Week 7 Nelson - Neoplasia

Question 1

Define Neoplsia.

Answer 1

“new growth”

A neoplasm is an abnormal mass of tissue, the growth of which exceeds and is uncoordinated with that of the normal tissues and persists in the same excessive manner after cessation of the stimuli which invoked the change.

Question 2

What is a benign neoplasm?

Answer 2

• Cannot spread to other tissues (does not metastasize)
• not locally invasive

Question 3

What is a malignant neoplasia?

Answer 3

Have the capability to metastasize.

Tend to be locally invasive and distroy adjacent structures.

Question 4

What is a “lack of differentiation” called?

Answer 4

Anaplasia

Question 5

Define metaplasia.

Answer 5

Potentially reversible change in which one differentiated cell type is replaced by another.

Question 6

Define Hyperplasia.

Answer 6

Increase in the number of cells.

• can form tissue mass
• will regress once the stimulus is removed

Question 7

Define hamartoma.

Answer 7

Non-neoplastic disorganized aggregate of mature tissues indigenous to the site of origin.

Question 8

Define choristoma.

Answer 8

A heterotopic rest of mature cells.

(ex. pancreatic tissue in submucosa of stomach)

Question 9

Define dysplasia.

Answer 9

Disordered growth and cytologic changes seen in epithelium.

-can progress to carcinoma in situ, but not always

Question 10

What are the six main categories of Neoplasms?

(Hint: according to cell or tissue of origin)

Answer 10

1. Tumors of epithelial origin (carcinoma)
2. Tumors of mesenchymal origin (sarcoma)
3. Tumors of hematopoietic or lymphoid origin
4. Tumors of melanocytic origin
5. Tumors of the CNS (brain/spinal cord)
6. Tumors of germ cell origin

Question 11

Define adenoma.

Answer 11

Benign epithelial neoplasms showing glandular differentiation.

Question 12

Define papilloma.

Answer 12

Benign epithelial neoplasms that form papillary structures.

Question 13

What is squamous cell carcinoma?

Answer 13

Malignant epithelial neoplasms showing squamous differentiation.

Question 14

Define adenocarcinomas.

Answer 14

Malignant epithelial neoplasms showing glandular differentiation.

Question 15

What is a teratoma?

Answer 15

Tumor of germ cell origin which can show differentiation in more than one germ cell layer.

Question 16

What are the three pathways of metastatic spread?

Answer 16

1. Direct seeding of body cavities or surfaces
2. Lymphatic spread
3. Hematogenous spread (blood)

Question 17

What are the three most common cancers in men?

Answer 17

1. Prostate
2. Lung
3. Colorectal

Question 18

What are the three most common cancers in women?

Answer 18

1. Breast
2. Lung
3. Colorectal

Question 19

What type of cancer is responsible for the most cancer deaths in both men/women?

Answer 19

Lung cancer!

(Don’t smoke!)

Question 20

What type of risk factors appear to be the dominant risk for most cancers?

Answer 20

Environmental

Question 21

What are some environmental factors in cancer epidemiology?

Answer 21

• Infectious agents (HPV)
• Cigarette smoking
• Alcohol consumption
• Diet
• Obesity
• Reproductive history
• Environmental carcinogens

Question 22

What role does age have in developing cancer?

Answer 22

1 cause of death in women 40-79 & men 60-79

Important influence on the likelihood of being afflicted with cancer.

Most carcinomas occur in older individuals (>55)

• Accumulation of somatic mutations
• Decline in immune competence

Question 23

What are the four types of genes typically mutated in cancer?

Answer 23

• Four classes of normal regulatory genes
  
  • growth-promoting proto-oncogenes
  • growth-inhibiting tumor suppressor genes
  • genes that regulate apoptosis
  • DNA repair genes

Question 24

Name five proto-oncogenes, their function, and the mutation that leads to an associated cancer.

Answer 24

• ABL
  
  • nonreceptor tyrosine kinase activity
  • translocation → chronic myelogenous leukemia
• HER
  
  • receptor synthesis
  • amplication → breast carcinoma
• MYC
  
  • nuclear transcription
  • translocation → Burkitt’s lymphoma
• N-MYC
  
  • nuclear transcription
  • amplification → Neuroblastoma
• RAS
  
  • signal transduction
  • point mutation → Lung, colon, & pancreatic carcinomas

Question 25

Name three tumor suppressor genes, their functions, and associated cancers.

Answer 25

• APC
  
  • prevents nuclear transcription by degrading beta-catenins (Wnt pathway)
  • Familial polyposis (colorectal carcinoma)
• BRCA₁/BRCA₂
  
  • regulates DNA repair
  • Breast cancer (ovary & prostate carcinomas too)
• p53
  
  • inhibits G₁ to S-phase, repairs DNA, activates Bax (apoptosis)
  • Lung, colon, & breast carcinoma

Question 26

What are the 8 essential alterations (“hallmarks”) involved in malignant transformation of cells?

Answer 26

1. Self-sufficiency in growth signals (proliferate without external stimuli)
2. Insensitivity to growth-inhibitory signals (inactivation of tumor suppressor genes)
3. Altered cellular metabolism (aerobic glycolysis/Warburg effect)
4. Resistant to apoptosis
5. Limitless replicative potential (immortality)
6. Sustained angiogenesis
7. Ability to invade and metastasize
8. Ability to evade the host immune response

Question 27

What are two enabling characteristics of cancer cells?

