A Green-Mediterranean Diet, Supplemented with Mankai Duckweed, Preserves Iron-Homeostasis in Humans and Is Efficient in Reversal of Anemia in Rats.

BACKGROUND Decreased dietary meat may deplete iron stores, as plant-derived iron bioavailability is typically limited. OBJECTIVES We explored the effect of a low-meat Mediterranean (green-MED) diet, supplemented with Wolffia globosa duckweed (Mankai: rich in protein and iron) as a food source for humans, on iron status. We further examined the iron bioavailability of Mankai in rats. METHODS Two hundred and ninety-four abdominally obese/dyslipidemic [mean age = 51.1 y; body mass index (kg/m2) = 31.3; 88% men] nonanemic participants were randomly assigned to physical activity (PA), PA + MED diet, or PA + green-MED diet. Both isocaloric MED groups consumed 28 g walnuts/d and the low-meat green-MED group further consumed green tea (800 mL/d) and Mankai (100 g green shake/d). In a complementary animal experiment, after 44 d of an iron deficiency anemia-inducing diet, 50 female rats (age = 3 wk; Sprague Dawley strain) were randomly assigned into: iron-deficient diet (vehicle), or vehicle + iso-iron: ferrous gluconate (FG) 14, Mankai 50, and Mankai 80 versions (1.7 mg · kg-1 · d-1 elemental iron), or FG9.5 and Mankai 50-C version (1.15 mg · kg-1 · d-1 elemental iron). The specific primary aim for both studies was changes in iron homeostasis parameters. RESULTS After 6 mo of intervention, iron status trajectory did not differ between the PA and PA + MED groups. Hemoglobin modestly increased in the PA + green-MED group (0.23 g/dL) compared with PA (-0.1 g/dL; P < 0.001) and PA + MED (-0.1 g/dL; P < 0.001). Serum iron and serum transferrin saturation increased in the PA + green-MED group compared with the PA group (8.21 μg/dL compared with -5.23 μg/dL and 2.39% compared with -1.15%, respectively; P < 0.05 for both comparisons), as did folic acid (P = 0.011). In rats, hemoglobin decreased from 15.7 to 9.4 mg/dL after 44 d of diet-induced anemia. After depletion treatment, the vehicle-treated group had a further decrease of 1.3 mg/dL, whereas hemoglobin concentrations in both FG and Mankai iso-iron treatments similarly rebounded (FG14: +10.8 mg/dL, Mankai 50: +6.4 mg/dL, Mankai 80: +7.3 mg/dL; FG9.5: +5.1 mg/dL, Mankai 50-C: +7.1 mg/dL; P < 0.05 for all vs. the vehicle group). CONCLUSIONS In humans, a green-MED low-meat diet does not impair iron homeostasis. In rats, iron derived from Mankai (a green-plant protein source) is bioavailable and efficient in reversal of anemia. This trial was registered at clinicaltrials.gov as NCT03020186.

[1]  M. Stampfer,et al.  Protein bioavailability of Wolffia globosa duckweed, a novel aquatic plant, - A randomized controlled trial. , 2019, Clinical nutrition.

[2]  L. Schwingshackl,et al.  The effect of vegetarian diets on iron status in adults: A systematic review and meta-analysis , 2018, Critical reviews in food science and nutrition.

[3]  Michal Rein,et al.  Effect of Distinct Lifestyle Interventions on Mobilization of Fat Storage Pools: CENTRAL Magnetic Resonance Imaging Randomized Controlled Trial , 2017, Circulation.

[4]  L. Abbey,et al.  An overview of nutritional and nntinutritional factors in green leafy vegetables , 2017 .

[5]  Michal Rein,et al.  Dynamics of intrapericardial and extrapericardial fat tissues during long-term, dietary-induced, moderate weight loss. , 2017, The American journal of clinical nutrition.

[6]  D. Talwar,et al.  Interpreting iron studies , 2017, British Medical Journal.

[7]  B. Davis,et al.  Iron, vitamin B12 and folate , 2017 .

[8]  A. Voci,et al.  Beneficial effects of the Mediterranean spices and aromas on non-alcoholic fatty liver disease , 2017 .

[9]  N. Barnard,et al.  Blood Pressure and Vegetarian Diets , 2017 .

[10]  M. Edelman,et al.  Nutrient Value of Leaf vs. Seed , 2016, Front. Chem..

[11]  Joachim Thiery,et al.  Effects of Initiating Moderate Alcohol Intake on Cardiometabolic Risk in Adults With Type 2 Diabetes: A 2-Year Randomized, Controlled Trial. , 2015, Annals of internal medicine.

