Magnesiumrika livsmedel och effekt av dietärt och supplementärt magnesium på muskelstyrka och relativ muskelmassa hos individer över medelåldern

Danielsson, Annie

January 2020

Muskelstyrka och muskelmassa avtar med stigande ålder och är associerat med mortalitet, svaghet, osteoporos, fall och frakturer. Hos yngre individer har magnesiumtillskott signifikant ökat muskelstyrka. Det rekommenderade dagliga intaget (RDI) av magnesium enligt Nordiska näringsrekommendationer (NNR) är lägre än rekommendationen av U.S Food and Nutrition Board (FNB). Syftet med detta litteraturarbete var att studera publicerad litteratur inom ämnet magnesium och muskler med avsikt att undersöka ifall ett ökat magnesiumintag hos individer över medelåldern påverkar muskelstyrka och relativ muskelmassa samt undersöka vilka livsmedel som ur ett ekonomiskt perspektiv kan konsumeras för att bidra till att NNR´s RDI uppnås. Litteratursökning identifierade sex artiklar som var relevanta för frågeställningen ”Kan en högre dos magnesium öka muskelstyrka?”. Samma artiklar användes för ytterligare en frågeställning; ”Kan en högre dos magnesium förbättra relativ muskelmassa?”. Litteratursökning för den andra frågeställningen identifierade inte fler artiklar som var relevanta för frågeställningen. För den tredje frågeställningen ”Vilka livsmedel kan med fördel ur ett ekonomiskt perspektiv bidra till ett högre intag av magnesium?” användes information från Livsmedelsverkets livsmedelsdatabas och medelvärdet av tre livsmedelsbutikers jämförelsepriser. Sammanställningen av den forskning som finns visade att en kost som uppnår NNR´s dagsrekommendation främjar muskelstyrka men det gjorde inte ett högre intag av magnesium via kosttillskott. Ett ökat intag av både dietärt och supplementärt magnesium observerades främja relativ muskelmassa men det verkar som att dietärt magnesium har högre biotillgänglighet än magnesium i kosttillskott. De mest ekonomiska livsmedlen som kan konsumeras för att bidra till en högre dos magnesium i kosten var fullkornsprodukter som frukostflingor, pasta och hårt bröd. / Muscle strength and muscle mass declines with increasing age. This is associated with mortality, frailty, osteoporosis, falls and fractures. Magnesium supplementation has been shown to increase muscle strength significantly in young subjects. The recommended daily amount of magnesium according to Nordic nutrition recommendations (NNR) is lower than that of U.S. Food and Nutrition Board (FNB). The aim of this thesis work was to study published literature on the subject magnesium and muscle in order to investigate if an increased magnesium intake in subjects middle aged or older affects muscle strength and relative muscle mass and to evaluate which common foods contributes the most to achieve the RDI of NNR from an economic point of view. Searches identified six articles relevant to the issue “Could an increased dose of magnesium improve muscle strength?”. The same articles were used to answer a second issue; “Could an increased dose of magnesium improve relative muscle mass?”. Searches for the second issue did not yield more articles relevant to the issue. For the third issue; “Which foods has, from an economic point of view, an advantage in contributing to a higher magnesium intake?” information from the Swedish food agency´s food database was used and the mean cost from three different food chains comparison prizes. A compilation of data from the published scientific studies showed that a diet which fulfills the recommended daily amount of magnesium according to NNR promotes muscle strength in subjects middle aged or older; however, an increased amount of magnesium taken as a supplement did not show any significant increase in muscle strength. An increased intake of both dietary and supplementary magnesium promoted relative muscle mass, but the bioavailability of dietary magnesium seems to be higher than the bioavailability of supplements. The most economic groceries which contributes to a higher dose of magnesium in the diet was full grain products such as breakfast cereals, pasta and hard bread.

Magnesium

Muskelstyrka

Muskelmassa

Livsmedel

Kosttillskott

Other Chemistry Topics

Annan kemi

Characterization of Phase Transformation and Twin Formation in Automotive Sheet Metal Alloys to Quantify and Understand Their Impact on Ductility

