Neoplasia and Cancer Handout PDF

Summary

This handout provides an overview of neoplasia and cancer, including general characteristics, benign and malignant tumors and important details. It emphasizes the difference between benign and malignant tumors and describes the naming of tumors.

Full Transcript

Intro to Clinical Medicine Lecture (6)

Neoplasia & Cancer

Thomas G. Forsthuber, M.D. Dr. Med.
Professor of Immunology, Adjunct Professor of Microbiology
& Immunology (UT Health)
Office: BSE 3.250B
E-mail: [email protected]
Office Hours: Monday 4:30 – 5:30 pm

General characteristics of neoplasia

Neoplasia = “new growth” (Greek)
Neoplasm = neoplastic growth
Neoplasia means uncontrolled, disorderly proliferation of cells
resulting in a benign or malignant tumor
Note: Neoplasm can be benign or malignant!
Cancer = malignant tumors (cancer is Latin word for crab = crab-like
growth = cancer takes hold of a tissue like a “crab”)
2023 over 20 million new cases of cancer worldwide and 10 million
death from cancer
In 2023, over 1.9 million new cancers per year in U.S., approximately
610,000 cancer deaths
 Neoplasia
Tumors have two basic components: proliferating tumor cells and
supporting stroma with connective tissue and vessels.

Neoplasms are classified into benign or malignant based on their
biologic behavior
– Benign neoplasms: Relatively closely resemble original tissue,
grow slowly, do not metastasize, are often encapsulated, do not
invade and destroy tissues around them
– Malignant neoplasms: Undifferentiated, uncontrolled growth
invasion of tissue around them, metastasis,

The difference between incidence and mortality
Cancer Incidence Cancer Mortality
 Environment plays an important role!

Characteristics of benign tumors:
Naming: Benign tumors are designated by the suffix “-oma”
– “Lipoma”, “fibroma”, “adenoma”
– Note: some cancers also end with “-oma” = lymphoma, sarcoma

Biological behavior: slow growth, encapsulated, do not metastasize, not
destructive

Papilloma: benign neoplasm arising from surface epithelium (e.g. skin,
mouth, gut, bladder) = “finger-like projections”. Various causes.
Adenoma: benign neoplasm of glandular epithelium
Benign neoplasms of mesenchymal origin (e.g muscle, connective
tissue, fat, bone, cartilage):
– Fibroma (fibroblasts), lipoma (fatty tissue), leiomyoma (smooth muscle
tumor, for example uterus), rhabdomyoma (striated muscle cells, skeletal
muscle), chondroma (cartilage cells)
 Papilloma caused by HPV

Warts (Verruca)

Papillomatous
growth =finger-
like projections

Typically from
squamous cells

Adenoma (colonic polyp)
Derived from glandular epithelium
 Adenomas (polyp)

Note: Polyp is abnormal growth of tissue projecting from a mucosal surface.
But if they are adenomas higher risk for cancer
Polyps often appear as flat bumps, whereas adenomas are protruding,
round-shaped to mushroom-like bumps

Adenoma of the thyroid

E. Klatt, FSU
 Adenoma of the liver

Most common benign tumor:
Nevus (pigmented mole)

Nevus: proliferation of melanocytes
 Hemangiomas
Hemangiomas are benign tumors of the vascular endothelium

Infantile hemangioma Congenital hemangioma
Most frequent type (4-5% newborns) Less frequent
Appears at 4 – 6 weeks of age Present at birth
Grow quickly for short time and then May remain or may shrink
disappear

CMTC-OVM is a worldwide non-profit patient organization that aims to improve
Wikipedia
the quality of life of people suffering from vascular abnormalities (blood vessel
abnormalities), such

Cavernous hemangioma Cherry angioma = senile angioma
(most often congenital)
 Stork bite – NOT A HEMANGIOMA

Birthmark
Harmless, nevus simplex
Present at birth
Harmless
Dilated/stretched capillaries
NOT a neoplasm
Typically fade away with time

Hamartomas are “tumors” but NOT neoplasms
Hamartoma (tumor-like)
It is a disorganized overgrowth of different cells and
tissues normally found in an organ.
Is not a neoplastic proliferation of one cell type.
Grows at same speed as normal tissues.
Occurs usually in:
– Lungs (most frequent location): Consist of Fat,
cartilage, connective tissue;
– Kidney, Spleen: nodule with increased red pulp, blood
vessels
Usually discovered by chance (routine chest X-ray, CT)
Often has an underlying genetic abnormality
 Spleen Hamartoma

Benign overgrowth of malformed blood vessels. Tendency to rupture and bleed.

