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Title: Medical%20Interventions%20Unit%203%20Review


1
Medical InterventionsUnit 3 Review
2
Lesson 3.1 Detecting Cancer Activity 3.1.1 Who is
Affected by Cancer? Activity 3.1.2 Diagnostic
Imaging Career Activity Activity 3.1.3 When Cells
Lose Control Activity 3.1.4 DNA Microarray
Activity 3.1.5 Unlocking the Secrets in Our
Genes (math activity) Lesson 3.2 Reducing Cancer
Risk Activity 3.2.1 Am I at Risk? Activity 3.2.2
Skin Cancer Prevention Activity 3.2.3 Breast
Cancer Screening and Prevention Activity 3.2.4
Virology Career Activity Activity 3.2.5 Routine
Screenings Lesson 3.3 Treating Cancer Activity
3.3.1 Diary of a Cancer Patient Project 3.3.2
Biofeedback Therapy Project 3.3.3 Design of a
Prosthetic Arm Project 3.3.4 Occupational and
Physical Therapy Careers
3
Lesson 3.1 Detecting Cancer Activity 3.1.1 Who is
Affected by Cancer? Activity 3.1.2 Diagnostic
Imaging Career Activity Activity 3.1.3 When Cells
Lose Control Activity 3.1.4 DNA Microarray
Activity 3.1.5 Unlocking the Secrets in Our Genes
4
What fundamental characteristics do all cancers
have in common?
  • Genetic component
  • Environmental component Smoking, radiation,
    diet/health
  • If caught early and removed before it spreads the
    cancer may not cause problems
  • If it spreads/metastasizes there could be
    potential problems
  • Incidence of cancer increases with age
  • Cancer can affect any organ or tissue in the body

5
What fundamental characteristics do all cancers
have in common?
  • Proto-oncogenes Normally control cell division
    by telling the cell to divide. Cancer can be
    caused by these genes being turned on too much
  • Mutation can cause them to be oncogenes, which
    lead to uncontrolled division
  • Translocation of a promoter can cause the
    oncogenes to be turned on more than they are
    supposed to be
  • A mutation can cause multiple proto-oncogenes,
    which will cause it to be overexpressed and
    uncontrolled cell division

6
What fundamental characteristics do all cancers
have in common?
  • Tumor-Suppressor Genes Normally control cell
    division by telling the cell to stop dividing.
    Cancer can be caused by these genes being turned
    off
  • Example is the p53 gene
  • Triggers apoptosis (programmed cell death) if
    there is a mutation
  • Activates DNA repair enzymes to repair any
    mutations
  • Halts the cell cycle so no copies of the cell are
    made with the mutation
  • Mutations in these genes can lead to cancer

7
What fundamental characteristics do all cancers
have in common?
  • Cancer cells can proliferate indefinitely in
    culture.
  • Cancer cells do not exhibit contact inhibition.
    Once cancer cells cover the surface of the dish,
    the cells will continue dividing and pile up on
    top of each other.
  • Cancer cells undergo morphological changes and
    will exhibit various shapes.
  • Cancer cells can grow under less stringent
    conditions, and can usually grow on simple
    culture medium.
  • Cancer cells often have an abnormal number of
    chromosomes and the chromosomes often have an
    abnormal structure.

8
In what ways are diagnostic imaging technologies
used to diagnose and treat disorders?
  • X-Ray uses radiation to view broken bones
    bones, lung diseases, and digestive system
  • CT scan uses multiple X-rays in a tube to
    produce cross-sectional views of bone and soft
    tissue, like organs.
  • MRI uses magnets to produce detailed
    cross-sectional views of soft body tissue to
    identify diseases.
  • Bone Scan Add radioactive tracers that are
    soaked up by the bone to produce full skeletal
    view to identify abnormal bone growth

9
What do DNA microarrays measure?
  • DNA microarrays measure the number and amount of
    genes turned on and off in cancer cells vs.
    normal cells
  • We can do this by collecting mRNA from the cells,
    which will only be made if the genes are turned
    on
  • We can also determine if there is a correlation
    between genes interacting with each other

10
How is DNA microarray technology used to
determine the differences in gene expression
between different tissue samples?
  • Red The genes are only on in cancer cells
  • Yellow The genes are on in cancer and normal
    cells
  • Black The genes are not on in either cells
  • Green The genes are only on in normal cells

11
How is DNA microarray technology used to
determine the differences in gene expression
between different tissue samples?
  • Microarrays can also tell us the relative
    intensity of the gene expression because there
    will be varying shades of the colors.
  • The bright red would be a high expression of the
    gene in cancer cells, where as the dark red would
    be a low expression.
  • The same would be true for the yellow and the
    green

