Chapter 1 and ch 2

Chapter 1
Introduction to Pathophysiology

Health and Disease
•Copyright © 2014, 2011, 2006 by Saunders, an imprint of Elsevier, Inc. •2
 Health
 Physical, mental, and social well-being
 Disease
 Deviation from the normal state of homeostasis

Health Indicators
 “Normal” values occur within a range of
values and may vary depending on
technology used for measurement.
 Adjustments caused by the following:
 Age
 Gender
 Genetics
 Environment
 Activity level

Seven Steps to Health
 Be a nonsmoker and avoid second-hand smoke.
 Eat 5 to10 servings of vegetables and fruit a day.
Choose high-fiber, lower fat foods. Limit alcohol
intake.
 Physical activity on a regular basis
 Protection from the sun
 Follow cancer screening guidelines.
 Doctor or dentist visit if any changes in the normal
state of health
 Follow health and safety guidelines at home and at
work when using, storing, and disposing of
hazardous materials.

Pathophysiology
 Functional (physiologic) changes in the body
as a result from disease
 Uses knowledge of basic anatomy and
physiology
 Includes aspects of pathology, which
describes structural changes in body tissues
caused by disease
 Cause and effect relationships, defined by
signs and symptoms, guide the study of a
specific disease.

Disease Prevention
 Has become a primary focus in health care
 Maintaining routine vaccination programs
 Participation in screening programs
 Community health programs
 Regular routine doctor visits

Medical History
 Current and prior illnesses
 Allergies
 Hospitalizations
 Treatment
 Specific difficulties
 Any type of therapy or drugs
 Prescription
 Nonprescription
 Herbal items, including food supplements

New Developments and Trends
 Constant updating of information and
knowledge
 Improved diagnostic tests
 Development of more effective drugs
 New technologies
 Extensive research in efforts to prevent,
control, or cure many disorders

Language of Pathophysiology
 Gross level
 Organ or system level
 Microscopic level
 Cellular level
 Biopsy
 Excision of small amounts of living tissue
 Autopsy
 Examination of the body and organs after death

Language of Pathophysiology (Cont.)
 Diagnosis
 Identification of a specific disease
 Cause
 Causative factors in a particular disease
 Predisposing factors
 Tendencies that promote development of a
disease in an individual
 Pathogenesis
 Development of the disease

 Acute disease
 Develops quickly, marked signs, short term
 Chronic disease
 Often milder, develops gradually, persists for a
long time
 Subclinical state
 Pathologic changes, no obvious manifestations
 Latent state
 No symptoms or clinical signs evident

 Incubation period
 Time of exposure to a microorganism and onset of
signs and symptoms
 Prodromal period
 Early development of a disease
 Signs nonspecific or absent
 Manifestations
 Signs and symptoms of disease
 Syndrome
 Collection of sign and symptoms
 Often affects more than one organ

(Cont.)
 Remissions
 Manifestations of the disease subside or are
absent.
 Precipitating factor
 Condition that triggers an acute episode
 Complications
 New secondary or additional problems
 Therapy
 Treatment measures to promote recovery or slow
the progress of a disease

(Cont.)
 Sequelae
 Unwanted outcomes of primary condition
 Convalescence
 Period of recovery
 Prognosis
 Probability for recovery or for other outcome
 Rehabilitation
 Maximizing function of diseased tissues

(Cont.)
 Epidemiology
 Science of identifying the causative factors and
tracking the pattern or occurrence of disease
 Morbidity
 Indicates the number of people with a disease
within a group
 Mortality
 Indicates the number of deaths resulting from a
particular disease within a group

(Cont.)
 Epidemics
 Occur when a higher than expected number of
cases of an infectious disease occur within a given
area
 Pandemics
 Involve a higher number of cases in many regions
of the globe

(Cont.)
 Occurrence of disease
 Tracked by incidence and prevalence
 Incidence
 Number of new cases in a given population within
a specified time period
 Prevalence
 Number of new and old or existing cases in a
specific population within a specified time period

Occurrence of Disease

 Communicable diseases
 Infections that can spread from one person to
another
 Notifiable or reportable diseases
 Diseases that must be reported by the physician
to certain designated authorities
 Autopsy or postmortem examination
 Performed after death to determine the exact
cause of death

