Use of a Postoperative Care Management Pathway Reduces the Incidence of Chylothorax Post-Fontan Palliation.

Pleural effusions and chylothorax are challenging morbidities post-Fontan palliation. We sought to evaluate the efficacy of our Fontan Care Pathway (FCP) in reducing the incidence of post-operative chylothorax and Time to Chest Tube Removal (TTCTR), and to determine risk factors associated with longer TTCTR. Between 2016 and 2022 our institutional approach to post-Fontan care fell into three categories: Group 1 (n = 36): no standardized approach; Group 2 (n = 30): a prophylactic chylothorax diet (fat content < 5%); Group 3 (n = 57): the FCP (a chylothorax diet, fluid restriction, supplemental O2 and aggressive diuresis). The incidence of chylothorax and TTCTR was compared between groups. Predictors of TTCTR were analyzed using linear regression modelling, adjusting for covariates. Chylothorax rate decreased in Group 3 compared to Groups 1 and 2 (9% vs. 28% and 33% respectively, p = 0.011), without alteration in TTCTR. Univariate factors associated with median TTCTR included chylothorax (+ 13.7 days, p = 0.001), additional procedures at time of Fontan (+ 2.4 days per procedure p = 0.017), Fontan revision or takedown (+ 11.7 days, p = 0.018) and minor/major complications (+ 5.1, p = 0.01 and + 15.8, p < 0.001, respectively). On multivariable analysis, chylothorax (+ 6.5 days, p = 0.005) and major complications (+ 15.8 days, p = 0.001) were associated with increased TTCTR. When chylothorax was excluded from multivariable analysis, the FCP showed a significant decrease in TTCTR (- 3.3 days, p = 0.034). A bundled therapy approach was associated with reduced laboratory confirmed chylothorax post-Fontan, whereas diet change alone was not. Additional studies in this area, with larger sample sizes are warranted.

What influences physician opioid prescribing for children with acute pain?

Background: Pain is one of the most common symptoms encountered in the healthcare system, and opioids are among the top three medications used to treat it. Understanding the reasoning behind physicians' opioid prescribing practices is vital to safe practice. The primary objective of our study was to describe pediatric emergency physicians' decision-making process when prescribing opioids for children's acute pain management. Methods: This study employed qualitative methodology, using one-on-one semi-structured interviews within a grounded theory analytic framework. We employed purposeful sampling to recruit pediatric emergency physicians from across Canada. Interviews were conducted by telephone (December 2019-January 2021). Transcript analysis occurred concurrently with data collection, supporting data saturation and theory development considerations. Results: Eleven interviews were completed with participants representing each of Canada's geographic regions. Nine major themes emerged: (1) practice setting and outpatient opioid use, (2) condition-specific considerations, (3) physician confidence in medical evidence, (4) pain assessment challenges, (5) patient and family perspectives, (6) opioid safety concerns, (7) personal biases and experiences, (8) personal practice context, and (9) the Opioid Crisis/media influence. Most clinicians felt that they limited opioid use to those who needed it most; all participants described challenges managing acute pain, emphasizing the need for accurate pain measurement and better guidelines, evidence-based data, and knowledge translation. Clinicians were more comfortable treating pain in the emergency department, compared to discharge prescribing. They recognized the importance of co-therapy with non-opioids and the need for opioid risk assessment when prescribing. A family centered approach was recognized as the goal of practice. Conclusion: Clinicians are less comfortable prescribing opioids to children for at-home use and find pain assessment and lack of clear guidelines to be barriers to pain care. Knowledge translation strategies for safer practice and optimal acute pain management could support responsible and judicious opioid use.

Intestinal resection affects whole-body arginine synthesis in neonatal piglets.

BACKGROUND: Previous studies in piglets show a direct relationship between intestinal mass and arginine (Arg) synthesis. We aimed to study the effects of 75% intestinal resection on whole-body Arg synthesis. METHODS: Piglets were allocated to sham or jejunocolic (JC) surgery and to enteral nutrition (EN) at 20% [sham (n = 8), JC (n = 10)], or 40% [sham (n = 4), JC (n = 5)]. A gastric tube was placed for EN and a venous catheter for parenteral nutrition and blood sampling. On day 6, a primed bolus and constant infusion of Arg m + 2 label and proline m + 1 label was delivered. In addition, 40% EN piglets received a citrulline (Cit) m + 3 tracer. Blood sampling was undertaken and whole-body Arg synthesis was calculated. On day 7, intestinal length was measured, and samples were collected for gene expression (PCR quantification) and histopathology. RESULTS: On Day 7, sham piglets showed intestinal lengthening compared to JC (p = 0.02). Whole-body Arg synthesis was similar between groups (p = 0.50). Adjusting for absolute small intestinal length, JC piglets had greater Arg synthesis (p = 0.01). Expression of arginosuccinase was upregulated in the jejunum of JC compared to sham on 20% EN (p = 0.03). CONCLUSION: This demonstrates for the first-time adaptive changes in intestinal Arg synthesis following intestinal resection. IMPACT: The intestine makes a critical contribution to whole-body arginine synthesis, particularly in neonates, a human population at risk for short bowel syndrome. Therefore, we studied intestinal arginine synthesis in a neonatal piglet model of short bowel syndrome and demonstrated adaptive changes in the intestine that may preserve whole-body arginine synthesis, despite loss of intestinal mass. This research adds new information to our understanding of the effects a massive intestinal resection has on amino acid metabolism during neonatal development.

