Placenta

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The placenta feeds the developing baby, breathes for it and disposes of its waste.

Clinical

Examination of the placenta

  • Most placentas are not examined by a pathologist.

Indications for exam by a pathologist:

  • Abnormalities in the:
    1. Fetus:
      • Bad fetal outcome.
      • Suspected or known congenital abnormalities or chromosomal abnormalities.
    2. Mother:
      • Infection/suspected infection.
      • Pre-term labour.
      • Maternal disease (e.g. SLE, coagulopathy).
      • Complicated pregnancy (preclampsia, pregnancy induced hypertension, gestational diabetes).
    3. Placenta:
      • Unusual gross characteristics.[1]

Bleeding in late pregnancy

DDx of bleeding in late pregnancy:

  • Placental abruption (most common).
  • Placenta previa.
  • Vasa previa (fetus losing blood).

Clinical screening tests

  • PAPP-A - low values seen in aneuploidy.[2]

Normal histology

Amnion

General:

  • Next to fetus, surrounds amniotic fluid, avascular.

Characteristics:

  • Characterized by a single layer of cells.[3]
    • Cuboidal/squamoid shape.
    • Eosinophilic cytoplasm.
    • Central nucleus.
  • Squamous metaplasia may be seen at cord insertion.
  • Basement membrane.
  • 'Compact layer'.[3]
  • 'Fibroblastic layer'.[3]

Chorion

General:

  • Surrounds amnion.

Characteristics:

  • Layers:[4]
    • 'Reticular layer' - cellular (inner aspect).
    • 'Pseudo-basemement membrane'.
    • 'Outer trophoblastic layer'.
  • Has blood vessels.
  • Opposed to "trophoblastic X cells" on side opposite of amnion.[3]
    • Beneath of the "trophoblastic X cells" is decidua (mnemonic NEW = nucleus central, eosinophilic, well-defined cell border), which is maternal tissue.

Common terms

  • Chorionic plate - fetal aspect of placenta.
  • Basal plate - maternal aspect of placenta.
    • Has extravillous trophoblast.
    • Place to look for maternal vessels.

Grossing

This is often very quick. The gross is quite important, as some things cannot be diagnosed microscopically.

General

  • Dimensions:
    • Disc.
    • Length of cord, diameter of cord.
  • Mass (weight) -- should be done 'trimmed' (cord cut-off, membrane cut-off).
  • Umbilical cord
    • Attachment.
      • Location: central, eccentric, marginal.
        • Marginal attachment assoc. with hypertension[5]
      • Membranous or velamentous (veil-like) insertion.
        • Vessels separate/branch prior to reaching placental disc.
      • Furcate insertion - vessel run on fetal surface (more exposed to trauma).
    • Knots (false vs. true).
      • False knots are nothing to worry about -- look like a knot but aren't really one.
    • Twisting/coiling.
    • Number of vessels.
      • Normal: 2 arteries, 1 vein.
  • Membranes - shiny, thin, translucent
    • Attachment: marginal (normal), circummarginate (inside edge), circumvallated (folding on self).
  • Placental disc.
    • Fetal surface - normal is shinny (dull in chorioamnionitis).
    • Maternal surface - are the cotyledons intact?

Sections

  • Cord two sections.
  • Cord at insertion.
  • Membranes (rolled).
  • Placenta - full thickness (maternal and fetal surface).

Placental membranes

Appearance:[6]

  • Normal - shiny.
  • Choriomnionitis - opaque/dull.
  • Meconium - green.
  • Amnion nodosum - yellow patches.

Placental mass

Placental mass by gestational age:[7]

Gest. Age/Percentile 25% 50% 75%
32 weeks 275 g 318 g 377 g
36 weeks 369 g 440 g 508 g
40 weeks 440 g 501 g 572 g

Linear regression - placental mass-gestational age

Based on the table in the AFIP book[8] I generated the following regression lines:

50% 10% 90%
slope (g/week) 21.58088235 19.70588235 25.40196078
y-intercept (g) -357.4558824 -397.2352941 -366.7254902
Pearson (r) 0.988670724 0.988268672 0.982206408

placental mass = slope x gestational age + intercept

What to remember...

Extrapolated from the linear regression (see above):

  • 50% at term = 500 grams.
  • 50% at 26 weeks = 200 grams.
  • The change in mass/week is approximately linear and equal to 300 grams / 14 weeks ~ 20 grams/week.
  • The spread in mass between 10% and 90%, crudely estimated, is 200 grams (for GA=26-40).