Cellular Adaptations
 Atrophy
 Decrease in the size of cells
• Results in reduced tissue mass
 Hypertrophy
 Increase in cell size
• Results in enlarged tissue mass
 Hyperplasia
 Increased number of cells
• Results in enlarged tissue mass

Abnormal Cell Growth Patterns

Cellular Adaptations
 Metaplasia
 Mature cell type is replaced by a different mature
cell type.
 Dysplasia
 Cells vary in size and shape within a tissue.
 Anaplasia
 Undifferentiated cells, with variable nuclear and
cell structures
 Neoplasia
 “New growth”―commonly called tumor

Cell Damage
 Apoptosis
 Refers to programmed cell death
• Normal occurrence in the body
 Ischemia
 Deficit of oxygen in the cells
 Hypoxia
 Reduced oxygen in tissues

Cell Damage (Cont.)
 Physical damage
 Excessive heat or cold
 Radiation exposure
 Mechanical damage
 Pressure or tearing of tissue
 Chemical toxins
 Exogenous: from environment
 Endogenous: from inside the body

Cell Damage (Cont.)
 Microorganisms
 Bacteria and viruses, for example
 Abnormal metabolites
 Genetic disorders
 Inborn errors of metabolism
 Altered metabolism
 Nutritional deficits
 Imbalance of fluids or electrolytes

Necrosis
 Liquefaction necrosis
 Dead cells liquefy because of release of cell
enzymes
 Coagulative necrosis
 Cell proteins are altered or denatured―
coagulation
 Fat necrosis
 Fatty tissue broken down into fatty acids
 Caseous necrosis
 Form of coagulation necrosis
 Thick, yellowish, “cheesy” substance forms

Coagulative Necrosis of the Kidney

Liquefaction Necrosis in the Brain

Fat Necrosis in the Mesentery

Necrosis
 Infarction
 Area of dead cells as a result of oxygen
deprivation
 Gangrene
 Area of necrotic tissue that has been invaded by
bacteria

Dry Gangrene of the Toe

Chapter 2
Fluid, Electrolyte, and Acid-Base
Imbalances

Review of Concepts and
Processes
 The major component of the body is water in
these compartments:
 Intercellular fluid (ICF) compartment
 Extracellular fluid (ECF) compartment
 Balance of water in the compartments
essential for homeostasis

Fluid Compartments
 About 60% of an adult’s body weight is water.
 About 70% of an infant’s body weight is
water.
 Females―higher percentage of fatty tissue,
lower water content than males
 Older adults and obese persons―lower
proportion of water
 Individuals with less fluid reserve are more
likely to be adversely affected by any fluid or
electrolyte imbalance.

Fluid Compartments (cont’d.)
 Intracellular compartment (ICF)
 Extracellular compartment (ECF)
 Intravascular fluid (IVF) or blood
 Interstitial fluid (ISF) or intercellular fluid
 Cerebrospinal fluid (CSF)
 Transcellular fluids
• Present in various secretions
• Pericardial cavity
• Synovial cavities

Fluid Compartments in the Body

Intake and Output of Water
 The amount of water entering the body
should equal the amount of water leaving the
body.

Sources and Losses of Water

Movement of Water
 Fluid circulates throughout the body via
filtration and osmosis.
 Water moves between compartments via:
 Hydrostatic pressure
 Osmotic pressure

Movements of Water between
Compartments

Control of Fluid Balance
 Thirst mechanism
 Osmoreceptors in the hypothalamus
 Antidiuretic hormone
 Promotes resorption of water into blood from
kidney tubules
 Aldosterone
 Determines resorption of sodium ions and water
 Atrial natriuretic peptide
 Regulates fluid, sodium, and potassium levels

Fluid Excess―Edema
 Edema―excessive amount of fluid in the
interstitial compartment
 Causes swelling or enlargement of tissue
 May be localized or throughout the body
 May impair tissue perfusion
 May trap drugs in ISF

Capillary Exchange

Causes of Edema
 Increased capillary hydrostatic pressure
 Caused by higher blood pressure or increased
blood volume
 Forces increased fluid out of capillaries into tissue
 Cause of pulmonary edema
 Loss of plasma proteins
 Particularly albumin
 Results in decreased plasma osmotic pressure

Causes of Edema (cont’d.)

