INTRODUCTION TO IMMUNOLOGY:. DEFINITIONS Immunity: resistance to disease, specifically infectious disease and tumors. The immune system: the collection.

Slides:



Advertisements
Similar presentations
Natural Defense Mechanisms. Immunology Unit. College of Medicine & KKUH.
Advertisements

Nonspecific Host Defenses. Introduction Resistance: Ability to ward off disease. u Nonspecific Resistance: Defenses that protect against all pathogens.
Chapter 34: The human defence system
NONSPECIFIC HOST DEFENSES Innate (nonspecific immunity) Defenses present at birth.
Nonspecific Defenses of the Host. The Immune System Innate (Nonspecific) ImmunityAcquired (Specific) Immunity First line of defense (barriers at the body.
Skin and Mucus: Pathogens-Away! By: Piggy G, Tiny, Reeses, and Pikachu.
6.3 Defense against Infectious Disease. 6.3 Assessment Statements Define pathogen. Explain why antibiotics are effective against bacteria but not against.
Introduction to Immunology:
Anatomy and Physiology For The First Class 2 nd Semester 1.
CLS 212: Medical Microbiology
Login: student Password: download Esther Bokhobza Basic Immunology BSc in Physiotherapy Weeks 1-15 Wednesdays.
Biology in Focus, HSC Course Glenda Childrawi, Margaret Robson and Stephanie Hollis A Search For Better Health Topic 7: First Line of Defence.
The Immune Stystem.
1.1 Pathogens. Starter What is health? A state of complete physical, mental and social well- being. What is disease? A description of symptoms which suggest.
The Immune System Non-Specific Immunity. What You Should Know The human body has the capacity to protect itself against pathogens, some toxins and cancer.
Recognise phagocytes and lymphocytes under the light microscope; describe the origin, maturation and mode of action of phagocytes explain the meaning of.
AP Biology Immune / Lymphatic System lymphocytes attacking cancer cell phagocytic leukocyte lymph system Fighting the Enemy Within!
Bacterial Physiology (Micr430) Lecture 18 Bacterial Pathogenesis (Based on other textbooks such as Madigan’s)
General Microbiology (Micr300)
Immune system and Cancer
Pathogens  Microorganisms causing diseases  eg. bacteria viruses fungi protozoa.
OCR AS Biology – F212 – Module 2 Food & Health. Learning ObjectivesSuccess Criteria  Understand what the primary defence mechanisms against disease are.
To state another function of the circulatory system To identify the three lines of defence mechanism To describe phagocytosis To state the meaning of.
STUDY OF IMMUNITY. NON-SPECIFIC RESISTANCE
Immunology: Innate Immunity
The Lymphatic System Consists of ________ parts
Spread of Bacterial Infection
AP Biology Immune / Lymphatic System lymphocytes attacking cancer cell phagocytic leukocyte lymph system Fighting the Enemy Within!
ELAINE N. MARIEB EIGHTH EDITION 12 Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings PowerPoint ® Lecture Slide Presentation by.
Immunity Your body’s defense against infection!. Immune System A group of organs and tissues that protect you from foreign invaders Skin Thymus gland.
Chapter 12 Immunity and Body Defenses
Basic Immunology Mr.AYMAN.S.YOUSIF
