Preventing common hereditary disorders through time-separated twinning

TL;DR

This paper proposes a novel strategy called time-separated twinning, involving artificial twinning and cryopreservation, to reduce the incidence of hereditary disorders and mitigate genetic load in humans.

Contribution

It introduces a new approach using artificial twinning and genetic screening to prevent hereditary diseases and address genetic load accumulation.

Findings

Potential to significantly reduce hereditary disorder incidence.

Provides a method for creating isogenic embryonic stem cells.

Could alleviate genetic suffering and social impacts.

Abstract

Biomedical advances have led to a relaxation of natural selection in the human population in developed countries. In the absence of strong purifying selection, spontaneous and frequently deleterious mutations tend to accumulate in the human genome and gradually increase the genetic load; that is, the frequency of potentially lethal genes in the gene pool. Gradual increase in incidence of many hereditary disorders suggests deleterious impact of the genetic load on human well being. Many complex diseases such as type 1 and 2 diabetes, autism, bipolar disorder, allergies, Alzheimer disease, and some cancers show significantly higher concordance in monozygotic (MZ) twins than in dizygotic twins (DZ) or parent-child pairs, suggesting their etiology is strongly influenced by genetics. Preventing these diseases based on genetic data alone is frequently impossible. We hypothesize that the incidence of complex diseases could be significantly reduced in the future through a strategy based on time-separated twinning. This strategy involves the collection and fertilization of human oocytes followed by several rounds of artificial twinning. If preimplantation genetic screening (PGS) reports no aneuploidy or known Mendelian disorders, one of the MZ siblings would be implanted and the remaining embryos cryoconserved. Once the health of the adult MZ sibling(s) is established, subsequent parenthood with the cryoconserved twins could substantially lower the incidence of hereditary disorders with Mendelian or complex etiology. The proposed method of artificial twinning has the potential to alleviate suffering and reduce the negative social impact induced by dysgenic effects associated with known and unknown genetic factors. Time-separated twinning has the capacity to prevent further accumulation of the genetic load and to provide source of isogenic embryonic stem cells for future regenerative therapies.