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1-2. A First Look at Anatomy. Anatomy is the study of structure. The word anatomy is derived from Greek and means ?to cut up" or ?to cut open."Anatomists examine the relationships among parts of the body along with the structure of individual organs.. 1-3. Introduction to Anatomy. PhysiologyThe s
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1. 1-1 Human Anatomy, First EditionMcKinley & O'Loughlin Chapter 1 Lecture Outline: A First Look at Anatomy
2. 1-2 A First Look at Anatomy Anatomy is the study of structure.
The word anatomy is derived from Greek and means “to cut up” or “to cut open.”
Anatomists examine the relationships among parts of the body along with the structure of individual organs.
3. 1-3 Introduction to Anatomy Physiology
The scientific discipline that studies the function of body structures.
Structure and function cannot be completely separated.
Form is related to function.
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5. 1-5 Levels of Organization in the Human Body The simplest level of organization within the body is the chemical level, which is composed of atoms and molecules.
Atoms are the smallest units of matter.
6. 1-6 Levels of Organization in the Human Body Molecules
Two or more atoms combine to form a molecule, such as a protein, a water molecule, or a vitamin.
Macromolecules
Larger and more complex molecules such as DNA and proteins.
7. 1-7 Levels of Organization in the Human Body At the cellular level, specialized structural and functional units called organelles permit all living cells to share some common functions.
8. 1-8 Levels of Organization in the Human Body Large molecules join in specific ways to form cells, the basic units of structure and function in organisms.
The cell is the smallest structural unit that exhibits the characteristics of living things (organisms), and it is the smallest living portion of the human body.
9. 1-9 Levels of Organization in the Human Body Tissues
Groups of similar cells with a common function form tissue.
Tissues are precise organizations of similar cells that perform specialized functions.
10. 1-10 Levels of Organization in the Human Body Organs
Different tissue types that work together to perform specific, complex functions form an organ.
Organ Systems
The organ system level consists of related organs that work together to coordinate activities and achieve a common function.
There are 11 organ systems in the human body.
11. 1-11 Levels of Organization in the Human Body Organism
All body systems function interdependently in a single living human being, the organism.
12. 1-12 The Four Types of Tissues in the Human Body Are: Epithelial tissue covers exposed surfaces and lines body cavities.
Example: The inner lining of the digestive system
13. 1-13 The Four Types of Tissues Connective tissue protects, supports, and interconnects body parts and organs.
Can be solid (such as bone), liquid (such as blood), or intermediate (such as cartilage).
14. 1-14 The Four Types of Tissues Muscle tissue produces movement.
Skeletal muscle
Smooth muscle
Cardiac muscle
15. 1-15 The Four Types of Tissues Nervous tissue conducts impulses for internal communication.
Brain, spinal cord, and nerves
16. 1-16 Integumentary Provides protection
Regulates body temperature
Site of cutaneous receptors
Synthesizes vitamin D
Prevents water loss
17. 1-17 Skeletal Provides support and protection
Site of hematopoeisis (blood cell production)
Stores calcium and phosphorus
Allows for body movement
18. 1-18 Muscular Produces body movement
Generates heat when muscles contract
19. 1-19 Nervous A regulatory system that controls body movement
Responds to sensory stimuli
Helps control all other systems of the body
Also responsible for consciousness, intelligence, memory
20. 1-20 Endocrine Consists of glands and cell clusters that secrete hormones, some of which regulate
body and cellular growth
chemical levels in the body
reproductive functions
21. 1-21 Cardiovascular
Consists of a pump (the heart) that moves blood through blood vessels in order to distribute hormones, nutrients, gases, and pick up waste products
22. 1-22 Lymphatic Transports and filters lymph (interstitial fluid)
Initiates an immune response when necessary
23. 1-23 Respiratory Responsible for exchange of gases (oxygen and carbon dioxide) between blood and the air in the lungs
24. 1-24 Digestive Mechanically and chemically digests food materials
Absorbs nutrients
Expels waste products
25. 1-25 Urinary Filters the blood and removes waste products from the blood
Concentrates waste products in the form of urine, and expels urine from the body
26. 1-26 Male Reproductive System Produces male sex cells (sperm) and male hormones (e.g., testosterone)
Transfers sperm to the female
27. 1-27 Female Reproductive System
Produces female sex cells (oocytes) and female hormones (e.g., estrogen and progesterone)
Receives sperm from male
Site of fertilization of oocyte
Site of growth and development of embryo and fetus
28. 1-28 AnatomicalTerminology Anatomic position is a specific body position in which an individual stands upright with the feet parallel and flat on the floor.