Malignant tumors (cancer)
Form metastasis = most tell-tale feature of a malignant
tumor!!!
Invasive growth, no capsule
Undifferentiated = may barely resemble tissue of origin
(if at all)
Important cellular features:
– Anaplasia (poorly differentiated)
– Pleomorphism (wide variation in the shape and
appearance of the tumor cells)
– Hyperchromatic nucleus (dark staining nucleus)
– High nuclear to cytoplasm ratio
– Prominent nucleoli
Rapid growth
Frequently necrosis (not enough blood supply)
 Cancers are named according to tissue origin

Carcinoma: malignant tumor of epithelial cell origin
– Squamous cell carcinoma – skin, mouth, esophagus
– Adenocarcinoma – from glandular tissue, GI mucosa,
endometrium
– Transitional cell carcinoma – urinary tract

Sarcoma: Cancer of muscle, bone, connective tissue, fat
tissue,
– Leimyosarcoma (smooth muscle, uterus),
rhabdomyosarcoma (skeletal muscle), osteosarcoma
(bone), chondrosarcoma (cartilage), liposarcoma (fatty
tissue)

Some cancers have specific names

Burkitt’s lymphoma
Hodgkin’s disease
Wilms’ tumor
 Teratoma:
Germ cell layer derived tumor (ovary,
testis). Can have bone, teeth and so forth
Teratomas rarely form outside ovary/testis
but it can happen (develop from stem cells)
Teratomas are often benign but some can
be malignant
Immature Teratoma: malignant, usually
males in the testicles
Mature Teratoma: benign, usually females

Biological behavior of cancers
Invasion and metastasis
Benign lesions have a capsule and grow by pushing other tissues
around them aside
Malignant tumors don’t care about borders and grow right into other
tissues
Metastasis:
– Tumor grows and becomes vascularized
– Tumor can grow into the vessels
– Tumor cells become loose and are swept with the blood or
lymphatic stream into other tissues where they get stuck and
may form islands of new tumor growth
– Tumors have frequently particular routs of metastasis
Carcinomas metastasize frequently via lymphatics
Sarcomas metastasize via the blood
– Metastasis targets frequently the liver, lungs, brain, lymph nodes,
bone marrow
 Clinical manifestations of malignancies
Symptoms caused by the tumor and metastasis due to location
– Painless swellings, “tumors”, obstruction, easy bleeding, change in
color, change in consistency, edema, change in body function
Symptoms caused by features of the tumor
– Wasting (cachexia): weight loss, weakness, loss of appetite,
– Anemia
– Infection
– Tumors may produce hormones = hormone abnormalities (growth
hormone – gigantism)

– Paraneoplastic syndromes:
Hypercalcemia (cancer makes parathyroid hormone-like protein)
Hormone like effects (hypoglycemia produced by insulin like
substance made by some tumors, Cushing syndrome by ACTH-
like substance by lung cancer)
Neurologic abnormalities (antibodies associated with lung cancer)
Skin changes (acanthosis nigricans = hyperpigmentation of skin
of the neck, groin, axilla)
 Why do people die of cancer?
Cancer may directly interfere with body function
(obstruction, destruction of vital tissue, space
occupying lesions
Cancer may lead to bleeding
Cancer treatment may result in death
Cancer may produce substances that alter
function of tissues (for example hormones)
Cancer-induced cachexia and anorexia
found in up to 50% of patients
loss of muscle and adipose tissue (other
tissues not affected) Good reading on cancer cachexia:
Tisdale, M.J., Physiol. Rev 2009
not fully understood why
prognostically very important
death is imminent with 30 – 35% weight loss
Highest weight loss seen in pancreatic and gastric
cancer
Lowest weight loss in lymphomas, breast cancer,
sarcomas

Cachexia and cancer death
Cancer cachexia: selective loss of fatty tissue and muscle mass –
other tissues NOT affected
Cancer cells can affect lipid and protein metabolism
Cancer can produce substances such as lipolysis and proteolysis
inducing factors, and cytokines such as TNF and IL-6 that affect lipid
and protein metabolism
Loss of muscle mass results in respiratory failure of patients
(hypostatic pneumonia due to immobility)
Cancer patients eat less (anorexia = loss of appetite)
Increased nutrition cannot overcome cancer cachexia
Comparison of body composition of cachectic cancer patients with normal controls (Data from
Fearon, Proc Nutr Soc 1992)
Parameter Normal, kg Cachectic, kg
Total body weight 65.6 44.9
Total fat 17.3 3.1
Muscle protein 2.8 0.7
Nonmuscle protein 8.3 8.1
Intracellular water 19.1 12.9
Extracellular water 15.1 17.5
Minerals 3.0 2.6
 Diagnosis of cancer
Clinical signs: visible tumor, bleeding, weight loss, etc.
Diagnostic tests: X-ray, CT, MRI, biopsy, etc.
Lab tests: CBC abnormalities, PSA, CEA, etc.

Diagnosis and identification of cancer can be difficult because they
may resemble other conditions (infections, benign conditions, etc.)