Overview of placental pathology

Approach

The pathology of the placenta is diverse and is not easy to group.

It terms of remembering things. It is probably easiest to take a combined anatomical, etiologic and morphologic approach.

Anatomical basis:

  • Cord.
  • Membranes.
  • Disc.

Etiologic:

  • Congential.
  • Infectious.
  • Neoplastic.
  • Endocrine.
  • Trauma.
  • Vascular.
  • Degenerative.
  • Autoimmune.
  • Toxic.
  • Idiopathic.

Compartmental:

  • Vasculature.
  • Membranes.
  • Parenchyma:
    • Maternal part (decidua).
    • Fetal part (villi, cord).

Common entities/diagnoses

  • Normal.
  • Chorioamnionitis.
  • Placental abruption.
  • Meconium.
  • Hypertensive changes.

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What should be commented on...

  • Placenta:
    • Maturity of villi (2nd or 3rd trimester).
    • Infarction?
      • Subchorionic less important than maternal aspect.
      • Peripheral aspect of placental disc less important than central region of disc.
    • Blood vessels.
      • Maternal.
      • Fetal.
  • Membranes.
    • Membranitis?
    • Chorioamnionitis?
  • Cord:
    • 3 vessel?
    • Vasculitis/inflammation?

Mnemonic: chorio, cord, vessels, villi (maturity, infarction).

Cord pathology

  • Two vessel cord.
  • Hypercoiling.
  • Abnormal insertion.
  • Cord knots (true vs. false).
  • Strictures.
  • Hematoma.

Two vessel cord

  • AKA single umbilical artery.
  • Associated with congenital abnormalities, esp. cardiac - key point.[9]
    • Thought to be an acquired defect (as prevalence is lower in early in gestation).
  • May be seen in association of other cord abnormalities (e.g. marginal insertion, velamentous insertion).

Image:

Insertion

Marginal insertion

Definition:

  • The umbilical cord is attached to the placental disc at its margin.

Prevalence:

  • Approximately 12% of placentas.[9]

Relevance:

  • None according to WMSP.[9]
    • In theory, the cord, dependent on its relation to the internal os, is at greater risk of injury (leading to vasa previa) and compression (fetal hypoxia). A retrospective study found cord position in relation to the internal os is predictive for vasa previa.[11]

Velamentous insertion

Definition:

  • The umbilical cord inserts into the fetal membranes.[9]
    • The vessels are not protected by Wharton's jelly.
      • Wharton's jelly = the connective tissue surrounding the vessels in the cord.

Details:[9]

  • 3/4 of the time the vessel also branch; in the remaining 1/4 the vessels stay together.

Relevance:

  • Increased risk of vasa previa.[11]

Knots

General

  • Prevalence ~1.25%.[12][13]
  • Increase risk of stillbirth; odds ratio 3.93.[12]

Gross

Work-up:[13]

  • Diameter measures and colour on both sides of the knot.
  • Knot should be untied to assess for deformation of Wharton's jelly.
  • Sections from both sides of the knot - to look for thrombi.

Note:

  • False knots (large diameter - focally) are common - they cannot be untied.

Microscopic

Features:

  • +/-Thrombi.
    • Fibrin deposition.
  • +/-Lines of Zahn.

Images:

Coiling

  • There is little uniformity in how coiling is assessed in the medical literature - though 10% and 90% are considered the cut-points for normal.[14]
    • What are the 10% and 90% cut-points? They are not given in WMSP. UT access to a journal article[15] that might have it is screwed-up.
  • Hypo- and hypercoiling are both considered problematic.[9]
  • Associated with cord stricture, which is usu. at the fetal end of the cord.[16]

Cord hematoma

Features:[16]

  • Rare ~ 1/5500.
  • Mortality ~50% is severe.

Image: Hematoma (flylib.com).[17]

Membranes

  • Squamous metaplasia.
  • Chorioamnionitis - see infection section.

Amnion nodosum

  • AKA squamous metaplasia of amnion.[18]

General

  • Associated with (long-standing) oligohydramnios.[19]

Gross

  • Yellow patch or yellow nodules.

Image: Amnion nodosum (webpathology.com).

Microscopic

Features:

  • Simple epithelium of amnion replaced by (non-keratinizing) stratified squamous epithelium.

Image: Amnion nodosum (webpathology.com).

Passage of meconium

General

  • Associated with fetal distress.

Gross

  • Green/green discolourization.

Microscopy

Features:[20]

  • Macrophages with brown fine granular pigment.
  • Columnar morphology (normally cuboidal).
  • "Drop-out" of individual cell -- the loss of individual cells.