Chelladurai, Isaac

01 July 2019

The motivation to use lightweight materials in the construction of the automotive structure is the resultant increased fuel efficiency. However, these materials possess certain drawbacks that make it challenging to adopt them into current automobile manufacturing processes. In this dissertation the microstructural response observed in a magnesium alloy, AZ31, and an advanced high strength steel alloy, QP1180, to uniaxial deformation is analyzed and the results are presented. In AZ31 the required slip modes are not activated at room temperature leading to its low ductility at room temperature. The resulting activity of these twins in response to uniaxial tension is analyzed and its correlations with the microstructure features is reported. Additionally, a neighborhood viscoplastic self-consistent model is developed that will allow more accurate simulation of twin response to outside deformation. Furthermore, activity of slip modes that are usually observed at high temperatures (>200°C) are also observed at lower temperatures (<125°C) and they are compared to the relative twin activity at these temperatures. It is observed that larger grains, with high schmid factors, longer grain boundaries and have misorientation with its neighboring grain greater than 27° are more favorable for twin formation and transmission in the AZ31 microstructure in response to uniaxial tension. The nature of retained austenite (RA) transformation into martensite that gives QP1180 its enhanced ductility, is not clearly understood primarily because of challenges present in characterization of these metastable RA. Further, a 2 dimensional characterization method does not provide the complete information of the RA grain. These challenges are overcome by characterization of a 3 dimensional volume element using serial sectioning and EBSD followed by reconstruction using DREAM3D. The influence of 3d morphology and orientation direction on RA transformation is studied using as-is and uniaxially deformed samples. A novel shear affinity factor is introduced as a metric to describe the ease of RA transformation under uniaxial tension. The 3d nature of the information collected allows a new classification of disk shape in addition to globular and lamellar shapes for RA. It is found that RA that are low volume laths and have low shear affinity factor transform later compared to disk shaped RA’s. Through these guidelines the preparation of a microstructure that is conducive to RA transformation under uniaxial tension is possible.

magnesium

QP1180

EBSD

retained austenite

DIC

VPSC

twinning

AZ31

Microstructure for Enhanced Plasticity and Toughness

Das, Shamiparna

08 1900

Magnesium is the lightest metal with a very high specific strength. However, its practical applicability is limited by its toughness and reliability. Mg, being HCP has low ductility. This makes the improvement of toughness a grand challenge in Mg alloys. Friction stir processing (FSP) is a thermomechanical technique used to effect microstructural modification. Here, FSP was utilized to affect the toughness of WE43 sheets through microstructural modification. Room temperature Kahn-type tests were conducted to measure the toughness of WE43 sheets. Microscopic techniques (SEM, TEM) was utilized to study the effect of various microstructural factors like grain size, texture, constituent particles, precipitates on crack initiation and propagation. Tensile properties were evaluated by mini-tensile tests. Crack growth in WE43 sheets was also affected by mechanics and digital image correlation (DIC) was utilized to study the plastic zone size. The underlying mechanisms affecting toughness of these sheets were understood which will help in formulating ways in improving it. WE43 nanocomposites were fabricated via FSP. Uniform distribution of reinforcements was obtained in the composites. Improved mechanical properties like that of enhanced strength, increased hardness and stiffness were obtained. But contrary to other metal matrix composites which show reduction in ductility with incorporation of ceramic reinforcements, the nanocomposites showed good strength-ductility combination. The composites were precisely characterized and mechanisms governing this property were studied. The nano-length of the reinforcements was observed to be the main criteria and the dislocation-particle interaction, the main reason behind the strength-ductility property.

Toughness

Plasticity

Friction Stir Processing

Magnesium metal implants and their effects on soft tissue repairs

An, Xiaoxian

05 November 2020

No description available.

Biomedical Research

Magnesium

Peripheral nerve repair

Conduit

Biomaterial

Synthesis and Analysis of Metal Oxide-Graphene Composites

Carey, McKenna Kathryn

04 May 2021

No description available.

Chemistry

Inorganic Chemistry

Metal Oxide

Graphene

Iron

Magnesium

Tin

XPS

Zpracování práškových materiálů na bázi Mg metodou SPS / Processing of Mg-based powder materials by SPS method

Moleková, Kristína

January 2019

Diploma thesis occupy with preparation of porous material from magnesium powder with a HAp admixture by cold pressing followed by spark plasma sintering (SPS). This thesis contain both preparation of bulk material, diffusion plot and charakterization of materials based on the compaction process conditions. On the basis of physical mechanical characteristics, the impact of the pressing process on the subsequent sintering and the resulting material properties are evaluated. Bulk material is characterized considering to structure and physical–mechanical properties. Properties of final metarial will serve to optimize conditions for process of bulk material preparation.

Biodegradabilní kostní implantáty na bázi železa / Biodegradable bones implants based on Fe

Tkáčová, Tereza

January 2020

This thesis writes about biodegradable bone implants based on iron. The currently used metal-based implants have disadvantage in an often need of secondary surgery intervention to remove the implant. Therefore, there is a big research of biodegradable bone implants nowadays. In this work, iron-based materials with the addition of zinc and magnesium are being investigated. The produced samples have been immersed in a solution of NaCl and simulated body fluid, SBL. Subsequently there were regularly analysed changes of corrosion potential, pH, conductivity and also weight loss was watched.