The head is level, and the eyes look forward toward the observer.
The arms are at either side of the body with the palms facing forward and the thumbs pointing away from the body.
29. 1-29 Anatomical Terminology A plane is an imaginary surface that slices the body into specific sections.
The three major anatomic planes of reference are the coronal, transverse, and sagittal planes.
30. 1-30 Sectionsand Planes
A coronal plane, also called a frontal plane, is a vertical plane that divides the body into anterior (front) and posterior (back) parts.
31. 1-31 Sectionsand Planes A transverse plane, also called a cross-sectional plane or horizontal plane, cuts perpendicularly along the long axis of the body or organ separating it into both superior (upper) and inferior (lower) parts.
32. 1-32 Sectionsand Planes A sagittal plane or median plane, extends through the body or organ vertically and divides the structure into right and left halves.
33. 1-33 Sections and Planes A sagittal plane in the body midline is a midsagittal plane.
A plane that is parallel to the midsagittal plane, but either to the left or the right of it, is termed a parasagittal (or sagittal) plane.
A minor plane, called the oblique plane, passes through the specimen at an angle.
34. 1-34 Directional Terms of the Body Directional terms are precise and brief, and for most of them there is a correlative term that means just the opposite.
35. 1-35 Relative and Directional Terms of the Body Relative to front (belly side) or back (back side) of the body :
Anterior = In front of; toward the front surface
Posterior = In back of; toward the back surface
Dorsal =At the back side of the human body
Ventral = At the belly side of the human body
36. 1-36 Relative and Directional Terms of the Body Relative to the head or tail of the body:
Superior = Toward the head or above
Inferior = Toward feet not head
Caudal = At the rear or tail end
Cranial = At the head end
37. 1-37 Relative and Directional Terms of the Body Relative to the midline or center of the body:
Medial = Toward the midline of the body
Lateral = Away from the midline of the body
Deep = On the inside, underneath another structure
Superficial = On the outside
38. 1-38 Relative and Directional Terms of the Body Relative to point of attachment of the appendage:
Proximal = Closest to point of attachment to trunk
Distal = Furthest from point of attachment to trunk
39. 1-39 Body Regions The human body is partitioned into two main regions, called the axial and appendicular regions.
the axial region includes the head, neck, and trunk which comprise the main vertical axis of our body
our limbs, or appendages, attach to the body’s axis and make up the appendicular region
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43. 1-43 Body Cavitiesand Membranes The posterior aspect of the body has two enclosed cavities
A cranial cavity is formed by the cranium and houses the brain.
A vertebral canal is formed by the individual bones of the vertebral column and contains the spinal cord.
44. 1-44 Body Cavities Both the thoracic and abdominopelvic cavities are lined with thin serous membranes, which are composed of two layers:
A parietal layer lines the internal surface of the body wall.
A visceral layer covers the external surface of organs (viscera) within the cavity.
Between the parietal and visceral layers of the serous membrane is a thin serous cavity, containing a lubricating film of serous fluid.
45. 1-45 Body Cavities and Membranes Constant movement of the organs causes friction.
The serous fluid reduces friction and helps the organs move smoothly against both one another and the body wall.
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47. 1-47 Body Cavities and Membranes The median space in the thoracic cavity is called the mediastinum.
It contains the heart, thymus, esophagus, trachea, and major blood vessels that connect to the heart.
48. 1-48 Body Cavities and Membranes Within the mediastinum, the heart is enclosed by a two-layered serous membrane called the pericardium.
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50. 1-50 The Thoracic Cavity The right and left sides of the thoracic cavity contain the lungs; they are lined by a two-layered serous membrane called the pleura.
The outer layer is the parietal pleura; it lines the internal surface of the thoracic wall
The inner layer is the visceral pleura; it covers the external surface of the lung
The narrow, moist, potential space between them is called the pleural cavity
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52. 1-52 Abdominopelvic Cavity
The abdominopelvic cavity consists of an abdominal cavity and a pelvic cavity.
53. 1-53 The Abdominopelvic Cavity The peritoneum is a moist, two-layered serous membrane that lines the abdominopelvic cavity.
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55. 1-55 Abdominopelvic Regions The abdominopelvic cavity is partitioned into 9 smaller, imaginary compartments.