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Fe Deficiency, Dietary Bioavailability and Absorption

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ISBN: 9783038972303 9783038972310 Year: Pages: 214 DOI: 10.3390/books978-3-03897-231-0 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Internal medicine
Added to DOAB on : 2018-10-12 11:51:12
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ca. 200 words; this text will present the book in all promotional forms (e.g. flyers). Please describe the book in straightforward and consumer-friendly terms.[The World Health Organization (WHO) estimates that approximately one-third of worldwide infant deaths, and one half in developing countries, can be attributed to malnutrition. More specifically, iron (Fe) deficiency is the most common nutritional deficiency worldwide and a major cause of infant mortality. Fe deficiency is particularly widespread in low-income countries because of a general lack of consumption of animal products (which can promote non-heme Fe absorption and contain highly bioavailable heme Fe) coupled with a high consumption of a monotonous diet of cereal grains and legumes. Such diets are low in bioavailable Fe due to the presence of phytic acid and certain polyphenols that are inhibitors of Fe bioavailability. Diets with chronically poor Fe bioavailability which result in high prevalence of Fe deficiency and anemia, increase the risk of all-cause child mortalities and also may lead to many pathophysiological consequences including stunted growth, low birth weight, delayed mental development and motor functioning, among others. Thus, a crucial step in alleviating Fe deficiency anemia is through understanding how specific dietary practices and components contribute to the Fe status in a particular region where Fe deficiency is prevalent. The aim of this Special Issue is to report on the recent advances and research developments related to the improvements of dietary Fe bioavailability and absorption in an effort to alleviate dietary Fe deficiency.]

The Importance of Iron in Pathophysiologic Conditions

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889195244 Year: Pages: 479 DOI: 10.3389/978-2-88919-524-4 Language: English
Publisher: Frontiers Media SA
Subject: Therapeutics --- Science (General)
Added to DOAB on : 2015-12-10 11:59:06
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The iron element (Fe) is strictly required for the survival of most forms of life, including bacteria, plants and humans. Fine-tuned regulatory mechanisms for Fe absorption, mobilization and recycling operate to maintain Fe homeostasis, the disruption of which leads to Fe overload or Fe depletion. Whereas the deleterious effect of Fe deficiency relies on reduced oxygen transport and diminished activity of Fe-dependent enzymes, the cytotoxicity induced by Fe overload is due to the ability of this metal to act as a pro-oxidant and catalyze the formation of highly reactive hydroxyl radicals via the Fenton chemistry. This results in unfettered oxidative stress generation that, by inducing protein, lipid and DNA oxidation, leads to Fe-mediated programmed cell death and organ dysfunction. Major and systemic Fe overloads occurring in hemochromatosis and Fe-loading anemias have been extensively studied. However, localized tissue Fe overload was recently associated to a variety of pathologies, such as infection, inflammation, cancer, cardiovascular and neurodegenerative disorders. In keeping with the existence of cross-regulatory interactions between Fe homeostasis and the pathophysiology of these diseases, further investigations on the mechanisms that provide cellular and systemic adaptation to tissue Fe overload are instrumental for future therapeutic approaches. Thus, we encourage our colleagues to submit original research papers, reviews, perspectives, methods and technology reports to contribute their findings to a current state of the art on a comprehensive overview of the importance of iron metabolism in pathophysiologic conditions.

