Detection & Diagnosis of Malignancy (Pence) COPY Flashcards

1
Q

Modalities of finding a gross mass:

A
  • sensation of the mass
  • invasion of adjacent structures: skin, blood vessels (bleeding), nerves
  • obstruction: GI tract, airways, blood/lymph vessels
  • compression: spinal cord
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2
Q

Examples of sensation of mass:

A
  • 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*

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3
Q

Example of invasion of adjacent structures by mass:

A
  • skin invasion: a lump in breast may be benign or malignant, but skin invasion is far more concerning for malignancy
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4
Q

Examples of obstruction by tumor:

A
  • 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
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5
Q

Examples of compression by masses:

A
  • 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*

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6
Q

Main reason why tumors may cause hemorrhage:

A
  • angiogenesis
  • tumors need blood vessels/nutrients to keep growing, thus they induce angiogenesis through growth factors, however this can lead to hemorrhage
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7
Q

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

A

*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
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8
Q

How is pleural effusion caused by cancer?

A

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

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9
Q

Most common irritative process caused by ovarian carcinoma:

A

malignant ascites

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10
Q

How can malignant fluid processes be separated from other etiologies?

A

(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
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11
Q

TNM in terms of cancer staging stands for:

A
  • T: tumor size/invasion
  • N: lymph node involvement
  • M: metastasis
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12
Q

Types of metastatic spread:

A
  • 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)
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13
Q

Where to look for metastasis in breast cancer:

A

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

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14
Q

Where to look for metastasis in lung carcinoma:

A

hilar and mediastinal lymph nodes

*will require radiographic evaluation, aka CT scan*

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15
Q

How to evaluate a suspected lymph node for metastasis:

A
  • 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
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16
Q

Symptoms related to metastasis:

A
  • 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
17
Q
  • unique finding on PE that is indicative of umbilical metastasis, typically from ovarian carcinoma
  • originally described in Sister Mary Joseph
A

Sister Mary Joseph nodule

18
Q
  • 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
A

Virchow node

19
Q

Determing primary cancer vs metastatic cancer:

A
  • 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
20
Q

How to monitor/detect cancer recurrence:

A
  • 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)
21
Q
  • 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
A

paraneoplastic syndrome

22
Q

What causes paraneoplastic syndrome?

A
  • tumor secretes substances: PTH-rP, ACTH
  • tumor evokes elaboration of other factors: autoantibodies, cytokines
23
Q
  • 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
A

PTH-rP

24
Q
  • 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)
A

syndrome of inappropriate ADH secretion (SIADH)

25
Q

What causes the inappropriate reclaiming of free water in SIADH?

A
  • 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
26
Q

What tumors are a/w SIADH?

A
  • 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
27
Q

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

A

lung cancer

(esp small cell neuroendocrine carcinoma)

28
Q
  • 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
A

Cushing syndrome

(caused by ACTH secretion d/t tumor presence)

29
Q

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

A
  • 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
30
Q

What tumors are a/w ectopic ACTH secretion?

A
  • 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
31
Q
  • 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
A

Lambert-Eaton Myasthenic Syndrome (LEMS)