The Microbiome-Inflammation Axis in Pediatric Cardiac Surgery: Decoding Functional Bacterial Responses

Read the full article See related articles

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

Background

Gut injury after pediatric cardiac surgery remains an ongoing challenge, resulting in increased morbidity and mortality for children with congenital heart disease (CHD) and a significant burden on the healthcare system. It remains unclear what the driving forces are that result in this pro-inflammatory state following pediatric cardiac surgery with cardiopulmonary bypass. Understanding key components involved in the gut composition, gut barrier function, and systemic inflammation in children with CHD after cardiac surgery is vital to improve outcomes.

Methods

A prospective study of patients aged 0-5 years with CHD undergoing cardiac surgery (CPB group) or non-CHD undergoing non-cardiac surgery (Comparison group). We collected pre-operative and post-operative stool and plasma to evaluate the microbiome, metabolites, markers of gut barrier function, and inflammatory cytokines. Clinical variables were collected to evaluate markers of inflammation. These variables were compared between the two groups to evaluate signatures and develop unique biomarker profiles.

Results

We enrolled 62 patients (CPB, n=46; Comp, n=16). CPB patients had increased pro-inflammatory microbiota and reduced diversity metrics pre-operatively, which were exacerbated post-operatively. The CPB group also had increased pro-inflammatory eicosanoids and reduced gut and heart protective short-chain fatty acids versus the Comparison group. The CPB group had increased pro-inflammatory and reduced anti-inflammatory cytokines post-operatively. The CPB group also had increased markers of gut barrier dysfunction versus the Comparison group. Mediation analysis showed the microbial functional shift was associated with increased PGE2 and reduced butyric acid in the CPB group, associated with increased cytokines and clinical markers of inflammation post-operatively.

Conclusion

We demonstrate unique gut microbial and metabolites profiles associated with gut permeability and systemic inflammation in children with CHD undergoing cardiac surgery highlighting a unique microbiome-inflammation axis in this patient population. Further studies to evaluate causal links with these profiles will identify potential targets to improve outcomes for these patients.

Article activity feed