Necrotizing enterocolitis (NEC) is a devastating disease that primarily affects the gastrointestinal tract of premature neonates. The diagnosis and treatment of NEC remain challenging. New biomarkers and potential treatments for NEC have emerged in recent years, leading to the potential of earlier therapeutic intervention and improved outcomes. This paper aims to provide a review of the most recent diagnostic indicators and therapeutics of NEC along with a brief overview of future directions of research into this disease.
Necrotizing enterocolitis (NEC) is a devastating disease of premature neonates with substantial morbidity and mortality. Necrotizing enterocolitis is associated with prematurity, a hyperinflammatory response, and dysregulation of intestinal barrier function. We hypothesize that patients with NEC will have an increased hyperinflammatory intestinal response compared with those without NEC.
Enteroids are an emerging research tool in the study of inflammatory bowel diseases such as necrotizing enterocolitis (NEC). They are traditionally grown in the basolateral-out (BO) conformation, where the apical surface of the epithelial cell faces the inner lumen. In this model, access to the luminal surface of enteroids for treatment and experimentation is challenging, which limits the ability to study host-pathogen interactions. To circumvent this, a neonatal apical-out (AO) model for necrotizing enterocolitis was created. Since intestinal epithelial cell permeability changes are pathognomonic for NEC, this protocol outlines using lucifer yellow (LY) as a marker of paracellular permeability. LY traverses the intestinal epithelial barrier via all three major paracellular pathways: pore, leak, and unrestricted. Using LY in an AO model allows for a broader study of permeability in NEC. Following IRB approval and parental consent, surgical samples of intestinal tissue were collected from human preterm neonates. Intestinal stem cells were harvested via crypt isolation and used to grow enteroids. Enteroids were grown to maturity and then transformed AO or left in BO conformation. These were either not treated (control) or were treated with lipopolysaccharide (LPS) and subjected to hypoxic conditions for the induction of in vitro NEC. LY was used to assess for permeability. Immunofluorescent staining of the apical protein zonula occludens-1 and basolateral protein β-catenin confirmed AO conformation. Both AO and BO enteroids treated with LPS and hypoxia demonstrated significantly increased paracellular permeability compared to controls. Both AO and BO enteroids showed increased uptake of LY into the lumen of the treated enteroids compared to controls. The utilization of LY in an AO enteroid model allows for the investigation of all three major pathways of paracellular permeability. It additionally allows for the investigation of host-pathogen interactions and how this may affect permeability compared to the BO enteroid model.
Background: Necrotizing enterocolitis (NEC) is the leading gastrointestinal cause of death of premature neonates. NEC is associated with prematurity, a hyperinflammatory response, and dysregulation of intestinal barrier function. We hypothesize that patients with NEC will have, and continue to have after recovery, an increased hyperinflammatory intestinal response compared to those patients without NEC. Methods: Neonates with NEC, those that have recovered from NEC, and those without NEC undergoing intestinal resections had specimens collected and snap frozen or generated into enteroids. The enteroids were treated with 100ug/mL lipopolysaccharide (LPS) and subjected to 24 hr of hypoxia together, then compared with untreated controls. Expression of Tumor Necrosis Factor (TNF-α) and interleukin 8 (IL-8) were evaluated via RT-qPCR and ELISA to measure inflammatory response. ANOVA determined statistical significance (p< 0.05). Results: There was no difference in inflammatory markers in recovered NEC tissue compared to non-NEC tissue on RTqPCR (p=0.701 TNF-α and 0.861 IL-8). However, recovered NEC enteroids demonstrate elevated levels of inflammatory markers after treatment compared to non-NEC enteroids after treatment on RTqPCR (p=0.0485 TNF-α, p=0.0057 IL-8) and ELISA (p=0.0354 TNF-α, p=0.0011 IL-8). Recovered NEC enteroids that underwent treatment demonstrated increased inflammatory markers compared to recovered NEC enteroids without treatment on RTqPCR (p=0.0045 TNF-α, p=0.0002 IL-8) and ELISA (p=0.034 TNF-α, p=0.0002 IL-8) suggesting a heightened inflammatory response to a second hit. Conclusion: Intestinal tissue resected from neonates with NEC has an elevated hyperinflammatory response compared to neonates recovered from NEC and neonates without NEC. Enteroids generated from patients that have recovered from NEC have a heightened inflammatory response in response to NEC inducing stimuli compared to controls. This tendency towards an increased hyperinflammatory state may be correlated with an infant’s proclivity to develop NEC and demonstrates the significance of a second hit on this tissue creating a heightened inflammatory response. This could be correlated with the impact and trajectory of an illness post recovery from NEC. Keywords: necrotizing enterocolitis, recovery, hyperinflammatory, enteroids
AbstractBackground: Attending surgeons must maintain balance between promoting education and assuring safe, transparent patient care. This investigation aimed to define ethics that guide surgical training. We hypothesized that resident autonomy in the operating room is influenced by attending approach to patients, specifically patients considered to be vulnerable.After IRB approval, surgeons from three institutions were invited to participate in a pilot, survey, exploring how principles of patient autonomy, physician beneficence, nonmaleficence, and justice apply to participant opinions. Responses were transcribed and coded for quantitative and qualitative analysis.51 attendings and 55 residents completed the survey. We identified that patient autonomy is upheld through transparent consent practices. Intraoperative supervision is a key practice that maintains the principles of physician beneficence and nonmaleficence and mitigates the risk of resident participation. Vulnerable patients were defined by respondents as those unable to participate in their own consent and those limited by social determinants of health and barriers to medical literacy. In contrast, resident participation is not limited in the care of vulnerable patients but is restricted in cases of higher complexity and those procedures deemed to have lower error margins.Although residents measure the success of their training based on their level of intraoperative independence, autonomy afforded to the resident does not only depend on objective skill. There are ethical considerations that the attending must navigate as they decide on effective teaching and safe surgical management, which is especially relevant in the care of complex cases.
