Biology 1308, Chapter 11 – Part 1 • Chapter 11 is the introduction to Anatomy and Physiology with a Human emphasis necessary to pass the assessment test • Human Organization of the body: Tissues, Organs, Organ Systems, Organism • We will start with “Tissues” •A tissue is composed of similarly specialized cells that perform a common function in the body.
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Biology 1308, Chapter 11 – Part 1 Chapter 11 is the introduction to Anatomy and Physiology with a Human emphasis necessary to pass the assessment test.
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Biology 1308, Chapter 11 – Part 1
• Chapter 11 is the introduction to Anatomy and Physiology with a Human emphasis necessary to pass the assessment test
• Human Organization of the body: Tissues, Organs, Organ Systems, Organism
• We will start with “Tissues”• A tissue is composed of similarly
specialized cells that perform a common function in the body.
• Epithelial Tissue can be Classified According to Cell Type:– Squamous: Outer cells are flattened– Cuboidal: Outer cells are cubed shaped– Columnar: Outer cells are rectangular
• Epithelial Tissue can also be classified according to the number of layers in the tissue.– Simple: Single layer of cells– Stratified: Multiple cell layers
Epithelial Tissue
Junctions Between Epithelial Cells
Cell Junctions• Cells with tight junctions: impermeable
barrier, does not allow materials to flow in or out (epithelium of stomach lining – keep acid in stomach and not into tissue)
• See Fig. 11.2 (a)
• Gap junctions: membrane channels between cells; allows materials fo flow from cell to cell like ions and sugars ( in heart muscle, cells can rhythmically contract) See Fig. 11.2(b)
Cell Junctions• Adhesion Junction: Cells adhere to each
other by filaments, like being spot welded together (spot weld is the “desmossome”)
• Hold cells tightly and provides strength to tissue (the filaments binding the cells at the plaque give much structural integrity)
• See fig. 11.2 (c)
Junctions Between Epithelial Cells
Oh Deer• City Deer
Biology 1308, Chapter 11
• Connective Tissue– Binds organs together– Provides support and protection– Fills spaces– Produces blood cells– Stores fat
Biology 1308, Chapter 11
• Components of Connective Tissue
– Matrix: solid, semisolid, or liquid (non cellular material – solid to
jelly like
– Fibers:
• White collagen (protein that stretches, elastic),
• Yellow elastic fibers, another protein, elastin, more elastic
than collagen
– Cells: various types (more later
– Figure 11.3, pg 201, know this picture
Examples of Connective Tissue
Biology 1308, Chapter 11
• Connective Tissue Continued– Fibroblasts are cells that produce fibers and other
substances.
– Loose fibrous tissue support epithelium and many internal organs.
– Dense connective tissue is found in structures such as tendons and ligaments.
Biology 1308, Chapter 11
• Connective Tissue Continued
– Adipose Tissue• Fibroblasts enlarge and store fat
– Fat is used for energy, insulation, and organ protection
– Reticular Connective Tissue• Forms the meshwork of lymphatic tissue in:
– The spleen– The thymus– Bone marrow
Biology 1308, Chapter 11
• Connective Tissue Continued
– Cartilage• Cells lie in small chambers called lacuna
– Three Types of Cartilage• Hyaline: contains very fine collagen fibers (nose, ends of
bones, fetal skeleton, c rings of trachea• Elastic: has a higher proportion of elastic fibers, flexible
– (framework of outer ear)
• Fibrocartilage: contains strong collagen fibers, (pads between vertebrae and knee joints)
Biology 1308, Chapter 11
• Connective Tissue Continued
– Bone• The most rigid connective tissue• Consists of a matrix of calcium salts deposited around
collagen• Functions: Support, protection, mineral storage, blood cell
formation
– Two Types of Bone• Compact bone (shafts of long bones)• Spongy bone (end of long bones)
Examples of Connective Tissue
Biology 1308, Chapter 11
• Connective Tissue Continued
– Blood• Transports respiratory gases (oxygen, carbon dioxide)• Transports nutrients and wastes (glucose, urea)• Involved with many aspects of homeostasis (ex. Temp.)• Helps protect us from disease (phagocytes and antibodies)
Biology 1308, Chapter 11
• Components of Blood
– Red Blood Cells (erythrocytes – anucleate)• Contain hemoglobin for transport of oxygen