Iron as Therapeutic Targets in Human Diseases Volume 1

Authors: --- ---
ISBN: 9783039280827 9783039280834 Year: Pages: 472 DOI: 10.3390/books978-3-03928-083-4 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Biochemistry
Added to DOAB on : 2020-04-07 23:07:08
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Iron is an essential element for almost all organisms, a cofactor playing a crucial role in a number of vital functions, including oxygen transport, DNA synthesis, and respiration. However, its ability to exchange electrons renders excess iron potentially toxic, since it is capable of catalyzing the formation of highly poisonous free radicals. As a consequence, iron homeostasis is tightly controlled by sophisticated mechanisms that have been partially elucidated. Because of its biological importance, numerous disorders have been recently linked to the deregulation of iron homeostasis, which include not only the typical disorders of iron overload and deficiency but also cancer and neurodegenerative diseases. This leads iron metabolism to become an interesting therapeutic target for novel pharmacological treatments against these diseases. Several therapies are currently under development for hematological disorders, while other are being considered for different pathologies. The therapeutic targeting under study includes the hepcidin/ferroportin axis for the regulation of systemic iron homeostasis, complex cytosolic machineries for the regulation of the intracellular iron status and its association with oxidative damage, and reagents exploiting proteins of iron metabolism such as ferritin and transferrin receptor. A promising potential target is a recently described form of programmed cell death named ferroptosis, in which the role of iron is essential but not completely clarified. This Special Issue has the aim to summarize the state-of-the-art, and the latest findings published in the iron field, as well as to elucidate future directions.

Keywords

cinnamic acid derivatives --- soybean seed ferritin --- iron release --- binding ability --- Fe2+-chelating activity --- reducibility --- adverse event profile --- anaemia --- bioengineering --- labile iron --- intravenous iron --- iron-carbohydrate complex --- iron processing --- iron metabolism --- infection --- innate immunity --- hepcidin --- ferritin --- anemia of inflammation --- pharmaceutical targets --- iron deficiency anemia --- nutrient iron --- oral iron therapy --- FeSO4 --- NaFeEDTA --- non-transferrin-bound iron (NTBI) --- developing countries --- Indonesia --- neurodegeneration --- mitochondria --- therapy --- heme --- haem --- Iron-sulfur --- Friedreich Ataxia --- Oxidative stress --- Iron chelators --- iron deficiency --- anemia --- cancer --- hepcidin --- patient blood management --- malaria --- iron deficiency --- hepcidin --- TNF --- children --- Africa --- Anemia --- iron deficiency --- oral iron salts --- intravenous iron --- Sucrosomial® iron --- M cells --- bioavailability --- tolerability --- efficacy --- iron --- gut microbiota --- iron supplementation --- iron transporters --- mucosal immunity --- SCFA --- intestinal inflammation --- inflammatory bowel disease (IBD) --- colorectal cancer --- oxidative stress --- anaemia --- cardiovascular disease --- chronic kidney disease --- IV iron therapy --- bone homeostasis --- iron overload --- iron deficiency --- osteoclast --- osteoblast --- osteoporosis --- neurodegeneration with brain iron accumulation --- iron chelation therapy --- multifunctional iron chelators --- fluorescent iron chelator --- 3-hydroxy-4-pyridinone --- fluorophore --- rhodamine --- membrane interactions --- bacteria --- antibacterial activity --- histidine --- iron --- anemia --- oxidative stress --- kidney --- chelation --- iron --- retina --- age-related macular degeneration (AMD) --- iron --- lipid --- obesity --- cancer --- neurodegeneration --- iron chelation --- phlebotomy --- NCOA4 --- ferritinophagy --- iron homeostasis --- erythropoiesis --- ferroptosis --- cancer --- Tfr2 --- iron metabolism --- hepcidin --- erythropoiesis --- SNC --- ferritin --- iron mobilization --- chaotropes --- flavin nucleotide --- electron transfer --- kinetics --- ferritin --- iron --- iron delivery --- nanotechnology --- nanocage --- drug delivery --- inflammation --- serum biomarker --- iron metabolism --- hepcidin --- ferroportin --- hemochromatosis --- anemia --- hepcidin --- iron deficiency anemia --- iron dextran --- neonatal period --- pig --- supplementation --- Alzheimer’s disease --- neuroinflammation --- neurodegeneration --- cytokines --- neuroimmune responses --- iron --- genetic hemochromatosis --- non transferrin bound iron --- hepcidin --- ferroportin --- venesections --- Anemia of chronic disease --- anemia of inflammation --- hepcidin --- anti-hepcidin therapy --- iron supplementation --- macrophage --- central nurse macrophage --- red pulp macrophage --- Kupffer cell --- iron metabolism --- erythropoiesis --- erythroblastic islands --- erythrophagocytosis --- inflammation --- iron homeostasis --- lung diseases --- oxygen sensing --- hypoxia --- ferritin --- hereditary hyperferritinemia --- hereditary hypoferritinemia --- iron metabolism --- cataracts syndrome --- neurodegenerative disease --- n/a --- iron --- neurodegeneration --- NBIA --- hepcidin --- iron --- lung --- acute lung injury --- COPD --- lung infection --- cystic fibrosis --- iron --- anaemia --- infection --- malaria --- immunity --- brain development --- growth --- microbiome --- hepcidin --- ferritin --- iron supplementation --- infants --- children --- low and middle income countries --- liver --- iron --- hepcidin --- Mek/Erk --- Hfe --- Bmp/Smad --- iron --- mycobacteria --- immunity --- Alzheimer’s disease --- iron homeostasis --- ferroptosis --- senescence --- chelators --- macrophages --- iron --- metabolism --- inflammation --- iron --- ferritin --- acute kidney injury --- chronic kidney disease --- vascular calcification --- iron --- hepcidin --- ferroportin --- Interleukin-6 --- infection --- rheumatoid arthritis --- iron homeostasis --- iron absorption --- non-haem iron --- flavonoids --- developmental --- iron deficiency anemia --- neonatal --- transferrin receptor --- treatment --- hemochromatosis --- HFE --- natural history --- T lymphocytes --- MHC --- CD8+ T cells --- prevention --- iron homeostasis --- hepcidin --- protein binding --- peritoneal dialysis --- iron --- hepcidin --- iron regulatory proteins --- cardiomyocyte --- chronic heart failure --- pulmonary arterial smooth muscle cells --- pulmonary arterial hypertension --- iron --- brain --- neurophysiology --- cognition --- social behavior --- didox --- iron chelators --- antitumor compound --- iron metabolism --- RRM2 --- SLC40A1 --- ferroportin --- iron overload --- non-HFE --- ferritin --- hemochromatosis --- iron --- chelation --- neurodegenerative diseases --- pituitary --- brain --- hemopexin --- heme homeostasis --- iron homeostasis --- hemolysis --- haptoglobin --- ferroptosis --- inflammation --- biomarker --- heme oxygenase --- liver --- microbiome --- trauma --- hemorrhage --- iron metabolism --- hepcidin --- iron homeostasis --- ferroportin --- n/a

