Diagnosis of malnutrition in patients with gastrointestinal diseases: recent observations from a Global Leadership Initiative on Malnutrition perspective

Purpose of review To review recent reports on techniques and tools for screening and diagnosis of malnutrition in gastrointestinal disease, in the light of the newly published definition of malnutrition by the Global Leadership Initiative on Malnutrition (GLIM). Recent findings In 2019, the GLIM concept of malnutrition was published advocating a two-step procedure; first, screening, and second confirmation of the diagnosis that requires a combination of phenotypic and etiologic criteria. Three studies in patients with gastrointestinal disorders so far published utilize the GLIM criteria. Otherwise, traditional tools, as Nutrition Risk Screening-2002, Malnutrition Universal Screening Tool or Subjective Global Assessment are used, and confirm that malnutrition is observed in a substantial number of patients with inflammatory bowel diseases (IBDs), serious liver disorders and various forms of pancreatitis. Common for these disorders is an extensive loss of muscle mass, which is one of the GLIM phenotypic criteria. Such patients often undergo abdominal computed tomography scans that enable psoas muscle mass at L3 or L4 level to be calculated. Summary The GLIM criteria for the diagnosis of malnutrition are feasible for IBD, liver and pancreas diseases. Pending studies expect to provide data on the clinical relevance to diagnose malnutrition by the GLIM concept.

[1]  A. Lyra,et al.  Comparison between criteria for diagnosing malnutrition in patients with advanced chronic liver disease: GLIM group proposal versus different nutritional screening tools. , 2020, Journal of human nutrition and dietetics : the official journal of the British Dietetic Association.

[2]  Bangmao Wang,et al.  Low psoas muscle index associates with long-term mortality in cirrhosis: construction of a nomogram , 2020, Annals of translational medicine.

[3]  D. Lobo,et al.  ESPEN guideline on clinical nutrition in acute and chronic pancreatitis. , 2020, Clinical nutrition.

[4]  Nayoung Kim,et al.  The prevalence of sarcopenia and its effect on prognosis in patients with Crohn’s disease , 2020, Intestinal research.

[5]  Y. Boirie,et al.  Assessment of Malnutrition, Sarcopenia and Frailty in Patients with Cirrhosis: Which Tools Should We Use in Clinical Practice? , 2020, Nutrients.

[6]  K. Lassen,et al.  Weight loss and BMI criteria in GLIM's definition of malnutrition is associated with postoperative complications following abdominal resections - Results from a National Quality Registry. , 2020, Clinical nutrition.

[7]  S. Małgorzewicz,et al.  Prevalence of malnutrition in systemic sclerosis patients assessed by different diagnostic tools , 2019, Clinical Rheumatology.

[8]  A. Drewes,et al.  A Clinical Feasible Method for Computed Tomography-Based Assessment of Sarcopenia in Patients With Chronic Pancreatitis. , 2019, Pancreas.

[9]  Uchenna Agbim,et al.  Nutrition in Chronic Liver Disease , 2019, Current Treatment Options in Gastroenterology.

[10]  Stephen J. O’Brien,et al.  Chronic Pancreatitis and Nutrition Therapy. , 2019, Nutrition in clinical practice : official publication of the American Society for Parenteral and Enteral Nutrition.

[11]  D. Jonkers,et al.  Risk of impaired nutritional status and flare occurrence in IBD outpatients. , 2019, Digestive and liver disease : official journal of the Italian Society of Gastroenterology and the Italian Association for the Study of the Liver.

[12]  B. Vandermeer,et al.  Systematic review of nutrition screening and assessment in inflammatory bowel disease , 2019, World journal of gastroenterology.

[13]  P. Ballmer,et al.  Nutrition in Gastrointestinal Disease: Liver, Pancreatic, and Inflammatory Bowel Disease , 2019, Journal of clinical medicine.

[14]  G. Kuftinec,et al.  Nutrition in Cirrhosis , 2019, Current Gastroenterology Reports.

[15]  Mirza Faisal Beg,et al.  Muscle segmentation in axial computed tomography (CT) images at the lumbar (L3) and thoracic (T4) levels for body composition analysis , 2019, Comput. Medical Imaging Graph..

[16]  G. Nguyen,et al.  Hypoalbuminaemia and Postoperative Outcomes in Inflammatory Bowel Disease: the NSQIP Surgical Cohort. , 2019, Journal of Crohn's & colitis.

[17]  M. Plauth,et al.  ESPEN guideline on clinical nutrition in liver disease. , 2019, Clinical nutrition.

[18]  G. Jensen,et al.  Breakthrough in Global Consensus for the Diagnosis of Malnutrition in Adults in Clinical Settings , 2019, Nutrition Today.

[19]  A. Bitton,et al.  A Cross-Sectional Study on Malnutrition in Inflammatory Bowel Disease: Is There a Difference Based on Pediatric or Adult Age Grouping? , 2019, Inflammatory bowel diseases.

[20]  A. Gossum,et al.  GLIM criteria for the diagnosis of malnutrition – A consensus report from the global clinical nutrition community* , 2019, Journal of cachexia, sarcopenia and muscle.

[21]  F. Kanwal,et al.  Nutrition in Alcoholic Liver Disease: An Update. , 2019, Clinics in liver disease.

[22]  A. Gossum,et al.  GLIM criteria for the diagnosis of malnutrition - A consensus report from the global clinical nutrition community. , 2019, Clinical nutrition.

[23]  A. Gossum,et al.  GLIM Criteria for the Diagnosis of Malnutrition: A Consensus Report From the Global Clinical Nutrition Community. , 2018, JPEN. Journal of parenteral and enteral nutrition.

[24]  M. Kelly,et al.  Sarcopenia and Inflammatory Bowel Disease: A Systematic Review. , 2018, Inflammatory bowel diseases.

[25]  M. Plauth,et al.  EASL Clinical Practice Guidelines on nutrition in chronic liver disease. , 2019, Journal of hepatology.

[26]  D. Gaya,et al.  A multicentre Study of Nutrition Risk Assessment in Adult Patients with Inflammatory Bowel Disease Attending Outpatient Clinics , 2018, Annals of Nutrition and Metabolism.

[27]  A. Peixoto,et al.  Nutrition in Chronic Liver Disease , 2015, GE Portuguese journal of gastroenterology.

[28]  M. Dumont,et al.  European Association for the Study of the Liver , 1971 .