It is time to explore the impact of length of gestation and fetal health on the human lifespan.
Zhuo YuYushan DongYuhan ChenLotfi AleyaYinhuan ZhaoLan YaoWeikuan GuPublished in: Aging cell (2024)
A recently proposed principal law of lifespan (PLOSP) proposes to extend the whole human lifespan by elongating different life stages. As the preborn stage of a human being, gestation is the foundation for the healthy development of the human body. The antagonistic pleiotropy (AP) theory of aging states that there is a trade-off between early life fitness and late-life mortality. The question is whether slower development during the gestation period would be associated with a longer lifespan. Among all living creatures, the length of the gestation period is highly positively correlated to the length of the lifespan, although such a correlation is thought to be influenced by the body sizes of different species. While examining the relationship between lifespan length and body size within the same species, dogs exhibit a negative correlation between lifespans and body sizes, while there is no such correlation among domestic cats. For humans, most adverse gestational environments shorten the period of gestation, and their impacts are long-term. While many issues remain unsolved, various developmental features have been linked to the conditions during the gestation period. Given that the length of human pregnancies can vary randomly by as long as 5 weeks, it is worth investigating whether a slow steady healthy gestation over a longer period will be related to a longer and healthier lifespan. This article discusses the potential benefits, negative impacts, and challenges of the relative elongation of the gestation period.
Keyphrases
- preterm infants
- endothelial cells
- gestational age
- induced pluripotent stem cells
- pluripotent stem cells
- pregnant women
- healthcare
- early life
- emergency department
- birth weight
- physical activity
- cardiovascular disease
- type diabetes
- mental health
- body mass index
- climate change
- transcription factor
- electronic health record
- pregnancy outcomes