Introduction to Neoplasia

Question 1

metastasis

Answer 1

growth at a distant site

Question 2

what is hyperplasia

Answer 2

increased number of cells

Question 3

what is hypertrophy

Answer 3

increased size of cells

Question 4

what is dysplasia

Answer 4

disorderly proliferation

• change in cell structure

Question 5

neoplasi

Answer 5

abnormal new growth

Question 6

anaplasia

Answer 6

lack of differentiaion

Question 7

tumor

Answer 7

originally mening swelling but now equated with neoplasia

Question 8

what are the possible cells of origin for a tumor

Answer 8

epithelial, mesenchymal, CNS, lymphoid

Question 9

what do we calle a tumor cell of ______ origin

• epithelial
• mesenchymal
• hematolymphoi
• melanocytic
• CNS
• mixed

Answer 9

• epithelial: carcinoma
• mesenchymal: sarcoma
• hematolymphoi: lymphoma, leukemia
• melanocytic: melanoma
• CNS: Glioma, Schwanoma
• mixed: Carcinosarcoma

Question 10

what are the 3 type of epithelia and what are some rough functions?

Answer 10

simple squamous: protective

simple cuboidal:

Simple columnar: absorptive. cilia to increase SA for absorption

Question 11

what is a tumor of glandular origin called

Answer 11

adeno

Question 12

what is a cancerous epithelia called

Answer 12

carcinoma

Question 13

what s cancer of mesenchymal origin? and what are some examples of mesenchymal cells

Answer 13

mesenchymal=below basal lamina

sarcoma

fibroblasts

blood vessels

blood cells

muscle

adipocytes

bone

cartilage

Question 14

name the benign and malignant name for neoplasia of ______ origin

• fibroblasts
• adipocytes
• smooth muscle
• skeletal muscle
• bone
• caritlage
• blood

Answer 14

• fibroblasts: fibroma, firbosarcoma
• adipocytes: lipoma, liposarcoma
• smooth muscle: leiomyoma, leiomyosarcoma
• skeletal muscle: rhabdomyoma, rhabdomyosarcoma
• bone: osteoma, osteosarcoma
• caritlage: chondroma, chondrosarcoma
• blood: hemangioma, angiosarcoma

Question 15

List the 3 categories under neoplasia of hematolymphoid cell origin

Answer 15

• they are based upon when in the differentiation process of a hemotopoietic stem cell does the cancer formation begin

lymphoid neoplasma

myoloid neoplasms

histiocytic neoplasms

Question 16

melanocytic neoplasm

Answer 16

• neural crest origin
• may be benign of malignant
  
  • nevus, melanoma

Question 17

what are lymphoid neoplasms and what are some examples

Answer 17

cells resembling some normal stage of lymphocyte differentiation which serves as one of the bases for their classification

ex: non hodgkin lymphoma, hodgkin lymphoma, lymphocytic leukemia, plasma cell neoplasms

Question 18

what are myeloid neoplasms and examples

Answer 18

arise from progenitor cells that give rise to the granulocytes, red cells, and platelets

acute myeloid leukemias, myeloproliferative disroders

myelodysplastic syndromes

Question 19

what are histiocytic neoplasms? examples

Answer 19

proliferative lesions of macrophages and dendritic cells

ex: langerhans cell histiocytes

Question 20

describe the difference in behavior of tumors that are benign and malignant

suffix:

morphology

growth rate

growth pattern

metastasis?

Answer 20

• benign:
  
  • “oma”
  • resemble normal tissue ( well differentiatied)
  • slow growth rate
  • non-invasive, encapsulated (don’t cross basal lamina)
  • do not metastasize
• malignant
  
  • carcinoma or sarcoma
  • variable morphology, normal to extremely different from typical tissue
  • variable growth pattern
  • capable of metastasizing

Question 21

list the 4 characteristics used to differnetiate between benign and malignant neoplasms

Answer 21

differentiation and anaplasia

rate of growth

local invasion

metastasis

Question 22

what do differentiation and anaplasia mean?

what are the categories?

Answer 22

the extent to which tumor cells morphologicall and fucntionally resemble the normal tissure counterpart

well-differentiated: resemble normal tissue

moderately-differntiatedL kind of resemble..

pooly differnetiatedL primitive, vague resemblance

anaplastic complete lack of differntiation

Question 23

what is the difference between a well-differentiated prostate cancer and a poorly differnetiated prostate cancer?

