Food structure: Its formation and relationships with other properties

ABSTRACT Food materials are complex in nature as it has heterogeneous, amorphous, hygroscopic and porous properties. During processing, microstructure of food materials changes which significantly affects other properties of food. An appropriate understanding of the microstructure of the raw food material and its evolution during processing is critical in order to understand and accurately describe dehydration processes and quality anticipation. This review critically assesses the factors that influence the modification of microstructure in the course of drying of fruits and vegetables. The effect of simultaneous heat and mass transfer on microstructure in various drying methods is investigated. Effects of changes in microstructure on other functional properties of dried foods are discussed. After an extensive review of the literature, it is found that development of food structure significantly depends on fresh food properties and process parameters. Also, modification of microstructure influences the other properties of final product. An enhanced understanding of the relationships between food microstructure, drying process parameters and final product quality will facilitate the energy efficient optimum design of the food processor in order to achieve high-quality food.

[1]  E. Moltó,et al.  Micromechanical behaviour of apple tissue in tensile and compression tests: Storage conditions and cultivar effect , 2008 .

[2]  N. N. Potter,et al.  Food Dehydration and Concentration , 1995 .

[3]  Franco Pedreschi,et al.  Modeling of textural changes during drying of potato slices , 2007 .

[4]  Roger B. Keey,et al.  Drying principles and practice , 1972 .

[5]  R. Mezzenga,et al.  Understanding foods as soft materials , 2005, Nature materials.

[6]  Lilia Ahrné,et al.  Microwave heat treatment of apple before air dehydration – effects on physical properties and microstructure , 2000 .

[7]  José Miguel Aguilera,et al.  Microstructure and food product engineering , 2000 .

[8]  G. Phillips,et al.  Phase Behavior in Mixed Polysaccharide Systems , 2016 .

[9]  R. V. D. Sman Prediction of enthalpy and thermal conductivity of frozen meat and fish products from composition data , 2008 .

[10]  V. Gekas,et al.  Apple shrinkage upon drying , 1995 .

[11]  Bengt Hallström,et al.  Mass transport of water in foods — A consideration of the engineering aspects , 1990 .

[12]  Y. Roos,et al.  Food Materials Science and Engineering: An Overview , 2012 .

[13]  J. Stokes,et al.  Food texture is only partly rheology , 2012 .

[14]  J. Vincent The Composite Structure of Biological Tissue Used for Food , 2008 .

[15]  M. Kaláb,et al.  Microscopy and other imaging techniques in food structure analysis , 1995 .

[16]  M. Minekus,et al.  From food structure to texture , 2000 .

[17]  José Miguel Aguilera,et al.  Food dehydration and product structure , 2003 .

[18]  K. Fikiin,et al.  Predictive equations for thermophysical properties and enthalpy during cooling and freezing of food materials , 1999 .

[19]  Jorge E. Lozano,et al.  Shrinkage, Porosity and Bulk Density of Foodstuffs at Changing Moisture Contents , 1983 .

[20]  G. Gutiérrez-López,et al.  Shrinkage and Deformation of Agave atrovirens Karw Tissue during Convective Drying: Influence of Structural Arrangements , 2011 .

[21]  Azharul Karim,et al.  Drying characteristics of banana: theoretical modelling and experimental validation , 2005 .

[22]  Elspeth MacRae,et al.  In vivo and in vitro swelling of cell walls during fruit ripening , 1997, Planta.

[23]  M. Devaux,et al.  Changes in texture, cellular structure and cell wall composition in apple tissue as a result of freezing , 2009 .

[24]  D. Lairon,et al.  Digestion and absorption of 2 fat emulsions with different droplet sizes in the human digestive tract. , 1999, The American journal of clinical nutrition.

[25]  Thanutyot Somjai,et al.  Strategy for longan drying in two-stage superheated steam and hot air , 2009 .

[26]  Da-Wen Sun,et al.  Heat and mass transfer models for predicting freezing processes – a review , 2001 .

[27]  S. Rodrigues,et al.  Effect of osmosis and ultrasound on pineapple cell tissue structure during dehydration , 2009 .

