Your search keyword '"leaf concentrate"' showing total 8 results

1. Yield and Toxin Analysis of Leaf Protein Concentrate from Common North American Coniferous Trees

Author

Maryam Mottaghi, Theresa K. Meyer, Ross John Tieman, David Denkenberger, and Joshua M. Pearce

Subjects

alternative food, resilient food, distributed production, edible plants, existential risk, food security, global catastrophic risk, leaf concentrate, leaf protein, non-target screening, resilience, sustainable food systems, toxins, nutrition

Abstract

In the event of an abrupt sunlight reduction scenario, there is a time window that occurs between when food stores would likely run out for many countries (~6 months or less) and ~1 year when resilient foods are scaled up. A promising temporary resilient food is leaf protein concentrate (LPC). Although it is possible to extract LPC from tree biomass (e.g., leaves and needles), neither the yields nor the toxicity of the protein concentrates for humans from the most common tree species has been widely investigated. To help fill this knowledge gap, this study uses high-resolution mass spectrometry and an open-source toolchain for non-targeted screening of toxins on five common North American coniferous species: Western Cedar, Douglas Fir, Ponderosa Pine, Western Hemlock, and Lodgepole Pine. The yields for LPC extraction from the conifers ranged from 1% to 7.5%. The toxicity screenings confirm that these trees may contain toxins that can be consumed in small amounts, and additional studies including measuring the quantity of each toxin are needed. The results indicate that LPC is a promising candidate to be used as resilient food, but future work is needed before LPCs from conifers can be used as a wide-scale human food.

Published

2023

2. Open source software toolchain for automated non‐targeted screening for toxins in alternative foods

Author

J.M. Pearce, L. Toppen, S.W. Breuer, and S.K. Schum

Subjects

Edible leaves, Computer science, Process (engineering), Alternative food, Science, Clinical Biochemistry, Toolchain, Global catastrophic risk, Toxins, Commercial software, Existential risk, business.industry, Modular design, Method Article, Food safety, Medical Laboratory Technology, Identification (information), Leaf protein, Sustainable food systems, Food processing, Edible plants, Table (database), Non-target screening, Biochemical engineering, business, Leaf concentrate

Abstract

Previous published methods for non-targeted screening of toxins in alternative foods such as leaf concentrate, agricultural residues or plastic fed to biological consortia are time consuming and expensive and thus present accessibility, as well as, time-constraint issues for scientists from under resourced settings to identify safe alternative foods. The novel methodology presented here, utilizes a completely free and open source software toolchain for automatically screening unknown alternative foods for toxicity using experimental data from ultra-high-pressure liquid chromatography and mass spectrometry. The process uses three distinct tools (mass spectrometry analysis with MZmine 2, formula assignment with MFAssignR, and data filtering with ToxAssign) enabling it to be modular and easily upgradable in the future. MZmine 2 and MFAssignR have been previously described, while ToxAssign was developed here to match the formulas output by formula assignment to potentially toxic compounds in a local table, then look up toxic data on the Open Food Tox Database for the matched compounds. This process is designed to fill the gap between food safety analysis techniques and developing alternative food production techniques to allow for new methods of food production to be preliminarily tested before animal testing. The methodology was validated against a previous method using proprietary commercial software. The new process identifies all of the toxic elements the previous process identified with more detailed information than the previous process was able to provide automatically.•Efficient analysis to find potentially toxic compounds in alternative foods and resilient foods.•Identification of potentially unsafe products without the use of live animal testing.•Modular free and open source design to allow for upgrading or fitting of user needs., Graphical abstract Image, graphical abstract

Published

2021

3. Preliminary Automated Determination of Edibility of Alternative Foods

Author

Pearce, Joshua M., Khaksari, Maryam, Denkenberger, David, Department of Electronics and Nanoengineering, Michigan Technological University, Alliance to Feed the Earth in Disasters, Aalto-yliopisto, and Aalto University

Subjects

alternative food, global catastrophic risk, CONSEQUENCES, leaf, NUCLEAR-WAR, TEA, sustainable food systems, edible leaves, public health, toxins, UNITED-STATES, SOFTWARE, existential risk, COST-EFFECTIVENESS, OPEN SCIENCE, non-target screening, edible plants, FAMINE, HEALTH, leaf concentrate, leaf protein, INTERVENTIONS