Causes of Edema (cont’d.)
 Obstruction of lymphatic circulation
 Causes localized edema
• Excessive fluid and protein not returned to general
circulation
 Increased capillary permeability
 Usually causes localized edema
• May result from an inflammatory response or infection
• Histamines and other chemical mediators increase
capillary permeability.
 Can also result from some bacterial toxins or large
burn wounds and result in widespread edema

Effects of Edema
 Swelling
 Pale or red in color
 Pitting edema
 Presence of excess interstitial fluid
 Moves aside when pressure is applied by finger
 Depression―“pit” remains when finger is removed
 Increase in body weight
 With generalized edema

Effects of Edema (cont’d.)

 Functional impairment
 Restricts range of joint movement
 Reduced vital capacity
 Impaired diastole
 Pain
 Edema exerts pressure on nerves locally.
 Headache with cerebral edema
 Stretching of capsule in organs (kidney, liver)
 Impaired arterial circulation
 Ischemia leading to tissue breakdown

 Dental practice
 Difficult to take accurate impressions
 Dentures do not fit well
 Edema in skin
 Susceptible to tissue breakdown from pressure

Fluid Deficit―Dehydration
 Insufficient body fluid
 Inadequate intake
 Excessive loss
 Both
 Fluid loss often measured by change in body
weight
 Dehydration more serious in infants and older
adults
 Water loss may be accompanied by loss of
electrolytes and proteins (e.g., diarrhea).

Causes of Dehydration
 Vomiting and diarrhea
 Excessive sweating with loss of sodium and
water
 Diabetic ketoacidosis
 Loss of fluid, electrolytes, and glucose in the urine
 Insufficient water intake in older adults or
unconscious persons
 Use of concentrated formula in infants

Effects of Dehydration
 Dry mucous membranes in the mouth
 Decreased skin turgor or elasticity
 Lower blood pressure, weak pulse, and
fatigue
 Decreased mental function, confusion, loss of
consciousness

Manifestations of Dehydration
 Decreased skin turgor and dry mucous
membranes
 Sunken eyes
 Sunken fontanelles in infant
 Lower blood pressure, rapid weak pulse
 Increased hematocrit
 Increased temperature
 Decreasing level of consciousness
 Urine―low volume and high specific gravity

Comparison of Edema and
Dehydration

Attempts to Compensate
for Fluid Loss
 Increasing thirst
 Increasing heart rate
 Constriction of cutaneous blood vessels
 Producing less urine
 Concentration of urine

Third-Spacing of Fluid
 Fluid shifts out of the blood into a body cavity
or tissue and can no longer reenter vascular
compartment.
 High osmotic pressure of ISF, as in burns
 Increased capillary permeability, as in some gram-negative
infections

Distribution of Major Electrolytes

Movements of Electrolytes
Between Compartments

Sodium Imbalance
 Review of sodium
 Primary cation in ECF
 Sodium diffuses between vascular and interstitial
fluids.
 Transport into and out of cells by sodium-potassium
pump
 Actively secreted into mucus and other secretions
 Exists in form of sodium chloride and sodium
bicarbonate
 Ingested in food and beverages

Hyponatremia
 Causes
 Losses from excessive sweating, vomiting,
diarrhea
 Use of certain diuretic drugs combined with low-salt
diet
 Hormonal imbalances
• Insufficient aldosterone
• Adrenal insufficiency
• Excess ADH secretion
 Diuresis
 Excessive water intake

Effects of Hyponatremia
 Low sodium levels
 Cause fluid imbalance in compartments
• Fatigue, muscle cramps, abdominal discomfort or
cramps, nausea, vomiting
 Decreased osmotic pressure in ECF
compartment
 Fluid shift into cells
• Hypovolemia and decreased blood pressure
 Cerebral edema
• Confusion, headache, weakness, seizures

Hyponatremia and Fluid Shift
into Cells

Hypernatremia
 Cause is imbalance in sodium and water
 Insufficient ADH (diabetes insipidus)
• Results in large volume of dilute urine
 Loss of the thirst mechanism
 Watery diarrhea
 Prolonged periods of rapid respiration
 Ingestion of large amounts of sodium without
enough water