[12]  Bo Yang,et al.  Effects of Vegetarian Diets on Blood Lipids: A Systematic Review and Meta‐Analysis of Randomized Controlled Trials , 2015, Journal of the American Heart Association.

[13]  M. Federici,et al.  Iron status in obesity: An independent association with metabolic parameters and effect of weight loss. , 2015, Nutrition, metabolism, and cardiovascular diseases : NMCD.

[14]  S. Wirsenius,et al.  The importance of reduced meat and dairy consumption for meeting stringent climate change targets , 2014, Climatic Change.

[15]  Douglas B Kell,et al.  Serum ferritin is an important inflammatory disease marker, as it is mainly a leakage product from damaged cells. , 2014, Metallomics : integrated biometal science.

[16]  N. Barnard,et al.  Vegetarian diets and glycemic control in diabetes: a systematic review and meta-analysis. , 2014, Cardiovascular diagnosis and therapy.

[17]  M. Mwale,et al.  Characteristics of duckweed and its potential as feed source for chickens reared for meat production: A review , 2013 .

[18]  Dolores Corella,et al.  Primary prevention of cardiovascular disease with a Mediterranean diet. , 2013, The New England journal of medicine.

[19]  T. Key,et al.  Risk of hospitalization or death from ischemic heart disease among British vegetarians and nonvegetarians: results from the EPIC-Oxford cohort study. , 2013, The American journal of clinical nutrition.

[20]  M. Blüher,et al.  Adipositas und Inflammation , 2013, Deutsche Medizinische Wochenschrift.

[21]  C. Schasteen,et al.  Protein digestibility-corrected amino acid scores (PDCAAS) for soy protein isolates and concentrate: criteria for evaluation. , 2011, Journal of agricultural and food chemistry.

[22]  David R Bassett,et al.  2011 Compendium of Physical Activities: a second update of codes and MET values. , 2011, Medicine and science in sports and exercise.

[23]  Suk,et al.  High phenolics and antioxidants of some tropical vegetables related to antibacterial and anticancer activities , 2011 .

[24]  C. Geissler,et al.  Iron, Meat and Health , 2011, Nutrients.

[25]  Duo Li Chemistry behind Vegetarianism. , 2011, Journal of agricultural and food chemistry.

[26]  M. Stampfer,et al.  Halo effect of a weight-loss trial on spouses: the DIRECT-Spouse study , 2009, Public Health Nutrition.

[27]  Yong-guan Zhu,et al.  Arsenic uptake and speciation in the rootless duckweed Wolffia globosa. , 2009, The New phytologist.

[28]  M. Stampfer,et al.  Weight loss with a low-carbohydrate, Mediterranean, or low-fat diet. , 2008, The New England journal of medicine.

[29]  D. Medeiros,et al.  Dietary Reference Intakes: the Essential Guide to Nutrient Requirements edited by JJ Otten, JP Hellwig, and LD Meyers, 2006, 560 pages, hardcover, $44.96. The National Academies Press, Washington, DC. , 2007 .

[30]  Jennifer J. Otten,et al.  DRI, Dietary reference intakes : the essential guide to nutrient requirements , 2006 .

[31]  B. Rosner,et al.  Dietary evaluation and attenuation of relative risk: multiple comparisons between blood and urinary biomarkers, food frequency, and 24-hour recall questionnaires: the DEARR study. , 2005, The Journal of nutrition.

[32]  D. Shahar,et al.  Selection of food items for inclusion in a newly developed food-frequency questionnaire , 2004, Public Health Nutrition.

[33]  Iris Shai,et al.  Adaptation of international nutrition databases and data-entry system tools to a specific population , 2003, Public Health Nutrition.

[34]  S. Samman,et al.  Green tea or rosemary extract added to foods reduces nonheme-iron absorption. , 2001, The American journal of clinical nutrition.

[35]  P. Trumbo,et al.  Dietary reference intakes: vitamin A, vitamin K, arsenic, boron, chromium, copper, iodine, iron, manganese, molybdenum, nickel, silicon, vanadium, and zinc. , 1998, Journal of the American Dietetic Association.

[36]  M. Lucock,et al.  Folic acid: nutritional biochemistry, molecular biology, and role in disease processes. , 2000, Molecular genetics and metabolism.

[37]  B E Ainsworth,et al.  Compendium of physical activities: an update of activity codes and MET intensities. , 2000, Medicine and science in sports and exercise.

[38]  Kathleen Deska Pagana,et al.  Mosby's Manual of Diagnostic and Laboratory Tests , 1998 .

[39]  C. Weaver,et al.  Exercise and iron status. , 1992, The Journal of nutrition.