Iron as Therapeutic Targets in Human Diseases Volume 2

Authors: --- ---
ISBN: 9783039281145 9783039281152 Year: Pages: 440 DOI: 10.3390/books978-3-03928-115-2 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Biochemistry
Added to DOAB on : 2020-04-07 23:07:08
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Iron is an essential element for almost all organisms, a cofactor playing a crucial role in a number of vital functions, including oxygen transport, DNA synthesis, and respiration. However, its ability to exchange electrons renders excess iron potentially toxic, since it is capable of catalyzing the formation of highly poisonous free radicals. As a consequence, iron homeostasis is tightly controlled by sophisticated mechanisms that have been partially elucidated. Because of its biological importance, numerous disorders have been recently linked to the deregulation of iron homeostasis, which include not only the typical disorders of iron overload and deficiency but also cancer and neurodegenerative diseases. This leads iron metabolism to become an interesting therapeutic target for novel pharmacological treatments against these diseases. Several therapies are currently under development for hematological disorders, while other are being considered for different pathologies. The therapeutic targeting under study includes the hepcidin/ferroportin axis for the regulation of systemic iron homeostasis, complex cytosolic machineries for the regulation of the intracellular iron status and its association with oxidative damage, and reagents exploiting proteins of iron metabolism such as ferritin and transferrin receptor. A promising potential target is a recently described form of programmed cell death named ferroptosis, in which the role of iron is essential but not completely clarified. This Special Issue has the aim to summarize the state-of-the-art, and the latest findings published in the iron field, as well as to elucidate future directions.

