1. 1
An Introduction to Anatomy and Physiology

2. An Introduction to Studying the Human Body
Learning Outcomes
1-1 Explain the importance of studying anatomy and physiology.
1-2 Identify basic study skill strategies to use in this course.
1-3 Define anatomy and physiology, describe the origins of anatomical and physiological terms, and explain the significance of Terminologia Anatomica (International Anatomical Terminology).

3. An Introduction to Studying the Human Body
Learning Outcomes
1-4 Explain the relationship between anatomy and physiology, and describe various specialties of each discipline.
1-5 Identify the major levels of organization in organisms, from the simplest to the most complex, and identify major components of each organ system.
1-6 Explain the concept of homeostasis.

4. An Introduction to Studying the Human Body
Learning Outcomes
1-7 Describe how negative feedback and positive feedback are involved in homeostatic regulation, and explain the significance of homeostasis.
1-8 Use anatomical terms to describe body sections, body regions, and relative positions.
1-9 Identify the major body cavities and their subdivisions, and describe the functions of each.

5. An Introduction to Studying the Human Body
Classification of Living Things
Humans and many other animals are vertebrates
Characterized by a segmented vertebral column
Common characteristics suggest the same path in evolution
Homeostasis
The goal of physiological regulation and the key to survival in a changing environment

6. 1-1 Anatomy and Physiology Directly Affect Your Life
Is the oldest medical science
1600 B.C.
Physiology
Is the study of function
Biochemistry
Biology
Chemistry
Genetics

7. 1-2 Good Study Strategies Crucial for Success
Attend all lectures, labs, and study sessions
Read your lecture and laboratory assignments before going to class or lab
Devote a block of time each day to your A&P course
Set up a study schedule and stick to it
Do not procrastinate
Approach the information in different ways
Develop the skill of memorization, and practice it regularly
As soon as you experience difficulty with the course, seek assistance

8. 1-2 Good Study Strategies Crucial for Success
Important Features of the Textbook
End-of-Chapter Study and Review Materials
Systems Integrators
Colored Tabs
End-of-Book Reference Sections
Learning Outcomes
Illustrations, Tables, and Photos
Pronunciation Guides
Checkpoint Questions
Tips & Tricks
Clinical Notes
Arrow Icons

9. 1-2 Good Study Strategies Crucial for Success
Supplements
Practice Anatomy Lab™ (PAL™) 3.0 DVD
MasteringA&P™ Study Area
Interactive Physiology® 10-System Suite (IP-10) CD-ROM
Martini’s Atlas of the Human Body
Get Ready for A&P!
A&P Applications Manual
Study Guide
Full descriptions in preface of textbook

10. 1-3 Anatomy and Physiology
Describes the structures of the body
What they are made of
Where they are located
Associated structures
Physiology
Is the study of:
Functions of anatomical structures
Individual and cooperative functions

11. 1-4 Relationships between Anatomy and Physiology
Gross anatomy, or macroscopic anatomy, examines large, visible structures
Surface anatomy: exterior features
Regional anatomy: body areas
Systemic anatomy: organ systems
Developmental anatomy: from conception to death
Clinical anatomy: medical specialties

12. 1-4 Relationships between Anatomy and Physiology
Microscopic anatomy examines cells and molecules
Cytology: study of cells and their structures
cyt- = cell
Histology: study of tissues and their structures

13. 1-4 Relationships between Anatomy and Physiology
Cell physiology: processes within and between cells
Organ physiology: functions of specific organs
Systemic physiology: functions of an organ system
Pathological physiology: effects of diseases

14. 1-5 Levels of Organization
The Chemical (or Molecular) Level
Atoms are the smallest chemical units
Molecules are a group of atoms working together
The Cellular Level
Cells are a group of atoms, molecules, and organelles working together
The Tissue Level
A tissue is a group of similar cells working together
The Organ Level
An organ is a group of different tissues working together

15. 1-5 Levels of Organization
The Organ System Level
An organ system is a group of organs working together
Humans have 11 organ systems
The Organism Level
A human is an organism

16. Figure 1-1 Levels of Organization
Cellular Level
Chemical and Molecular Levels
Heart muscle cell
Protein filaments
Complex protein molecule
Atoms in combination 16

17. Figure 1-1 Levels of Organization
Organism level
Organ system level
Organ Level
Tissue Level
Cardiac muscle tissue
The heart
The cardiovascular system 17

18. 1-5 Levels of Organization
The Organ Systems
Integumentary
Major Organs
Skin
Hair
Sweat glands
Nails
Functions
Protects against environmental hazards
Helps regulate body temperature
Provides sensory information

