Detection & Diagnosis of Malignancy (Pence) COPY

Question 1

Modalities of finding a gross mass:

Answer 1

• sensation of the mass
• invasion of adjacent structures: skin, blood vessels (bleeding), nerves
• obstruction: GI tract, airways, blood/lymph vessels
• compression: spinal cord

Question 2

Examples of sensation of mass:

Answer 2

• breast cancer: annual PE or monthly self exam
• soft tissue sarcomas: may present w/ mass

*local masses do not tell you whether tumor is benign or malignant*

Question 3

Example of invasion of adjacent structures by mass:

Answer 3

• skin invasion: a lump in breast may be benign or malignant, but skin invasion is far more concerning for malignancy

Question 4

Examples of obstruction by tumor:

Answer 4

• thoracic, abd, and pelvic cavities offer abundant room for tumors to grow w/o being detected, thus this may be clinical key to presentation
• lung carcinoma growing endobronchially: can cause airway obstruction > stridor may be indication of this, downstream lung tissue may collapse
• superior vena cava syndrome: lung carcinoma obstructing SVC; venous distension of neck/chest wall, facial edema/plethora, upper are edema; pemberton’s sign (exaggeration of findings when arms are raised above head)
• abd/pelvic tumors may obstruct: GI tract (SBO), ureters (hydronephrosis), biliary system, blood/lymph vessels
• malignancies responsible for abd obstruction: ovarian tumors, lymphomas, intestinal tumors, pancreatic tumors

Question 5

Examples of compression by masses:

Answer 5

• spinal cord compression: true oncologic emergency, may cause permanent paralysis, can cause paresthesias (usually bilat), weakness, and incontinence

*tx: radiation therapy, high dose steroid (acute setting), surgical debulking*

Question 6

Main reason why tumors may cause hemorrhage:

Answer 6

• angiogenesis
• tumors need blood vessels/nutrients to keep growing, thus they induce angiogenesis through growth factors, however this can lead to hemorrhage

Question 7

Examples of how hemorrhage may present in context of tumor presence:

Answer 7

*most common form of bleeding: post-menopausal bleeding in women w/ uterine cancer*

• hematuria: likely painless, underlying etiology may be urinary bladder or kidneys
• melena
• hematemesis
• hemoptysis
• pain: example of hepatic adenoma bleeding into liver w/ extensive bleeding and subcapsular hematoma causing RUQ pain, can be fatal; pain is d/t rapid enlargement of tumor or compartment
• chronic bleeding: example of occult bleeding in colon cancer that causes iron deficiency anemia

Question 8

How is pleural effusion caused by cancer?

Answer 8

irritation of pleura by tumor (example mesothelioma) can cause formation of malignant pleural effusion

Question 9

Most common irritative process caused by ovarian carcinoma:

Answer 9

malignant ascites

Question 10

How can malignant fluid processes be separated from other etiologies?

Answer 10

(in context of pleural effusion and ascites)

• differential list for underlying etiology is large for either of these PE or radiographic findings, thus history is key
• split group into two categories: transudative (low protein, low cell count) or exudative (high protein, high cell count)
• thoracentesis and paracentesis are safe, easy to perform, and can provide both therapeutic and diagnostic (cytology) advantages

Question 11

TNM in terms of cancer staging stands for:

Answer 11

• T: tumor size/invasion
• N: lymph node involvement
• M: metastasis

Question 12

Types of metastatic spread:

Answer 12

• lymphatic: travels through lymphatics, typical spread for carcinomas
• hematogenous: travels through blood vessels, typical spread for sarcomas although cxan be seen in advanced carcinomas
• transcoelomic: invasive through serosa or surface of organ into free space, commonly the peritoneum (example ovarian cancer)
• canalicular: travels through pre-existing duct/lumen (examples renal cell carcinoma, cancers involving urinary tract, and colangiocarcinoma)

Question 13

Where to look for metastasis in breast cancer:

Answer 13

lymph nodes (esp in external mammary group and axilla group)

Question 14

Where to look for metastasis in lung carcinoma:

Answer 14

hilar and mediastinal lymph nodes

*will require radiographic evaluation, aka CT scan*

Question 15

How to evaluate a suspected lymph node for metastasis:

Answer 15

• inject tumor w/ radioactive substance/dye > evaluate w/ probe for node that becomes radioactive (sentinel node) > dissect/biopsy node for cancer involvement
• commonly used in breast carcinoma and melanoma

Question 16

Symptoms related to metastasis:

Answer 16

• fatigue/weight loss: in pt w/ possible cancer, extreme fatigue may indicate mets
• bone pain/back pain: osseous metastasis
• headaches/cognitive dysfunction/localizing neurologic signs: brain metastasis
• obstruction/compression: spinal cord compression from metastasis

Question 17

• unique finding on PE that is indicative of umbilical metastasis, typically from ovarian carcinoma
• originally described in Sister Mary Joseph