Keywords

cinnamic acid derivatives --- soybean seed ferritin --- iron release --- binding ability --- Fe2+-chelating activity --- reducibility --- adverse event profile --- anaemia --- bioengineering --- labile iron --- intravenous iron --- iron-carbohydrate complex --- iron processing --- iron metabolism --- infection --- innate immunity --- hepcidin --- ferritin --- anemia of inflammation --- pharmaceutical targets --- iron deficiency anemia --- nutrient iron --- oral iron therapy --- FeSO4 --- NaFeEDTA --- non-transferrin-bound iron (NTBI) --- developing countries --- Indonesia --- neurodegeneration --- mitochondria --- therapy --- heme --- haem --- Iron-sulfur --- Friedreich Ataxia --- Oxidative stress --- Iron chelators --- iron deficiency --- anemia --- cancer --- hepcidin --- patient blood management --- malaria --- iron deficiency --- hepcidin --- TNF --- children --- Africa --- Anemia --- iron deficiency --- oral iron salts --- intravenous iron --- Sucrosomial® iron --- M cells --- bioavailability --- tolerability --- efficacy --- iron --- gut microbiota --- iron supplementation --- iron transporters --- mucosal immunity --- SCFA --- intestinal inflammation --- inflammatory bowel disease (IBD) --- colorectal cancer --- oxidative stress --- anaemia --- cardiovascular disease --- chronic kidney disease --- IV iron therapy --- bone homeostasis --- iron overload --- iron deficiency --- osteoclast --- osteoblast --- osteoporosis --- neurodegeneration with brain iron accumulation --- iron chelation therapy --- multifunctional iron chelators --- fluorescent iron chelator --- 3-hydroxy-4-pyridinone --- fluorophore --- rhodamine --- membrane interactions --- bacteria --- antibacterial activity --- histidine --- iron --- anemia --- oxidative stress --- kidney --- chelation --- iron --- retina --- age-related macular degeneration (AMD) --- iron --- lipid --- obesity --- cancer --- neurodegeneration --- iron chelation --- phlebotomy --- NCOA4 --- ferritinophagy --- iron homeostasis --- erythropoiesis --- ferroptosis --- cancer --- Tfr2 --- iron metabolism --- hepcidin --- erythropoiesis --- SNC --- ferritin --- iron mobilization --- chaotropes --- flavin nucleotide --- electron transfer --- kinetics --- ferritin --- iron --- iron delivery --- nanotechnology --- nanocage --- drug delivery --- inflammation --- serum biomarker --- iron metabolism --- hepcidin --- ferroportin --- hemochromatosis --- anemia --- hepcidin --- iron deficiency anemia --- iron dextran --- neonatal period --- pig --- supplementation --- Alzheimer’s disease --- neuroinflammation --- neurodegeneration --- cytokines --- neuroimmune responses --- iron --- genetic hemochromatosis --- non transferrin bound iron --- hepcidin --- ferroportin --- venesections --- Anemia of chronic disease --- anemia of inflammation --- hepcidin --- anti-hepcidin therapy --- iron supplementation --- macrophage --- central nurse macrophage --- red pulp macrophage --- Kupffer cell --- iron metabolism --- erythropoiesis --- erythroblastic islands --- erythrophagocytosis --- inflammation --- iron homeostasis --- lung diseases --- oxygen sensing --- hypoxia --- ferritin --- hereditary hyperferritinemia --- hereditary hypoferritinemia --- iron metabolism --- cataracts syndrome --- neurodegenerative disease --- n/a --- iron --- neurodegeneration --- NBIA --- hepcidin --- iron --- lung --- acute lung injury --- COPD --- lung infection --- cystic fibrosis --- iron --- anaemia --- infection --- malaria --- immunity --- brain development --- growth --- microbiome --- hepcidin --- ferritin --- iron supplementation --- infants --- children --- low and middle income countries --- liver --- iron --- hepcidin --- Mek/Erk --- Hfe --- Bmp/Smad --- iron --- mycobacteria --- immunity --- Alzheimer’s disease --- iron homeostasis --- ferroptosis --- senescence --- chelators --- macrophages --- iron --- metabolism --- inflammation --- iron --- ferritin --- acute kidney injury --- chronic kidney disease --- vascular calcification --- iron --- hepcidin --- ferroportin --- Interleukin-6 --- infection --- rheumatoid arthritis --- iron homeostasis --- iron absorption --- non-haem iron --- flavonoids --- developmental --- iron deficiency anemia --- neonatal --- transferrin receptor --- treatment --- hemochromatosis --- HFE --- natural history --- T lymphocytes --- MHC --- CD8+ T cells --- prevention --- iron homeostasis --- hepcidin --- protein binding --- peritoneal dialysis --- iron --- hepcidin --- iron regulatory proteins --- cardiomyocyte --- chronic heart failure --- pulmonary arterial smooth muscle cells --- pulmonary arterial hypertension --- iron --- brain --- neurophysiology --- cognition --- social behavior --- didox --- iron chelators --- antitumor compound --- iron metabolism --- RRM2 --- SLC40A1 --- ferroportin --- iron overload --- non-HFE --- ferritin --- hemochromatosis --- iron --- chelation --- neurodegenerative diseases --- pituitary --- brain --- hemopexin --- heme homeostasis --- iron homeostasis --- hemolysis --- haptoglobin --- ferroptosis --- inflammation --- biomarker --- heme oxygenase --- liver --- microbiome --- trauma --- hemorrhage --- iron metabolism --- hepcidin --- iron homeostasis --- ferroportin --- n/a

