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Medical Nutrition Therapy for Refeeding Syndrome

Medical Nutrition Therapy for Refeeding Syndrome. Rachel Hammerling Concordia College, Moorhead MN. Objectives. Be able to describe refeeding syndrome (RFS) Be able to describe the pathophysiology of starvation Identify the main pathophysiologic features of RFS

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Medical Nutrition Therapy for Refeeding Syndrome

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  1. Medical Nutrition Therapy for Refeeding Syndrome Rachel Hammerling Concordia College, Moorhead MN

  2. Objectives • Be able to describe refeeding syndrome (RFS) • Be able to describe the pathophysiology of starvation • Identify the main pathophysiologic features of RFS • Be able to identify signs & symptoms • Identify recommended treatment & standards of care • Be able to explain ethical issues involved with treatment & care

  3. Discovery of RFS • Observed & described after WWII • Victims of starvation experienced cardiac and/or neurologic dysfunction • After being reintroduced to food • Today, rarely see patients who are severely malnourished, as WWII victims were, in the 1st week • Neurologic signs & symptoms develop later

  4. What is RFS? • Potentially fatal shifts in fluids & electrolytes • May occur in malnourished patients receiving artificial refeeding • Enterally or parenterally • Complex syndrome • Sodium & fluid imbalance • Changes in glucose, protein, fat metabolism • Thiamine deficiency • Hypokalemia • Hypomagnesaemia

  5. Understanding Starvation • Glucose = main fuel • Shifts to protein & fat • Insulin ↓ due to ↓ availability of glucose • Catabolism of protein → loss of cellular & muscle mass → atrophy of vital organs & internal organs • Respiratory & cardiac function ↓ due to muscular wasting & fluid/electrolyte imbalances • Body is now surviving by slowly consuming itself

  6. How common is RFS? • True incidence is unknown • Study of 10,197 patients, incidence of hypophosphatemia = 43 % • Malnutrition one of strongest risk factors • Parenteral patients = 100% incidence of hypophosphatemia

  7. Pathogenesis • Electrolytes & minerals involved • Phosphorus • Potassium • Magnesium • Glucose

  8. Main Pathophysiologic Features • Disturbances of body-fluid distribution • Abnormal glucose & lipid metabolisms • Thiamine deficiency • Hypophosphatemia • Hypomagnesemia • Hypokalemia

  9. Disturbances of Body-Fluid Distribution • Can influence body functions: • Cardiac failure • Dehydration or fluid overload • Hypotension • Pre-renal failure • Sudden death • CHO refeeding • ↓ water & sodium excretion, resulting in weight gain • Protein & fat refeeding • Result in weight loss & urinary sodium excretion • Hypernatremia along with azotemia & metabolic acidosis

  10. Abnormal Glucose & Lipid Metabolisms • Glucose • Suppress gluconeogenesis → reduced AA usage • Less-negative N balance • Hyperglycemia • Glucose → fat (Lipogenesis) • Hypertriglyceridemia, fatty liver, & abnormal liver function tests

  11. Thiamine Deficiency • Can result in Wernicke’s encephalopathy or Korsakov’s syndrome, associated with: • Ocular disturbance • Confusion • Ataxia • loss of ability to coordinate muscular movement • Coma • Short-term memory loss • Confabulation • Confusion of imagination with memory

  12. Hypophosphatemia • Predominant feature of RFS • Impaired cellular-energy pathways • Adenosine triphosphate • 2,3-diphosphoglycerate • Impaired skeletal-muscle function • Including weakness & myopathy • Seizures & perturbed mental state • Impaired blood clotting processes & hemolysis also can occur

  13. Hypomagnesemia • Most cases not clinically significant • Severe cases: • Cardiac arrhythmias • Abdominal discomfort • Anorexia • Tremors, seizures, & confusion • Weakness

  14. Hypokalemia • Features are numerous: • Cardiac arrhythmias • Hypotension • Cardiac arrest • Weakness • Paralysis • Confusion • Respiratory Depression

  15. Signs & Symptoms • Electrolyte imbalance • Hypokalemia • Hypophosphatemia • Hypomagnesemia • REMEMBER: Even an overweight or obese patient can be malnourished & a victim for RFS

  16. Identifying Patients at High Risk of Refeeding Problems • NICE Guidelines(National Institute for Health & Clinical Excellence) • Either patient has 1 or more: • BMI <16 • Unintentional weight loss >15% in past 3-6 mo • Little/no nutritional intake for 10 days • Low levels of potassium, phosphate, or magnesium before feeding • Or patient has 2 or more: • BMI <18.5 • Unintentional weight loss >10% in past 3-6 mo • Little/no nutritional intake for >5 days • History of alcohol misuse or drugs