Abstract

Alternative food supplies could maintain humanity despite sun-blocking global catastrophic risks (GCRs) that eliminate conventional agriculture. A promising alternative food is making leaf concentrate. However, the edibility of tree leaves is largely uncertain. To overcome this challenge, this study provides the methods for obtaining rapid toxics screening of common leaf concentrates. The investigation begins with a non-targeted approach using an ultra-high-resolution hybrid ion trap orbitrap mass spectrometer with electrospray ionization (ESI) coupled to an ultra-high pressure two-dimensional liquid chromatograph system on the most common North American leaf: the red maple. Identified chemicals from this non-targeted approach are then cross-referenced with the OpenFoodTox database to identify toxic chemicals. Identified toxins are then screened for formula validation and evaluated for risk as a food. The results after screening show that red maple leaf concentrate contains at least eight toxic chemicals, which upon analysis do not present substantial risks unless consumed in abundance. This indicates that red maple leaf is still a potential alternative food. The results are discussed in the context of expanding the analysis with open science and using leaf extract from other plants that are not traditionally used as foods to offset current global hunger challenges, and move to a more sustainable food system while also preparing for GCRs.

Published

2019

4. Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate

Author

David Denkenberger, Joshua M. Pearce, and Maryam Khaksari

Subjects

Catastrophic risk, Non targeted, 010504 meteorology & atmospheric sciences, sustainable food systems, edible leaves, 0211 other engineering and technologies, Context (language use), 02 engineering and technology, Plant Science, Red maple, Orbitrap, 01 natural sciences, existential risk, law.invention, non-target screening, law, Food supply, leaf concentrate, leaf protein, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, alternative food, 021110 strategic, defence & security studies, global catastrophic risk, Ecology, leaf, business.industry, Communication, public health, Botany, toxins, Biotechnology, Sustainable food system, Agriculture, edible plants, QK1-989, Environmental science, business

Abstract

Alternative food supplies could maintain humanity despite sun-blocking global catastrophic risks (GCRs) that eliminate conventional agriculture. A promising alternative food is making leaf concentrate. However, the edibility of tree leaves is largely uncertain. To overcome this challenge, this study provides the methods for obtaining rapid toxics screening of common leaf concentrates. The investigation begins with a non-targeted approach using an ultra-high-resolution hybrid ion trap orbitrap mass spectrometer with electrospray ionization (ESI) coupled to an ultra-high pressure two-dimensional liquid chromatograph system on the most common North American leaf: the red maple. Identified chemicals from this non-targeted approach are then cross-referenced with the OpenFoodTox database to identify toxic chemicals. Identified toxins are then screened for formula validation and evaluated for risk as a food. The results after screening show that red maple leaf concentrate contains at least eight toxic chemicals, which upon analysis do not present substantial risks unless consumed in abundance. This indicates that red maple leaf is still a potential alternative food. The results are discussed in the context of expanding the analysis with open science and using leaf extract from other plants that are not traditionally used as foods to offset current global hunger challenges, and move to a more sustainable food system while also preparing for GCRs.

Published

2019

5. Leaf Concentrate Fortification of Antenatal Protein-Calorie Snacks Improves Pregnancy Outcomes

Author

Magon A, Simon Collin, Joshi P, Davys Late G, Attlee A, and Mathur B

Subjects

Anemia, Iron-Deficiency, Plant Extracts, Infant, Newborn, Pregnancy Outcome, Birthweight, India, Anaemia, Original Papers, Plant Leaves, Pregnancy Complications, Young Adult, Pregnancy, Food, Fortified, Birth Weight, Humans, Female, Snacks, Leaf concentrate

