DOCSLIB.ORG

Exocrine Glands Endocrine Glands Merocrine Glands Apocrine Glands Holocrine Glands Extracellular Matrix Fibroblasts Chondrocytes

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Exocrine Glands Endocrine Glands Merocrine Glands Apocrine Glands Holocrine Glands Extracellular Matrix Fibroblasts Chondrocytes Glands that secrete substances outward Exocrine glands through a duct Ductless glands that secrete hormones Endocrine glands into the bloodstream Exocrine glands that secrete without Merocrine glands losing cellular material Exocrine glands that have cytoplasm in Apocrine glands their secretions. (apo = a part of) Exocrine glands whose secretions are Holocrine glands made up of disintegrated cells (holo = whole) The chemical substances located Extracellular matrix between connective tissue cells Spindle-shaped cells that form Fibroblasts connective tissue proper Chondrocytes Mature cartilage cells Cells that provide structure or support Stromal cells for parenchymal cells Cells that provide the actual function of Parenchymal cells the tissue Cells that undergo mitosis regularly and Labile cells quickly Cells that do not regularly undergo Stable cells mitosis but are able to if the need arises Permanent cells Cells that cannot undergo mitosis The outer portion of the skin, formed Epidermis by epithelial tissue which rests on the dermis Dense irregular connective tissue that Dermis forms the deep layer of the skin Loose connective tissue underneath the Hypodermis dermis which connects the dermis to the muscle or bone The process of manufacturing blood Hemopoiesis cells Dense bone matrix enclosing only a Compact bone few small spaces Bone with many small spaces or Cancellous bone cavities surround the bone matrix. Ossification Bone formation Hyaline cartilage that covers the ends Articular cartilage of a bone in a joint The portion of the skeleton that Axial skeleton supports and protects the head, neck, and trunk .
Load more

Recommended publications
  • Skates and Rays Diversity, Exploration and Conservation – Case-Study of the Thornback Ray, Raja Clavata
    UNIVERSIDADE DE LISBOA FACULDADE DE CIÊNCIAS DEPARTAMENTO DE BIOLOGIA ANIMAL SKATES AND RAYS DIVERSITY, EXPLORATION AND CONSERVATION – CASE-STUDY OF THE THORNBACK RAY, RAJA CLAVATA Bárbara Marques Serra Pereira Doutoramento em Ciências do Mar 2010 UNIVERSIDADE DE LISBOA FACULDADE DE CIÊNCIAS DEPARTAMENTO DE BIOLOGIA ANIMAL SKATES AND RAYS DIVERSITY, EXPLORATION AND CONSERVATION – CASE-STUDY OF THE THORNBACK RAY, RAJA CLAVATA Bárbara Marques Serra Pereira Tese orientada por Professor Auxiliar com Agregação Leonel Serrano Gordo e Investigadora Auxiliar Ivone Figueiredo Doutoramento em Ciências do Mar 2010 The research reported in this thesis was carried out at the Instituto de Investigação das Pescas e do Mar (IPIMAR - INRB), Unidade de Recursos Marinhos e Sustentabilidade. This research was funded by Fundação para a Ciência e a Tecnologia (FCT) through a PhD grant (SFRH/BD/23777/2005) and the research project EU Data Collection/DCR (PNAB). Skates and rays diversity, exploration and conservation | Table of Contents Table of Contents List of Figures ............................................................................................................................. i List of Tables ............................................................................................................................. v List of Abbreviations ............................................................................................................. viii Agradecimentos ........................................................................................................................
    [Show full text]
  • 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.
    [Show full text]
  • Study Guide Medical Terminology by Thea Liza Batan About the Author
    Study Guide Medical Terminology By Thea Liza Batan About the Author Thea Liza Batan earned a Master of Science in Nursing Administration in 2007 from Xavier University in Cincinnati, Ohio. She has worked as a staff nurse, nurse instructor, and level department head. She currently works as a simulation coordinator and a free- lance writer specializing in nursing and healthcare. All terms mentioned in this text that are known to be trademarks or service marks have been appropriately capitalized. Use of a term in this text shouldn’t be regarded as affecting the validity of any trademark or service mark. Copyright © 2017 by Penn Foster, Inc. All rights reserved. No part of the material protected by this copyright may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, or by any information storage and retrieval system, without permission in writing from the copyright owner. Requests for permission to make copies of any part of the work should be mailed to Copyright Permissions, Penn Foster, 925 Oak Street, Scranton, Pennsylvania 18515. Printed in the United States of America CONTENTS INSTRUCTIONS 1 READING ASSIGNMENTS 3 LESSON 1: THE FUNDAMENTALS OF MEDICAL TERMINOLOGY 5 LESSON 2: DIAGNOSIS, INTERVENTION, AND HUMAN BODY TERMS 28 LESSON 3: MUSCULOSKELETAL, CIRCULATORY, AND RESPIRATORY SYSTEM TERMS 44 LESSON 4: DIGESTIVE, URINARY, AND REPRODUCTIVE SYSTEM TERMS 69 LESSON 5: INTEGUMENTARY, NERVOUS, AND ENDOCRINE S YSTEM TERMS 96 SELF-CHECK ANSWERS 134 © PENN FOSTER, INC. 2017 MEDICAL TERMINOLOGY PAGE III Contents INSTRUCTIONS INTRODUCTION Welcome to your course on medical terminology. You’re taking this course because you’re most likely interested in pursuing a health and science career, which entails ­proficiency­in­communicating­with­healthcare­professionals­such­as­physicians,­nurses,­ or dentists.