Level of staining and time:[21]

  • <1 h - no staining of membranes.
  • 1-3 h - amnion is stained.
  • >3 h - chorion is stained.

DDx:

  • Hemosiderin-laden macrophages.

Images:

Special stains

  • Hemosiderin +ve in hemosiderin-laden macrophages.
  • PAS +ve in meconium-laden macrophages.[22]

Useful to differentiate hemosiderin-laden macrophages and meconium laden macrophages:

  • Hemosiderin stain -- +ve for old blood.
    • Prussian-blue stain = hemosiderin stain.[23]
  • PAS-D -- +ve in chorioamnionitis???

Note:

  • Meconium contains bile.[24]

Squamous metaplasia

  • Benign common finding - no clinical significance.[25]

Image:

Twin placentas

These are often submitted... even if they are normal.

General

No membrane between fetuses.

  • Split at approx. 7th day.

Diamnionic-monochorionic (DiMo)

  • No interposed chorion.[27]
  • Always monozygotic.
  • Highest risk of TTTS (twin-to-twin transfusion syndrome).

Diamnionic-dichorionic (DiDi)

  • Most dizygotic (70%), may be monozygotic (30%).
  • If monozygotic -- split before 3 days.

Twin-to-twin transfusion syndrome

General

  • Abbreviated as TTTS.

Definition:

  • Monozygotic twins that share a placental disc, have vessels which cross-over between the twins that lead to a blood imbalance between the two twins.
    • Only seen in monozygotic twins.
    • Vascular connection may be vein-to-vein, artery-to-vein, artery-to-artery (uncommon).[28]

Prevalence:

  • Seen in ~15% of monozygotic twins.[28]

Clinical:

  • Donor:
    • Twin: hypovolemic, oliguric, oligohydramnic, +/- anemia, +/-hypoglycemia, +/- small pale organs.
    • Placental disc: large, pale.
  • Recipient:
    • Twin: hypervolemia, polyuria, polyhydramnios, +/- hydrops fetalis, +/- CHF, hemolytic janundice, +/- large congested organs.
    • Placental disc: small, firm, congested.

Gross

  • Large vessels that connect the two umbilical cords.

Microscopic

Features:[29]

  • Artery-to-vein anatomosis - where artery and vein are associated with different umbilical cords.
  • Donor twin side of placenta:
    • Edematous villi.
    • Increased nucleated RBCs.
  • Recipient twin side of placenta:
    • Congested.

Diseases of the placental attachment

Placenta acreta/percreta/increta

Placenta attaches to the uterus deeper than it should.

Placental abruption

General

Classic clinical manifestations:[30]

  • Vaginal bleeding (~70%).
  • Abdominal pain (~50%).
  • Fetal heart rate abnormalities (~70%).

Pathologic findings

Features:

  • Gross pathology: depression on maternal side, large blood clot.
    • Central haemorrhage is the most worrisome.

Note:

  • There are no good microscopic findings for placental abruption.

Infection

General[31]

  • Infection usually ascending, i.e. from vagina up through cervix.
    • Assoc. with intercourse.
  • Hematogenous rare - manifest as villitis.
    • Think TORCH infections (toxoplasmosis, others (syphilis, TB, listeriosis), rubella, cytomegalovirus, herpes simplex virus).
  • Funisitis usually follows chorioamnionitis.
    • Inflammatory cells in umbilical cord are fetal (trivia).

Types (by site)[31]

  • Fetal membranes: chorioamnionitis, membranitis.[32]
  • Umbilical cord: funisitis.
  • Placenta: placentitis, villitis.

Grading infection (chorioamnionitis, membranitis, funisitis)

Membranitis:[32]

  1. PMNs - decidua only.
  2. PMNs - in subamniotic tissue.
  3. 1 or 2 + necrosis in decidua or chorion/subamniotic tissue.

Chorioamnionitis:[32]

  1. placental chorionic plate only.
  2. 1 + subamniotic tissue.
  3. 1 or 2 + necrosis or abscess.

Sternberg separates vasculitis and funisitis without really explaining the terms[32] -- I presume: vasculitis = inflammation of vessels in the umbilical cord. funisitis = inflammation of the cord (vessels and Wharton jelly).

Umbilical cord vasculitis:[32]

  • +0.5 for each vessel.
  • +0.5 for each vessel with severe involvement.

Umbilical funisitis:[32]

  1. focal inflammation.
  2. diffuse inflammation.
  3. necrosis - in vessels or Wharton jelly.

