1.
American Society for Metabolic and Bariatric Surgery review on fasting for religious purposes after surgery.
Craggs-Dino, L, El Chaar, M, Husain, FA, Rogers, AM, Lima, AG, Sadegh, M, Bashiti, J, Chapmon, K, ,
Surgery for obesity and related diseases : official journal of the American Society for Bariatric Surgery. 2022;(7):861-871
2.
The Optimal Nutritional Programme for Bariatric and Metabolic Surgery.
Parrott, JM, Craggs-Dino, L, Faria, SL, O'Kane, M
Current obesity reports. 2020;(3):326-338
Abstract
PURPOSE OF REVIEW Bariatric surgery is the most effective treatment for severe and complex obesity; however, the risk of developing nutrient deficiencies varies based upon the type of surgery, degree of malabsorption, and level of nutrition intervention. There are numerous factors that can impact the nutrition status of a patient during their pre- and postoperative journey. We review the critical components and considerations needed in order to provide optimal nutrition care for patients with bariatric surgery. RECENT FINDINGS A dietitian, specializing in bariatric surgery, is the best equipped healthcare provider to prepare and support patients in achieving and maintaining optimal nutrition status. We present best practices for both the pre- and postoperative nutrition-related phases of a patient's journey. The dietitian specialist is integral in the assessment and ongoing nutrition care of patients with bariatric surgery. Further consideration should be given to enable access for lifelong follow-up and monitoring.
3.
Nutrition Care in Bariatric Surgery: An Academy Evidence Analysis Center Systematic Review.
Andromalos, L, Crowley, N, Brown, J, Craggs-Dino, L, Handu, D, Isom, K, Lynch, A, DellaValle, D
Journal of the Academy of Nutrition and Dietetics. 2019;(4):678-686
Abstract
Obesity continues to be a major public health crisis, both nationally and globally. Metabolic and bariatric surgery has been proven to be a safe and effective treatment for this multifactorial chronic disease. However, inconsistent and varied results in bariatric nutrition literature have prevented the implementation of standardized guidelines. The purpose of this Evidence Analysis Library systematic review is to provide an evidence-based summary of nutrition-related practices in bariatric surgery. The systematic review methodology of the Academy of Nutrition and Dietetics was applied. A total of 27 research studies were included, analyzed, and assessed for risk of bias by trained evidence analysts. The literature included in the systematic review was published from 2003 to 2015. Evaluation of the literature resulted in the development of five graded conclusion statements. Limited research demonstrates that registered dietitian nutritionists play a role in improving weight loss outcomes after bariatric surgery; further research is needed to understand the role of registered dietitian nutritionists in changing behaviors after bariatric surgery. Bariatric surgery results in significant reductions in resting metabolic rate and postoperative energy intake. There is no significant relationship between macronutrient distribution and postoperative weight loss. The graded conclusion statements provide registered dietitian nutritionists who practice in the field of bariatric nutrition with more insight and evidence that can guide and support their recommendations.
4.
American Society for Metabolic and Bariatric Surgery Integrated Health Nutritional Guidelines for the Surgical Weight Loss Patient 2016 Update: Micronutrients.
Parrott, J, Frank, L, Rabena, R, Craggs-Dino, L, Isom, KA, Greiman, L
Surgery for obesity and related diseases : official journal of the American Society for Bariatric Surgery. 2017;13(5):727-741
Abstract
BACKGROUND Optimizing postoperative patient outcomes and nutritional status begins preoperatively. Patients should be educated before and after weight loss surgery (WLS) on the expected nutrient deficiencies associated with alterations in physiology. Although surgery can exacerbate preexisting nutrient deficiencies, preoperative screening for vitamin deficiencies has not been the norm in the majority of WLS practices. Screening is important because it is common for patients who present for WLS to have at least 1 vitamin or mineral deficiency preoperatively. OBJECTIVES The focus of this paper is to update the 2008 American Society for Metabolic and Bariatric Surgery Nutrition in Bariatric Surgery Guidelines with key micronutrient research in laparoscopic adjustable gastric banding, Roux-en-Y gastric bypass, laparoscopic sleeve gastrectomy, biliopancreatic diversion, and biliopancreatic diversion/duodenal switch. METHODS Four questions regarding recommendations for preoperative and postoperative screening of nutrient deficiencies, preventative supplementation, and repletion of nutrient deficiencies in pre-WLS patients have been applied to specific micronutrients (vitamins B1 and B12; folate; iron; vitamins A, E, and K; calcium; vitamin D; copper; and zinc). RESULTS Out of the 554 articles identified as meeting preliminary search criteria, 402 were reviewed in detail. There are 92 recommendations in this update, 79 new recommendations and an additional 13 that have not changed since 2008. Each recommendation has a corresponding graded level of evidence, from grade A through D. CONCLUSIONS Data continue to suggest that the prevalence of micronutrient deficiencies is increasing, while monitoring of patients at follow-up is decreasing. This document should be viewed as a guideline for a reasonable approach to patient nutritional care based on the most recent research, scientific evidence, resources, and information available. It is the responsibility of the registered dietitian nutritionist and WLS program to determine individual variations as they relate to patient nutritional care.