[28]  Lucas J. van Vliet,et al.  The impact of freeze-drying on microstructure and rehydration properties of carrot , 2012 .

[29]  P. Fryer,et al.  Understanding food structuring and breakdown: engineering approaches to obesity , 2007, Obesity reviews : an official journal of the International Association for the Study of Obesity.

[30]  U. Kidmose,et al.  Changes in texture, microstructure and nutritional quality of carrot slices during blanching and freezing , 1999 .

[31]  J. Gallego‐Juárez,et al.  Ultrasonic-Assisted Convective Drying of Apple Slices , 2012 .

[32]  A. Mujumdar,et al.  Comparison of four drying methods for re-structured mixed potato with apple chips , 2011 .

[33]  C. Delahunty,et al.  Influence of the texture of gelatin gels and pectin gels on strawberry flavour release and perception , 2006 .

[34]  N. Therdthai,et al.  Effect of osmotic dehydration on dielectric properties, microwave vacuum drying kinetics and quality of mangosteen , 2012 .

[35]  J. Aguilera,et al.  Microstructure affects the rate of chemical, physical and color changes during storage of dried apple discs , 2008 .

[36]  D. Mcclements,et al.  Controlling Lipid Bioavailability through Physicochemical and Structural Approaches , 2008, Critical reviews in food science and nutrition.

[37]  M. Rahman,et al.  TOWARD PREDICTION OF POROSITY IN FOODS DURING DRYING: A BRIEF REVIEW , 2001 .

[38]  K. Luyben,et al.  Drying of food materials: a review of recent developments , 1978 .

[39]  I. Hernando,et al.  Caracterización microestructural del queso de Burgos mediante diferentes técnicas microscópicas / Microstructural characterization of Burgos cheese using different microscopy techniques , 2000 .

[40]  L. Gerschenson,et al.  Air Dehydration of Strawberries: Effects of Blanching and Osmotic Pretreatments on the Kinetics of Moisture Transport , 1995 .

[41]  Gennaro Gentile,et al.  Microstructure and olfactory quality of apples de-hydrated by innovative technologies , 2013 .

[42]  D. Witrowa‐Rajchert,et al.  Effect of Drying Method on the Microstructure and Physical Properties of Dried Apples , 2009 .

[43]  S. Khalloufi,et al.  Quality Deterioration of Freeze-dried Foods as Explained by their Glass Transition Temperature and Internal Structure , 2003 .

[44]  Z. Maroulis,et al.  Modelling shrinkage and porosity during vacuum dehydration , 1997 .

[45]  Martin R. Okos,et al.  CLASSIFICATION OF DRYING MODELS FOR POROUS SOLIDS , 1993 .

[46]  Alberto M. Sereno,et al.  Modelling shrinkage during convective drying of food materials: a review , 2004 .

[47]  E. Morris,et al.  Flavour/taste perception in thickened systems: the effect of guar gum above and below c* , 1987 .

[48]  T. Kudra,et al.  DRYING CHARACTERISTICS OF OSMOTICALLY PRETREATED CRANBERRIES—ENERGY AND QUALITY ASPECTS* , 2002 .

[49]  Ashim K. Datta,et al.  Porous media characterization of breads baked using novel heating modes , 2007 .

[50]  L. Ahrné,et al.  Quality optimisation of combined osmotic dehydration and microwave assisted air drying of pineapple using constant power emission , 2012 .

[51]  Larry Rudolph Genskow Drying of Solids , 1995 .

[52]  J. V. García-Pérez,et al.  Moisture loss kinetics and microstructural changes in eggplant (Solanum melongena L.) during conventional and ultrasonically assisted convective drying , 2012 .

[53]  Jose Miguel Aguilea,et al.  Food Materials Science , 2008 .

[54]  J. Fornal The changes of plant materials microstructure during processing , 1998 .

[55]  C. G. Pereira Phase Transition in Foods , 2019, Thermodynamics of Phase Equilibria in Food Engineering.

[56]  Mohammad Shafiur Rahman Dehydration and Microstructure , 2008 .