Příprava objemových materiálů na bázi Mg-Al-Ti metodami práškové metalurgie / Preparation of Mg-Al-Ti bulk materials via powder metallurgy

Brescher, Roman

January 2020

This diploma thesis deals with research and preparation of bulk materials based on the Mg–Al–Ti system. The theoretical part summarizes the basic knowledge about magnesium alloys, focusing mainly on Mg–Al and Mg–Ti systems. Furthermore, basic information on powder metallurgy methods was included here, from the production of powder materials, through their compaction, to heat treatment and spark plasma sintering (SPS). The theoretical part ends with literature review on the current research of the Mg–Al–Ti system. In the experimental part, bulk materials based on the Mg–Al–Ti system was prepared using traditional methods of powder metallurgy, as well as using the SPS method. The microstructure of the material, elemental and phase composition was examined in this thesis. Subsequently, Vickers hardness and flexural strength were measured, and fractographic observation of the fracture surface was performed. It was found that the aluminum was completely dissolved during the heat treatment, but the titanium particles remained almost intact in the material and worked as a particulate reinforcement. Materials prepared by methods of conventional powder metallurgy showed increased porosity compared to materials prepared by the SPS, resulting in lower hardness and flexural strength. The hardness increased with increasing the amount of aluminum and titanium and with the amount of magnesium phase . Fractographic observation of the fracture surface suggests that a diffuse connection between the reinforcement and the matrix may have occurred after the sintering process.

Vlastnosti a in vitro degradace kovových biodegradabilních materiálů / Properties and in vitro Degradation of Metalic Biodegradable Materials

Ročňáková, Ivana

January 2017

Biodegradable metallic materials for medical applications have received considerable attention in recent years. The main reason is that they provide high potential for fabrication of temporal orthopedic implants such as bone fixation devices. Magnesium is an excellent candidate for fabrication of biodegradable implants due to its biocompatibility, mechanical properties similar to human bone and relevance for biological body functions. The fast degradation rate of magnesium and its biodegradable alloys in physiological environment limits its clinical application. Another attractive material in the field of biodegradable materials is zinc, which is among the essential elements in human body. Zinc exhibits an excellent corrosion resistance, and inferior biocompatibility compared to with magnesium. Hence, surface modification to form a hard, dense/porous, biocompatible and corrosion resistant modified layer has become an interesting topic in magnesium base biomaterials. Since hydroxyapatite is well tolerated by living organisms and in addition, improves the bone growth, it appears to be excellent candidate for such coatings on surface of biodegradable materials (e.g. Mg, Zn). This thesis is focused on comparison of corrosion behavior of pure non ferrous metals (Mg, Zn) and metals coated with hydroxyapatite, in simulated body fluids. The present approach is the use of modified atmospheric plasma spray technology to produce the hydroxyapatite coatings – suspension spraying. Composition and structure of the coatings and corrosion products were studied by light microscopy, scanning electron microscopy equipped with energy dispersive microanalyzer and X-ray diffraction. Corrosion of Mg and Zn samples was monitored by weight loss and determined by X ray and micro-tomography. The application of the HA coating resulted in decrease of corrosion rate of pure Mg. The corrosion rate of coated Mg samples was lower by 27,3 % in comparison with the corrosion rate of pure non coated Mg. Corrosion degradation of uncoated and coated Zn samples was minimal. The aplication of HA on the non ferrous surface appears to be a very promising method to improve corrosion and biological properties of these biodegradable materials.

Studium nových slitin na bázi Mg s řízenou mikrostrukturou a texturou / Study of novel magnesium alloys with controlled microstructure and texture

Drozdenko, Daria

January 2016

Title: Study of novel magnesium alloys with controlled microstructure and texture Author: Daria Drozdenko Department / Institute: Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague Supervisor of the doctoral thesis: Ing. Patrik Dobroň, Ph.D., Department of Physics of Materials. Abstract: The work elucidates the role of dislocation slip and twinning during plastic deformation in selected magnesium (Mg) alloys with controlled microstructure and texture. The acoustic emission (AE) technique was concurrently applied during deformation to determine the activity of particular deformation mechanisms. A detailed insight into microstructure was provided by electron microscopy. In order to obtain a comprehensive set of AE data for particular deformation mechanisms, Mg single crystals with various crystallographic orientations were channel-die and uniaxially compressed. The obtained results were applied on deformation mechanisms in polycrystalline textured Mg alloys. Particularly, the twinning - detwinning processes, in the sense of twin boundary mobility, during one cycle loading (pre-compression followed by tension) were described. Clear correlations between changes in the AE response and the inflection points on the deformation curve were found. An analysis of twin...