Grading and staging
Cancers are classified clinically based on their histological
appearance, tumor size, and tumor metastasis
This helps with prognosis and therapy decisions
Grading: histopathologic evaluation based on the degree of cellular
differentiation
Staging: how large is the cancer, does it invade neighboring
tissues, did it metastasize
– TNM system
T = size and extent of the tumor
N = lymph node involvement
M = metastasis
– Specialized versions of tumor grading and staging geared
towards special tumors:
Dukes classification (replaced by TNM) = colon cancer
Ann Arbor system = Hodgkin disease and non-Hodgkin
lymphomas

Note: not applicable to leukemias and tumors of CNS
 Grading of Malignant Neoplasms

Grade Definition

I Well differentiated

II Moderately differentiated

III Poorly differentiated

IV Nearly anaplastic

E. Klatt, FSU

Staging of Malignant Neoplasms

Stage Definition
Tis In situ, non-invasive (confined to epithelium)
T1 Small, minimally invasive within primary organ site
T2 Larger, more invasive within the primary organ site
T3 Larger and/or invasive beyond margins of primary organ site
T4 Very large and/or very invasive, spread to adjacent organs
N0 No lymph node involvement
N1 Regional lymph node involvement
N2 Extensive regional lymph node involvement
N3 More distant lymph node involvement
M0 No distant metastases
M1 Distant metastases present

E. Klatt, FSU
 Carcinogenesis (how cancers form)
Ultimately, cancer is caused by changes to the genome of a cell
New genes are introduced that promote cancer
– Example: viral oncogenes
Genes are damaged/mutated so that they cause cancer
Chromosomal translocations bring genes together that cause
uncontrolled growth.
– Example: [t(8;14)] in Burkitt’s lymphoma = proto-
oncogene c-myc is translocated to the Immunoglobulin
heavy chain locus on chromosome 14 and becomes
overactive
Repair mechanisms are defective so that “damaged” genes
that could cause cancer cannot be repaired
– “Tumor suppressor” genes are damaged (inactivated)
Typically “a series of unfortunate events” (several genetic
changes) needs to take place before cancer develops
(example: colon cancer)

Burkitt
Lymphoma
T(8;14)

Chronic
myelogenous Wiki
leukemia
T(9;22)
BCR-ABL “Philadelphia chromosome”
CML!!!

Robbins Pathology Sounders/Elsevier BCR: break point cluster region, Abl: Abelson tyrosin kinase
 Cancers can be induced by chemicals or
other environmental factors:

Chemical carcinogenesis: Two events: “Initiation” = primes for cancers;
“promotion” stimulates cell proliferation and promotes the cancers

The process of carcinogenesis:

Often: stem cells are mutated!

1.Initiation
Tumor initiators = mutagens

2.Promotion (more proliferation, less
death, more cells with mutations)
Tumor promotors = drive proliferation

3.Benign tumors

4.Malignant tumors = cells that
acquired additional mutations
 Important carcinogens that can lead to cancer:
– Chemical carcinogenesis
Asbestos = lung, mesotheliomas of the lung,
Arsenic = skin cancer, hemangiosarcoma
Benzene = leukemia
Vinyl chloride = angiosarcoma, liver cancer
Benzopyrene = scrotal cancers (chimney sweeps developed
squamous cell carcinoma of scrotal skin in 18th century England,
“Pott’s cancer”), bladder cancer, lung cancer (smoking)
Tobacco smoke: acrolein, formaldehyde, acrylonitrile, 1,3 butadiene,
cadmium, acetaldehyde, ethylene oxide,
– Radiation carcinogenesis
UV light = skin cancer
Ionizing radiation = leukemias, lung cancer (uranium miners),
osteosarcoma in radium watch-dial workers
Thyroid irradiation = thyroid cancers
– Viral carcinogenesis = viruses introduce DNA into host cells cause cancer:
Human papilloma virus (HPV) = cervical cancer
Epstein-Barr virus (EBV) = Burkitt lymphoma, nasopharyngeal CA
- Natural products:
Aflatoxin B1 (Aspergillus flavus) = hepatocellular carcinoma

The discovery of the link of certain
chemicals with cancer
 Percivall Pott, Cancer Scroti, The Chirurgical Works of
Percival Pott. 1775

“there is a disease as peculiar to a certain set of people,
which has not, at least to my knowledge, been publicly
noticed; I mean the chimney-sweepers' cancer.”

How sad it this?
Pott published “Cancer Scroti” in 1775!!!

Still, in 1819, during a debate in the House of Lords over the use of
mechanical chimney cleaning, Lord Lauderdale stated in opposition:
“The better way, in judgment, would be to leave reforms of this kind
entirely to the moral feeling of, perhaps, the most moral people, on the whole
face of the earth”.

In the UK it took until 1864 when Lord Shaftesbury brought in the “Act for
the Regulation of Chimney Sweepers” which established a penalty of
£10.00 for offenders.
In the US it took even longer (around 1875) for chimney sweeps to be
regulated.

In 1933 it was experimentally proven that Benzopyrene causes skin
cancer.
Cook JW, Hewett CL, Hieger I. The isolation of a cancer-producing hydrocarbon from coal tar. Parts I,
II, and III. J Chem Soc 1933;24:395–405.