19. 1-5 Levels of Organization
The Organ Systems
Skeletal
Major Organs
Bones
Cartilages
Associated ligaments
Bone marrow
Functions
Provides support and protection for other tissues
Stores calcium and other minerals
Forms blood cells

20. 1-5 Levels of Organization
The Organ Systems
Muscular
Major Organs
Skeletal muscles and associated tendons
Functions
Provides movement
Provides protection and support for other tissues
Generates heat that maintains body temperature

21. 1-5 Levels of Organization
The Organ Systems
Nervous
Major Organs
Brain
Spinal cord
Peripheral nerves
Sense organs
Functions
Directs immediate responses to stimuli
Coordinates or moderates activities of other organ systems
Provides and interprets sensory information about external conditions

22. 1-5 Levels of Organization
The Organ Systems
Endocrine
Major Organs
Pituitary gland
Pancreas
Gonads
Endocrine tissues in other systems
Functions
Directs long-term changes in the activities of other organ systems
Adjusts metabolic activity and energy use by the body
Controls many structural and functional changes during development
Thyroid gland
Adrenal glands

23. 1-5 Levels of Organization
The Organ Systems
Cardiovascular
Major Organs
Heart
Blood
Blood vessels
Functions
Distributes blood cells, water and dissolved
materials including nutrients, waste products, oxygen, and carbon dioxide
Distributes heat and assists in control of body temperature

24. 1-5 Levels of Organization
The Organ Systems
Lymphatic
Major Organs
Spleen
Thymus
Lymphatic vessels
Lymph nodes
Tonsils
Functions
Defends against infection and disease
Returns tissue fluids to the bloodstream

25. 1-5 Levels of Organization
The Organ Systems
Respiratory
Major Organs
Nasal cavities
Sinuses
Larynx
Trachea
Bronchi
Lungs
Alveoli

26. 1-5 Levels of Organization
The Organ Systems
Respiratory
Functions
Delivers air to alveoli (sites in lungs where gas exchange occurs)
Provides oxygen to bloodstream
Removes carbon dioxide from bloodstream
Produces sounds for communication

27. 1-5 Levels of Organization
The Organ Systems
Digestive
Major Organs
Teeth
Tongue
Pharynx
Esophagus
Stomach
Small intestine
Large intestine
Liver
Gallbladder
Pancreas

28. 1-5 Levels of Organization
The Organ Systems
Digestive
Functions
Processes and digests food
Absorbs and conserves water
Absorbs nutrients
Stores energy reserves

29. 1-5 Levels of Organization
The Organ Systems
Urinary
Major Organs
Kidneys
Ureters
Urinary bladder
Urethra
Functions
Excretes waste products from the blood
Controls water balance by regulating volume of urine produced
Stores urine prior to voluntary elimination
Regulates blood ion concentrations and pH

30. 1-5 Levels of Organization
The Organ Systems
Male Reproductive
Major Organs
Testes
Epididymides
Ductus deferentia
Seminal vesicles
Prostate gland
Penis
Scrotum

31. 1-5 Levels of Organization
The Organ Systems
Male Reproductive
Functions
Produces male sex cells (sperm), suspending fluids, and hormones
Sexual intercourse

32. 1-5 Levels of Organization
The Organ Systems
Female Reproductive
Major Organs
Ovaries
Uterine tubes
Uterus
Vagina
Labia
Clitoris
Mammary glands

33. 1-5 Levels of Organization
The Organ Systems
Female Reproductive
Functions
Produces female sex cells (oocytes) and hormones
Supports developing embryo from conception to delivery
Provides milk to nourish newborn infant
Sexual intercourse

34. 1-6 Homeostasis Homeostasis
All body systems working together to maintain a stable internal environment
Systems respond to external and internal changes to function within a normal range (body temperature, fluid balance)

35. 1-6 Homeostasis Mechanisms of Regulation Autoregulation (intrinsic)
Automatic response in a cell, tissue, or organ to some environmental change
Extrinsic regulation
Responses controlled by nervous and endocrine systems

36. 1-6 Homeostasis Receptor Control center Effector Receives the stimulus
Processes the signal and sends instructions
Effector
Carries out instructions

37. Figure 1-2 The Control of Room Temperature
RECEPTOR
Information affects
Normal condition disturbed
Thermometer
STIMULUS: Room temperature rises
HOMEOSTASIS
CONTROL CENTER (Thermostat)
Air conditioner turns on
Air conditioner turns off
Normal room temperature
RESPONSE: Room temperature drops
20°
30°
40°
Room temperature (°C)
Normal range 22
Normal condition restored
EFFECTOR
Sends commands to
Air conditioner turns on
Time
In response to input from a receptor (a thermometer), a thermostat (the control center) triggers an effector response (either an air condi- tioner or a heater) that restores normal temperature. In this case, when room temperature rises above the set point, the thermostat turns on the air conditioner, and the temperature returns to normal.
With this regulatory system, room temperature fluctuates around the set point. 37