Answer 23

well-differentiated resembles benign porostate tissue morphologically. poorly differentiated does not. the tissues do not grow with any sort of pattern. usually poorly differentiated is much more aggressive

Question 24

describe 3 features of well differentiated neoplasm

Answer 24

resembles normal histology

evidence of maturation

evidence of functionality

Question 25

what are some histological features associated with malignancy

Answer 25

cellular nuclear pleomorphism

coarsely clumped chromatin

hyperchromatic nuclei

high nuclear to cytoplasmic ration (nucleus gets big!)

large nucleoli

atypicaly, bizzare mitoses

loss of tissue polarity

tumor giant cells

Question 26

why is this tissue malgnant?

Answer 26

nuclear pleomorphism-typically large

coarsely clumped chromatin

Question 27

what about these tissues makes them malignant?

Answer 27

hyperchromatic nuclei

Question 28

what about this tissue makes it malignant

Answer 28

nuclear pleomorphism with tumor giant cells

Question 29

what about this tissue makes it malignant?

Answer 29

atypical mitoses

Question 30

what is polarity and how is it relate to classification of benign v malignant?

Answer 30

• nuclei line up, basal orientation, apical cytoplasm
• if you flip a slide upside down n a microscope you would still knwo what was up and down. when you lose polarity you lose all 3 of these things!
• malignant cells often have no polarity

Question 31

how is maturation related to malignancy

Answer 31

cell mature to develop their function. for example in the cervix as cells get closer to the surface they get thinner and flatter. in cancer a lto of times cells don’t amture. so instead of seeing the natural progression to flatter cells, the cells look all the same from the basement membrane to the surface. this is cancer!

Question 32

what are 3 features of malignancy

Answer 32

1. cytological atypia
2. histological dysplasis: architectural anarchy
   
   1. loss of polarity
   2. loss of maturation
   3. loss of architecture
   4. loss of organization
3. varies from mild to severe forms

Question 33

what is a benign mixed tumor?

Answer 33

a tumor that is both epithelial and mesenchymal. it has multiple morphological components

ex: pleomorphic adenoma

Question 34

what is a malignant mixed mullerian tumor (MMMT)

Answer 34

a tumor that invades the myometrium superficially. tumor pushes apart the cervical canal and swells out of the cervix

Question 35

what is a teratoma

Answer 35

predominately benign tumor

composed of tissue derive from multiple germ layers-totipotent cells ( as opposed to previous tumors)

Question 36

Hamartoma

Answer 36

• mass of disorgaized, mature tissue which is specific to the site of developemtn
• represents anomalous development
  
  • ex: lung hemartoma

Question 37

what is a choriostoma

Answer 37

ectopic tissue in a foreign location

ex: gastric heterotopia

Question 38

cancer can either be ______ or invasive

Answer 38

in situ or invasive

Question 39

what are the two classifications of invasive cancer

Answer 39

locally invasive: potentially curable

metastatic: unlikely curable

Question 40

what does a carcinoma in situ mean? (CIS)

Answer 40

• pre-invasive lesion
• frequently seen in roximity to invasive tumor
• malignant cells do not penetrate beyond basement membrane
• full thickness dysplasia
  
  • dysplasia: disrodered growth

cancer can be invasive or not. in situ basically means non-invasive

Question 41

Describe on a molecular level how cancers can cross the basement membrane

Answer 41

• Loosening of interacellular junctions (loss of E-cadherin function)
  
  • inactivation of E-cadherin
  • activation of beta-cadherin
  • NAIL or TWIST (TFs)
• Degradation of basement membrane
  
  • matrix metalloproteinases (MMP)
• Change in attachment of tumor cells
• Migration through the membrane!! (typically when the intracellular links are disturbed that would trigger apoptosis, but in cacner it doesn’t)

Question 42

what is metastasis

Answer 42

a criterion for malignancy

benign tumors do not metastasize, but malignant tumors do

Question 43

where does metastass occur and describe its path/process

Answer 43

• the process of metastais is predictable. based upon:
  
  • blood flow
  • adhesion molecules
  • chemokines
• sites of metastasis
  
  • lymph nodes
  • lungs
  • liver
  • bone
  • brain
• (colon cancer-liver)
• (lung-brain)

Question 44

what is the most common pathway for metastasis spread?

Answer 44

lymphatic metastasis is the most common pathway for carcinoma spread! however it is raer for sarcomas. LN involvement is predictable based upon normal lymph draineage pathways.