Abstract

Ready-to-eat (RTE) snacks are routinely distributed to pregnant women in India. These provide protein and calories but are low in micronutrients. We investigated whether RTE snacks fortified with leaf concentrate (LC) could improve pregnancy outcomes, including maternal haemoglobin (Hb) concentrations and infants’ birthweight. This randomized controlled two-arm trial was conducted over 18 months: control (sRTE) group received standard 120 g RTE snack (102 g wheat flour, 18 g soya flour); intervention (lcRTE) group received the same snack fortified with 7 g LC. The study was conducted in Jaipur, Rajasthan, India. One hundred and five pregnant women aged 18-35 years were studied. Among the 105 women randomized to the two arms of the trial, 2 (1.9%) were severely anaemic (Hb ≤6.0 g/dL); 55 (53.4%) were moderately anaemic (Hb 6.0-8.0 g/dL); 34 (33.0%) were mildly anaemic (Hb 8.6-10.9 g/dL); and 12 (11.7%) were not anaemic (Hb ≥11.0 g/dL). In the final month of pregnancy, 83.0% (39/47) of women in the sRTE group had Hb ≤8.5 g/dL compared to 37.8% (17/45) in the lcRTE group (p

Published

2014

6. Leaf concentrate compared with skimmed milk as nutritional supplementation for HIV-infected children: a randomized controlled trial in Burundi

Author

Novat Twungubumwe, Laurent Andréoletti, Bernard Leclercq, Eric Bertin, François-Christophe Richardier, Simon M Collin, Université de Reims Champagne-Ardenne (URCA), Centre Hospitalier Universitaire de Reims (CHU Reims), Medical and Molecular Virology Unit and EA-484 University Hospital Center and Medical School of Reims,Reims,France., and Department of Nutrition, University of Reims Champagne-Ardenne (URCA), Reims, France

Subjects

0301 basic medicine, Male, MESH: CD4 Lymphocyte Count, Human immunodeficiency virus (HIV), Medicine (miscellaneous), HIV Infections, MESH: Dietary Supplements, medicine.disease_cause, law.invention, Randomized controlled trial, law, [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases, MESH: Child, MESH: Animals, Palatability, Child, ComputingMilieux_MISCELLANEOUS, media_common, 2. Zero hunger, education.field_of_study, Nutrition and Dietetics, MESH: HIV Infections, Research Papers, 3. Good health, Milk, Paediatric, Child, Preschool, Female, MESH: Plant Preparations, Viral load, Leaf concentrate, food.ingredient, Nutritional Supplementation, Adolescent, Milk powder, media_common.quotation_subject, Burundi, Population, 03 medical and health sciences, food, Animal science, Skimmed milk, medicine, Animals, Humans, education, MESH: Burundi, MESH: Adolescent, 030109 nutrition & dietetics, MESH: Humans, business.industry, MESH: Child, Preschool, Public Health, Environmental and Occupational Health, HIV, Appetite, MESH: Male, CD4 Lymphocyte Count, MESH: Milk, Dietary Supplements, Plant Preparations, business, MESH: Female, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition

Abstract

ObjectiveThe effectiveness of leaf concentrate powder (LCP) as a nutritional supplement was established in trials conducted among adolescent girls and pregnant women in India. Here we evaluate LCP, compared with skimmed milk powder (SMP), as a supplement for antiretroviral-naïve children living with HIV in a sub-Saharan African country.DesignRandomized controlled, two-arm, 6-month trial comparing effects of isoproteic (5 g) LCP (10 g daily) and SMP (15 g daily) on HIV-1 viral load, CD4+cell count/percentage, weight/height-for-age, general blood parameters, diarrhoea, respiratory and HIV-related opportunistic infections.SettingBujumbura and Kirundo, Burundi.SubjectsEighty-three HIV-positive, antiretroviral-naïve children aged 5–14 years: median (range) CD4+count, 716 (361–1690) cells/mm3; log10HIV-1 viral load, 4·39 (1·79–6·00).ResultsLCP was equivalent to SMP in relation to HIV-specific blood parameters and did not demonstrate superiority over SMP in relation to Hb. Three children in each arm (LCP, 7·1 % (3/42); SMP, 7·3 % (3/41)) proceeded to antiretroviral therapy because their CD4+counts fell below 350 cells/mm3. Children in the LCP group reported higher levels of appetite and overall health at 6 months. There were no differences in clinical events or any other outcome measures. LCP was less palatable than SMP to the children in this population, but there were few negative perceptions of appearance, texture and taste.ConclusionsLCP appears to be equivalent to SMP as a nutritional supplement in this population, despite slightly lower palatability. In relation to viral load and CD4+count, equivalence may indicate no effect in either group. Effectiveness relative to no supplementation remains to be determined.