[57]  Enrique Rotstein,et al.  Prediction of Thermal Conductivity of Vegetable Foods by the Effective Medium Theory , 1986 .

[58]  Food Dehydration , 1943, Science.

[59]  M. Krokida,et al.  Structural Properties of Dried Potatoes, Mushrooms, and Strawberries as a Function of Freeze-Drying Pressure , 2012 .

[60]  H. Bolin,et al.  Scanning Electron Microscope/Image Analyzer Determination of Dimensional Postharvest Changes in Fruit Cells , 1987 .

[61]  José Miguel Aguilera,et al.  Why food microstructure , 2005 .

[62]  Bhesh Bhandari,et al.  Food Materials Science and Engineering , 2012 .

[63]  J. S. Roberts,et al.  Moisture Transfer in Solid Food Materials: A Review of Mechanisms, Models, and Measurements , 2007 .

[64]  Norman H. Ceaglske,et al.  Drying Granular Solids , 1937 .

[65]  B. Muszyńska,et al.  Analysis of indole compounds in methanolic extracts from the fruiting bodies of Cantharellus cibarius (the Chanterelle) and from the mycelium of this species cultured in vitro , 2013, Journal of Food Science and Technology.

[66]  L. Gibson The hierarchical structure and mechanics of plant materials , 2012, Journal of The Royal Society Interface.

[67]  Alejandro Reyes,et al.  DRYING OF CARROTS IN A FLUIDIZED BED. I. EFFECTS OF DRYING CONDITIONS AND MODELLING , 2002 .

[68]  Cristina L. M. Silva,et al.  Quantification of microstructural changes during first stage air drying of grape tissue , 2004 .

[69]  Zacharias B. Maroulis,et al.  KINETICS ON COLOR CHANGES DURING DRYING OF SOME FRUITS AND VEGETABLES , 1998 .

[70]  C. Xue,et al.  Effect of processing steps on the physico-chemical properties of dried-seasoned squid , 2007 .

[71]  Václav Kašička,et al.  Amino acids, peptides and proteins , 2011, Electrophoresis.

[72]  Azharul Karim,et al.  Intermittent drying of food products : a critical review , 2013 .

[73]  L. G. Tabil,et al.  Effect of Drying Methods on Quality of Pistachio Nuts , 2003 .

[74]  P. Borah,et al.  Comparison of Kinetics and Other Related Properties of Bamboo Shoot Drying Pretreated with Osmotic Dehydration , 2014 .

[75]  R M Reeve,et al.  RELATIONSHIPS OF HISTOLOGICAL STRUCTURE TO TEXTURE OF FRESH AND PROCESSED FRUITS AND VEGETABLES. , 1970, Journal of texture studies.

[76]  M. Nicoli,et al.  Effect of radiofrequency assisted freezing on meat microstructure and quality , 2012 .

[77]  N. Cayot,et al.  Influence of the structure of cornstarch dispersions on kinetics of aroma release. , 2008, Journal of food science.

[78]  M. Karel,et al.  Structural collapse of plant materials during freeze-drying , 1996 .

[79]  Richard J. Brown,et al.  Determination of effective moisture diffusivity of banana using thermogravimetric analysis , 2014 .

[80]  E. Jorge,et al.  THERMAL PROPERTIES OF FOODS , 1997 .

[81]  Z. Emam-djomeh,et al.  An Investigation of the Effects of Drying Methods and Conditions on Drying Characteristics and Quality Attributes of Agricultural Products during Hot Air and Hot Air/Microwave-Assisted Dehydration , 2009 .

[82]  Martin R. Okos,et al.  Effect of composition and pore structure on binding energy and effective diffusivity of moisture in porous food , 1992 .

[83]  Aurelio López-Malo,et al.  Dielectric properties of foods: reported data in the 21st Century and their potential applications. , 2010 .

[84]  Piotr P. Lewicki,et al.  Color change of selected vegetables during convective air drying , 1998 .

[85]  Q. Hu,et al.  Comparison of Freeze-Drying with Three Different Combinations of Drying Methods and Their Influence on Colour, Texture, Microstructure and Nutrient Retention of Button Mushroom (Agaricus bisporus) Slices , 2014, Food and Bioprocess Technology.

