The Power of Mouse Models in the Diagnostic Odyssey of Patients with Rare Congenital Anomalies

Stephen R. F. Twigg; Nicholas  Greene; Deborah Henderson; Pleasantine Mill; Karen Liu

The Power of Mouse Models in the Diagnostic Odyssey of Patients with Rare Congenital Anomalies

Stephen R. F. Twigg^*, Nicholas Greene, Deborah Henderson, Pleasantine Mill, Karen Liu^*

^*Corresponding author for this work

Centre for Craniofacial & Regenerative Biology

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

Abstract

Congenital anomalies are structural or functional abnormalities present at birth, which can be caused by genetic or environmental influences. The availability of genome sequencing has significantly increased our understanding of congenital anomalies, but linking variant identification to functional relevance and definitive diagnosis remains challenging. Many genes have unknown or poorly understood functions, and with a lack of clear genotype-to-phenotype correlations, it can be difficult to move from variant discovery to diagnosis. Thus, for most congenital anomalies, there still exists a “diagnostic odyssey” which presents a significant burden to patients, families and society. Animal models are essential in the gene discovery process because they allow researchers to validate candidate gene function and disease progression within intact organisms. However, use of advanced model systems continues to be limited due to the complexity of efficiently generating clinically relevant animals. Here we focus on the use of precisely engineered mice in variant-to-function studies for resolving molecular diagnoses and creating powerful preclinical models for congenital anomalies, covering advances in genomics, genome editing and phenotyping approaches as well as the necessity for future initiatives aligning animal modelling to deep patient multimodal datasets.

Original language	English
Journal	Mammalian Genome
Publication status	Accepted/In press - 13 Feb 2025

Keywords

congenital anomalies
genetics
genotype-to-phenotype correlation
variant of uncertain significance
molecular diagnosis
diagnostic odyssey

Cite this

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title = "The Power of Mouse Models in the Diagnostic Odyssey of Patients with Rare Congenital Anomalies",

abstract = "Congenital anomalies are structural or functional abnormalities present at birth, which can be caused by genetic or environmental influences. The availability of genome sequencing has significantly increased our understanding of congenital anomalies, but linking variant identification to functional relevance and definitive diagnosis remains challenging. Many genes have unknown or poorly understood functions, and with a lack of clear genotype-to-phenotype correlations, it can be difficult to move from variant discovery to diagnosis. Thus, for most congenital anomalies, there still exists a “diagnostic odyssey” which presents a significant burden to patients, families and society. Animal models are essential in the gene discovery process because they allow researchers to validate candidate gene function and disease progression within intact organisms. However, use of advanced model systems continues to be limited due to the complexity of efficiently generating clinically relevant animals. Here we focus on the use of precisely engineered mice in variant-to-function studies for resolving molecular diagnoses and creating powerful preclinical models for congenital anomalies, covering advances in genomics, genome editing and phenotyping approaches as well as the necessity for future initiatives aligning animal modelling to deep patient multimodal datasets.",

keywords = "congenital anomalies, genetics, genotype-to-phenotype correlation, variant of uncertain significance, molecular diagnosis, diagnostic odyssey",

author = "Twigg, {Stephen R. F.} and Nicholas Greene and Deborah Henderson and Pleasantine Mill and Karen Liu",

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language = "English",

journal = "Mammalian Genome",

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TY - JOUR

T1 - The Power of Mouse Models in the Diagnostic Odyssey of Patients with Rare Congenital Anomalies

AU - Twigg, Stephen R. F.

AU - Greene, Nicholas

AU - Henderson, Deborah

AU - Mill, Pleasantine

AU - Liu, Karen

PY - 2025/2/13

Y1 - 2025/2/13

N2 - Congenital anomalies are structural or functional abnormalities present at birth, which can be caused by genetic or environmental influences. The availability of genome sequencing has significantly increased our understanding of congenital anomalies, but linking variant identification to functional relevance and definitive diagnosis remains challenging. Many genes have unknown or poorly understood functions, and with a lack of clear genotype-to-phenotype correlations, it can be difficult to move from variant discovery to diagnosis. Thus, for most congenital anomalies, there still exists a “diagnostic odyssey” which presents a significant burden to patients, families and society. Animal models are essential in the gene discovery process because they allow researchers to validate candidate gene function and disease progression within intact organisms. However, use of advanced model systems continues to be limited due to the complexity of efficiently generating clinically relevant animals. Here we focus on the use of precisely engineered mice in variant-to-function studies for resolving molecular diagnoses and creating powerful preclinical models for congenital anomalies, covering advances in genomics, genome editing and phenotyping approaches as well as the necessity for future initiatives aligning animal modelling to deep patient multimodal datasets.

AB - Congenital anomalies are structural or functional abnormalities present at birth, which can be caused by genetic or environmental influences. The availability of genome sequencing has significantly increased our understanding of congenital anomalies, but linking variant identification to functional relevance and definitive diagnosis remains challenging. Many genes have unknown or poorly understood functions, and with a lack of clear genotype-to-phenotype correlations, it can be difficult to move from variant discovery to diagnosis. Thus, for most congenital anomalies, there still exists a “diagnostic odyssey” which presents a significant burden to patients, families and society. Animal models are essential in the gene discovery process because they allow researchers to validate candidate gene function and disease progression within intact organisms. However, use of advanced model systems continues to be limited due to the complexity of efficiently generating clinically relevant animals. Here we focus on the use of precisely engineered mice in variant-to-function studies for resolving molecular diagnoses and creating powerful preclinical models for congenital anomalies, covering advances in genomics, genome editing and phenotyping approaches as well as the necessity for future initiatives aligning animal modelling to deep patient multimodal datasets.

KW - congenital anomalies

KW - genetics

KW - genotype-to-phenotype correlation

KW - variant of uncertain significance

KW - molecular diagnosis

KW - diagnostic odyssey

M3 - Review article

SN - 0938-8990

JO - Mammalian Genome

JF - Mammalian Genome

ER -

The Power of Mouse Models in the Diagnostic Odyssey of Patients with Rare Congenital Anomalies

Abstract

Keywords

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