Anne L. Smazal scite author profile

Perturbations in methyl group metabolism and homocysteine balance have emerged over the past few decades as having defining roles in a number of pathological conditions. Numerous nutritional, hormonal, and genetic factors that are characterized by elevations in circulating homocysteine concentrations are also associated with specific pathological conditions, including cancer development, autoimmune diseases, vascular dysfunction, and neurodegenerative disease. Although much remains to be explored, our understanding of the relationship between disease, methyl balance, and epigenetic control of gene expression has steadily progressed. However, homocysteine balance and its role in health and disease are not as clearly understood. This review presents our current understanding of homocysteine metabolism and its link to specific pathologies.

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Dietary Resistant Starch Prevents Urinary Excretion of 25-Hydroxycholecalciferol and Vitamin D-Binding Protein in Type 1 Diabetic Rats1,2

Smazal

Borcherding

Anderegg

et al. 2013

The Journal of Nutrition

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Diabetes is a rapidly growing epidemic affecting millions of Americans and has been implicated in a number of devastating secondary complications. We previously demonstrated that type 2 diabetic rats exhibit vitamin D deficiency due to aberrant megalin-mediated endocytosis and excessive urinary excretion of 25-hydroxycholecalciferol (25D3) and vitamin D-binding protein (DBP). Here, we examined whether a model of type 1 diabetes [T1D; streptozotocin (STZ)-treated Sprague-Dawley rats] would similarly excrete abnormally high concentrations of 25D3 and DBP due to renal damage and compromised expression of megalin and its endocytic partner, disabled-2 (Dab2). Moreover, we tested whether feeding diabetic rats starch that is resistant to digestion could alleviate these abnormalities. Control (n = 12) rats were fed a standard, semipurified diet (AIN-93G) containing 55% total dietary starch and STZ-treated rats were fed the AIN-93G diet (n = 12) or a diet containing 55% high-amylose maize that is partially resistant to digestion [20% total dietary resistant starch (RS); n = 12] for 2 and 5 wk. The RS diet attenuated weight loss and polyuria in STZ-treated rats. Histology and immunohistochemistry revealed that dietary RS also attenuated the loss of Dab2 expression in renal proximal tubules. Moreover, urinary concentrations of both 25D3 and DBP were elevated ∼10-fold in STZ-treated rats (5 wk post STZ injection), which was virtually prevented by the RS. We also observed a ∼1.5-fold increase in megalin mRNA expression in STZ-treated rats, which was attenuated by feeding rats the RS diet for 2 wk. Taken together, these studies indicate that consumption of low-glycemic carbohydrates can attenuate disruption of vitamin D homeostasis in T1D through the rescue of megalin-mediated endocytosis in the kidney.

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Peripherally inserted central catheters optimize nutrient intake in moderately preterm infants

et al. 2016

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Small Proportion of Low‐Birth‐Weight Infants With Ostomy and Intestinal Failure Due to Short‐Bowel Syndrome Achieve Enteral Autonomy Prior to Reanastomosis

Smazal

Massieu

Gollins

et al. 2020

J Parenter Enteral Nutr

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Background It is challenging to provide optimum nutrition in low‐birth‐weight (LBW) infants with short‐bowel syndrome (SBS) and ostomy. This study aims to evaluate the clinical course of LBW infants with SBS and ostomy in response to enteral feeds, recognize characteristics associated with achievement of enteral autonomy prior to reanastomosis, and evaluate associated short‐term outcomes. Methods A retrospective analysis of 52 LBW neonates with intestinal failure (IF) caused by SBS and ostomy treated in a neonatal intensive care unit from 2012 to 2018 was performed. Clinical characteristics and short‐term outcomes were studied in relation to the location of the ostomy and the success with enteral feeding achieved prior to reanastomosis. Results Of the 52 infants with SBS, jejunostomy, ileostomy, and colostomy were present in 9, 40, and 3 infants, respectively. Fourteen (26.92%) infants achieved enteral autonomy transiently, and 7 (13.46%) sustained until reanastomosis. All 9 infants with jejunostomy were parenteral nutrition dependent, compared with 22 with ileostomy and none with colostomy (P = 0.002). Infants who achieved enteral autonomy showed lower incidence of cholestasis (P = 0.038) and better growth velocity (P = 0.02) prior to reanastomosis. Conclusions A minority of LBW infants with SBS and ostomy achieved enteral autonomy prior to reanastomosis. Distal ostomy (ileostomy and colostomy), reduced cholestasis, and better growth were associated with achievement of enteral autonomy. Our report highlights the challenges in establishing enteral autonomy in LBW infants with IF and ostomy, and the feasibility of that approach in a minority of patients, with tangible benefits.

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Anne L. Smazal

Homocysteine Imbalance: a Pathological Metabolic Marker

Dietary Resistant Starch Prevents Urinary Excretion of 25-Hydroxycholecalciferol and Vitamin D-Binding Protein in Type 1 Diabetic Rats1,2

Peripherally inserted central catheters optimize nutrient intake in moderately preterm infants

Small Proportion of Low‐Birth‐Weight Infants With Ostomy and Intestinal Failure Due to Short‐Bowel Syndrome Achieve Enteral Autonomy Prior to Reanastomosis

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