38. 1-7 Negative and Positive Feedback
The Role of Negative Feedback
The response of the effector negates the stimulus
Body is brought back into homeostasis
Normal range is achieved

39. Figure 1-3 Negative Feedback in the Control of Body Temperature
RECEPTORS
Temperature sensors in skin and hypothalamus
Information affects
Normal temperature disturbed
CONTROL CENTER
STIMULUS: Body temperature rises
HOMEOSTASIS
Thermoregulatory center in brain
Normal body temperature
Vessels dilate, sweating increases
Vessels constrict, sweating decreases
RESPONSE: Increased heat loss, body temperature drops
37.2
Normal temperature restored
EFFECTORS
Sends commands to
Body temperature (°C)
Normal range 37
• Sweat glands in skin increase secretion • Blood vessels in skin dilate
36.7
Time
Events in the regulation of body temperature, which are comparable to those shown in Figure 12. A control center in the brain (the hypothalamus) functions as a thermostat with a set point of 37°C. If body temperature exceeds 37.2°C, heat loss is increased through enhanced blood flow to the skin and increased sweating.
The thermoregulatory center keeps body temperature fluctuating within an acceptable range, usually between 36.7 and 37.2°C. 39

40. 1-7 Negative and Positive Feedback
The Role of Positive Feedback
The response of the effector increases change of the stimulus
Body is moved away from homeostasis
Normal range is lost
Used to speed up processes

41. Figure 1-4 Positive Feedback: Blood Clotting
Clotting accelerates
Positive feedback loop
Chemicals
Chemicals
Blood clot
Damage to cells in the blood vessel wall releases chemicals that begin the process of blood clotting.
The chemicals start chain reactions in which cells, cell fragments, and soluble proteins in the blood begin to form a clot.
As clotting continues, each step releases chemicals that further accelerate the process.
This escalating process is a positive feedback loop that ends with the formation of a blood clot, which patches the vessel wall and stops the bleeding. 41

42. 1-7 Negative and Positive Feedback
Systems Integration
Systems work together to maintain homeostasis
Homeostasis is a state of equilibrium
Opposing forces are in balance
Dynamic equilibrium — continual adaptation
Physiological systems work to restore balance
Failure results in disease or death

43. Table 1-1 The Roles of Organ Systems in Homeostatic Regulation43

44. 1-8 Anatomical Terminology
Superficial Anatomy
Locating structures on or near the body surface
Anatomical Landmarks
Anatomical position: hands at sides, palms forward
Supine: lying down, face up
Prone: lying down, face down

45. 1-8 Anatomical Terminology
Superficial Anatomy
Anatomical Landmarks
References to palpable structures
Anatomical Regions
Body regions
Abdominopelvic quadrants
Abdominopelvic regions
Anatomical Directions
Reference terms based on subject

46. Figure 1-5a Anatomical Landmarks
Frontal or forehead
Nasal or nose
Ocular, orbital or eye
Cranial or skull
Otic or ear
Cephalic or head
Buccal or cheek
Facial or face
Cervical or neck
Oral or mouth
Mental or chin
Thoracic or thorax, chest
Axillary or armpit
Mammary or breast
Brachial or arm
Abdominal (abdomen)
Trunk
Antecubital or front of elbow
Umbilical or navel
Anterior view 46

47. Figure 1-5a Anatomical Landmarks
Antebrachial or forearm
Pelvic (pelvis)
Trunk
Carpal or wrist
Palmar or palm
Manual or hand
Pollex or thumb
Digits (phalanges) or fingers (digital or phalangeal)
Inguinal or groin
Pubic (pubis)
Patellar
or kneecap
Femoral or thigh
Crural or leg
Tarsal or ankle
Digits (phalanges) or toes (digital or phalangeal)
Pedal or foot
Hallux or great toe
Anterior view 47

48. Figure 1-5b Anatomical Landmarks
Cephalic or head
Acromial or shoulder
Cervical or neck
Dorsal or back
Olecranal or back of elbow
Upper limb
Posterior view 48

49. Figure 1-5b Anatomical Landmarks
Upper limb
Lumbar or loin
Gluteal or buttock
Lower limb
Popliteal or back of knee
Sural or calf
Calcaneal or heel of foot
Plantar or sole of foot
Posterior view 49