The Immune System and Diseases. Infectious diseases can be caused by viruses, bacteria, fungi, “protists”, and parasites. Except for parasites, most of.
The Immune System.
Parasitology M. Saadatian Immunology 1.
INTRODUCTION TO IMMUNOLOGY CLS 245. The eradication of smallpox was a major success of immunotherapy.
Body Defence Prepared by Ms W.S.Kwan Pathogens  Microorganisms causing diseases  eg. bacteria viruses fungi protozoa.
Disease and the Immune System
Mr. Mah Living Environment Lecture 12.  Give THREE examples of vectors:  FliesTicks  MosquitoesSquirrels  RatsFleas  What are the 4 types of pathogens?
The Immune System The Body’s Lines of Defense. Intro Questions What is “disease”? What causes disease? How does our body attempt to maintain homeostasis?
IMMUNE SYSTEM Viruses, bacteria and other germs are all around us. Most of the time, a healthy immune system keeps us well. The purpose of the immune system.
 Disease- any change, other than an injury, that disrupts the normal functions of the body  Pathogens- disease-causing agents ◦ Bacteria ◦ Viruses ◦
IMMUNE SYSTEM. Parts of Human Blood PARTS OF HUMAN BLOOD: 1.Plasma – non-living, yellow liquid part of blood - 92% water - 8% blood proteins, nutrients,
Introduction Immunity: “Free from burden”. Ability of an organism to recognize and defend itself against specific pathogens or antigens. Resistance:
Introduction To clinical Immunology
Pathogens  Microorganisms causing diseases  eg. bacteria viruses fungi protozoa.
Commensal and Pathogenic Microbial Flora in Humans
Presenter : Samina Sattar Palijo Post R/N BScN 1 st Semester 2015 Topic related to : Life Science Faculty: Ramesh Kumar New life college of nursing Date.
Objectives – What you will need to know from this section The Immune System  Outline the Defence System including skin/mucous membranes of breathing,
Pathogenesis of Infectious Diseases CLS 212: Medical Microbiology.
AP Biology Immune / Lymphatic System lymphocytes attacking cancer cell phagocytic leukocyte lymph system Fighting the Enemy Within!
AP Biology 1 Introduction Vertebrates have three levels of defenses -1. The Integumentary System -Skin and mucous membranes provide first line of defense.
Protection Against Disease Natural Defence Mechanisms.
Bacterial Interactions with Hosts. A. Terminology B. Hosts C. The Skin D. Oral cavity E. Intestinal Tract F. Respiratory Tract G. Genito-urinary Tract.
Immune System First Line of Defense, don’t let em in.
Introduction to Immunology: Immunology began as a branch of microbiology; it grew out of the study of infectious diseases and the body’s response to them.
Fighting the Enemy Within! Immune / Lymphatic System
Anatomy 1. Integumentary System 2. Skeletal System 3. Muscular System 4. Nervous System 5. Circulatory System 6. Respiratory System 7.Digestive System.
Fighting Disease The Immune Response.
Introduction in serology
Pathogenesis of Infectious Diseases
The Human Defence System
Principles of Medical Microbiology
Immunology & Public Health
Chapter 16– Nonspecific Defense
IMMUNE/LYMPHATIC SYSTEM
Host Parasite Relationship
By K. Sai sudha (For II Year BSC BIOTECHNOLOGY IV SEMESETER)
The Lymphatic System and Immunity
Presentation transcript:

INTRODUCTION TO IMMUNOLOGY:

DEFINITIONS Immunity: resistance to disease, specifically infectious disease and tumors. The immune system: the collection of cells, tissues, and molecules that mediate resistance to infections. The immune response: the coordinated reaction of these cells and molecules to infectious microbes.

HISTORY Edward Jenner studied the immunity of the farm workers when they carried grease disease; (cowpox) from horses hooves to cow’s nipples. Jenner proposed that cowpox can be used to immunize children against small pox virus (small pox vaccine)

Documents show that as early as AD 1000, the Chinese custom existed of making children inhale powders made from the crusty skin lesions of patients recovering from smallpox

N Anthrax was first transmitted from in vitro culture to animals by Robert Koch in 1876 ; he proved that the microbe is the causative agent of disease. Louis Pasteur (1881), developed the first three attenuated vaccines: chicken cholera, anthrax and rabies.

In 1883, Metchnikoff observed the phagocytosis of fungal spores by leukocytes and advanced the idea that immunity was due to WBCs.

TISSUES AND ORGANS OF THE IMMUNE SYSTEM  Primary lymphoid organs Bone marrow. Thymus. Secondary lymphoid organs Spleen. Lymph nodes. Mucosal - Associated Lymphoid Tissues (MALT)

THYMUS & BONE MARROW

BARRIERS TO INFECTION: Human body has several barriers: Physical barriers Chemical barriers Biologic barriers These barriers provide the first line of defense against the entry of microbes.

THE PHYSICAL BARRIERS: o Skin o Mucus membranes o Respiratory tract o Urinary tract

SKIN: The initial mechanical barrier. -The outermost layer of epidermis (stratum corneum), is composed of dead tightly layered squamous cells. This layer is an inhospitable dry surface. - Continuously dividing keratinocytes provides a constant detachment of squamous cells and microbes.

N -

N Mucous Membranes: Mucous membranes line the body cavities. This epithelium contains goblet cells that secrete mucus. Mucus viscosity traps the inhaled microbes. In GIT, the mucus protects the epithelial cells and underlying tissue from damage by digestive enzyme.

Urinary Tract: The flashing action of sterile urine (urination) washes away pathogens and prevent urinary tract infections.

N Respiratory Tract: o The hair-like rhythmically beating cilia of the epithelia lining the respiratory tract passages remove the secretions containing trapped microbes. o The mucus production and alveolar macrophage play an important role in defence against microbes.

THE CHEMICAL BARRIERS: o Skin o Gastrointestinal Tract (GIT) o Respiratory Tract and Lacrimal Secretions.

skin: The sweat and sebaceous glands play an important role of natural defense. Sweat has slightly acidic PH of 5.5 and contains lysozyme that breaks down the bacterial peptidoglycan. The RNAses and DNAses of skin destroy the microbial genetic material.

N Several antimicrobial peptides e.g. defensins which are induced by skin damage, inhibit microbial growth causing lysis. The unsaturated fatty acids and sebum have antimicrobial action.

The Gastrointestinal Tract: The highly acidic environment of stomach (pH of 1 to 3) protects the intestines. The secreted antimicrobial molecules (α defensine and cryptidin) of GIT destroy some pathogens. The digestive action of the enzymes.

N Respiratory tract and lacrimal secretions: In respiratory tract: β defensin has antimicrobial activity. Production of tears; which contain IgA and lysozymes (protect the eye from pathogens).

The Biologic Barriers: Commensal Microbes (normal flora): Microorganisms that exist in a symbiotic relationship with the body. Commensals are considered as important part of natural defense because, they protect human body cavities from colonization with exogenous pathogenic organisms.

Examples of common commensal Bacteria Body Area o Skin o Upper respiratory tract, mouth, and throat. o Intestinal tract o Genital tract Common Commensal o Staphylococcus species o Streptococcus (alpha hem.) Neisseria species. o Bacteroides and Escherichia coli. o Lactobacillus species

How do commensals inhibit pathogenic colonization? o Production of bacteriocins (antibiotics). o Competitive depletion of essential nutrients. o Production of toxic products (vaginal lactic acid PH 4). o Stimulation of natural antibodies.

N

Establishment of Infection: Infectious diseases occur when a pathogenic organism invades human body barrier. This can be related to the following factors: o The pathogenic dose. o The microbial virulence. o The port of entry. o The host immunity.

N Pathogenic Dose: It is the minimum number of organisms required to establish an infection. Virulence Factors : Are microbial extracellular structures, proteins, enzymes and toxins that enable the microorganism to be a pathogen.

Ports of Entry: ingestion. Inhalation direct penetration Examples: Ingestion: Bacteria: Salmonella. Parasites: Entamoeba histolytica. Viruses: Hepatitis A.

Inhalation: Bacteria: Mycobacterium tuberculosis Fungi: Histoplasma. Viruses: influenza Direct penetration: Trauma: Clostridum tetani. Needle stick: hepatitis B. Arthropod bite: Malaria Sexual transmission: Neisseria gonorrhoeae. Transplacental: Rubella virus. Skin penetration: Schistosoma.