    [Show full text]
  • Embryology and Development of Salivary Gland 1
    European Journal of Molecular & Clinical Medicine ISSN 2515-8260 Volume 07, Issue 10, 2020 Embryology and development of salivary gland 1. Dr. Sangeetha Priya.P,Dr.N.Anitha, Dr.E.Rajesh, Dr.K.M.K.Masthan Professor, Department of Oral Pathology and Microbiology Sree Balaji Dental College and Hospital Bharath Institute of Higher Education and Research ABSTRACT: Saliva is the mixed glandular secretion which constantly bathes the teeth and the oral mucosa. It is constituted by the secretions of the three paired major salivary glands; the parotid, submandibular and sublingual . Salivary glands are complex in nature. They could be either tubulo acinar, merocrine or exocrine glands secreting mainly saliva. Salivary gland is one of the main soft tissue structures in the maxillofacial area. This review article illustrates the processes that lead to the development,embryology of the salivary glands and how this relates to the adult anatomy. KEY WORDS: salivary gland embryology, salivary gland development, salivary gland anatomy INTRODUCTION: A gland consists of specialized type of cells, wherein they produce products which are used elsewhere in the body. Salivary glands are complex, tubulo acinar, exocrine or merocrine glands secreting mainly saliva. Saliva is the product of the major and minor salivary gland dispersed throughout the oral cavity. It is a complex mixture of organic, inorganic components and water, carrying out several functions. There are three pairs of major salivary glands namely parotid, sub mandibular and sublingual glands in addition to numerous minor salivary glands in the oral cavity1. Together these glands produce saliva, which contains digestive enzymes, antibodies, growth factors, and coating substances essential for eating, speaking, tasting, and oral hygiene2,3.
    [Show full text]
  • Epithelium 2 : Glandular Epithelium Histology Laboratory -­‐ Year 1, Fall Term Dr
    Epithelium 2 : Glandular Epithelium Histology Laboratory -­‐ Year 1, Fall Term Dr. Heather Yule ([email protected]) October 21, 2014 Slides for study: 75 (Salivary Gland), 355 (Pancreas Tail), 48 (Atrophic Mammary Gland), 49 (Active Mammary Gland) and 50 (Resting Mammary Gland) Electron micrographs for : study EM: Serous acinus in parotid gland EM: Mucous acinus in mixed salivary gland EM: Pancreatic acinar cell Main Objective: Understand key histological features of glandular epithelium and relate structure to function. Specific Objectives: 1. Describe key histological differences between endocrine and exocrine glands including their development. 2. Compare three modes of secretion in glands; holocrine, apocrine and merocrine. 3. Explain the functional significance of polarization of glandular epithelial cells. 4. Define the terms parenchyma, stroma, mucous acinus, serous acinus and serous a demilune and be able to them identify in glandular tissue. 5. Distinguish exocrine and endocrine pancreas. 6. Compare the histology of resting, lactating and postmenopausal mammary glands. Keywords: endocrine gland, exocrine gland, holocrine, apocrine, merocrine, polarity, parenchyma, stroma, acinus, myoepithelial cell, mucous gland, serous gland, mixed or seromucous gland, serous demilune, exocrine pancreas, endocrine pancreas (pancreatic islets), resting mammary gland, lactating mammary gland, postmenopausal mammary gland “This copy is made solely for your personal use for research, private study, education, parody, satire, criticism, or review
    [Show full text]
  • An Analysis of Benign Human Prostate Offers Insights Into the Mechanism
    www.nature.com/scientificreports OPEN An analysis of benign human prostate ofers insights into the mechanism of apocrine secretion Received: 12 March 2018 Accepted: 22 February 2019 and the origin of prostasomes Published: xx xx xxxx Nigel J. Fullwood 1, Alan J. Lawlor2, Pierre L. Martin-Hirsch3, Shyam S. Matanhelia3 & Francis L. Martin 4 The structure and function of normal human prostate is still not fully understood. Herein, we concentrate on the diferent cell types present in normal prostate, describing some previously unreported types and provide evidence that prostasomes are primarily produced by apocrine secretion. Patients (n = 10) undergoing TURP were prospectively consented based on their having a low risk of harbouring CaP. Scanning electron microscopy and transmission electron microscopy was used to characterise cell types and modes of secretion. Zinc levels were determined using Inductively Coupled Plasma Mass Spectrometry. Although merocrine secretory cells were noted, the majority of secretory cells appear to be apocrine; for the frst time, we clearly show high-resolution images of the stages of aposome secretion in human prostate. We also report a previously undescribed type of epithelial cell and the frst ultrastructural image of wrapping cells in human prostate stroma. The zinc levels in the tissues examined were uniformly high and X-ray microanalysis detected zinc in merocrine cells but not in prostasomes. We conclude that a signifcant proportion of prostasomes, possibly the majority, are generated via apocrine secretion. This fnding provides an explanation as to why so many large proteins, without a signal peptide sequence, are present in the prostatic fuid. Tere are many complications associated with the prostate from middle age onwards, including benign prostatic hyperplasia (BPH) and prostate cancer (PCa).
