PGD/PGS/PGT-A

PGD/PGS/PGT-A: A Boon for Couples with Genetic Concerns

What is Pre-Implantation Genetic Testing (PGT)?

Many couples undergoing IVF face genetic challenges. Pre-Implantation Genetic Testing (PGT) offers a proactive solution to identify genetic issues in embryos before implantation, helping ensure a healthier pregnancy and baby.

PGT includes three key types:

• PGD (Preimplantation Genetic Diagnosis) – Detects specific inherited diseases.
• PGS (Preimplantation Genetic Screening) – Screens for chromosomal abnormalities.
• PGT-A (Preimplantation Genetic Testing for Aneuploidy) – A modern form of PGS with enhanced accuracy.

Though sometimes used interchangeably, each serves a unique purpose and is recommended based on individual medical history.

Why Consider PGD/PGS/PGT-A?

Preimplantation Genetic Testing is performed during an IVF cycle to:

• Identify embryos with chromosomal or genetic abnormalities.
• Increase the chances of a healthy pregnancy and live birth.
• Prevent the transmission of inherited disorders, especially for couples with a known family history.

PGD is ideal for:

Couples at risk of passing on serious single-gene disorders (like cystic fibrosis, thalassemia, Huntington’s disease).

PGS/PGT-A is useful for:

• Women of advanced maternal age.
• Cases of recurrent miscarriage.
• Severe male factor infertility.
• Couples experiencing repeated IVF failure.

Note: PGT is not used for sex selection and should only be considered after a thorough medical consultation.

Uses of PGD/PGS/PGT-A

PGT helps identify and select genetically normal embryos before transfer, which can:

• Improve implantation success.
• Reduce the risk of miscarriage.
• Prevent hereditary diseases.
• Aid in family planning for couples with a history of genetic abnormalities.

PGT is especially beneficial when:

• A couple has experienced repeated IVF failure.
• There is a history of early miscarriage.
• Either partner carries a known genetic mutation.
• There is a need to create a savior sibling to treat an existing child with a genetic condition.

PGT-A vs PGT-M: What’s the Difference?

• PGT-A checks for aneuploidy – abnormal number of chromosomes.
• PGT-M (Monogenic) detects specific gene mutations associated with hereditary diseases.

Examples:

• PGT-A helps avoid chromosomal disorders like Down syndrome (extra chromosome 21) or Turner syndrome (missing X chromosome).
• PGT-M helps prevent single-gene disorders like sickle cell anemia or Tay-Sachs disease.

Preimplantation Genetic Testing Process

• Consultation: Your fertility expert evaluates your medical history and discusses testing options.
• Ovarian Stimulation: Hormonal medications are given to stimulate egg production.
• Egg Retrieval & Fertilization: Eggs are collected and fertilized in the lab.
• Embryo Culture: Embryos are grown to the blastocyst stage (usually Day 5 or 6).
• Embryo Biopsy: A few cells are extracted from each embryo without harming it.
• Genetic Testing: The biopsied cells are screened for abnormalities.
• Embryo Transfer: Only healthy embryos are selected and transferred to the uterus.

Benefits of PGT-A

• Improves Pregnancy Success
• Reduces Risk of Miscarriage
• Helps Avoid Multiple Pregnancy
• Minimizes Risk of Genetic Disorders
• Saves Time & Costs in IVF Cycles