Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal blood

Lone Sunde; Ripudaman Singh; Katarina Ravn; Palle Schelde; Estrid Staehr Hansen; Niels Uldbjerg; Isa Niemann; Lotte Hatt

doi:10.1002/mgg3.1565

Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal blood

Lone Sunde^*, Ripudaman Singh, Katarina Ravn, Palle Schelde, Estrid Staehr Hansen, Niels Uldbjerg, Isa Niemann, Lotte Hatt

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

BACKGROUND: In gestational trophoblastic disease, the prognosis is related to the genetic constitution. In some cases, taking a biopsy is contraindicated.

METHODS: In a pregnant woman, ultrasound scanning suggested hydatidiform mole. To explore if the genetic constitution can be established without taking a biopsy (or terminating the pregnancy), cell-free DNA and circulating gestational trophoblasts were isolated from maternal blood before evacuation of the uterus. The evacuated tissue showed the morphology of a complete hydatidiform mole. Without prior whole-genome amplification, short tandem repeat analysis of 24 DNA markers was performed on the samples, and on DNA isolated from evacuated tissue, and from the blood of the patient and her partner.

RESULTS: Identical genetic results were obtained in each of three circulating gestational trophoblasts and the evacuated tissue, showing that this conceptus had a diploid androgenetic nuclear genome. In contrast, analysis of cell-free DNA was less informative and less specific due to the inherent presence of cell-free DNA from the patient.

CONCLUSION: Our results show that it is possible to isolate and analyze circulating gestational trophoblasts originating in a pregnancy without maternal nuclear genome. For diagnosing gestational trophoblastic diseases, genotyping circulating gestational trophoblasts appears to be superior to analysis of cell-free DNA.

Original language	English
Article number	e1565
Journal	Molecular Genetics & Genomic Medicine
Volume	9
Issue number	1
Number of pages	7
ISSN	2324-9269
DOIs	https://doi.org/10.1002/mgg3.1565
Publication status	Published - Jan 2021

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Sunde et al (2021) Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal bloodFinal published version, 830 KBLicence: CC BY-NC 4.0

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title = "Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal blood",

abstract = "BACKGROUND: In gestational trophoblastic disease, the prognosis is related to the genetic constitution. In some cases, taking a biopsy is contraindicated.METHODS: In a pregnant woman, ultrasound scanning suggested hydatidiform mole. To explore if the genetic constitution can be established without taking a biopsy (or terminating the pregnancy), cell-free DNA and circulating gestational trophoblasts were isolated from maternal blood before evacuation of the uterus. The evacuated tissue showed the morphology of a complete hydatidiform mole. Without prior whole-genome amplification, short tandem repeat analysis of 24 DNA markers was performed on the samples, and on DNA isolated from evacuated tissue, and from the blood of the patient and her partner.RESULTS: Identical genetic results were obtained in each of three circulating gestational trophoblasts and the evacuated tissue, showing that this conceptus had a diploid androgenetic nuclear genome. In contrast, analysis of cell-free DNA was less informative and less specific due to the inherent presence of cell-free DNA from the patient.CONCLUSION: Our results show that it is possible to isolate and analyze circulating gestational trophoblasts originating in a pregnancy without maternal nuclear genome. For diagnosing gestational trophoblastic diseases, genotyping circulating gestational trophoblasts appears to be superior to analysis of cell-free DNA.",

author = "Lone Sunde and Ripudaman Singh and Katarina Ravn and Palle Schelde and Hansen, {Estrid Staehr} and Niels Uldbjerg and Isa Niemann and Lotte Hatt",

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doi = "10.1002/mgg3.1565",

language = "English",

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T1 - Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal blood

AU - Sunde, Lone

AU - Singh, Ripudaman

AU - Ravn, Katarina

AU - Schelde, Palle

AU - Hansen, Estrid Staehr

AU - Uldbjerg, Niels

AU - Niemann, Isa

AU - Hatt, Lotte

PY - 2021/1

Y1 - 2021/1

N2 - BACKGROUND: In gestational trophoblastic disease, the prognosis is related to the genetic constitution. In some cases, taking a biopsy is contraindicated.METHODS: In a pregnant woman, ultrasound scanning suggested hydatidiform mole. To explore if the genetic constitution can be established without taking a biopsy (or terminating the pregnancy), cell-free DNA and circulating gestational trophoblasts were isolated from maternal blood before evacuation of the uterus. The evacuated tissue showed the morphology of a complete hydatidiform mole. Without prior whole-genome amplification, short tandem repeat analysis of 24 DNA markers was performed on the samples, and on DNA isolated from evacuated tissue, and from the blood of the patient and her partner.RESULTS: Identical genetic results were obtained in each of three circulating gestational trophoblasts and the evacuated tissue, showing that this conceptus had a diploid androgenetic nuclear genome. In contrast, analysis of cell-free DNA was less informative and less specific due to the inherent presence of cell-free DNA from the patient.CONCLUSION: Our results show that it is possible to isolate and analyze circulating gestational trophoblasts originating in a pregnancy without maternal nuclear genome. For diagnosing gestational trophoblastic diseases, genotyping circulating gestational trophoblasts appears to be superior to analysis of cell-free DNA.

AB - BACKGROUND: In gestational trophoblastic disease, the prognosis is related to the genetic constitution. In some cases, taking a biopsy is contraindicated.METHODS: In a pregnant woman, ultrasound scanning suggested hydatidiform mole. To explore if the genetic constitution can be established without taking a biopsy (or terminating the pregnancy), cell-free DNA and circulating gestational trophoblasts were isolated from maternal blood before evacuation of the uterus. The evacuated tissue showed the morphology of a complete hydatidiform mole. Without prior whole-genome amplification, short tandem repeat analysis of 24 DNA markers was performed on the samples, and on DNA isolated from evacuated tissue, and from the blood of the patient and her partner.RESULTS: Identical genetic results were obtained in each of three circulating gestational trophoblasts and the evacuated tissue, showing that this conceptus had a diploid androgenetic nuclear genome. In contrast, analysis of cell-free DNA was less informative and less specific due to the inherent presence of cell-free DNA from the patient.CONCLUSION: Our results show that it is possible to isolate and analyze circulating gestational trophoblasts originating in a pregnancy without maternal nuclear genome. For diagnosing gestational trophoblastic diseases, genotyping circulating gestational trophoblasts appears to be superior to analysis of cell-free DNA.

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DO - 10.1002/mgg3.1565

M3 - Journal article

C2 - 33306861

SN - 2324-9269

VL - 9

JO - Molecular Genetics & Genomic Medicine

JF - Molecular Genetics & Genomic Medicine

IS - 1

M1 - e1565

ER -

Hydatidiform mole diagnostics using circulating gestational trophoblasts isolated from maternal blood

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