50. Figure 1-6a Abdominopelvic Quadrants and Regions
Right Upper Quadrant (RUQ)
Left Upper Quadrant (LUQ)
Right Lower Quadrant (RLQ)
Left Lower Quadrant (LLQ)
Abdominopelvic quadrants. The four abdominopelvic quadrants are formed by two perpendicular lines that intersect at the navel. The terms for these quadrants, or their abbreviations, are most often used in clinical discussions. 50

51. Figure 1-6b Abdominopelvic Quadrants and Regions
Right hypochondriac region
Left hypochondriac region
Epigastric region
Right lumbar region
Umbilical region
Left lumbar region
Hypogastric (pubic) region
Right inguinal region
Left inguinal region
Abdominopelvic regions. The nine abdominopelvic regions provide more precise regional descriptions. 51

52. Figure 1-6c Abdominopelvic Quadrants and Regions
Liver
Stomach
Gallbladder
Spleen
Large intestine
Small intestine
Appendix
Urinary bladder
Anatomical relationships. The relationship between the abdominopelvic quadrants and regions and the locations of the internal organs are shown here. 52

53. Figure 1-7 Directional References
Cranial
Superior
Right
Left
Proximal
Posterior or dorsal
Anterior or ventral
Lateral
Medial
Caudal
Proximal
Distal
Distal
Inferior
A lateral view.
An anterior view. Arrows indicate important directional terms used in this text; definitions and descriptions are given in Table 12. 53

54. Table 1-2 Directional Terms54

55. 1-8 Anatomical Terminology
Sectional Anatomy
Planes and sections
Plane: a three-dimensional axis
Section: a slice parallel to a plane
Used to visualize internal organization and structure
Important in radiological techniques
MRI
PET CT

56. Figure 1-8 Sectional Planes
Frontal plane
Sagittal plane
Transverse plane 56

57. Table 1-3 Terms That Indicate Sectional Planes57

58. 1-9 Body Cavities Essential Functions of Body Cavities
Protect organs from accidental shocks
Permit changes in size and shape of internal organs
Ventral body cavity (coelom)
Divided by the diaphragm
Thoracic cavity
Abdominopelvic cavity

59. Abdominopelvic Cavity
Figure 1-9 Relationships among the Subdivisions of the Ventral Body Cavity
Ventral Body Cavity
• Provides protection • Allows organ movement • Linings prevent friction
Subdivides during development into
Thoracic Cavity
Abdominopelvic Cavity
Surrounded by chest wall and diaphragm
Peritoneal Cavity
Extends throughout abdominal cavity and into superior portion of pelvic cavity
Right Pleural Cavity
Mediastinum
Left Pleural Cavity
Surrounds right lung
Contains the trachea, esophagus, and major vessels
Surrounds left lung
Abdominal Cavity
Pelvic Cavity
Contains many digestive glands and organs
Contains urinary bladder, reproductive organs, last portion of digestive tract
Pericardial Cavity
Surrounds heart 59

60. 1-9 Body Cavities Serous Membranes Line body cavities and cover organs
Consist of parietal layer and visceral layer
Parietal layer — lines cavity
Visceral layer — covers organ

61. 1-9 Body Cavities The Thoracic Cavity Right and left pleural cavities
Contain right and left lungs
Mediastinum
Upper portion filled with blood vessels, trachea, esophagus, and thymus
Lower portion contains pericardial cavity
The heart is located within the pericardial cavity

62. Figure 1-10a The Ventral Body Cavity and Its Subdivisions
POSTERIOR
ANTERIOR
Pleural cavity
Thoracic cavity
Pericardial cavity
Diaphragm
Peritoneal cavity
Abdominopelvic cavity
Abdominal cavity
Pelvic cavity 62

63. Figure 1-10b The Ventral Body Cavity and Its Subdivisions
Visceral pericardium
Heart
Air space
Pericardial cavity
Balloon
Parietal pericardium 63

64. Figure 1-10c The Ventral Body Cavity and Its Subdivisions
ANTERIOR
Pericardial cavity
Pleural cavity
Right lung
Left lung
Parietal pleura
Mediastinum
Spinal cord
POSTERIOR 64

65. 1-9 Body Cavities The Abdominopelvic Cavity
Peritoneal cavity: chamber within abdominopelvic cavity
Parietal peritoneum: lines the internal body wall
Visceral peritoneum: covers the organs

66. 1-9 Body Cavities The Abdominopelvic Cavity
Abdominal cavity — superior portion
Diaphragm to top of pelvic bones
Contains digestive organs
Retroperitoneal space
Area posterior to peritoneum and anterior to muscular body wall
Contains pancreas, kidneys, ureters, and parts of the digestive tract

67. 1-9 Body Cavities The Abdominopelvic Cavity
Pelvic cavity — inferior portion
Within pelvic bones
Contains reproductive organs, rectum, and bladder