G&D- Cancer Flashcards
NAME 4 Types of (tissue) disorders: (can be developmental or due to a response from a certain stimulus)
- Too much (e.g. tissue)?
- Too little
- Wrong type
- Wrong place
How might cell stress lead to cell death?
Cell stress (with high dose intensity and cell vulnerability) -> Injury-> Irreversible injury -> DEATH
Dividing cells are more vulnerable to radiation! Cells can metabolically or structurally adapt in response to chronic stress. But cell may not be able to cope… resulting in injury and eventually death.
How might a cell adapt to stress in normal conditions (3)
Atrophy
Hypertrophy
Hyperplasia
Not normal: metaplasia…
What is atrophy?
- Decrease in cell size
- Decrease in cell number
What is hypertrophy?
Increase in cell size
What is hyperplasia?
Increase in cell number
Name 3 types of cells (relating to their diving qualities)
1- Labile
2- Permanent
3- Stable
What are labile cells?
- Examples?
- What happens with cell stress?
continually dividing
Epidermal/ endothelial, GI tract lining, bone marrow, Immune
Stress in these cells results in INCREASED rate of cell division as they have the capacity to divide -> Hyperplasia
What are permanent cells?
- Examples?
- What happens with cell stress?
(In an adult) No longer have capacity to divide:
Cardiac, Neurones
Stress may be high BP, Heart has to pump harder-> Hypertrophy occurs)
Heart attack-> Death of Myocytes-> No real way of regenerating
What are stable cells?
Ceased cell division but retained the capacity to divide:
Liver (Hepatocytes)
If half of liver removed, can regrow!
What is the cell cycle?
controlled way in which cells copy the nucleic acid and divide
Name a developmental condition where there is Too much tissue
Hamartoma
What is a Hamartoma?
Tumour-like overgrowth
Grows in patient’s growth period (child) but stops growing when they reach adulthood.
Tissues are normal for site but excessive.
Give 3 examples of hamartomas
- Pigmented naevi (moles)- patch of naevi melanocytes (lots of melanin pigment)
- Haemangioma- blood vessels, can be big or small, knots of BVs (too much) – can cause problems with bleeding (common in older px as their mucosa thins and it becomes more apparent)
- Odontomes- teeth abnormalities, extra tooth or disorganised dental hard tissue
Name a reactive/adaptive condition where there is Too much tissue
Hyperplasia.
Hypertrophy.
What is hyperplasia?
increase in cell numbers
Response to stimulus, Regression once stimulus removed!
Increase in size and function of a tissue.
Give some examples when hyperplasia occurs-
Endocrine (Physiological)- normal growth and devleopment, puberty, pregnancy
Endocorine, Pathological: parathyroids and thyroid
- Chronic irritation/ inflammation
- Bone marrow, lymphoid tissue
- Thyroid hyperplasia with iron deficiencies- Fe+ needed to make thyroid hormone! Will feed back to thyroid gland and cause cells to divide!
- Gingival hyperplasia- long term chronic inflammation stimulates division of epithelial and fibroblast cells; improve with OHI? Can be caused by medication
- Hyperplasia of the tonsils- immune response
What is hypertrophy?
increase in cell size
Often occurs with hyperplasia.
Name some Pure hypertrophy examples:
- Muscle- mechanical stimulus
- Skeletal- exercise
- Smooth- pregnancy
- Cardiac- LVH in hypertension- High BP, resistance to which heart is pumping has increased, increase power of pump!
What is neoplasia?
growth which is uncontrolled and does not stop. Persists after the stimulus is removed!
Name 3 developmental condition where there is Too little tissue
- Agenesis
- Aplasia
- Hypoplasia
What is agenesis?
does not develop at all (Missing tooth?)
What is Aplasia?
Present but fails to develop normal structure (e.g. major bodily organs, 2 kidneys but changed structure)
What is hypoplasia?
: Present, normal structure but Less tissue formed (smaller)
Achondroplasia- problem with development of the long bones
Enamel hypoplasia
Amelogenesis Imperfecta
Hypoplastic mandible and malocclusion
Name a reactive/response condition where there is Too little tissue
Atropy
- Localised
- Generalised
What is atrophy?
decrease in size/number after growth… Can be physiological (embryology)
Mechanisms: Imbalance of cell loss/production
- Reduced proliferation
- Apoptosis rather than necrosis (mostly)
- Reduction in structural components of the cell, esp proteins
What is generalised atrophy?
Nutritional deficiency(starvation)- shiny tongue= iron deficiency
Senile (when people age)
Endocrine (physiological hypoplasia e.g. oestrogen, sexual hormones)
Bone- osteoporosis, reduction in bone mass/ density as trabecular structure becomes less compact (tendency in older females due to oestrogen levels and menopause)
What is localised atrophy?
