Hester Vlaardingerbroek scite author profile

acid-rich vegetable oil-based enteral and parenteral nutrition is still widely used, newer lipid 53 components such as medium-chain triglycerides and olive oil are safe and well tolerated. Fish 54 oil (FO)-enriched enteral and parenteral nutrition appears to be well tolerated and confers 55 additional clinical benefits, particularly in surgical patients, due to its anti-inflammatory and 56immune-modulating effects. Whilst the evidence base is not conclusive, there appears to be a 57 potential for FO-enriched nutrition, particularly administered peri-operatively, to reduce the rate 58 of complications and intensive care unit (ICU) and hospital stay in surgical ICU patients. The 59 evidence for FO-enriched nutrition in non-surgical ICU patients is less clear regarding its clinical 60 benefits and additional, well-designed large-scale clinical trials need to be conducted in this 61 area. The ESPEN Expert Group supports the use of olive oil and FO in nutrition support in 62 surgical and non-surgical ICU patients but considers that further research is required to provide 63 a more robust evidence base. 64 65 Page 4 of 77 Nutrition support of the critically ill patient 66Patients in an intensive care unit (ICU) are heterogeneous and include surgical and medical 67 patients, mechanically-ventilated or non-ventilated, obese or undernourished, preterm infants to 68 older adults, requiring either short-term or long-term intensive care [1]. Nutrition support is 69 critical in maintaining homeostasis in the ICU patient and to provide nutrients for the 70 maintenance of lean body mass as well as repair and maintenance of organ function and 71 support of defense and healing processes. 72Enteral nutrition (EN) comprises specialized liquid nutrition delivered through a nasogastric or 73 post-pyloric feeding tube into the stomach or small intestine (duodenum/jejunum), respectively 74[2]. The European Society for Clinical Nutrition and Metabolism (ESPEN) guidelines recommend 75 that EN should be given to all ICU patients who are not expected to be taking a full oral diet 76 within three days [3]. 77Whilst ESPEN acknowledges that there are no definitive data supporting the early use of EN in 78 terms of clinical outcomes, its guidelines recommend that hemodynamically stable critically ill 79 patients who have a functioning gastrointestinal tract should be fed early (< 24 hours) using an 80 appropriate amount of feed [3]. Early initiation of EN is also recommended by the American 81 Society for Parenteral and Enteral Nutrition (ASPEN) and the Canadian Society of Critical Care 82Medicine (SCCM) [4], as well as the European Society of Intensive Care Medicine (ESICM) [5]. 83Administration of early EN in critically ill patients appears to also have a positive economic 84 impact, with analysis suggesting that it is associated with significantly reduced costs relating to 85 reduction in ICU stay and duration of mechanical ventilation compared with standard care [6]. 86There are a number of nutritional and non-nutritional benefits associa...

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Safety and Efficacy of Early Parenteral Lipid and High-Dose Amino Acid Administration to Very Low Birth Weight Infants

Vlaardingerbroek¹,

Vermeulen²,

Rook³

et al. 2013

The Journal of Pediatrics

145

154

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Growth and Fatty Acid Profiles of VLBW Infants Receiving a Multicomponent Lipid Emulsion From Birth

Vlaardingerbroek

Vermeulen

Carnielli³

et al. 2014

J. pediatr. gastroenterol. nutr.

119

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New generation lipid emulsions prevent PNALD in chronic parenterally fed preterm pigs

Vlaardingerbroek

Stoll

et al. 2014

Journal of Lipid Research

116

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Cholestatic liver disease is one of the most common metabolic problems associated with total parenteral nutrition (TPN) in preterm infants, and it is strongly related to the duration of TPN ( 1 ). The incidence of parenteral nutrition-associated liver disease (PNALD) in infants who Abstract Total parenteral nutrition (TPN) is associated with the development of parenteral nutrition-associated liver disease (PNALD) in infants. Fish oil-based lipid emulsions can reverse PNALD, yet it is unknown if they can prevent PNALD. We studied preterm pigs administered TPN for 14 days with either 100% soybean oil (IL), 100% fi sh oil (OV), or a mixture of soybean oil, medium chain triglycerides (MCTs), olive oil, and fi sh oil (SL); a group was fed formula enterally (ENT). In TPN-fed pigs, serum direct bilirubin, gamma glutamyl transferase (GGT), and plasma bile acids increased after the 14 day treatment but were highest in IL pigs. All TPN pigs had suppressed hepatic expression of farnesoid X receptor (FXR), cholesterol 7-hydroxylase (CYP7A1), and plasma 7 ␣ -hydroxy-4-cholesten-3-one (C4) concentrations, yet hepatic CYP7A1 protein abundance was increased only in the IL versus ENT group. Organic solute transporter alpha (OST ␣ ) gene expression was the highest in the IL group and paralleled plasma bile acid levels. In cultured hepatocytes, bile acid-induced bile salt export pump (BSEP) expression was inhibited by phytosterol treatment. We show that TPN-fed pigs given soybean oil developed cholestasis and steatosis that was prevented with both This work was supported in part by federal funds from the USDA,, the American Society for Parenteral and Enteral Nutrition, Abbreviations: ALT, alanine aminotransferase; AST, aspartate aminotransferase; BSEP, bile salt export pump; CA, cholic acid; CDCA, chenodeoxycholic acid; C4, 7 ␣ -hydroxy-4-cholesten-3-one; CYP8B1, sterol 12-alpha-hydroxylase; CYP7A1, cholesterol 7-hydroxylase; CYP3A29, cytochrome P450 3A29; CYP27A1, sterol 27-hydroxylase; FGF, fi broblast growth factor; FXR, farnesoid X receptor; GGT, gamma glutamyl transferase; MCT, medium chain triglyceride; MRP3, multidrug resistant protein 3; NTCP, Na + / taurocholate cotransporter; OBCA, obeticholic acid; OST ␣ / ␤ , organic solute transporters alpha and beta; PNALD, parenteral nutrition-associated liver disease; TPN, total parenteral nutrition; UDCA, ursodeoxycholic acid . and immediately placed in cages housed at 31°C to 32°C, as described previously ( 12 ). Based on body weight, pigs delivered from each sow were randomly assigned to one of the three TPN treatment groups or to enteral nutrition (ENT). After delivery, pigs were surgically implanted with catheters into the jugular vein and umbilical artery. Pigs in the enteral group also were implanted with an orogastric feeding tube, whereas TPN groups received a sham puncture. Maternal plasma (16 ml/kg intravenously during the fi rst 24 h) was administered for passive immunological protection. During the 14 day study, pigs received antibiotics (enrofl oxacin 5 mg/kg) intrave...

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