    [Show full text]
  • Epithelial Tissue
    Epithelial Tissue Epithelial Tissue Tissues - Introduction · a group of similar cells specialized to carry on a particular function · tissue = cells + extracellular matrix nonliving portion of a tissue that supports cells · 4 types epithelial - protection, secretion, absorption connective - support soft body parts and bind structures together muscle - movement nervous - conducts impulses used to help control and coordinate body activities Epithelial Tissues Characteristics Epithelial Classifications · free surface open to the outside or an open · classified based on shape and # of cell layers internal space (apical surface) · shape · basement membrane anchors epithelium to squamous - thin, flat cells underlying connective tissue cuboidal - cube-shaped cells columnar - tall, elongated cells · lack blood vessels · number · readily divide (ex. skin healing) simple - single layer · tightly packed with little extracellular space stratified - 2 or more layers Epithelial Locations Simple Squamous Epithelium · a single layer of thin, flattened cells · cover body surfaces, cover and line internal organs, and compose glands looks like a fried egg · easily damaged skin cells, cells that line the stomach and small intestine, inside your mouth · common at sites of filtration, diffusion, osmosis; cover surfaces · air sacs of the lungs, walls of capillaries, linings cheek cells of blood and lymph vessels intestines skin Epithelial Tissue Simple Cuboidal Epithelium Simple Columnar Epithelium · single layer of cube-shaped cells · single layer of cells
    [Show full text]
  • 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.
    [Show full text]
  • Anatomy of the Gallbladder and Bile Ducts
    BASIC SCIENCE the portal vein lies posterior to these structures; Anatomy of the gallbladder the inferior vena cava, separated by the epiploic foramen (the foramen of Winslow) lies still more posteriorly, and bile ducts behind the portal vein. Note that haemorrhage during gallbladder surgery may be Harold Ellis controlled by compression of the hepatic artery, which gives off the cystic branch, by passing a finger through the epiploic foramen (foramen of Winslow), and compressing the artery Abstract between the finger and the thumb placed on the anterior aspect A detailed knowledge of the gallbladder and bile ducts (together with of the foramen (Pringle’s manoeuvre). their anatomical variations) and related blood supply are essential in At fibreoptic endoscopy, the opening of the duct of Wirsung the safe performance of both open and laparoscopic cholecystectomy can usually be identified quite easily. It is seen as a distinct as well as the interpretation of radiological and ultrasound images of papilla rather low down in the second part of the duodenum, these structures. These topics are described and illustrated. lying under a characteristic crescentic mucosal fold (Figure 2). Unless the duct is obstructed or occluded, bile can be seen to Keywords Anatomical variations; bile ducts; blood supply; gallbladder discharge from it intermittently. The gallbladder (Figures 1 and 3) The biliary ducts (Figure 1) The normal gallbladder has a capacity of about 50 ml of bile. It concentrates the hepatic bile by a factor of about 10 and also The right and left hepatic ducts emerge from their respective sides secretes mucus into it from the copious goblet cells scattered of the liver and fuse at the porta hepatis (‘the doorway to the throughout its mucosa.