Dietary Trace Minerals

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ISBN: 9783039283248 9783039283255 Year: Pages: 208 DOI: 10.3390/books978-3-03928-325-5 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Nutrition and Food Sciences
Added to DOAB on : 2020-04-07 23:07:08
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Dietary trace minerals are pivotal and hold a key role in numerous metabolic processes. Trace mineral deficiencies (except for iodine, iron, and zinc) do not often develop spontaneously in adults on ordinary diets; infants are more vulnerable because their growth is rapid and their intake varies. Trace mineral imbalances can result from hereditary disorders (e.g., hemochromatosis, Wilson disease), kidney dialysis, parenteral nutrition, restrictive diets prescribed for people with inborn errors of metabolism, or various popular diet plans. The Special Issue “Dietary Trace Minerals” comprised 13 peer-reviewed papers on the most recent evidence regarding the dietary intake of trace minerals, as well as their effect on the prevention and treatment of non-communicable diseases. Original contributions and literature reviews further demonstrated the crucial and central part that dietary trace minerals play in human health and development. This editorial provides a brief and concise overview of the content of the Dietary Trace Minerals Special Issue.

Micronutrients Intake and Status during Pregnancy and Lactation

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ISBN: 9783038978404 9783038978411 Year: Pages: 152 DOI: 10.3390/books978-3-03897-841-1 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Nutrition and Food Sciences
Added to DOAB on : 2019-05-09 17:16:14
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Optimal nutrition is important during pregnancy and lactation for the health of both the mother and infant. Chronic deficiencies of both macronutrients and micronutrients are well established in developing countries. Although in developed countries overconsumption of macronutrients is a major issue, micronutrient deficiencies which occur concomitantly are no less of a concern. Furthermore in developed countries there is also the risk of excessive micronutrient intake from dietary supplements. Micronutrients have a role in fetal and neonatal health and also health in later life. Micronutrient deficiency or toxicity during pregnancy or early life can permanently affect developing tissues, resulting in adverse growth and development of the infant which is associated with chronic diseases in adulthood. An aberrant micronutrient intake during pregnancy or lactation can also have detrimental effect on the mother both in the neonatal period and in later life.

Children on the Move: The Health of Refugee, Immigrant and Displaced Children

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ISBN: 9783039282005 9783039282012 Year: Pages: 142 DOI: 10.3390/books978-3-03928-201-2 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: History --- Migration --- Sociology --- Social Sciences
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This Special Issue of Children will focus on the migration arc of children from their country of origin through the experience in refugee camps and, finally, to their arrival in in a new home. It will examine the impact experiencing migration as refugees, immigrants or those internally displaced due to war and conflict has on children’s health. Explored topics include adverse health conditions, trauma and mental health, best practice and care coordination. It explores specific populations, such as children with disabilities, unaccompanied minors and child separation at international borders. This Special Issue also includes an examination of new clinical guidelines, the development of new care systems and advocacy for new policies. It also provides a summary of the UN Convention on the Rights of the Child’s specific mandate to provide for the most vulnerable children in need.