[86]  James K. Carson,et al.  Thermal conductivity bounds for isotropic, porous materials , 2005 .

[87]  O. Campanella,et al.  Micro to Macro Level Structures of Food Materials , 2012 .

[88]  José Miguel Aguilera,et al.  New dimensions in microstructure of food products , 2000 .

[89]  M. Krokida,et al.  Novel Aspects of Formation of Food Structure during Drying , 2013 .

[90]  Piotr P. Lewicki,et al.  Effect of Drying on Microstructure of Plant Tissue , 2003 .

[91]  Umezuruike Linus Opara,et al.  Approaches to analysis and modeling texture in fresh and processed foods – A review , 2013 .

[92]  J. Aguilera,et al.  Food microstructure affects the bioavailability of several nutrients. , 2007, Journal of food science.

[93]  A. Hermansson,et al.  Influence of the microstructure on the sensory quality of whey protein gels , 1997 .

[94]  Weibiao Zhou,et al.  Characterization of microwave vacuum drying and hot air drying of mint leaves (Mentha cordifolia Opiz ex Fresen). , 2009 .

[95]  Zacharias B. Maroulis,et al.  DENSITIES, SHRINKAGE AND POROSITY OF SOME VEGETABLES DURING AIR DRYING , 1994 .

[96]  Marcus Nagle,et al.  Combination of digital images and laser light to predict moisture content and color of bell pepper simultaneously during drying , 2012 .

[97]  P. Fryer,et al.  Heat Transfer to Foods: Ensuring Safety and Creating Microstructure , 2012 .

[98]  A. Mujumdar,et al.  Influence of combination drying methods on composition, texture, aroma and microstructure of apple slices , 2012 .

[99]  P. Lucas,et al.  Food physics and oral physiology , 2002 .

[100]  Martin R. Okos,et al.  Predicting the Quality of Dehydrated Foods and Biopolymers — Research Needs and Opportunities , 1996 .

[101]  F. Sauvageot,et al.  Flavor release from salad dressings: sensory and physicochemical approaches in relation with the structure. , 2000, Journal of agricultural and food chemistry.

[102]  Majeda Khraisheh,et al.  Microwave and air drying I. Fundamental considerations and assumptions for the simplified thermal calculations of volumetric power absorption , 1997 .

[103]  A. Esehaghbeygi,et al.  Comparative Evaluation of the Effects of Electrohydrodynamic, Oven, and Ambient Air on Carrot Cylindrical Slices during Drying Process , 2012 .

[104]  Vaios T. Karathanos,et al.  Effect of freeze-drying conditions on shrinkage and porosity of dehydrated agricultural products , 1998 .

[105]  Paula Varela,et al.  Changes in apple tissue with storage time: Rheological, textural and microstructural analyses , 2007 .

[106]  M. Hawlader,et al.  Mathematical modelling and experimental investigation of tropical fruits drying , 2005 .

[107]  G.S.V. Raghavan,et al.  An Overview of Microwave Processing and Dielectric Properties of Agri-food Materials , 2004 .

[108]  K. Roos Effect of texture and microstructure on flavour retention and release , 2003 .

[109]  V. Karathanos COLLAPSE OF STRUCTURE DURING DRYING OF CELERY , 1993 .

[110]  W. Kerr,et al.  Comparative fractal characterization of physical changes of different food products during drying , 2007 .

[111]  A. Datta Porous media approaches to studying simultaneous heat and mass transfer in food processes. I: Problem formulations , 2007 .

[112]  M. Ghoul,et al.  Freezing and ice crystals formed in a cylindrical food model: part I. Freezing at atmospheric pressure , 2000 .

[113]  T. Sherwood The Drying of solids—II , 1929 .

[114]  W. Mcminn,et al.  Physical characteristics of dehydrated potatoes — Part II , 1997 .

[115]  Phani Adapa,et al.  PERFORMANCE STUDY OF A RE-CIRCULATING CABINET DRYER USING A HOUSEHOLD DEHUMIDIFIER , 2002 .