    [Show full text]
  • Histology of Compound Epithelium
    Compound Epithelium Dr. Gitanjali Khorwal Learning objectives • Definition • Types • Function • Identification • Surface modifications of epithelia • SIMPLE • STRATIFIED One cell layer thick Two or more cell layer thick Squamous, Stratified Squamous, Stratified Cuboidal, Cuboidal, Stratified Columnar Pseudostratified Columnar Transitional Cell polarity refers to spatial differences in shape, structure, and function within a cell. • Apical domain • Lateral domain • Basal domain Apical domain modifications • Microvilli • Stereocilia/ Stereovilli • Cilia Microvilli • Finger-like cytoplasmic projections on the apical surface (1-3 micron). • Striated border- regular arrangement • Brush border - irregular arrangement Stereocilia/ Stereovilli • Unusually long, (120 micron) • immotile microvilli. • Epididymis, ductus deferens, Sensory hair cell of inner ear. Cilia • Hairlike extensions of apical plasma membrane • Contain axoneme-microtubule based internal structure. 1. Motile 9+2 2. Primary 9+0 3. Nodal : embryonic disc during gastrulation Stratified squamous epithelium (Non-keratinised) • Variable cell layers-thickness • The deepest cells - basal cell layer are cuboidal or columnar in shape. • mitotically active and replace the cells of the epithelium • layers of cells with polyhedral outlines. • Flattened surface cells. Stratified squamous epithelium (Keratinised) Stratified cuboidal epithelium • A two-or more layered cuboidal epithelium • seen in the ducts of the sweat glands, pancreas, salivary glands. Stratified columnar epithelium • excretory
    [Show full text]
  • Rare Anatomic Variations of the Right Hepatic Biliary System
    Surgical and Radiologic Anatomy (2019) 41:1087–1092 https://doi.org/10.1007/s00276-019-02260-5 ANATOMIC VARIATIONS Rare anatomic variations of the right hepatic biliary system Shallu Garg1 · Hemanth Kumar2 · Daisy Sahni1 · T. D. Yadav2 · Anjali Aggarwal1 · Tulika Gupta1 Received: 29 January 2019 / Accepted: 17 May 2019 / Published online: 21 May 2019 © Springer-Verlag France SAS, part of Springer Nature 2019 Abstract Purpose To report rare and clinically signifcant anatomic variations in the biliary drainage of right hepatic lobe. Methods Unique variations in the extra- and intrahepatic biliary drainage of right hepatic lobe were observed in 6 cadaveric livers during dissection on 100 formalin-fxed en bloc cadaveric livers. Results There was presence of aberrant drainage of right segmental and sectorial ducts in four cases and of accessory right posterior sectorial duct in two cases. Conclusions We encountered some extensively complicated biliary drainage of right hepatic lobe, unsuccessful recognition of which can lead to serious biliary complications during hepatobiliary surgeries and biliary interventions. Keywords Hepatic ducts · Biliary anatomy · Liver anatomy · Hepatobiliary surgery Introduction LHD at the hepatic hilum, anterior to the RPV (Fig. 1a). The deviation from this typical biliary anatomy is commonly Precise knowledge of biliary anatomy is a prerequisite for found in clinical practice and has been appropriately classi- obtaining optimal results in ever-increasing complex hepa- fed in the previous studies [3, 15]. However, some new or tobiliary surgeries (e.g., extended hepatic resections, liver extremely rare variations of clinical signifcance still can be transplantation, and laparoscopic cholecystectomy). Biliary encountered and should be documented. We herein report complication remains a major cause of morbidity and mor- six unique cases of complex biliary anatomy that may pose tality, despite improvements in hepatic surgical techniques as one of the important risk factors for bile duct injury dur- [1].
    [Show full text]
  • Squamous Epithelium Are Thin, Which Allows for the Rapid Passage of Substances Through Them
    Chapter 2 1st Prof. Anatomy Arsalan (Lecturer Department of Pharmacy University of Peshawar) Tissue is an aggregation of similar cells and their products that perform same function. There are four principal types of tissues in the body: ❑ epithelial tissue: covers body surfaces, lines body cavities and ducts and forms glands ❑ connective tissue: binds, supports, and protects body parts ❑ muscle tissue: produce body and organ movements ❑ nervous tissue: initiates and transmits nerve impulses from one body part to another • Epithelial tissues cover body and organ surfaces, line body cavities and lumina and forms various glands • Derived from endoderm ,ectoderm, and mesoderm • composed of one or more layers of closely packed cells • Perform diverse functions of protection, absorption, excretion and secretion. Highly cellular with low extracellular matrix Polar – has an apical surface exposed to external environment or body cavity, basal layer attached to underlying connective tissue by basement membrane and lateral surfaces attached to each other by intercellular junctions Innervated Avascular – almost all epithelia are devoid of blood vessels, obtain nutrients by diffusion High regeneration capacity Protection: Selective permeability: in GIT facilitate absorption, in kidney facilitate filtration, in lungs facilitate diffusion. Secretions: glandular epithelium form linings of various glands, involved in secretions. Sensations: contain some nerve endings to detect changes in the external environment at their surface Epithelium rests on connective tissue. Between the epithelium and connective tissue is present the basement membrane which is extracellular matrix made up of protein fibers and carbohydrates. Basement membrane attach epithelium to connective tissue and also regulate movement of material between epithelium and connective tissue Epithelial cells are bound together by specialized connections in the plasma membranes called intercellular junctions .
    [Show full text]