Effects of Hypernatremia
 Weakness, agitation
 Dry, rough mucous membranes
 edema
 Increased thirst (if thirst mechanism is
functional)
 Increased blood pressure

Potassium Imbalance
 Review of potassium
 Major intracellular cation
 Serum levels are low, with a narrow range.
 Ingested in foods
 Excreted primarily in urine
 Insulin promotes movement of potassium into cells
 Level influenced by acid-base balance
 Excess potassium ions in interstitial fluid may lead
to hyperkalemia.
 Abnormal potassium levels cause changes in
cardiac conduction and are life-threatening!

Signs of Potassium Imbalance

Role of sodium and potassium ions
in the conduction of an impulse

Causes of Hypokalemia
 Definition of hypokalemia
 Serum K+ < 3.5 mEq/L
 Causes
 Excessive losses caused by diarrhea
 Diuresis associated with some diuretic drugs
 Excessive aldosterone or glucocorticoids
• Example: Cushing syndrome
 Decreased dietary intake
• May occur with alcoholism, eating disorders, starvation
 Treatment of diabetic ketoacidosis with insulin

Effects of Hypokalemia
 Cardiac dysrhythmias
 Caused by impaired repolarization leading to
cardiac arrest
 Interference with neuromuscular function
 Muscles less responsive to stimuli
 Paresthesias―“pins and needles”
 Decreased digestive tract motility
 Severe hypokalemia:
 Shallow respirations
 Failure to concentrate urine―polyuria

Causes of Hyperkalemia
 Definition of hyperkalemia
 Serum K+ > 5 mEq/L
 Causes
 Renal failure
 Deficit of aldosterone
 “Potassium-sparing” diuretics
 Leakage of intracellular potassium into
extracellular fluids
• In patients with extensive tissue damage
 Displacement of potassium from cells by
prolonged or severe acidosis

Relationship of Hydrogen and
Potassium Ions

Effects of Hyperkalemia
 Cardiac dysrhythmias
 May progress to cardiac arrest
 Muscle weakness common
 Progresses to paralysis
 May cause respiratory arrest
 Impairs neuromuscular activity
 Fatigue, nausea, paresthesias

Calcium Imbalance
 Review of calcium
 Important extracellular cation
 Ingested in food
 Stored in bone
 Excreted in urine and feces
 Balance controlled by parathyroid hormone (PTH)
and calcitonin
 Vitamin D promotes calcium absorption from
intestine
• Ingested or synthesized in skin in the presence of
ultraviolet rays
• Activated in kidneys

Functions of Calcium
 Provides structural strength for bones and
teeth
 Maintenance of the stability of nerve
membranes
 Required for muscle contractions
 Necessary for many metabolic processes and
enzyme reactions
 Essential for blood clotting

Causes of Hypocalcemia
 Hypoparathyroidism
 Malabsorption syndrome
 Deficient serum albumin
 Increased serum pH level
 Renal failure

Effects of Hypocalcemia
 Increase in the permeability and excitability of
nerve membranes
 Spontaneous stimulation of skeletal muscle
• Muscle twitching
• Carpopedal spasm
 Tetany
 Weak heart contractions
 Delayed conduction
 Leads to dysrhythmias and decreased blood
pressure

Causes of Hypercalcemia
 Uncontrolled release of calcium ions from
bones
 Neoplasms―malignant bone tumors
 Hyperparathyroidism
 Demineralization caused by immobility
 Decrease stress on bone
 Increased calcium intake
 Excessive vitamin D
 Excess dietary calcium
 Milk-alkali syndrome

Effects of Hypercalcemia
 Depressed neuromuscular activity
 Muscle weakness, loss of muscle tone
 Lethargy, stupor, personality changes
 Anorexia, nausea
 Interference with ADH function
 Less absorption of water
 Decrease in renal function
 Increased strength in cardiac contractions
 Dysrhythmias may occur.

