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Chapter 33 Radiobiology

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Title: Chapter 33 Radiobiology


1
Chapter 33 Radiobiology
  • Radiobiology is the study of the effects of
    ionizing radiation on biologic tissues.
  • The ultimate goal of research is to develop
    dose-response relationships so the effects of
    planned doses can be predicted and the response
    to accidental exposure better managed.

2
Radiobiology
  • The effect of x-ray radiation on humans is the
    result of interactions at the atomic level.
  • The forms of interaction
  • Ionization of the tissue
  • Excitation of orbital electrons
  • Results is the disposition of energy in the
    tissues.

3
Effects of Ionizing Radiation Exposure
  • When the atom is ionized, its chemical bonding
    properties change.
  • If the atom is part of a large molecule, it
    result in breakage of the the molecule or
    relocation of the atom within the molecule.
  • The abnormal molecule may function improperly or
    die.

4
Effects of Ionizing Radiation Exposure
  • This may result in serious impairment of the
    cell function or cell death.
  • This process can be reversible if the atom
    attracts a free electron.
  • Molecules can be mended by repair enzymes.
  • Cells and tissue can regenerate.

5
Types of Radiation Response
  • If the response to radiation happens in minutes
    or days it is referred to as early effects of
    radiation.
  • If the responds is not observed for six months or
    more, it is termed to be late effects of
    radiation.

6
Early Responses to Radiation in Humans
  • Acute radiation syndrome
  • Hematological Syndrome
  • Gastrointestinal Syndrome
  • Central Nervous System Syndrome
  • Local tissue damage
  • Skin
  • Gonads
  • Extremities

7
Early Responses to Radiation in Humans
  • Hematological depression
  • Cytogenesis damage

8
Late Responses to Radiation in Humans
  • Leukemia
  • Other malignant disease
  • Bone Cancer
  • Lung Cancer
  • Thyroid Cancer
  • Breast Cancer

9
Late Responses to Radiation in Humans
  • Local tissue damage
  • Skin
  • Gonads
  • Eyes
  • Shortened life span
  • Genetic damage
  • Cytogenesis damage
  • Doubling dose
  • Genetically significant dose

10
Effects of Fetal Irradiation in Humans
  • Prenatal death
  • Neonatal death
  • Congenital malformations
  • Childhood malignancy
  • Diminished growth and development.

11
Effects of Irradiation in Humans
  • Most of the observed effects have been observed
    after rather large doses.
  • As operators of x-ray machines, we must assume
    that even small doses can be harmful.

12
Human Populations in Which Radiation Effects have
Been Observed
  • Population
  • American radiologists
  • Atomic bomb survivors
  • Radiation accident victims
  • Marshall Islanders
  • Uranium miners
  • Radium watch dial painters
  • Patients treated with 131I
  • Children treated for enlarged thymus
  • Irradiation in utero
  • Volunteer convicts
  • Effect
  • Leukemia, reduced life span
  • Malignant disease
  • Acute lethality
  • Thyroid cancer
  • Lung cancer
  • Bone cancer
  • Thyroid cancer
  • Thyroid cancer
  • Childhood malignancy
  • Fertility impairment

13
Sequence of Events after ExposureRadiation
14
Radiation Interaction at the Atomic Level
  • At the most basic level, the human body is made
    up of atoms.
  • Radiation interacts at this level.
  • The atomic composition of the body determines the
    character and degree of the radiation
    interaction.
  • The molecular and tissue composition defines the
    nature of the radiation response.

15
Radiation Interaction at the Atomic Level
  • Over 85 of the body is composed of hydrogen and
    oxygen.
  • Radiation interaction at the atomic level results
    in molecular change, and this in turn can produce
    a cell deficient in normal growth and metabolism.

16
Molecular Composition
  • There are five principle types of molecules in
    the body
  • Four are macromolecules , sometimes consisting of
    hundreds of thousands of atoms.
  • Proteins
  • Lipids (fats)
  • Carbohydrates (sugars and starches)
  • Nucleic Acids (DNA)
  • DNA is the most critical radiosensitive
    molecule.

17
Molecular Composition
  • 80 Water
  • 15 Protein
  • 2 Lipids
  • 1 Carbohydrates
  • 1 Nucleic Acid (DNA)
  • 1 Other

18
Water 80
  • Water is the most abundant and simplest molecule
    in the body.
  • It delivers energy to the target molecule and
    thereby contributing to the radiation affects.
  • Water also helps control temperature
  • Water provides form and shape to the cell.

19
Protein 15
  • Proteins are long chains of macromolecules
    consisting of amino acids connected by peptide
    bonds.
  • There are 22 amino acids used in protein
    synthesis or the metabolic production of protein.
  • The linear sequence determines the function of
    the protein.

20
Uses of Protein
  • Proteins provide structure and support. Muscles
    are very high in protein content.
  • Proteins function as enzymes, hormones or
    antibodies.

21
Enzymes
  • Enzymes are molecules that allow biochemical
    reactions to continue without being part of the
    reaction.
  • They function as a catalyst for the chemical
    reaction.

22
Hormones Antibodies
  • Hormones exercise regulatory control over some
    body functions such as
  • Growth
  • Development
  • Metabolic Rate
  • Hormones produced by the endocrine glands.
  • Antibodies provide defense from disease.

23
Lipids 2
  • Lipids are organic macromolecules composed of
    carbon, hydrogen and oxygen.
  • Lipids are composed of glycerol and fatty acids.
  • Lipids are present in all tissues and are the
    structural component of cell membranes.