Probiotics and Prebiotics in Pediatrics

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ISBN: 9783038979500 9783038979517 Year: Pages: 258 DOI: 10.3390/books978-3-03897-951-7 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Pediatrics
Added to DOAB on : 2019-06-26 08:44:06
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The goal of this Special Issue, “Probiotics and Prebiotics in Pediatrics”, is to focus on the importance of pediatric nutrition with probiotics and prebiotics to improve gastrointestinal health in newborn, infants, and children.Specifically, the aim is to clarify if probiotics and prebiotics can influence gut microbiota composition and host-interaction favoring human health and preventing diseases.This new information will provide health care professionals with a widespread, clear and update evidence on probiotics and prebiotics and intestinal gut microbiota in pediatric care.

Keywords

acute diarrhea --- children --- Bacillus clausii --- efficacy --- randomized controlled trials --- breast feeding --- formula feeding --- human milk oligosaccharide --- 2?-fucosyllactose --- Lacto-N-neotetraose --- microbiota --- bifidobacteria --- acute gastroenteritis --- children --- Lactobacillus reuteri --- oral rehydration solution --- probiotics --- zinc --- probiotics --- allergy --- infants --- pediatrics --- human milk oligosaccharides --- human milk --- infant formula --- necrotizing enterocolitis --- preterm infant --- preterm infant --- probiotic --- human milk --- probiotic strain --- safety --- fecal microbiota --- protein hydrolyzed formulas --- cow’s milk protein --- tolerance acquisition --- non-IgE mediated allergy --- microbiome --- intestinal microbiota --- microbial programming --- nutritional programming --- allergy --- prevention --- neonatal --- preterm --- breast milk --- oligosaccharides --- diversity --- necrotizing enterocolitis --- sepsis --- growth --- constipation --- prebiotic --- intestinal transit time --- infant --- Bifidobacterium --- Lactobacillus --- probiotics --- asthma --- Childhood Asthma Control Test --- peak expiratory flow rate --- immunoglobulin E --- “Probiotics”[Mesh] --- “Pregnancy”[Mesh] --- “Infant, Newborn”[Mesh] --- Bifidobacterium breve --- probiotics --- paediatrics --- therapeutic microbiology --- celiac disease --- iron deficiency anemia --- gluten-free diet --- inulin --- prebiotics --- iron absorption --- hepcidin --- probiotics --- microbiota --- celiac disease --- gluten free diet --- probiotics --- functional gastrointestinal disorders --- functional abdominal pain disorders --- functional constipation --- infantile colic --- infant --- colic --- lactobacilli --- n/a --- fecal microbiota --- protein hydrolyzed formulas --- cow’s milk protein --- tolerance acquisition --- non-IgE mediated allergy --- n/a

Looking Forward to the Future of Heparin: New Sources, Developments and Applications

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ISBN: 9783038429494 9783038429500 Year: Pages: 282 DOI: 10.3390/books978-3-03842-950-0 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Chemistry (General)
Added to DOAB on : 2019-08-28 11:21:28
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This book is a printed edition of the Special Issue Looking Forward to the Future of Heparin: New Sources, Developments and Applications that was published in Molecules

