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Development of twins

Development of twins


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High Yield Notes
12 pages

Development of twins

12 flashcards

USMLE® Step 1 style questions USMLE

1 questions

A 30-year-old woman, gravida 1, para 0, comes to the office for her first prenatal visit after a positive home pregnancy test. An obstetrical ultrasound reveals twins, a male, and a female, at 14 weeks gestation. Which of the following best describes the placenta in this patient?  

External References

Content Reviewers:

Rishi Desai, MD, MPH


Tanner Marshall, MS

In most pregnancies a single embryo develops in the uterus, but in some cases, two embryos develop together. These are called twins.

Most twins are fraternal or dizygotic twins, meaning that they originate from two separate eggs that are fertilized individually.

A minority are identical or monozygotic twins, meaning that they originate from a single zygote that quickly splits into two separate groups of cells.

Fraternal twins are from two separate eggs that are fertilized by different sperm, so they have completely separate genetic makeups.

They don’t look any more or less alike than regular siblings, although the resemblance can still be very close—you may be surprised to learn that Mary-Kate and Ashley Olsen, for example, are fraternal twins, not identical twins.

Fraternal twinning occurs at a rate of about 10 per 1000 births worldwide.

Most of the time, fraternal twinning happens when the ovaries release two eggs simultaneously, which is called hyperovulation, instead of releasing one egg at a time.

Research suggests that some mothers of fraternal twins may produce an overabundance of a hormone called follicle-stimulating hormone, or FSH, which stimulates the growth of ovarian follicles.

People who become pregnant with fraternal twins tend to be taller and heavier on average, with shorter, more frequent menstrual cycles, all of which are characteristic of having high levels of follicle-stimulating hormone.

Because follicle-stimulating hormone levels gradually rise with age, fraternal twin pregnancies become increasingly likely in people aged 35 or older, and this also helps explain why parents who have given birth to fraternal twins once are more likely to do so again.

The likelihood of having fraternal twins resulting from hyperovulation is thought to have a genetic component, but no specific gene has been identified yet.

Identical twins are less common than fraternal twins, occurring at a rate of about 4 per 1000 births worldwide.

Identical twins come from a single zygote splitting to form two separate embryos with identical genetic material.

The split can happen at any time during the first thirteen days of development, and how and when this division occurs affects how the identical twins share space and resources in the uterus.

Because identical twins have identical DNA, they share many physical traits that have a strong genetic basis, like biological sex, hair and eye color, blood type, and other physical features.


Twins refer to two offspring developed by the same pregnancy. They can either be fraternal or identical twins. Fraternal or dizygotic twins develop when two separate eggs are released at the same time during ovulation; each gets fertilized by its own sperm, growing into a different zygote. On the other hand, identical twins or monozygotic twins develop from a single zygote that splits into two separate embryos into the early stages of development, usually during the first thirteen days of development.

Twins are referred to as monochorionic-monoamniotic (mono-mono) when they share one placenta and one amniotic sac; dichorionic-diamniotic (di-di) when each one has its own placenta and its own amniotic membrane; and monochorionic-diamniotic (mono-di) when they share one placenta but with separate amniotic sacs.