In the Short-term, Milk Fat Globule Epidermal Growth Factor-8 Causes Site-specific Intestinal Growth in Resected Piglets.

OBJECTIVES: Short bowel syndrome (SBS) remains the leading cause of neonatal intestinal failure. Milk fat globule epidermal growth factor-8 (MFG-E8), present in human milk, has homology with epidermal growth factor (EGF), known to enhance adaptation in SBS. In this pilot study, the role of oral MFG-E8 treatment in SBS was explored in neonatal piglets. METHODS: Neonatal piglets underwent 75% intestinal resection, either distal (jejunal-colonic [JC] anastomosis) or mid-intestinal (jejunal-ileal [JI] anastomosis). Piglets were randomized to intragastric treatment with MFG-E8  (5 mg/kg per day) or saline and were maintained on parenteral nutrition and enteral nutrition for 7 days. Adaptation was assessed by intestinal length and weight, histopathology, fecal fat analysis and RT-qPCR analysis of mucosal transcripts, including growth factors. RESULTS: JI piglets demonstrated intestinal lengthening (P < 0.001), 2-fold greater in ileum than jejunum (P = 0.02), where lengthening was increased by MFG-E8 treatment (P = 0.02). JC piglets did not exhibit jejunal lengthening, regardless of treatment. Fat absorption was greater for JI piglets (P = 0.02), unaffected by treatment. In JI piglets, expression of Egf was increased in the ileum (P < 0.01) and MFG-E8 treatment increased Egfr (receptor) expression (P = 0.02). CONCLUSIONS: MF-EG8 demonstrated site-specific trophic effects, only with JI anatomy. This may limit the utility of this treatment for SBS, except for rare patients with retained ileum. The mechanisms of these site-specific effects, however, and the role of MFG-E8 in neonatal gut growth and in diseases, such as necrotizing enterocolitis that commonly target ileum, warrant further exploration.

Novel Long-Acting GLP-2 Analogue, FE 203799 (Apraglutide), Enhances Adaptation and Linear Intestinal Growth in a Neonatal Piglet Model of Short Bowel Syndrome with Total Resection of the Ileum.

BACKGROUND: Glucagon-like peptide-2 (GLP-2) is an intestinotrophic factor released from L-cells in the ileum, a segment commonly resected or atretic in neonatal short bowel syndrome (SBS). In piglets, ileal resection decreases intestinal adaptation and endogenous GLP-2 production, whereas exogenous replacement promotes adaptation. In this study, we determined the effect of a novel long-acting GLP-2 analogue, FE 203799 (FE; apraglutide), upon intestinal growth, adaptation, and function in neonatal SBS piglets without ileum. METHODS: Neonatal piglets were randomized to saline (n = 10) vs FE treatment (n = 8). All piglets underwent 75% intestinal resection with jejunocolic anastomosis and were pair-fed parenteral and enteral nutrition. Saline and FE (5 mg/kg) treatments were administered subcutaneously on days 0 and 4. On day 6, 24-hour fecal samples were collected for subsequent nutrient analysis. On day 7, small-intestinal length and weight were measured and tissue collected for analyses. RESULTS: On day 7, saline and FE-treated piglets were healthy and gained equivalent weight (P = 0.12). Compared with saline piglets, FE-treated piglets had lower fecal fat (P = 0.043) and energy (P = 0.043) losses and exhibited intestinal lengthening (P = 0.001), greater small-intestinal weight (P = 0.004), longer villus height (P = 0.027), and greater crypt depth (P = 0.054). CONCLUSIONS: The subcutaneous GLP-2 analogue, FE, enhanced intestinal adaptation in a neonatal model of SBS without ileum. The observed intestinal lengthening with FE treatment was unique compared with our prior experience with native GLP-2 in this same model and has important clinical implications for treating neonatal SBS. At this developmental stage, growth in the intestine, if augmented, could accelerate weaning from parenteral nutrition.

Syntheses of the 4-nitrophenyl glycosides of hyalobiuronic acid and chondrosine.

4-Nitrophenyl [sodium beta-D-glucopyranosyluronate]-(1-->3)-2-acetamido-2-deoxy-beta-D-glucopyranoside (1) and 4-nitrophenyl [sodium beta-D-glucopyranosyluronate]-(1-->3)-2-acetamido-2-deoxy-beta-D-galactopyranoside (2) were prepared from the zwitterions hyalobiuronic acid [beta-D-glucopyranuronic acid-(1-->3)-2-amino-2-deoxy-D-glucopyranose] and chondrosine [beta-D-glucopyranuronic acid-(1-->3)-2-amino-2-deoxy-D-galactopyranose], respectively. Compounds 1 and 2 were not hydrolysed by bovine testicular hyaluronidase.