1. Inquiry into Life Twelfth Edition
Lecture PowerPoint to accompany
Inquiry into Life Twelfth Edition
Sylvia S. Mader
Chapter 11
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

2. 11.1 Types of Tissues

3. 11.1 Types of Tissues
A tissue is composed of similarly specialized cells that perform a common function in the body.

4. 11.1 Types of Tissues Four Types of Tissues in the Human Body
Epithelial: lines body surfaces and cavities
Connective: supports and bonds body parts
Muscular: moves the body and its parts
Nervous: receives stimuli and conducts impulses

5. 11.1 Types of Tissues
Epithelial tissue protects underlying structures; functions may also include:
Secretion (glands)
Absorption
Excretion
Filtration

6. 11.1 Types of Tissues
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

7. Epithelial Tissue

8. Junctions Between Epithelial Cells

9. 11.1 Types of Tissues Connective Tissue Binds organs together
Provides support and protection
Fills spaces
Produces blood cells
Stores fat

10. 11.1 Types of Tissues Components of Connective Tissue
Matrix: solid, semisolid, or liquid
Fibers: collagen,elastic, reticular
Cells: various types

11. 11.1 Types of Tissues 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.

12. 11.1 Types of Tissues 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

13. 11.1 Types of Tissues Connective Tissue Continued Cartilage
Cells lie in small chambers called lacuna
Three Types of Cartilage
Hyaline: contains very fine collagen fibers
Elastic: has a higher proportion of elastic fibers, flexible
Fibrocartilage: contains strong collagen fibers

14. 11.1 Types of Tissues 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)

15. Examples of Connective Tissue

16. 11.1 Types of Tissues Connective Tissue Continued Blood
Transports respiratory gases
Transports nutrients and wastes
Involved with many aspects of homeostasis
Helps protect us from disease

17. 11.1 Types of Tissues Components of Blood Red Blood Cells
Contain hemoglobin for transport of oxygen
White Blood Cells
Fight infection
Platelets
Are cell fragments involved with blood clotting

18. Blood

19. 11.1 Types of Tissues 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

20. 11.1 Types of Tissues Skeletal Muscle Smooth Muscle Cardiac 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

21. Muscular Tissue

22. 11.1 Types of Tissues Nervous Tissue Neurons (nerve cells) Neuroglia
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

23. Neurons and Neuroglia

24. 11.2 Body Cavities and Body Membranes
Ventral Cavity- Divided by Diaphragm
Thoracic cavity
Lungs
Heart
Abdominal cavity
Visceral organs
Bladder
Reproductive organs
Dorsal Cavity
Cranial cavity
Brain
Spinal cavity
Spinal cord

25. Mammalian Body Cavities

26. 11.2 Body Cavities and Body Membranes
Mucous Membranes
Line digestive, respiratory, urinary, and reproductive organs
Epithelium overlies loose fibrous connective tissue
Goblet cells-produce mucus
Protective function
Serous Membranes
Line thoracic and abdominal cavities
Specific names according to location
Pleural- lines thoracic cavity and lungs
Pericardial-encloses heart
Peritoneal- lines abdominal cavity and forms mesentery

27. 11.2 Body Cavities and Body Membranes
Body Membranes Continued
Synovial membranes
Loose connective tissue
Line freely movable joints
Secrete synovial fluid
Meninges
Line the dorsal cavity
Protect brain and spinal cord
Connective tissue

28. 11.3 Organ Systems

29. 11.3 Organ Systems

30. 11.3 Organ Systems

31. 11.3 Organ Systems

32. 11.3 Organ Systems

33. 11.3 Organ Systems

34. 11.3 Organ Systems

35. 11.3 Organ Systems

36. 11.3 Organ Systems

37. 11.3 Organ Systems

38. 11.3 Organ Systems

39. 11.3 Organ Systems

40. 11.3 Organ Systems

41. 11.3 Organ Systems

42. 11.4 Integumentary System The Integumentary System Skin Hair Nails
Sweat Glands
Sebaceous Glands

43. 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

44. 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

45. 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

46. 11.4 Integumentary System Subcutaneous Layer Loose connective tissue
Adipose tissue
Insulation
Energy storage

47. Human Skin Anatomy

48. 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

49. Nail Anatomy

50. 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

51. 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.

52. 11.5 Homeostasis Negative Feedback
Primary mechanism that keeps a variable close to a set point.
Two components (minimum)
A sensor
A control center

53. Negative Feedback Mechanism

54. Negative Feedback A Mechanical Example A Human Example

55. 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

56. 11.5 Homeostasis Homeostasis and Body Systems The Transport Systems
Cardiovascular system-pumps blood to and from capillaries for exchange
RBC’s- carry oxygen
Platelets-clotting
Lymphatics-collect excess tissue fluid / Purify Lymph
The Maintenance Systems
Respiratory system-brings in oxygen and removes carbon dioxide
Digestive system-digests nutrients and removes wastes
Liver- manufactures products, detoxifies
Kidneys- fluid balance, pH regulation, waste removal

57. Regulation of Tissue Fluid Composition

58. 11.5 Homeostasis Homeostasis and Body Systems Continued
The Support Systems
Integumentary system produces vitamin D
Skeletal system stores minerals, produces blood cells
Muscular system produces heat
The Control Systems
Nervous system and endocrine system function as control centers
Direct effectors to become active
Muscles
Glands

59. 11.5 Homeostasis Disease Breakdown in self regulation
Body no longer functions properly
Local disease
Restricted to one part of the body
Systemic disease
Affects entire body
Acute disease
Occur suddenly
Usually short duration
Chronic disease
Long term, less severe
Develop slowly