  17. Patients at high risk: • Anorexia nervosa • Chronic alcoholism • Oncology patients • Postoperative patients • Elderly • Uncontrolled diabetes mellitus • Chronic malnutrition: • Marasmus • Prolonged fasting or low energy diet • Morbid obesity with weight loss • Long term antacid users • Long term diuretic users

  18. Gastrointestinal Fistula patients • Usually reveals chronic malnutrition • Due to damaged Gl tract & severe abdominal sepsis • High risk for RFS • Be aware of condition & treat the same • Diarrhea commonly occurs & can be treated by enteral nutrition

  19. Intervention: Objectives 1) Gradually correct starvation • Use less than full levels of calorie & fluid requirements 2) Advance calories & volume • Monitor cardiac & respiratory side effects 3) Correct vitamin & mineral deficiencies • Especially with symptoms

  20. Intervention: Objectives Cont. 4) Nutrition support in patients at risk should be increased slowly • Assuring adequate amounts of vitamins & minerals 5) Organ function, fluid balance, & serum electrolytes • Monitor daily during 1st week & less frequently after

  21. Intervention: Objectives Cont. 6) Monitor for neurological, hematological, & metabolic complications • Of hypokalemia, hypophosphatemia, & hyperglycemia 7) Prevent sudden death

  22. Intervention: Food & Nutrition • Begin 20 kcal/kg for 1st 3 days • Progress to 25 kcal/kg • Gradually ↑ by 7th day • Protein start slow, ↑ gradually • To protect & restore lean body mass • Restrict CHO to 150-200 g/day • To prevent rapid insulin surge • CHO in PN • Initiate at 2 mg/kg/min • Fat calories should make up the difference

  23. Intervention: Food & Nutrition • Maintain fluid balance • Adjust when edema exists • Adjust for sodium & potassium • Depending on lab values until normal • Supplements • Thiamin • Other vitamins & minerals as needed

  24. Common Drugs Used • Replacement of phosphorus, potassium, & magnesium • Insulin • Used to correct hyperglycemia levels • Monitor blood glucose levels during refeeding

  25. Recommendation for Phosphate

  26. Recommendation for Magnesium

  27. Intervention: Nutrition Education, Counseling, & Care Management • Focus on adequate nutrient intake • Consider referral if food insecurity is a concern • Offer guidelines according to discharge intervention plan • Physician may suggest long-term medication use or therapies

  28. NICE Guidelines for Management

  29. Ethical Issues with RFS • Roles between dietitian, counselor, nurse, doctor, and other professionals • Working with anorexia patients, oncology patients or older patients • Ethnic & religious differences • Muslim patients • Non-English speaking patients

  30. Summary Points • RFS is caused by rapid refeeding after a period of undernutrition • Characterized by hypophosphatemia • Patients at high risk: undernourished, little or no energy intake for > 10 days • Start refeeding at low levels • Correction of electrolyte & fluid imbalances before feeding IS NOT necessary

  31. References Crook, M. A., Hally, V., & Panteli, J. V. (2001). The importance of the refeeding syndrome. Nutrition (Burbank, Los Angeles County, Calif.), 17(7-8), 632-637. De Silva, A., Smith, T., & Stroud, M. (2008). Attitudes to NICE guidance on refeeding syndrome. BMJ (Clinical Research Ed.), 337, a680. Escott-Stump, S. (2008). Nutrition and diagnosis-related care: sixth ed. (Baltimore, Maryland), 578-580. Fan, C., Li, J. (2003). Refeeding syndrome in patients with gastrointestinal fistula. Nutrition (Burbank, Los Angeles County, Calif.), 24(6), 604-606. Gariballa, S. (2008). Refeeding syndrome: A potentially fatal condition but remains underdiagnosed and undertreated. Nutrition, 24(6), 604-606. Khardori, R. (2005). Refeeding syndrome and hypophosphatemia. Journal of Intensive Care Medicine, 20(3), 174-175. Mehanna, H. M., Moledina, J., & Travis, J. (2008). Refeeding syndrome: What it is, and how to prevent and treat it. BMJ (Clinical Research Ed.), 336(7659), 1495-1498. Nelms, M., Sucher, K.,& Long, S.(2007). Nutrition therapy and pathophysiology (Belmont, Calif.). 166-167, 194-195. Walker, R. (2006). Alcohol and the liver. Sports Line, 28(6), 21-22. Yantis, M. A., & Velander, R. (2008). How to recognize and respond to refeeding syndrome. Nursing, 38(5).

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