Answer 27

1. Genomic instability
2. Cancer-promoting inflammation

Question 28

What is the importance of epigenetic and miRNA changes?

Answer 28

• Epigenetic
  
  • Causes considerable epigenetic heterogeneity
  • silencing of tumor suppressor genes
  • global changes in DNA methylation
  • Changes in histones
• miRNA
  
  • control normal cell growth, differentiation, and cell survival
  • altered, decreased, or overexpressed miRNA plays a role in many cancers

Question 29

What is an example of chemical carcinogenesis?

Answer 29

Alcohol!

Associated with squamous cell carcinoma of oropharynx, upper/middle esophagus, pancreatic and hepatocellular carcinomas.

Question 30

What is an example of radiation carcinogenesis?

Answer 30

• Ionizing electromagnetic radiation:
  
  • X-rays, CT, gamma rays
  • leukemia, lung, thyroid, breast, colon
• Ultraviolet (UV) rays
  
  • skin cancer

Question 31

What are some examples of microbial carcinogenesis?

Answer 31

• Human T-cell leukemia virus type 1 (HTLV-1)
  
  • viral integration into host genome
    
    • leads to pro-growth signalling and genomic instability
• Human papillomavirus (HPV)
  
  • code for oncogenic proteins that inactivate tumor suppressors
  • inhibit apoptosis
• Epstein-Barr virus
  
  • implicated in Burkitt lymphoma
  • virus acts as a polyclonal B-cell mitogen
• Hepatitis B & C
  
  • chronic inflammation, hepatocyte death, genomic damage

Question 32

How is the Warburg effect used for cancer diagnosis.

Answer 32

• Warburg Effect:
  
  • tumor’s reliance on fermentation of glucose to lactate despite their being abundant oxygen. The Warburg effect is thus referred to as ‘aerobic glycolysis’.
• glucose metabolism can be used to visualize tumors in PET scan
  
  • shows cells that preferentially take up glucose such as tumor cells & actively dividing tissues

Question 33

Define cachexia.

Answer 33

Progressive loss of both body fat and lean muscle mass along with weakness and anorexia that is associated with cancer.

Question 34

What are paraneoplastic syndromes?

Answer 34

• Symptom complexes in cancer-bearing individuals that cannot be explained
  
  • either by the local or distant spread of tumor or by the elaboration of hormones indigenous to the tissue from which the tumor arose
  • ex. Cushings syndrome, lung cancer, secrete ACTH
  • ex. Hypercalcemia in squamous cell carcinoma of the lung due to parathyroid hormone-related protein
  • ex. Venous thrombosis in pancreatic carcinoma due to secretion of mucins that activate clotting

Question 35

What is grading and staging of malignant neoplasms?

Answer 35

• Grading
  
  • degree of differentiation
  • poor-well, 1-3
• Staging
  
  • size and/or local degree of invasion (T)
  • extent of spread to lymph nodes (N)
  • presence or absence of distant metastases (M)

Question 36

Describe the AJCC staging classification scheme.

Answer 36

• Primary Tumor (T)
  
  • what layers tumor invades
  • 0-4
• Regional Lymph Nodes (N)
  
  • # of metastises in region lymph nodes
• Distant Metastasis (M)
  
  • absence, presence, #of metastases in one organ, #of metastases in 1+ organ,

Question 37

What is the first step in the pathologic diagnosis of neoplasms?

Answer 37

Obtaining a sample containing the tumor.

Question 38

How does an immunohistochemical stain work?

Answer 38

• Primary antibody binds to tissue antigen
• Secondary antibody binds to primary antibody
• Enzyme complex binds to secondary antibody

Test with different antibodies/proteins to identify cell products or surface markers to determine where tissue is from.

Question 39

How does flow cytometry work?

Answer 39

• cells labeled with fluorescent antibodies
• antibodies bind to specific antigens on the cells
• signal is detected allowing quantification of types of cells expressing the antigens of interest

This technique is very useful in the identification and classification of leukemias and lymphomas.

Question 40

What are the applications of molecular diagnostics with regard to cancer?

Answer 40

• Diagnosis of malignant neoplasms
• Prognosis and treatment of malignant neoplasms
• Detection of minimal residual disease
• Diagnosis of hereditary predisposition to cancer

Question 41

What is the common, major limitation of cancer biomarkers?

Answer 41

The biomarker is often secreted in both malignant and non-malignant conditions affecting the involved tissue.

-cannot be used for definitive diagnosis of cancer, but instead used for screening

Question 42

Define prevalence.

Answer 42

Percentage of individuals who have the disease in the population that is tested.

Question 43

Define sensitivity.

Answer 43

Percentage of individuals with the disease who have a positive test result.

Question 44

Define specificity.

Answer 44

Percentage of individuals without the disease who have a negative test result.

Question 45

Predictive value?

Answer 45

• Increasing sensitivity will decrease specificity
• Increasing specificity will decrease sensitivity
• if risk for failure to diagnose is high, test with high sensitivity
  
  • high sensitivity test first (no false negatives)
  • confirmatory high specificity test (no false positives)