40 years that have followed this seminal finding, gap junctions have been documented in all types of multicellular secretory systems, whether of the exocrine, endocrine or pheromonal nature. Also, compelling evidence now indicates that gap junction-mediated coupling, and/or the connexin proteins per se, play significant regulatory roles in various aspects of gland functions, ranging from the biosynthesis, storage and release of a variety of secretory products, to the control of the growth and differentiation of secretory cells, and to the regulation of gland morphogenesis. This review summarizes this evidence in the light of recent reports. D 2005 Elsevier B.V. All rights reserved. Keywords: Exocrine gland; Endocrine gland; Enzyme; Hormone; Ca2+; Synchronization Contents 1.
  • Histology -2Nd Stage Dr. Abeer.C.Yousif

    Histology -2Nd Stage Dr. Abeer.C.Yousif

    Dr. Abeer.c.Yousif Histology -2nd stage What is histology? Histology is the science of microscopic anatomy of cells and tissues, in Greek language Histo= tissue and logos = study and it's tightly bounded to molecular biology, physiology, immunology and other basic sciences. Tissue: A group of cells similar in structure, function and origin. In tissue cells may be dissimilar in structure and functions but they are always similar in origin. Classification of tissues: despite the variations in the body the tissues are classified into four basic types: 1. Epithelium (epithelial tissue) covers body surfaces, line body cavities, and forms glands. 2. Connective tissue underlies or supports the other three basic tissues, both structurally and functionally. 3. Muscle tissue is made up of contractile cells and is responsible for movement. 4. Nerve tissue receives, transmits, and integrates information from outside and inside the body to control the activities of the body. Epithelium General Characterizes of epithelial tissues: 1. Cells are closed to each other and tend to form junctions 2. Little or non-intracellular material between intracellular space. 3. Cell shape and number of layers correlate with the function of the epithelium. 4. Form the boundary between external environment and body tissues. 5. Cell showed polarity 6. Does not contain blood vesicle (vascularity). 7. Mitotically active. 8. Rest on basement membrane (basal lamina). 9. Regeneration: because epithelial tissue is continually damage or lost. 10. Free surface: epithelial tissue always has apical surface or a free adage. Dr. Abeer.c.Yousif Histology -2nd stage Method of Classification epithelial tissue 1- Can be classified according to number of layer to two types: A.
  • Light and Electron Microscopic Observations on the Anterior Pituitary of the Mouse Injected with Dl-Thyroxine By

    Light and Electron Microscopic Observations on the Anterior Pituitary of the Mouse Injected with Dl-Thyroxine By

    Okajimas Fol. anat. jap., 43: 21-51, 1967 Light and Electron Microscopic Observations on the Anterior Pituitary of the Mouse injected with dl-Thyroxine By Tomiji Uchida Department of Anatomy, Nagoya University School of Medicine, Nagoya, Japan (Director : Prof. Dr. Ka z u m a r o Y a m ad a) Introduction Probably, the first suggestion of the existence of a functional relationship between the thyroid and hypophysis was given by Niepce (1851) who described pituitary enlargement in a series of goitrous cretins. Since then numerous studies have provided detailed evidence of this relationship. The reciprocal interrelationship be- tween thyroid stimulating hormone (TSH) secretion in the anterior hypophysis and the circulating levels of thyroid hormone has been well established, and in general, procedures which reduce effective plasma concentrations of thyroid hormone increase thyrotrophic hormone release in the anterior pituitary, whereas increased circulat- ing levels of thyroxine inhibit thyrotophic hormone secretion. This negative feedback mechanism resides both in the level of the pituitary and of a hypothalamic " TSH releasing center " (S o 1 o m on and Dowling, '60). Earlier views (Ma rin e, Rosen and Spar k, '35; Morris, '52) favored pituitary acidophile cell as the source of thyrotrophic hormone, but results of many recent studies implicate the basophile cell (Zeckwer, '38a and '38b; Griesbach and Purves, '45 Pur v es and Griesbac h, '46a, '46b, '51a, '51b, '51c, '57a and '57b; Goldberg and Chaikoff, '50; Salter, '50, Halmi, '50, '51, '52a , '52b, and 52c ; R ennel s, '53; Halm i and G u d e, '54 D'Angelo, '53 and '55; Knigge, '55; Elf tman, '58; Mura - s h i m a, '60 and others).
  • Aandp2ch25lecture.Pdf

    Aandp2ch25lecture.Pdf

    Chapter 25 Lecture Outline See separate PowerPoint slides for all figures and tables pre- inserted into PowerPoint without notes. Copyright © McGraw-Hill Education. Permission required for reproduction or display. 1 Introduction • Most nutrients we eat cannot be used in existing form – Must be broken down into smaller components before body can make use of them • Digestive system—acts as a disassembly line – To break down nutrients into forms that can be used by the body – To absorb them so they can be distributed to the tissues • Gastroenterology—the study of the digestive tract and the diagnosis and treatment of its disorders 25-2 General Anatomy and Digestive Processes • Expected Learning Outcomes – List the functions and major physiological processes of the digestive system. – Distinguish between mechanical and chemical digestion. – Describe the basic chemical process underlying all chemical digestion, and name the major substrates and products of this process. 25-3 General Anatomy and Digestive Processes (Continued) – List the regions of the digestive tract and the accessory organs of the digestive system. – Identify the layers of the digestive tract and describe its relationship to the peritoneum. – Describe the general neural and chemical controls over digestive function. 25-4 Digestive Function • Digestive system—organ system that processes food, extracts nutrients, and eliminates residue • Five stages of digestion – Ingestion: selective intake of food – Digestion: mechanical and chemical breakdown of food into a form usable by