12
How is DNA microarray technology used to
determine the differences in gene expression
between different tissue samples?
  • We can superimpose the colors from the cancer
    gene and the normal gene over each other to get
    one single color.
  • We assign this color a number (ratio)
  • A number over 1 the gene is expressed more in
    cancer cells
  • A number under 1 the gene is less expressed in
    cancer cells
  • A number equal to 1 the gene is expressed the
    same in both cells
  • 0 means the gene is not expressed in either cell

13
How are the similarities of gene expression
patterns between different individuals
calculated?
  • Using statistical analyses we look at gene
    expression of several genes in several patients
    that have the same disease.
  • We use correlation coefficients to determine if
    there is a pattern between what genes are turned
    on and what genes are turned off
  • If there is a positive correlation then both of
    the genes are behaving in the same way
  • If there is a negative correlation then the genes
    are behaving in opposite ways (one is on and the
    other is off)
  • Correlation of 1 means that gene expression is
    identical
  • Correlation of 0 means there is no correlation
  • A number further from 0 and closer to 1 means
    that there is a stronger correlation

REVIEW ACTIVITY 3.1.5 (MATH ACTIVITY)
14
Lesson 3.2 Reducing Cancer Risk Activity 3.2.1 Am
I at Risk? Activity 3.2.2 Skin Cancer
Prevention Activity 3.2.3 Breast Cancer Screening
and Prevention Activity 3.2.4 Virology Career
Activity Activity 3.2.5 Routine Screenings
15
In what ways do different risk factors increase
the chance that a person will develop cancer? How
can lifestyle changes reduce the risk for
developing cancer?
  • Biological
  • Age the risk for all cancers increase
  • Infections Some viral and bacterial infections
    can cause an increase risk of cancer
  • Reduce these risks by being screened often and
    getting vaccinations
  • Genetic
  • Sometimes a gene can be inherited from parents
    that increases the risk of cancer, because you
    already one step (mutation) towards cancer.
  • Hereditary cancer and familial cancer would be
    genetic. Sporadic cancer (most cancers) are not
    genetic.

16
In what ways do different risk factors increase
the chance that a person will develop cancer? How
can lifestyle changes reduce the risk for
developing cancer?
  • Environmental
  • Pollution Smoke and chemicals, like asbestos,
    can damage DNA
  • UV Radiation - More on this later
  • Radiation Excessive radiation from sources,
    like Xrays
  • Behavioral
  • Red meat and other foods have been shown to
    increase risks of cancer (other foods, like
    antioxidants have been shown to lower cancer)
  • Smoking increases risk of lung cancer (same with
    smokeless tobacco and mouth cancer)
  • Not taking preventative measures, like staying
    out of the sun

17
Skin Cancer
  • Types
  • Basal/Squamous most common and least dangerous
    form that can be found anywhere on the body
  • Melonoma most common on face, chest, and legs,
    and are more likely to metastize
  • ABCDE
  • Asymmetry
  • Border irregularity
  • Color changes
  • Diameter greater than 1/4 inch
  • Evolving

18
Skin Cancer
Diameter (1/4 in)
Border irregular
Color changes
Asymmetric
Evolving
19
Skin Cancer
  • Treatment
  • pyrimidine antagonists
  • (5-Fluorouracil or 5-FU) inhibit the enzyme that
    makes pyrimidines (thymine, uracil, cytosine),
    which stops production of DNA and RNA.
  • While this works in some patients it has a
    variety of side effects including burning and sun
    sensitivity

20
How can molecular tests be used to detect
inherited genetic mutations associated with
certain cancers?
  • Genetic Marker Analysis Easier and cheaper
    genetic analysis than DNA Sequencing.
  • Markers are located directly in front of the gene
    in question (therefore, often passed on with the
    gene)
  • Markers are Short Tandem Repeats (non-coding DNA
    that are repetitive sequences of DNA)
  • STRs are highly variable by length (sequence can
    repeat any number of times making them different
    lengths)
  • Easy to identify STRs using gel electrophoresis
    because they are simply different lengths

21
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22
How can molecular tests be used to detect
inherited genetic mutations associated with
certain cancers?
  • Genetic markers used in conjunction with
    pedigrees
  • Identify people with gene for cancer
  • Conduct a marker analysis on family members and
    unknown family member using gel electrophoresis
  • Identify STR sizes using standard curve
  • Compare STRs and identify alleles possessed by
    each family member
  • Analyze allele to see if there is a correlation
    between alleles and family members with cancer

23
Breast Cancer
  • Genetic Component
  • BRCA 1 and BRCA 2 are tumor suppressor genes
  • Mutations in these may lead to tumors
  • 5-10 of breast cancers are related to these
    genes
  • BRCA 2 genes are linked to male breast cancer
  • Preventative measures
  • Prophylactic mastectomy reduces breast cancer
    risk by 90
  • Get it test positive for BRCA 1 or 2 genes,
    calcium deposits, radiation therapy, or previous
    breast cancer
  • Hormonal therapy medicines or removal of the
    ovaries in order to reduce estrogen
  • Nutrition
  • Physical Activity

24
How can viruses lead to cancer?
  • Viruses can cause cancer by injecting DNA into
    cells and thereby causing a mutation
  • HPV linked strongly to cervical cancer,
    vaccines may help, but will not guard against
    every strain
  • EBV may lead to lymphomas
  • Hepatitis B Vaccine
  • Hepatitis C No vaccine both may lead to liver
    cancer

25
Human Papilloma Viruses (HPVs)
  • HPV is a sexually transmitted infection
  • HPV causes abnormal cells to start growing and
    eventually can turn into cancer cells
  • HPV is the main cause of cervical cancer
  • HPS is linked to mouth and throat cancer
  • There is a vaccine available that protects
    against 4 types of the HPV virus.

