Supplemental
Radiology Study Guide
Metabolic/Endocrine
Evaluation
of selected endocrine neoplasms
Thyroid
(Source: Anderson and Wastie.
Diagnostic Imaging. 3rd Edition. Page 423.)
- Either
nuclear medicine or ultrasound is typically used to evaluate
the thyroid gland. See Thyroid imaging. Nuclear
medicine utilizes an isotope with affinity for the thyroid
gland to evaluate the size and uniformity of cell types in
the gland. Technetium 99m sodium pertechnatate
or radioactive Iodine tracers are used for this purpose. Ultrasound
utilizes high frequency sound-waves to interrogate the thyroid
gland. Solid structures will be more echoic, less echoic
or iso echoic to the normal thyroid. Cysts will be
identified as anechoic areas within the thyroid. Both
studies can be utilized to evaluate thyroid size.
- Common
clinical presentations for thyroid imaging include an enlarged
nodular thyroid gland or a solitary thyroid nodule. The former
is most commonly associated with multinodular goiter while
a solitary nodule may represent thyroid carcinoma.
- A
palpable nodule that does not demostrate uptake of radionuclide
on isotope scans is termed a "cold nodule" and
is indeterminate in etiology. It can represent a cyst, adenoma
or carcinoma. Because of its indeterminate nature, intervention
such as biopsy or resection is performed. Conversely a "hot
nodule" is usually benign. Ultrasound can be used
to differentiate a "solid" nodule from a "cystic" structure.
- Multiple
thyroid lesions, which can be documented scintigraphically
or by ultrasound, are typically associated with a multinodular
gland/goiter, which is benign. This is seen scintigraphically
as multiple hot and cold nodules in an enlarged gland while
on ultrasound is seen as multiple solid lesions of varying
echogenicity (the brightness of the lesion) and size.
Adrenal
(Source:
Anderson and Wastie. Diagnostic Imaging. 3rd Edition.
Page 290.)
- Adrenal
masses are best demonstrated with computed tomography or
MRI. In Patients who are identified with biochemical evidence
for an adrenal lesion, CT or MRI can be used to localize
a tumor presurgically. Most functioning lesions are benign
adenomas whereas malignant lesions are usually non-functioning.
Tumors of the adrenal gland include adenomas (which can cause
Cushing's or Conn's disease) and pheochromocytomas. Larger
adrenal masses may be identified as well on ultrasonography
- Hyperplastic
conditions rather than actual tumors can cause both Cushing's
or Conn's disease as well. Hyperplasic adrenal glands are
either normal on CT or demonstrate bilateral uniform enlargement.
- Non-functioning
adrenal adenomas are relatively common. These frequently
present as an "incidental adrenal mass" on routine
abdominal imaging and pose a clinical dilemma in cancer patients,
as they must be differentiated from metastatic lesions. Certain
malignancies, such as bronchogenic carcinoma, have a tendancy
to metastasize to the adrenal glands.
Pituitary
(Source:
Anderson and Wastie. Diagnostic Imaging. 3rd Edition.
Page 405.)
- Both
CT or MRI examinations are used to evaluate the pituitary
for lesions. Those that are identified as macroadenomas
are lesions larger than 1cm. Microadenomas are lesions
that are less than 1cm in greatest size. See Pituitary imaging.
- Macroadenomas
typically demonstrate minimal hormone production. These patients
more typically present with visual symptomatology from
mass effect from the lesion effacing optic chiasm rather
than from physiological effects from hormone production.
- Microadenomas
commonly produce hormones. Functioning microadenomas can
cause elevation in any of the pituitary hormones. For example,
women presenting with the most common lesion, the prolactinoma,
typically present with galactorrhea.
Reproductive
(Source:
Anderson and Wastie. Diagnostic Imaging. 3rd Edition.
Pages 271-283.)
Ultrasonography
of the gravid uterus and fetus- Prenatal Screening
General
survey: Number of embryos or fetuses, placenta evaluation,
amniotic fluid volume measurement
- The
general survey of a gravid uterus, typically performed at
about 18 weeks, is used to evaluate important features
related to the pregnancy such as the number of embryos or
fetus', placenta location, and the amount of amniotic fluid.
- Measurements
of the gestational sac and fetus contribute to accurate dating.
The earlier in pregnancy that such measurements are performed,
the more accurate and reliable the dating however, the earlier
the gestation, the less well fetal anatomic structures are
demonstrated. Very early identification of an embryo, at
about 5 weeks, can be made with transvaginal imaging
if there is a suspicion for ectopic pregnancy. Ultrasound
can also be used in conjunction with a knowledge of HCG levels,
to in many cases exclude the presence of etopic pregnancy.
- Placenta
location and appearance is important in evaluation for placenta
previa (where the placenta covers the cervical and can cause
life-threatening maternal bleeding) or abruption (where retro
placental hemorrhage can contibute to fetal demise). The
relationship of the placenta to the cervix, can change as
a pregnancy proceeds. When placenta previa is
suspected, follow-up examination can be beneficial in confirming
a persistent relationship of the placenta to the cervical
canal.