– White Blood Cells (leukocytes – nucleate)• Fight infection
– Platelets• Are cell fragments involved with blood clotting
Blood
Biology 1308, Chapter 11
• Muscular Tissue
– Muscle cells are called muscle fibers
– Muscles fibers contain actin and myosin filaments• Interaction of actin and myosin accounts for movements
– Types of Muscle Tissues• Skeletal• Smooth (visceral)• Cardiac
Biology 1308, Chapter 11
• Skeletal Muscle– Occurs in muscles attached to the skeleton– Cells are striated and multinucleated– Is voluntary
• Smooth Muscle– Occurs in blood vessels and walls of the digestive tract– Cells are spindle-shaped, each has a single nucleus– Striations are not present– Is involuntary
• Cardiac muscle– Occurs in the wall of the heart– Has branching, striated cells, each with a single nucleus– Is involuntary
Muscular Tissue
Biology 1308, Chapter 11
• Nervous Tissue– Neurons (nerve cells)
• Conduct impulses– Sensory input, integration, motor output
• Neuron structure– Dendrites– Cell body– Axon
– Neuroglia• Support and nourish neurons
– Microglia: phagocytic– Astrocytes: provide nutrients– Oligodendroglia: form myelin
Neurons and Neuroglia
Biology 1308, Chapter 11• Body Cavities and Body Membranes Cavities
– Ventral Cavity- Divided by Diaphragm • Thoracic cavity
– Meninges • Line the dorsal cavity• Protect brain and spinal cord• Connective tissue
Biology 1308, Chapter 11 – part 2
I divided the presentations into 2 parts because it was too large a file
Biology 1308, Chapter 11
• Organs are composed of many kinds of tissues and cells for organs (ex: heart- cardiac muscle, neurons, connective tissue, fat, etc)
• Organ systems are groups of related organs working together (ex: heart and blood vessels work together; circulatory system)
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.3 Organ Systems
11.4 Integumentary System
• The Integumentary System – Skin– Hair– Nails– Sweat Glands– Sebaceous Glands
11.4 Integumentary System
• Functions of the Integumentary System – Protects underlying tissues from trauma, pathogen
invasion, and water loss
– Helps to regulate body temperature
– Synthesizes Vitamin D
– Helps us to be aware of our surroundings
11.4 Integumentary System
• Regions of the Skin– Epidermis
• Stratified squamous epithelium• Basal layer produces new cells• Cells harden and die as they push to the surface• Keratin - hardens cells, waterproof• Melanocytes - produce pigment
11.4 Integumentary System
• Regions of the Skin– Dermis
• Contains collagen fibers that help prevent tearing• Contains elastic fibers that maintain tension• Contains blood vessels that nourish the skin• Contains sensory receptors for touch, pain, pressure,
temperature
11.4 Integumentary System
• Subcutaneous Layer
– Loose connective tissue
– Adipose tissue• Insulation
• Energy storage
Human Skin Anatomy
11.4 Integumentary System
• Accessory Organs of the Skin– Nails
• Protect digits• Nail root- grows new nail• Cuticle- protects nail root• Lunula- white half-moon at base- thick layer of cells
Nail Anatomy
11.4 Integumentary System
• Accessory Organs of the Skin– Hair Follicles
• Extend from dermis through epidermis• Arrector pili muscles-erect hair shaft- “goose bumps”• Epidermal cells in hair root form hair• Cells become keratinized and die as they are pushed away
from root
– Oil Glands• Associated with hair follicles• Lubricates hair and skin
– Sweat Glands• Some open into hair follicles, others onto skin• Thermoregulation
11.5 Homeostasis
• Homeostasis is the relative constancy on the body’s internal environment.
• Even if external conditions change dramatically, internal conditions stay within a narrow range.
11.5 Homeostasis
• Negative Feedback
– Primary mechanism that keeps a variable close to a set point.
– Two components (minimum)• A sensor• A control center
Negative Feedback Mechanism
Negative FeedbackA Mechanical Example A Human Example
11.5 Homeostasis
• Positive Feedback– A change brings about a greater change in the same
direction• Example: A fever brings about changes in the
body that cause body temperature to increase even more (can be fatal)
• Beneficial examples include blood clotting and the birthing process
11.5 Homeostasis
• Homeostasis and Body Systems– The Transport Systems
• Cardiovascular system-pumps blood to and from capillaries for exchange