26
Epstein-Barr Virus (EBV)
  • EBV is a type of herpes virus known for causing
    infectious mononucleosis (commonly known as
    mono)
  • EBV infects and stays in B lymphocytes
  • EBV infection increases a persons risk of
    developing nasopharyngeal cancer and Burkitt
    lymphoma
  • EBV is also linked to Hodgkin diseases and
    stomach cancer
  • No vaccine or medications are available

27
Hepatitis B Virus (HBV) and Hepatitis C Virus
(HCV)
  • Both viruses are known to cause liver infection
  • The long-term infection caused by these viruses
    increases a persons chance of developing liver
    cancer
  • There is a vaccine available to prevent HBV
    infection
  • There are a few medications available that are
    effective in treating HBV and HCV infections

28
What is the importance of routine cancer
screenings?
  • You should get routine screenings for
  • Prostate
  • Colon
  • Cervical
  • Breast
  • Skin, Testicular, and lung
  • Early detection of cancers is crucial to stop the
    metastases process before the cancer spreads and
    cause problems elsewhere.
  • It is easier to treat and cure cancer when caught
    early

29
Lesson 3.3 Treating Cancer Activity 3.3.1 Diary
of a Cancer Patient Project 3.3.2 Biofeedback
Therapy Project 3.3.3 Design of a Prosthetic
Arm Project 3.3.4 Occupational and Physical
Therapy Careers
30
What can a cancer patient receiving chemotherapy
and/or radiation therapy expect during treatment?
  • Chemotherapy is the use of drugs to kill, prevent
    the spreading, slow growth, and treat symptoms of
    cancer.
  • The side effects are different for everyone, but
    typical side effects are hair loss, anemia and
    symptoms that occur with anemia, increased
    infections, bleeding, and bruising, and nausea
  • Most of these symptoms are due to the fact that
    chemo affects fast growing cells, like blood
    forming cells in the bone marrow. Therefore, not
    as much blood is being formed.

31
What can a cancer patient receiving chemotherapy
and/or radiation therapy expect during treatment?
  • Radiation is more of local treatment that focuses
    radiation onto cancer cells to destroy DNA,
    causing cells to stop dividing.
  • Radiation can be given externally or internally
    through an implant
  • Most side effects are localized skin and hair
    changes along with fatigue
  • This may lead to anger, depression, and
    helplessness

32
How is biofeedback therapy used to help patients
improve their health or manage pain?
  • Biofeedback changes the mental state of the
    patient, which allows them to calm down.
  • The patient learns to use their mind to control
    involuntary actions of the body, like heart rate,
    muscle tension, and respiration rate.
  • They can overcome pain by relaxing specific
    muscle groups to relieve certain chronic pain and
    migraines
  • This can also help lower blood pressure, anxiety
    attacks, asthma attacks, or urination problems

33
In what ways do artificial limbs allow patients
who suffered the loss of a limb regain lost
function?
  • Other limbs can offer simple movements, like
    hooks or pinchers to allow the person to pick
    objects up
  • Prosthetics can be hooked to other functional
    parts of the body that are used to move the
    prosthetic.
  • A patient can use switches and toggles to control
    the prosthetic
  • Myoelectrics can you muscle impulses to control
    the movement of the prosthetic.

34
How do advances in technology allow for the
development of artificial limbs that look and
move like actual human limbs?
  • Special dyes can be used to make the prosthetic
    the same color, with freckles, fingerprints and a
    life like appearance
  • Myoelectrics can use muscle contractions and EMG
    signals to control the prosthetic
  • Current research is ongoing into the use of brain
    signals connected to the motor cortex to move
    robotic arms, which could be the new wave of
    prosthetics.

35
How do physical and occupational therapists help
patients with disabilities or patients recovering
from surgery or injury?
  • PT focus on range of motion, movement, and
    ability to regain proper movement
  • OT work with patients to practice normal, routine
    practices that they have to do everyday, like
    driving, cooking, and using the restroom
  • They design appropriate exercises for the
    patients to practice the intended movement
  • They use electric shock, stretching, and massage
    therapy to relax and test muscles
  • They assign appropriate tools and rehab equipment
    for the patients to use and guide the patient in
    proper use

36
END
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