Magnesium Imbalances
 Magnesium
 Intracellular ion
 Hypomagnesemia
• Results from malabsorption or malnutrition; often
associated with alcoholism
• Caused by use of diuretics, diabetic ketoacidosis,
hyperthyroidism, hyperaldosteronism
 Hypermagnesemia
• Occurs with renal failure
• Depresses neuromuscular function
• Decreased reflexes

Phosphate Imbalances
 Phosphate
 Bone and tooth mineralization
 Important in metabolism―ATP
 Phosphate buffer system―acid-base balance
 Integral part of the cell membrane
 Reciprocal relationship with serum calcium
 Hypophosphatemia
• Malabsorption syndromes, diarrhea, excessive antacids
 Hyperphosphatemia
• From renal failure

Chloride Imbalance
 Chloride
 Major extracellular anion
 Chloride levels related to sodium levels
 Chloride and bicarbonate ions can shift in
response to acid-base imbalances.
 Hypochloremia
• Usually associated with alkalosis
 Early stages of vomiting―loss of hydrochloric acid
 Hyperchloremia
• Excessive sodium chloride intake

Chloride Shift

Hydrogen Ion and pH Scale

Control of Serum pH
 Buffer pairs in the blood respond to pH
changes immediately.
 Respiratory system can alter carbonic acid
levels to change pH.
 Kidneys can modify the excretion rate of
acids and absorption of bicarbonate ions to
regulate pH.
 Most significant control mechanism
 Slowest mechanism

Changes in Acids, Bicarbonate Ion,
and Serum pH in Circulating Blood

Buffer Systems
 Sodium bicarbonate–carbonic acid system
 Major ECF buffer
 Controlled by the respiratory system and kidneys
 Other buffering systems:
 Phosphate
 Hemoglobin
 Protein

Compensation Mechanisms for pH
Imbalance
 Compensation limited, usually short term
 Does not remove the cause of imbalance
 Compensation occurs to balance the relative
proportion of hydrogen ions and bicarbonate
ions in circulation:
 Buffers
 Change in respiration
 Change in renal function

Decompensation
 Occurs when:
 Causative problem becomes more severe
 Additional problems occur
 Compensation mechanisms are exceeded or fail
 Requires intervention to maintain
homeostasis
 LIFE-THREATENING!

Acid-Base Imbalance
 Acidosis
 Excess hydrogen ions
 Decrease in serum pH
 Alkalosis
 Deficit of hydrogen ions
 Increase in serum pH

Acid-Base Imbalances

Respiratory Acidosis
 Acute problems
 Pneumonia, airway obstruction, chest injuries
 Drugs that depress the respiratory control center
 Chronic respiratory acidosis
 Common with chronic obstructive pulmonary
disease
 Decompensated respiratory acidosis
 May develop if impairment becomes severe or if
compensation mechanisms fail

Metabolic Acidosis
 Excessive loss of bicarbonate ions to buffer
hydrogen
 Diarrhea―loss of bicarbonate from intestines
 Increased use of serum bicarbonate
 Renal disease or failure
 Decreased excretion of acids
 Decreased production of bicarbonate ions
 Decompensated metabolic acidosis
 Additional factor interferes with compensation.

Effects of Acidosis
 Impaired nervous system function
 Headache
 Lethargy
 Weakness
 Confusion
 Coma and death
 Compensation
 Deep rapid breathing
 Secretion of urine with a low pH

Changes in Blood Gases
with Acidosis

Alkalosis
 Respiratory alkalosis
 Hyperventilation
• Caused by anxiety, high fever, overdose of aspirin
• Head injuries
• Brainstem tumor
 Metabolic alkalosis
 Increase in serum bicarbonate ion
• Loss of hydrochloric acid from stomach
• Hypokalemia
• Excessive ingestion of antacids

Effects of Alkalosis
 Increased irritability of the nervous system
causes:
 Restlessness
 Muscle twitching
 Tingling and numbness of the fingers
 Tetany
 Seizures
 Coma

Treatment of Imbalances
 Treatment of underlying cause
 Immediate corrective measures to include
fluid and electrolyte replacement or removal
 Caution is required when adjusting fluid levels to
ensure appropriate electrolyte balance.
 Addition of bicarbonate to the blood to
reverse acidosis
 Modification of diet to maintain better
electrolyte balance

Chapter 1 and ch 2

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Chapter 1 and ch 2