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Transcript of 1 Biology 181: Anatomy & Physiology I Chapter 1 Verona A. Barr Prof. of Biology Math & Science...
1
Biology 181: Anatomy & Physiology I
Chapter 1
Verona A. Barr
Prof. of Biology
Math & Science Division
Heartland Community College
2
Opening Day…
• Welcome!
• Contact/Website Information
• Syllabus– Attendance– Class Policies
• Other Handouts
3
Success Tips…• Hole’s 12th Edition Text has available:
– Student Study Guide– MediaPhys CD– Anatomy & Physiology Revealed CD
(available at the HCC bookstore)– Text Website www.mhhe.com/shier12
• Know how to use the text… xxi to xxvii.
• Read the text BEFORE class!!
4
Hole’s Human Anatomyand Physiology
Twelfth Edition
Shier Butler Lewis
Chapter 1
Introduction to Human Anatomy & Physiology
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
5
1.1: Introduction
• Questions and observations that have led to knowledge.
• Knowledge about structure and function of the human body.
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1.2: Anatomy & Physiology
• Anatomy – the study of the structure of the human body
• Physiology – the study of the function of the human body
“The complementarity of structure and function.”
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Anatomy and Physiology
• Anatomy – study of structure (Greek – “a cutting up”)
• Physiology – study of function (Greek – “relationship to nature”)
“Structure dictates function.”
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1.3: Levels of Organization
• Subatomic Particles – electrons, protons, and neutrons• Atom – hydrogen atom, lithium atom, etc.
• Molecule – water molecule, glucose molecule, etc.
• Macromolecule – protein molecule, DNA molecule, etc.
• Organelle – mitochondrion, Golgi apparatus, nucleus, etc.
• Cell – muscle cell, nerve cell, etc.
• Tissue – epithelia, connective, muscle and nerve• Organ – skin, femur, heart, kidney, etc. • Organ System – skeletal system, digestive system, etc.
• Organism – the human
Fig. 1.3a
Subatomic particles
Atom
Molecule
Macromolecule
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Fig. 1.3b
OrganelleCopyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.3c
CellCopyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.3d
TissueCopyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.3e
Organ
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.3f
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Organ system
Fig. 1.3g
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Organism
Levels of Organization
Subatomic particles
Atom
Molecule
Macromolecule
Organelle
Cell
Tissue
Organ
Organ system
Organism
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17
Can you name the organ systems?There are eleven (11).
Can you name one function of each organ system?
Levels of Organization
18
Organ Systems
Integumentary system
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19
Organ Systems
Skeletal system Muscular system
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Organ Systems
Nervous system Endocrine system
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21
Organ Systems
Cardiovascular system Lymphatic system
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22
Organ Systems
Digestive system Respiratory system Urinary system
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Organ Systems
Male reproductive system Female reproductive system
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1.4: Characteristics of Life (10)
• Movement – change in position; motion
• Responsiveness – reaction to a change
• Growth – increase in body size; no change in shape
• Respiration – obtaining oxygen; removing carbon dioxide; releasing energy from foods
• Reproduction – production of new organisms and new cells
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Characteristics of Life Continued
• Absorption – passage of substances through membranes and into body fluids
• Circulation – movement of substances in body fluids
• Assimilation – changing of absorbed substances into chemically different forms
• Excretion – removal of wastes produced by metabolic reactions
• Digestion – breakdown of food substances into simpler forms
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1.5: Maintenance of Life
• Life depends on five (5) environmental factors:
• Water• Food• Oxygen• Heat• Pressure
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Requirements of Organisms
• Water- most abundant substance in body- required for metabolic processes- required for transport of substances- regulates body temperature
• Food- provides necessary nutrients- supplies energy- supplies raw materials
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Requirements of Organisms
• Oxygen (gas)- one-fifth of air- used to release energy from nutrients
• Heat- form of energy - partly controls rate of metabolic reactions
• Pressure - application of force on an object - atmospheric pressure – important for breathing - hydrostatic pressure – keeps blood flowing
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Homeostasis*
* Maintaining of a stable internal environment
• Homeostatic Control Mechanisms – monitors aspects of the internal environment and corrects as needed. Variations are within limits. There are three (3) parts:
• Receptor - provides information about the stimuli
• Control Center - tells what a particular value should be (called the set point)
• Effector - elicits responses that change conditions in the internal environment
Fig. 1.6b
Receptors
Control center(set point)
(Change is comparedto the set point.)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.6c
Effectors(muscles or glands)
Control center(set point)
(Change is comparedto the set point.)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.6d
Response(Change is corrected.)
Effectors(muscles or glands)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Homeostatic Control Mechanisms
Stimulus(Change occursin internalenvironment.) Response
(Change is corrected.)
Receptors Effectors(muscles or glands)
Control center(set point)
(Change is comparedto the set point.)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
33
Fig. 1.8a
ReceptorsThermoreceptorssend signals to thecontrol center.
too high
Normal bodyTemperature37°C (98.6°F)
Control centerThe hypothalamusdetects the deviationfrom the set point andsignals effector organs.