Keywords

thrombin inhibition --- LMWH --- antithrombin --- heparin oligosaccharides --- ternary complex --- heparin --- hepcidin --- iron homeostasis --- anemia --- heparin-induced thrombocytopenia --- diagnosis --- functional assay --- platelets --- heparin --- heparan sulphate --- TGF-? --- bone morphogenetic protein (BMP) --- growth and differentiation factor (GDF) --- GDNF --- BMP antagonists --- noggin --- sclerostin --- gremlin --- heparin --- enoxaparin --- subarachnoid hemorrhage --- edema --- brain injury --- inflammation --- cisplatin --- low molecular weight heparin (LMWH) --- ovarian cancer --- resistance --- heparin --- glycosaminoglycans --- chondroitin sulfate --- perylene diimide dyes --- dermatan sulfate --- fluorescent probe --- Heparin Red --- assay --- dermatan sulfate --- human plasma --- heparin --- alginate --- sulfated alginate --- biomaterials --- heparin --- heparan sulfate --- serglycin --- proteoglycan --- recombinant expression --- bioreactor --- theranostics --- solid lipid nanoparticles --- iron oxide nanoparticles --- heparin coating --- intestinal lymphatic absorption --- heparin --- heparin process --- manufacturing methods --- industrial --- super paramagnetic iron oxide nanoparticles (SPION) --- hyaluronic acid (HA) --- bovine serum albumin (BSA) --- Fe3O4·DA-BSA/HA --- paclitaxel (PTX) --- magnetic resonance imaging (MRI) --- low-molecular-weight heparin --- dalteparin --- NMR --- LC-MS --- affinity chromatography --- danaparoid sodium --- low molecular weight glycosaminoglycans --- orthogonal multi-analytical methods --- sequence and compositional investigations --- component quantitative analysis --- heparin --- crude heparin --- NMR --- quantitative NMR --- PCA --- chemometric --- HSQC --- bovine heparin --- porcine heparin --- molecular weight --- size exclusion chromatography --- pharmacopeia --- Fondaparinux sodium --- extended physicochemical characterization --- qNMR --- single crystal X-ray structure --- reference standard --- iduronic acid conformation --- Arixtra® --- n/a --- n/a --- n/a

Medicinal Plants and Natural Product Research

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ISBN: 9783039281183 9783039281190 Year: Pages: 231 DOI: 10.3390/books978-3-03928-119-0 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Plant Sciences
Added to DOAB on : 2020-04-07 23:07:08
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The book entitled Medicinal Plants and Natural Product Research describes various aspects of ethnopharmacological uses of medicinal plants; extraction, isolation, and identification of bioactive compounds from medicinal plants; various aspects of biological activity such as antioxidant, antimicrobial, anticancer, immunomodulatory activity, etc., as well as characterization of plant secondary metabolites as active substances from medicinal plants.

Keywords

Chrysanthemum coronarium L. --- aerial parts --- caffeoylquinic acids --- Malian medicinal plants --- Biophytum umbraculum --- Burkea africana --- Lannea velutina --- Terminalia macroptera --- medicinal plants --- traditional knowledge --- Eastern Himalayas --- mountain plants --- ethnobotany --- ethnopharmacology --- bioprospecting --- antibiotic resistance --- antimicrobial --- mechanism of action --- plant metabolite --- saline habitats --- secondary metabolites --- adaptation --- different solvents --- antibiotic resistance --- antimicrobial activity --- cytotoxicity --- ethnobotany --- Eucalyptus --- natural products --- Pseudomonas aeruginosa --- stingless bees --- Tetragonula --- traditional medicine --- basil varieties --- essential oil --- GC-MS --- harvest --- cluster analysis --- antimicrobial --- antioxidants --- medicinal plants --- BHT --- Ficus hirta --- Moraceae --- carboline alkaloids --- sesquiterpenoids --- flavonoids --- antifungal --- phytochemicals --- Nirgundi --- chaste tree --- antibacterial --- free radical --- scavenger --- oxidative stress --- P. alliaceae --- P. niruri --- S. reticulata --- UPLC --- TQ-ESI-MS --- proanthocyanidins --- mass spectrometry --- antioxidant --- cytotoxicity --- Moringa oleifera --- DPPH --- antioxidant activity --- oxidative stress --- sickle cell anemia --- Ophiopogon --- Liriope --- rbcL --- DNA barcoding --- high-resolution melt curve (HRM) analysis --- allergy --- inflammation --- mast cells --- Immulina® --- immunLoges® --- anthracene derivatives --- antimicrobial --- Asphodelus --- ethnomedicine --- skin diseases --- plant-food --- processing --- nutraceuticals --- inflammation --- health --- Arbutus unedo L. --- ?-glucosidase --- catechin --- HPLC --- NMR --- activity --- bioproduct --- Brunfelsia --- Amazonian --- Ecuador --- ethnobotanic --- ayahuasca --- validation --- drug discovery --- scopoletin

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