Ischaemic (heart)- due to reduction in blood supply!
Pressure
Disuse (similar to below) – stop working out= lose muscle mass
Neuropathic/ denervation- nerve damage by trauma, atrophy of muscle
Immune mediated (autoimmune)
Idiopathic- Unknown reason
What is an Atrophic mandible?
bone resorption as tooth absent (rate varies between Px)
Important factor in denture retention
3 Examples of atrophy
- atrophic mandible
- Alzheimer’s (white/grey matter)
- Romberg’s disease- hemifacial
Name 2 conditions where tissue is the wrong type
- Metaplasia
- Dysplasia
What is metaplasia?
Abnormal differentiation
- Change from one differentiated tissue to another (within the same germinal layer)
- Result from changes in environmental demands.
- Epithelium: mucous, squamous, mesenchymal
Give an example of metaplsia in smokers
(may be first step on the route to cancer)
- Squamous metaplasia in bronchi of smokers ( epithelium undergoes squamous metaplasia changes from respiratory type of epithelium to squamous)
- Px can get cancer
Give an example of metaplsia in px with acid reflux
- Gastric metaplasia in oesophagus of patients with acid reflux
- Squamous-> Gastrix type of epithelium
What is dysplasia?
- abnormal growth and differentiation in a tissue, with abnormal cells and tissue architecture.
- May be premalignant
Name the condition where tissue is in the wrong place
Ectopia- Developmental abnormality; Normal tissue but abnormal site!
e.g. Left kidney in wrong place or Max canines angled in the wrong direction!
What causes cancer?
- Cancer (neoplasia) is caused by abnormal cell growth
- This results from changes in the levels or function of proteins regulating proliferation, differentiation and survival of cells
- This is caused by mutations in genes
- These mutations may be genetic, environmental or viral
- A number of mutations are required to cause cancer
Why might a mutation not lead to cancer?
- Doesn’t necessarily change protein sequence
- Cells are usually good at noticing changes in bases
- DNA in a cell is huge and a lot of DNA doesn’t actually code for proteins
What is DNA transcription?
involves mRNA, leaves nucleus to cytoplasm, tRNA bring an amino acid which is complementary to the base sequence.
Name 3 Types of mutations:
1) Point mutations
a. Change in amino acid
b. Frameshift
c. Introduce STOP codon
d. Change splicing
2) Gene amplifications
3) Chromosomal translocations
What is a chromosome translocation?
a chromosome abnormality caused by rearrangement of parts between non-homologous chromosomes. A gene fusion may be created when the translocation joins two otherwise-separated genes. It is detected on cytogenetics or a karyotype of affected cells (may be able to see this by staining the chromosomes.
What is amplification?
increases the number of copies of a gene without a proportional increase in other genes.
This can result from duplication of a region of DNA that contains a gene through errors in DNA replication and repair machinery as well as through fortuitous capture by selfish genetic elements.
What is a somatic mutation?
Somatic- occur in a single body cell and cannot be inherited (only tissues derived from mutated cell are affected)
- Somatic mutation occurs in non-germline tissues
- Non-heritable
e. g. breast cancer
What is a germ-line mutation?
occur in gametes and can be passed onto offspring (every cell in the entire organism will be affected)
- Mutation present in egg/sperm
- ARE heritable
- Cause cancer family syndrome
- All cells affected in offspring
NAme some Characteristics of cancer cells (7)
mutations of genes that regulate the below processes are seen in all cancers!
- Excess proliferation without external stimuli
- loss of control mechanisms
- Loss of apoptosis
- Defects in DNA
- Irreversible, limitless change
- Acquisition of a blood supply - angiogenesis
- Invasion of surrounding structures
Name 4 genes involved in cancer
1) Oncogenes (accelerate cancer!)
2) Tumour suppressor genes (Prevent cancer!)
3) Apoptosis genes
4) Mismatch repair genes
What are oncogenes?
- Apply the accelerator to autonomous cell growth and proliferation (normal function…)
- Code for growth factors and their receptors, signal transducers and cell cycle components
- Increased expression (activation) in malignancy
What is a proto-oncogene
A normal gene which, when altered by mutation, becomes an oncogene that can contribute to cancer.
Proto-oncogenes may have many different functions in the cell. Some proto-oncogenes provide signals that lead to cell division. Other proto-oncogenes regulate programmed cell death (apoptosis).
What are tumour suppressor genes?
- Apply the brakes to cell proliferation
- Code for factors which control the cell cycle, regulate apoptosis, transcription or cell interactions
- Normal function in suppressing cell proliferation and maintaining tissue integrity
• Loss of expression (gene deletion) or function (mutations) in malignancy