StimulusBody temperaturerises above normal.
EffectorsSkin blood vesselsdilate and sweat glandssecrete.
ResponseBody heat is lost tosurroundings, temperaturedrops toward normal.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.8b
too low
Normal bodytemperature37°C (98.6°F)
Control centerThe hypothalamusdetects the deviationfrom the set point andsignals effector organs. If body temperature
continues to drop,control center signalsmuscles to contractinvoluntarily.
ReceptorsThermoreceptorssend signals to thecontrol center.
EffectorsSkin bloodvessels constrictand sweat glandsremain inactive.
StimulusBody temperaturedrops below normal.
EffectorsMuscleActivityGeneratesbody heat.
ResponseBody heat is conserved,temperature rises toward normal.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
36
Homeostatic Control Mechanisms
ReceptorsThermoreceptorssend signals to thecontrol center.
too high
too low
Normal bodytemperature37°C (98.6°F)
Control centerThe hypothalamusdetects the deviationfrom the set point andsignals effector organs.
Control centerThe hypothalamusdetects the deviationfrom the set point andsignals effector organs. If body temperature
continues to drop,control center signalsmuscles to contractInvoluntarily.
StimulusBody temperaturerises above normal.
EffectorsSkin blood vesselsdilate and sweat glandssecrete.
ResponseBody heat is lost tosurroundings, temperaturedrops toward normal.
ReceptorsThermoreceptorssend signals to thecontrol center.
EffectorsSkin bloodvessels constrictand sweat glandsremain inactive.
StimulusBody temperaturedrops below normal.
EffectorsMuscleactivitygeneratesbody heat.
ResponseBody heat is conserved,temperature rises toward normal.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
37
• There are two (2) types:
• Negative feedback mechanisms
• Positive feedback mechanisms
Homeostatic Control Mechanisms
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Negative feedback summary:
• Prevents sudden, severe changes in the body
• Reduces the actions of the effectors
• Corrects the set point
• Causes opposite of bodily disruption to occur, ie, ‘negates’ the change
• Limits chaos in the body by creating stability
• Most common type of feedback loop
• Examples: body temperature, blood pressure & glucose regulation
Homeostatic Control Mechanisms
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Positive feedback summary:
• Increases (accelerates) the actions of the body, ie, ‘positively’ adds to or continues the change
• Produces more instability in the body
• Produces more chaos in the body
• There are only a few types necessary for our survival
• Positive feedback mechanisms are short-lived
• Controls only infrequent events that do not require continuous adjustments
• Considered to be the uncommon loop
• Examples: blood clotting and child birth
Homeostatic Control Mechanisms
40
Animation:Positive and Negative Feedback
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1.6: Organization of the Human Body
• Body cavities
Thoracic cavity
Abdominopelviccavity
Abdominalcavity
Diaphragm
Pelvic cavity
Cranial cavity
Vertebral canal
(a)
Thoracic cavity
Abdominopelviccavity
Abdominalcavity
Pelvic cavity
Right pleuralcavity
Mediastinum
Left pleural cavityPericardialcavity
Diaphragm
Vertebral canal
Cranial cavity
Thoraciccavity
(b)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Frontal sinuses
Orbital cavities
Nasal cavity
Oral cavity
Cranial cavity
Sphenoidal sinus
Middle ear cavity
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.10
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Thoracic & Abdominal Serous Membranes
Thoracic Membranes• Visceral pleura• Parietal pleura• Visceral pericardium• Parietal pericardium
• Visceral layer – covers an organ• Parietal layer – lines a cavity or body wall
Abdominopelvic Membranes• Parietal peritoneum• Visceral peritoneum• Parietal perineum• Visceral perineum
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Thoracic Serous Membranes
Vertebra
Aorta
Esophagus
Right lung
Visceral pleura
Pleural cavity
Parietal pleura
Sternum
Plane ofsection
Spinal cord
Mediastinum
Left lung
Rib
Left ventricleof heart
Visceral pericardium
Pericardial cavity
Parietal pericardiumAnterior
Azygos v.
Right atriumof heart
Right ventricleof heart
Fibrous pericardium
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45
Abdominal Serous Membranes
Vertebra
Right kidney
Pancreas
LargeintestineLiver
Gallbladder
Duodenum
Peritoneal cavity
Parietal peritoneum
Plane ofsection
Leftkidney
Spinal cord
Spleen
Rib
Small intestine
Large intestine
Stomach
Anterior
Visceral peritoneum
Costal cartilage
Aorta
Inferiorvena cava
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1.7: Lifespan Changes
Aging occurs from the microscopic level to the whole-body level.
Can you think of some examples?