24
Lipids
  • Lipids tend to concentrate just under the skin.
  • Lipids provide heat insulation.
  • Lipids serve as fuel or energy stores for the
    body. It is more difficult to extract the energy
    compared to carbohydrates resulting in obesity.

25
Carbohydrates 1
  • Like lipids are composed of carbon, hydrogen and
    oxygen but the structure is different.
  • The structural difference determines the
    contribution of the carbohydrate molecule to
    biochemistry.
  • Some carbohydrates provide shape and stability
    to the cell.
  • Primary function is to provide fuel for cell
    metabolism.

26
Nucleic Acids 1
  • There are two principle nucleic acids of
    importance to human metabolism.
  • DNA and RNA
  • DNA located in the nucleus of the cell serves as
    the control molecule for cell function. DNA
    contains all of the heredity information for the
    cell or the entire organism if it is a germ cell.

27
Nucleic Acids 1
  • RNA is found primarily in the cytoplasm but is
    also found in the nucleus. There are two types of
    RNA.
  • Messenger RNA (mRNA)
  • Transfer RNA (tRNA)
  • RNA is involved in growth and development of the
    cell through biochemical pathways, notably
    through protein synthesis.

28
Nucleic Acids 1
  • DNA is the principle radiation sensitive molecule.

29
Human Cell Composition
  • Two major structure of the cell are
  • Nucleus containing the DNA
  • Cytoplasm makes up the bulk of the cell and
    contains all of the other cell structures.
  • Endoplasmic reticulum is a series of channels
    that allows the nucleus to communicate with the
    cytoplasm.

30
Human Cell Composition
  • Mitochondria are large bean shaped structures
    that digest macromolecules to produce energy for
    the cell.
  • Ribosome are sites of protein synthesis and are
    essential to normal cell function.

31
Human Cell Composition
  • Lysosomes contain enzymes capable of digesting
    cellular fragments and in some cases the cell
    itself.
  • Lysosomes are helpful in the control of
    intracellular contaminates.
  • All structures are surrounded by membranes of
    lipid proteins.

32
Cellular Irradiation
  • When the critical macromolecular cellular
    components are irradiated, a dose of about 1
    Mrad or 10 kGy is required to produce a
    measurable change in the physical characteristics
    of the cell.

33
Cellular Irradiation
  • When such a molecule is incorporated into the
    apparatus of a living cell, only a few rad are
    necessary to produce a measurable response.
  • Some single cell organisms require massive
    exposure to produce a lethal dose.

34
Cellular Irradiation
  • Human cells can be killed with a dose less than
    100 rad (1Gy).
  • The nucleus is much more sensitive than the
    cytoplasm to radiation exposure.
  • Interference with any phase of protein synthesis
    could result in cell damage particularly DNA.

35
Cell Proliferation
  • Cell proliferation is the act of a single cell
    or group of cells reproducing and multiplying in
    number.
  • It takes many thousands of rads to disrupt
    macromolecules, single ionizing events to
    sensitive cell sites can disrupt proliferation.

36
Types of Cell Proliferation
  • Genetic cells (oogonium of the female and
    spermatogonium of the male) undergo meiosis.
  • Somatic cells undergo mitosis.

37
Cell Cycle
  • Cell biologist identify four phases of the cell
    cycle
  • Mitosis
  • G1 first growth
  • S synthesis
  • G2 second growth
  • DNA synthesis is in the S phase

38
Phases of Mitosis
  • A-Interphase has the DNA forming chromosomes.
  • B-Prophase the nucleus swells and the DNA takes a
    more structural form.
  • C-Metaphase the chromosomes appear and line up
    along the equator of the nucleus. During
    metaphase, mitosis can be stopped and damage
    analyzed.

39
Phases of Mitosis
  • F- Anaphase each chromosomes splits to form a
    centromere and two chromatids connected by a
    fiber to the poles of the nucleus. These poles
    are called spindles and the fiber called spindle
    fibers.
  • The number of chromosomes have been reduced by
    half.

40
Phases of Mitosis
  • The chromosomes slowly migrate toward the
    spindle.
  • E- Telophase is characterized by the
    disappearance of the chromosomes into a mass of
    DNA and closing off of the nucleus like a pair of
    dumbbells into two nuclei. The cytoplasm divides
    equally into two cells and interphase begins.
  • D- Interphase starts again.

41
Meiosis
  • Genetic cell division is called meiosis.
  • Genetic cells begin with 46 chromosomes like
    somatic cells.
  • During the first division, the daughter,
    replicated the DNA with 46 chromosomes.

42
Meiosis
  • During the second meiosis, there is no S phase so
    the DNA does not replicate. Granddaughter cells
    have 23 chromosomes.
  • There is some exchange of chromosomal or
    crossover resulting in the genetic constitution
    and changes in inheritable traits.

43
Human development
  • During the development and maturation of a human
    from the two united genetic cells, a number of
    cell types evolve.
  • Collections of cells of similar structure and
    function form tissue.
  • Tissue forms organs and organs form organ systems.

44
Principle Organ Systems
  • Nervous System
  • Digestive System
  • Endocrine System
  • Respiratory System
  • Reproductive System
  • Cells of organ systems are identified by their
    rate of proliferation and stage of development.

45
Cell development
  • Underdiffentriated cell, precursor cells or stem
    cells are immature cells. They are more sensitive
    cells to radiation than mature cells.
  • The sensitivity of cells to radiation is
    determined to some degree by its state of
    maturity and its functional role.

46
Cell development
  • The tissues and organs of the body contain both
    stem and mature cells.
  • There are several types of tissue classified by
    their structural or functional appearance. These
    features influence the degree of radiosensitivity
    of the tissue.

47
End of lecture
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