- Amniotic
fluid quantification is important in that polyhydramnios
(too much fluid) is associated with maternal abnormalities
such as diabetes and various fetal anomalies. Oligohydramnios
(too little fluid) can be associated with fetal anomalies
and/or growth retardation. Tables are available that
relate measured fluid levels to gestational age.
Fetal
evaluation: Major and most common anomalies.
Neural
tube closure and defects- Meningocele, Myleomeningocele, Chiari
II malformations and Anencephaly
- Meningocele
is related to a neural tube closing defect and is also known
as spina bifida. A meningocele only contains fluid. The
myelomeningocele also contains neural tissue. They can be
associated with an elevated AFP (in the maternal serum and
amniotic fluid) and is a relatively common anomaly. There
is typically a defect of the spine at the level of the meningocele
or the Myleomenignocele, especially the lumbosacral region.
- Anencephaly,
also associated with an elevated AFP, can be easily diagnosed
at approximately the 12th week by absence of the
upper portions of the skull. This particular anomaly is not
compatible with life.
- The
Chiari II malformation is a myriad CNS abnormalities, the
most important finding of which is hydrocephalus. It is associated
with myelomeningocele.
Brain
anomalies, including hydrocephalus
- Abnormal
dilation of the ventricles of the brain is known as hydrocephalus
and can be demonstrated prenatally by ultrasound. Measurements
are taken at the level of the atrium of the lateral ventricles. Hydrocephalus
commonly accompanies spina bifida (as a part of the Chiari
II complex) as well as many other congenital anomalies.
Urinary
tract anomalies, including hydronephrosis, renal agenisis and
polycystic kidney disease
- Renal
abnormalities can contribute to decreased amniotic fluid
volume as most of the amniotic fluid is produced by the kidneys
in the form of fetal urine. Poorly functioning kidneys cause
oligohydramnios (decreased amniotic fluid).
- Congenitally,
kidneys may fail to develop (agenesis) or the kidney may
be a dysplastic and non-functioning with multiple cysts (multicystic
dysplasic kidney).
- Hydronephrosis
(dilated renal collecting system) can be seen when there
is renal obstruction. Tables are used to determine
acceptable size for the renal collecting system at differing
gestational ages.
Abdominal
wall defects, including omphalocele and gastroschisis
- Abdominal
wall defects, which are easily demonstrated sonographically,
include omphalocele and gastroschises. In these conditions
loops of bowel or liver herniate outside of the abdominal
cavity. In opmphalocele, the characteristic finding
is a midline lesion with the umbilical cord arising from
it's apex. Gastroschises is a defect of the anterior
abdominal wall lateral to the midline. Gastroschises
in general have a better prognosis than omphalocele.
Breast
Cancer Screening
(Source:
Anderson and Wastie. Diagnostic Imaging. 3rd Edition.
Pages 96-97.)
Mammography & Sonography
Epidemiology
of cancer detection
- Breast
cancer is the most frequent cancer in women and is diagnosed
in approximately 1 our of every 8 women during their lifetime.
- Screening
programs involve women from 40 years and up, depending on
the recommending agency. Screening is performed by mammography. Current
recommendations include annual mammograms for all women 40
years and up. If there is a strong family history of
breast cancer (mother or sister), mammographic screening
should start earlier.
- Ultrasound
is not a screening examination. The use of ultrasound
is restricted to diagnostic evaluations
- Survival
has been improved because of mammography by approximately
30%.
Characteristic
mammographic and sonographic findings in malignant lesions
- Mammography
uses low energy, low kilovoltage x-rays to best demonstrate
the soft tissues of the breast. These features accentuate
the subtle differences in attenuation between fat and solid
structures in the breast.
- Malignant
lesions are commonly seen as ill defined or spiculated
soft tissue lesions or irregular clustered calcifications
with/or without an associated soft tissue mass. Nodules
associated with malignant lesions tend to have very irregular
borders. Malignant calcifications will frequently
be small <1mm calcifications that take on the shape
of dots and dashes, or the letters, W, X, Y, Z.
Characteristic
mammographic and sonographic findings in benign lesions
- Benign
lesions on mammography tend to be spherical and well circumscribed.
They may contain calcification. These calcifications
are larger and courser in appearance than malignant
calcifications.
- Ultrasound
is helpful in evaluating breast masses in that it can unequivicolly
identify simple cysts, which are benign. The ultrasonographic
features of cysts must include, smooth margins, thin walls,
no internal echoes and good through transmission (brighter
echoes behind the cyst).
- Many
approaches can be taken to biopsy abnormalities identified
by mammogrpahy, palpation and ultrasonograpy. Needle
aspiration or core biopsy, can be guided by stereotactic
mammography, ultrasound or palpation of any above lesions
can be performed as an outpatient to facilitate diagnosis.
Rev 27 December
01
by Gerald
R. Aben, MD |