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1.8: Anatomical Terminology
Anatomical Position – standing erect, facing forward, upper limbs at the sides, palms facing forward and thumbs out
Integumentary system
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Anatomical Terminology:Orientation and Directional Terms
• Terms of Relative Position (based on anatomical position):• Superior versus Inferior• Anterior versus Posterior• Medial versus Lateral• Ipsi-lateral versus Contra-lateral• Proximal versus Distal (only in the extremities)• Superficial versus Deep• Internal versus External
Fig. 1.20aSuperior
Inferior
Medial
Lateral
Midline
Right Left
Proximal
Distal
Proximal
Distal
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Fig. 1.20b
Anterior
(Ventral)
Posterior
(Dorsal)
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Superior
Inferior
Medial
Lateral
Midline
Right Left
Proximal
Distal
Proximal
Distal
Anterior
(Ventral)
Posterior
(Dorsal)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.20
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Body Sections or Planes (3)
• Sagittal or Median – divides body into left and right portions• Mid-sagittal – divides body into equal left and right portions
• Transverse or Horizontal – divides body into superior and inferior portions
• Coronal or Frontal – divides body into anterior and posterior portions
53
Body Sections
A section along a frontalplane
A section along a transverseplane
A section along themedian plane
Transverse(horizontal)plane
Frontal(coronal)plane
Parasagittalplane
Median(midsagittal)plane
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© McGraw-Hill Higher Education, Inc./Joe De Grandis, photographer
Body Sections
54(a) (b) (c)
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a: © Patrick J. Lynch/Photo Researchers, Inc.; b: © Biophoto Associates/Photo Researchers, Inc.; c: © A. Glauberman/Photo Researchers, Inc.
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Other Body Sections
(a) (b) (c)
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Abdominal Subdivisions (2)
• Regions (9)
• Quadrants (4)
Righthypochondriacregion
Rightlumbarregion
Rightiliacregion
Epigastricregion
Umbilicalregion
Hypogastricregion
Lefthypochondriacregion
Leftlumbarregion
Leftiliacregion
(a)
Right upperquadrant (RUQ)
Left upperquadrant (LUQ)
Right lowerquadrant (RLQ)
Left lowerquadrant (LLQ)
(b)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.24a
Righthypochondriacregion
Rightlumbarregion
Rightiliacregion
Epigastricregion
Umbilicalregion
Hypogastricregion
Lefthypochondriacregion
Leftlumbarregion
Leftiliacregion
(a)
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fig. 1.24b
Right upperquadrant (RUQ)
Left upperquadrant (LUQ)
Right lowerquadrant (RLQ)
Left lowerquadrant (LLQ)
(b)
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Body Regions
Otic (ear)
Cervical (neck)
Acromial(point of shoulder)
Mammary (breast)
Brachial(arm)
Antecubital(front of elbow)
Antebrachial(forearm)
Genital(reproductive organs)
Cephalic (head)
Orbital (eye cavity)
Mental (chin)
Sternal
Pectoral(chest)
Inguinal(groin)
Coxal(hip)
Umbilical(navel)
Pedal (foot)
Occipital(back of head)
Acromial(point of shoulder)
Brachial (arm)
Dorsum (back)
Cubital (elbow)
Gluteal (buttocks)
Perineal
Femoral (thigh)
Popliteal (back of knee)
Plantar (sole)(a) (b)
Patellar(front of knee)
Vertebral(spinal column)
Sacral (between hips)
Lumbar(lower back)Abdominal
(abdomen)
Carpal (wrist)
Palmar (palm)
Digital (finger)
Nasal (nose)
Oral (mouth)
Frontal (forehead)
Buccal (cheek)
Tarsal (instep)
Digital (toe)
Axillary (armpit)
Crural (leg)
Sural (calf)
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60
Important Points in Chapter 1:Outcomes to be Assessed
1.1: Introduction
Identify some of the early discoveries that lead to our current understanding of the human body.
1.2: Anatomy and Physiology
Define anatomy and physiology and explain how they are related.
1.3: Levels of Organization
List the levels of organization in the human body and the characteristics of each.
1.4: Characteristics of Life
List and describe the major characteristics of life.
Define and give examples of metabolism.
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Important Points in Chapter 1:Outcomes to be Assessed Continued
1.5: Maintenance of Life
List and describe the major requirements of organisms.
Define homeostasis and explain its importance to survival.
Describe the parts of a homeostatic mechanism and explain how they
function together.
1.6: Organization of the Human Body
Identify the locations of the major body cavities.
List the organs located in each major body cavity.
Name and identify the locations of the membranes associated with the
thoracic and abdominopelvic cavities.
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Important Points in Chapter 1:Outcomes to be Assessed Continued
Name the major organ systems and list the organs associated with each.
Describe the general function of each organ system.
1.7: Lifespan Changes
Define aging.
Identify the levels of organization in the body at which aging occurs.
1.8: Anatomical Terminology
Properly use the terms that describe relative positions, body sections, and
body regions. (To be assessed in Lab, only)