Published

2016

7. Proximate Analysis, Mineral Content, Amino Acid Composition and Functional Properties of Vernonia amygdalina Vegetable Leaf Protein Concentrates

Author

A. Sodamade

Subjects

Mineral, biology, Amino acid composition, Proximate analysis, Chemistry, Vernonia amygdalina, Botany, Leaf protein, biology.organism_classification, Leaf concentrate

Abstract

Freshly harvested Vernonia amygdalina green vegetable was authenticated and processed for its vegetable leaf protein concentrates with a view to evaluate its proximate constituents, amino acid content and mineral composition. Proximate analysis was determined using standard analytical technique. The nutrient composition of the protein concentrates revealed the moisture content (66.45±0.07), Crude fat (9.20 ±0.85), Crude fibre (10.46±1.05), Crude protein (44.28 ±2.43), ash (12.48± 0.24) and Carbohydrate (23.58±3.4). The mineral content of the sample indicated that Ca, Mg, K, and Na are the most abundant minerals with the following values Na;57.5±0.34,Ca;151.6±1.40, K; 61.5±0.38, Mg; 96.5±0.96, other minerals that were present in the sample in trace concentration are Fe(2.3 ± 0.42), Zn (1.11± 0.11), Mn (0.1± 0.14), Cu (0.1 ± 0.73), Pb (0.1± 0.63),while Selenium were not detected in the sample indicating that the leaf concentrate is fit for dietary consumption. The amino acid profile reveals favourable nutritional balance with the presence of essential and non-essential amino acid except that tryptophan which was believed to be predominant in animal protein was not detected.

Published

2013

8. EVALUACIÓN DE LA COMPOSICIÓN NUTRICIONAL, ANTINUTRICIONAL Y BIODISPONIBILIDAD IN VITRO DE DIFERENTES EXTRACTOS FOLIARES

Author

Pico F, Sayda Milena, Gutiérrez, Dayron, Aragón G, Ingrid, Escobar S, Andrés, Ortiz, Darwin, Sánchez, Teresa, Imbachí N, Paola, and Pachón, Helena

Subjects

componentes antinutricionales, concentrado de hoja, foliar extract, nutrients, biodisponibilidad in vitro, antinutrient, componentes nutricionales, in vitro bioavailability, leaf concentrate, Extracto foliar

Abstract

Los extractos foliares (EF) son utilizados como complemento nutricional en países como Nicaragua y Tanzania. Se evaluaron hojas y EF de yuca, fríjol, batata y alfalfa, y se cuantificó los componentes nutricionales, antinutricionales y biodisponibilidad por métodos in vitro. En promedio (DE), el EF de fríjol tiene una elevada concentración de hierro (1006,23 (8,49) mg/kg); el EF de yuca tiene alta concentración de zinc (110,65 (6,72) mg/ kg) y proteína soluble (34,23 (3,81) g/kg). Así mismo, la digestibilidad in vitro de proteína en los EFs de yuca, fríjol y alfalfa fueron superiores a 71,18%; hierro dializable in vitro menor a 2,29%; la relación molar fitato:zinc inferior a 0,08 y la bioaccesibilidad all-trans-β -caroteno superior a 23,85%. Estos valores sugieren una alta asimilación de proteína, zinc y all-trans-β -caroteno, y una baja asimilabilidad de hierro. Los EFs pueden ser una alternativa nutricional en la alimentación en países que carecen de diversificación alimentaria. Foliar extracts (FEs) are an alternative to address food and nutrition insecurity. FEs and leaves of cassava, bean, sweet potato and alfalfa were evaluated for nutrient and antinutrient composition and in vitro nutrient bioavailability. Bean FE had a high average ± (SD) iron concentration (1006 ± 8.49 mg/kg), as did cassava FE for zinc (110.1 ± 6.72 mg/kg) and soluble protein (34.23 ± 3.81 g/kg) concentration. For the cassava, bean and alfalfa FEs in vitro protein digestibility was greater than 71.18%; in vitro iron dialyzability was less than 2.29%; the phytate:zinc molar ratio was less than 0.08, and the in vitro all-trans-β-carotene bioavailability was greater than 23.85%. These values suggest a high protein, zinc and all-trans- β -carotene bioavailability and a low iron bioavailability. FEs can be a nutritious alternative for those countries with low dietary diversity.

Published

2011