Note: There is no such thing as chorionitis.[33]

Villitis of unknown etiology

  • Abbreviated VUE.

General

Features:[34]

  • Usu. term placenta.
  • Prevalence: 5% to 15% of all placentas.
  • Associated with:
    • Intrauterine growth restriction.
    • Recurrent reproductive loss.

Microscopic

Features:[34]

  • Maternal T-lymphocytes (mostly CD8-positive) in villous stroma.
  • +/-Intervillositis (lymphocytes between villi).

Images:

Infarction

True infarcts

General

  • Associated with retroplacental hematoma.

Gross

Features:[16]

  • Early - red.
  • Late - white/grey.

Images:

Microscopic

Features:

  1. Necrosis of villi; hyaline material (acellular eosinophilic material) replaces the stroma of the villi.
  2. Loss of intervillous space.[16]
    • Villi appear to be crowded.[37]
      • Normal spacing is ~1x smallest villus or larger.
  3. Prominent syncytial knots.
  4. Thickened trophoblastic basement membrance (below cytotrophoblasts).
  5. +/-Changes seen in decidual vasculopathy:
    • Acute atherosis (vaguely like atherosclerosis).
      • Fibrioid necrosis.
      • Vessel wall lipid deposition.

Images:

Significant infarcts

  • > 3cm --or-- central location --or-- in 1st or 2nd trimester.
    • Small foci are accepted in term placentae - typically at periphery.

Perivillous fibrin deposition

  • Massive perivillous fibrin deposition is assoc. with anti-phospholipid antibody (APLA) syndrome.[39]
    • APLA is assoc. with recurrent miscarriage - can be treated with heparin + ASA.[39]
  • Thought to be an immunologic problem - resulting in platelet activation and fibrin deposition.[39]

Gross

  • Pale (white).
  • Firm.
  • White fibrous sepatae.

Microscopy

  • Acellular eosinophilic material around formed villi.
    • Obliteration of intervillous space.

Fetal disease

Fetal thrombotic vasculopathy

General

  • May cause IUGR.
  • Associated with cerebral palsy and common in perinatal deaths.[40]

Microscopic

Features:

  • Thrombus in the fetal vasculature +/- recanalization.
    • Eosinophilic (light pink on H&E), moderately granular intravascular material (fibrin) with layering.

Images:

Hemorrhagic endovasculitis

  • Abbreviated HEV.

General

  • Associated with stillbirth.[43]

Microscopic

Features:[44]

  • Walls of the (fetal) placental blood vessels (in the villi) are disrupted.
  • +/-Intraluminal necrotic debris.
  • RBC fragmentation.

Maternal disease

Hypertensive changes

Features:[45]

  • Enlarged endothelial cells - fetal capillaries.
  • Atherosis of the spiral arteries - placental bed (maternal).

Associated changes:[45]

  • Placental infarcts.
  • Increased syncytial knots.
  • Hypovascularity of the villi.
  • Cytotrophoblastic proliferation.
  • Thickening of the trophoblastic basement membrane.

Hypertrophic decidual vasculopathy

Features:[46]

  • Mild or moderate:
    1. Perivascular inflammatory cells.
    2. +/-Vascular thrombosis.
    3. Smooth muscle hypertrophy.
    4. Endothelial hyperplasia.
      • Above two lead to narrowing of the decidual spiral arteries[47] -- key feature.
  • Severe:[46]
    1. Atherosis of maternal blood vessels.
      • Foamy macrophages within vascular wall.
    2. Fibrinoid necrosis of vessel wall (amorphous eosinophilic material vessel wall).

General:

  • Seen in intrauterine growth restriction (IUGR).

Images:

HELLP syndrome

General

  • Diagnosed clinically.
  • Pathologically not the same as severe preclampsia.[48]

Definition:

  • H = hemolysis.
  • EL = elevated liver enzymes.
  • LP = low platelets.

Microscopic

Features:[49]

  • Thrombotic microangiopathic vasculopathy.
    • In essence: severe hypertrophic decidual vasculopathy. (???)

Tumours

Chorangioma

General

Epidemiology

  • Often benign.
  • May be association with:
    • Fetal maternal haemorrhage.
    • Hydrops.
    • IUGR.

Microscopy

Features:

  • Mass of capillaries.

Image:

See also

References

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  4. Sternberg, Stephen S. (1997). Histology for Pathologists (2nd ed.). Lippincott Williams & Wilkins. pp. 977. ISBN 978-0397517183.
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External links