Answer 17

Sister Mary Joseph nodule

Question 18

• supraclavicular lymphadenopathy (classically left-sided)
• often a/w carcinoma, esp in older adults
• any thoracic or abd carcinoma may be responsible
• basis of this site as metastasis for tumors throughout body can be explained by this being the site where thoracic duct is drained into subclavian vein

Answer 18

Virchow node

Question 19

Determing primary cancer vs metastatic cancer:

Answer 19

• primary: solitary tumor, no other cancer dx in the past, location is unusual location for mets, typical demographic
• metastatic: multiple tumors, history of other cancer in past, location is more typical for mets, unusual demographic

Question 20

How to monitor/detect cancer recurrence:

Answer 20

• recurrences are typically metastatic (can determine where to look for mets)
• knowing regional lymph node drainage is important
• radiographic imaging is important
• serum tumor markers can be monitored: ovarian cancer (CA-125), myeloma (beta2 microglobulin), medullary thyroid carcinoma (calcitonin)

Question 21

• group of rare disorders that are triggered by an abnormal immune system response to a cancerous tumor or neoplasm
• when cancer-fighting antibodies or white blood cells (T cells) mistakenly attack normal cells in the nervous system
• abnormal signs/sx can be seen: mental status changes, hypercalcemia, increased fatigue, electrolyte imbalances

Answer 21

paraneoplastic syndrome

Question 22

What causes paraneoplastic syndrome?

Answer 22

• tumor secretes substances: PTH-rP, ACTH
• tumor evokes elaboration of other factors: autoantibodies, cytokines

Question 23

• cause of the humoral hypercalcemia of malignancy
• commonly elevated in squamous carcinomas (any site), breast, GI, and GU tract cancers
• excess results in bone resorption and distal tubular calcium reabsorption
• doesn’t affect vitamin D pathway and intestinal absorption of Ca

Answer 23

PTH-rP

Question 24

• most common paraneoplastic syndrome in small cell neuroendocrine carcinoma (15%)
• other tumors a/w this condition: lung (small cell and squamous), GI carcinomas, GU and ovarian carcinomas
• condition mediated by anti-diuretic hormone (ADH) and arginine vasopressin (AVP) secretion from a tumor
• can cause lethargy, weakness, and water retention
• mental status changes also present caused by free water diluting body serum (low serum osm, high urine osm)

Answer 24

syndrome of inappropriate ADH secretion (SIADH)

Question 25

What causes the inappropriate reclaiming of free water in SIADH?

Answer 25

• secretion of ADH/AVP by tumor signals renal receptors to retain free water (rather than excreting it in urine)
• this free water dilutes serum and causes mental status changes
• how it will look on labs: low serum osm, high urine osm

Question 26

What tumors are a/w SIADH?

Answer 26

• small cell neuroendocrine carcinoma (15% of cases, many endocrine and neurologic paraneoplastic syndromes other than SIADH are possible in this type of carcinoma)
• lung (small cell carcinoma and squamous)
• GI carcinomas
• GU and ovarian carcinomas

Question 27

What type of tumor is most a/w causing paraneoplastic syndromes?

Answer 27

lung cancer

(esp small cell neuroendocrine carcinoma)

Question 28

• condition caused by inappropriate secretion of ACTH and cortisol due to presence of a tumor
• 2nd most common paraneoplastic syndrome in small cell neuroendocrine carcinoma (3-5%)
• signs/sx: hypertension, hypokalemia, muscle wasting/weakness

Answer 28

Cushing syndrome

(caused by ACTH secretion d/t tumor presence)

Question 29

What is the difference between Cushing’s disease and Cushing’s syndrome (caused by a tumor)?

Answer 29

• Cushing’s disease: the inherent issue is within the pituitary gland causing elevated ACTH and cortisol secretion; sx are centripetal obesity and moon facies
• Cushing’s syndrome (d/t tumor): the tumor ectopically secretes ACTH leading to increase in cortisol; sx are htn, hypokalemia, metabolic alkalosis, muscle wasting

Question 30

What tumors are a/w ectopic ACTH secretion?

Answer 30

• small cell neuroendocrine carcinoma (3-5% of cases, many endocrine and neurologic paraneoplastic syndromes other than ACTH secretion are possible in this type of carcinoma)
• lung (squamous, adenocarcinoma, small cell)
• bronchial carcinoid tumors
• pancreatic islet tumors
• medullary thyroid carcinoma
• pheochromocytoma

Question 31

• mediated typically by antibodies to voltage-gated calcium channels at neuromuscular junction: “Anti-VGCC antibodies”
• dx w/ antibodies and nerve stimulation testing
• sx: proximal muscle weakness that improves w/ repetitive motion/stimulation and increased thirst (sx are honestly similar to myasthenia gravis)
• often a/w malignancy, esp small cell lung carcinoma

Answer 31

Lambert-Eaton Myasthenic Syndrome (LEMS)