Rodent Breathing Waveforms in ApoE Rats: Statistical and Entropic Differentiation

TL;DR

This study analyzes how different ApoE genotypes in rats affect breathing patterns and entropy measures, revealing significant differences and the impact of sighs on respiratory metrics during active and resting states.

Contribution

It is the first to compare breathing waveform characteristics and entropy statistics between ApoE genotypes in rats, highlighting genetic influences on respiratory function.

Findings

Significant differences in plethysmography metrics between genotypes

Distinct entropy patterns observed during active and resting states

Sighs transiently alter breathing entropy and other measures

Abstract

Apolipoprotein E (ApoE) gene variations are involved in lipid metabolism and cholesterol transport, with the ApoE4 allele being a known risk factor associated with neurodegenerative conditions later in life. Emerging evidence suggests these genetic variations may also influence respiratory function and vitality. However, the specific impact of different ApoE genotypes on breathing patterns remains largely unexplored. This work investigates differences in breathing waveform characteristics and entropy statistics derived from plethysmography (PLETH) data between rat models possessing two distinct ApoE genotypes (referred to herein as gene59 and gene95). Findings reveal significant distributional differences in common plethysmography metrics and approximate entropy between the two genotypes, observed during both active and resting states. Additionally, the study examines the transient impact of sighs (deep breaths) on these breathing metrics, demonstrating that entropy and other measures are altered in the breaths immediately following a sigh.