Question 45

what is a sentinel node

Answer 45

the first LN to drain the tumor. the start of it all. important for staging cacner

Question 46

besides lymph spread what is another way that cancer can spread throgh the body

Answer 46

• tumor cells implant and/or invade serosal surfaces
• peritoneal cavity commonly invaded by ovarian cancer ( carcinomatosis)
• pleural surfaces and pleural effucions in lung cancers

Question 47

what is cancer staging

Answer 47

• process of determining how much cancer is in the body and where it is located
• describes the serverity of the cancer
  
  • magnitude/size of the primary
  • extent of spread of the body
• provides a common language to effectively comunicate about a patient’s cancer and collaberate on the best course of treatment

Question 48

What is the TNM staging system and how do you stage cancer?

Answer 48

• TNM classification system was developed as a tool to stage different types of cancer based upon standardization criteria
  
  • T-tumor size
  • N-nodal involvement
  • M-metastais
• note that each cancer type has its

Question 49

WHat are 4 common host reactions to cancer

Answer 49

1. local effects
   
   1. compression of vital structures (pituitary)
   2. ulceration (bleeding, infection)
2. Cachexia
   
   1. cytokine release causes weight loss ex: TNF
3. Hemotologic abnormalities
   
   1. anemia, hypercoagulability
4. paraneoplastic cyndromes-release hormones

Question 50

What is the first step in establishing a targeted therapy regimen for a patient with lung adenocarcinoma?

Answer 50

MOIDX Testing

• two testing techniques: cytogenetic and sequencing (NextGen)
• basically the next step is to test the genetic sequence to look for common mutations

Question 51

What do EGFR mutations lead to?

Answer 51

they alter EGFR kinase activity

Question 52

there are different exons within an EGFR mutation that either predict reactiveness or resistance to EGFR targeted therapy drugs. list the exon(s) that lead to reactivity and the exon(s) that lead to resistance to the drugs

Answer 52

Reactivity: Exon 19, Exon 21

Resitance: Exon 20

Question 53

What sequencing did they used to use for assesing EGFR mutation therapy

Answer 53

They used to use Dideoxy sequencing which took 2 days and had a lot of steps and was very labor intensive. interpretations and deletions are difficult to precisely interpret

Question 54

what sequencing do they use now to design targeted therapy for lung adenocarcinoma

Answer 54

NextGen sequencing.

the depth of coverage is the number of times a base is interrogated by overlapping reads and adequate depth of coverage is essential for accurate variant detection.

Question 55

What s variant reporting

Answer 55

• this is when the genetic variants that nextgen spits out are given clinical meaning.
• there are rules to approach reporting variables
  
  • clinical history
  • gene panel (lung, colon, melanoma aka where the gene is located changes the meaning)
  • clinical decision making information
• there are databases to help!

Question 56

what do you get after you do sequencing and asses the variants for clinical significance?

Answer 56

• actionability aka using the variant to impact treatment
• you make a form stating the exon and whether or not it will increase reactivity to the drug or resistance and then a recoomended treatment plan including possible clinical trials. this should all occur within 10 work days

Question 57

Describe EGFR as an example of targeted therapy

Answer 57

• if a person has mutant EGFR they can either be treated with target therapy or traditional cytotoxic therapy
  
  • the type of mutation is how you decide whether targeted therapy is the best choice.
  • certain exon mutatiosn (19 and 21) make targeted therapy better whereas exon 20 means regular therapy is the best choice

Question 58

What are the drugs that are used for Exon 19 and 21 EGFR mutation lung adenocarcinoma

Answer 58

Getfitinib (1st gen)

Erlotinib (1st gen)

Afatinib (2nd gen)

Question 59

Describe selective pressure that is put upon tumors with EGFR mutations that are treated with immunotherapy and the significance of this selective pressure

Answer 59

when a EGFR mutated tumor has exon 19 or 21 it is treated with immunotherapy. this kills all the tumor cells that are sensitive to these drugs. then all that is left would be the few cells that may not be sensitive to the drug. those cells divide and now all you have left are the cells that are resistant! Then you need to reasses your drug choice bc you have a tumor that is resitant to your drug!

Question 60

What does tumor plasticity and selctive pressure lead to

Answer 60

resistance to EGFR TKIs

Question 61

What drug do you use when you have exon 20 T790M

Answer 61

Osimertinib

Question 62

Most commone spread of sarcoma

Answer 62

hematogenous spread. veins more than arteries