Genetics of Chronic Kidney Disease in Low-Resource Settings

Overview

Journal Semin Nephrol

Specialty Nephrology

Date 2023 Feb 21

PMID 36801667

Authors

Titilayo Ilori

Andreia Watanabe

Kar-Hui Ng

Adaobi Solarin

Aditi Sinha

Rasheed Gbadegesin

Affiliations

Soon will be listed here.

Abstract

Advances in kidney genomics in the past 20 years has opened the door for more precise diagnosis of kidney disease and identification of new and specific therapeutic agents. Despite these advances, an imbalance exists between low-resource and affluent regions of the world. Individuals of European ancestry from the United States, United Kingdom, and Iceland account for 16% of the world's population, but represent more than 80% of all genome-wide association studies. South Asia, Southeast Asia, Latin America, and Africa together account for 57% of the world population but less than 5% of genome-wide association studies. Implications of this difference include limitations in new variant discovery, inaccurate interpretation of the effect of genetic variants in non-European populations, and unequal access to genomic testing and novel therapies in resource-poor regions. It also further introduces ethical, legal, and social pitfalls, and ultimately may propagate global health inequities. Ongoing efforts to reduce the imbalance in low-resource regions include funding and capacity building, population-based genome sequencing, population-based genome registries, and genetic research networks. More funding, training, and capacity building for infrastructure and expertise is needed in resource-poor regions. Focusing on this will ensure multiple-fold returns on investments in genomic research and technology.

Citing Articles

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Identification of GTF2I Polymorphisms as Potential Biomarkers for CKD in the Han Chinese Population : Multicentric Collaborative Cross-Sectional Cohort Study.

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