[116]  Yrjö H. Roos,et al.  CHAPTER 3 – Methodology , 1995 .

[117]  Serafim Bakalis,et al.  Drying of foods using supercritical carbon dioxide — Investigations with carrot , 2008 .

[118]  Christine H. Scaman,et al.  Characterization of vacuum microwave, air and freeze dried carrot slices , 1998 .

[119]  W. K. Lewis The Rate of Drying of Solid Materials. , 1921 .

[120]  I. Sensoy,et al.  A Review on the Relationship Between Food Structure, Processing, and Bioavailability , 2014, Critical reviews in food science and nutrition.

[121]  Azharul Karim,et al.  Better Understanding of Food Material on the Basis of Water Distribution Using Thermogravimetric Analysis , 2013 .

[122]  C. Hansmann DEHYDRATION OF PEACHES WITHOUT SULPHUR DIOXIDE , 1998 .

[123]  D. Torreggiani,et al.  Structure¿property relationships in osmo-air-dehydrated apricot cubes , 2005 .

[124]  A. Mujumdar,et al.  Microwave-Assisted Pulse-Spouted Bed Freeze-Drying of Stem Lettuce Slices—Effect on Product Quality , 2013, Food and Bioprocess Technology.

[125]  Brian A. Fricke,et al.  Food thermophysical property models , 1999 .

[126]  C. S. Yang,et al.  Effect of Four Drying Methods on the Quality of Intermediate Moisture Lowbush Blueberries , 1985 .

[127]  P. Verboven,et al.  Microscale modeling of coupled water transport and mechanical deformation of fruit tissue during dehydration , 2014 .

[128]  I. Heertje,et al.  Structure and Function of Food Products: A Review , 2014 .

[129]  Wendy E. Brown,et al.  INFLUENCE OF FOOD MATRIX STRUCTURE AND ORAL BREAKDOWN DURING MASTICATION ON TEMPORAL PERCEPTION OF FLAVOR , 1997 .

[130]  A. Hiltner,et al.  Hierarchical structure of collagen composite systems: lessons from biology , 1991 .

[131]  J. Stokes,et al.  Oral processing, texture and mouthfeel: from rheology to tribology and beyond , 2013 .

[132]  Alina S. Szczesniak,et al.  STRUCTURAL AND CHEMICAL BASES FOR TEXTURE OF PLANT FOODSTUFFS , 1990 .

[133]  Juming Tang,et al.  Microwave Drying of Food and Agricultural Materials: Basics and Heat and Mass Transfer Modeling , 2012, Food Engineering Reviews.

[134]  A. Voilley,et al.  Retention of aroma compounds in food matrices of similar rheological behaviour and different compositions , 2006 .

[135]  Ranjana Sharma Food Structures and Delivery of Nutrients , 2012 .

[136]  P. S. H. Henry,et al.  The diffusion of moisture and heat through textiles , 1948 .

[137]  Karim Allaf,et al.  Study of Instant Controlled Pressure Drop DIC Treatment in Manufacturing Snack and Expanded Granule Powder of Apple and Onion , 2011 .

[138]  Terry J. Siebenmorgen,et al.  The glass transition temperature concept in rice drying and tempering : Effect on milling quality , 2000 .

[139]  M. Khraisheh,et al.  Quality and structural changes in starchy foods during microwave and convective drying , 2004 .

[140]  L. Slade,et al.  A food polymer science approach to structure-property relationships in aqueous food systems: non-equilibrium behavior of carbohydrate-water systems. , 1991, Advances in experimental medicine and biology.

[141]  L. Gerschenson,et al.  Contribution of Cellular Structure to the Large and Small Deformation Rheological Behavior of Kiwifruit , 2002 .

[142]  José Miguel Aguilera,et al.  Microstructural principles of food processing and engineering , 1999 .

[143]  Y. Roos Materials Science of Freezing and Frozen Foods , 2012 .

[144]  L Yu,et al.  Amorphous pharmaceutical solids: preparation, characterization and stabilization. , 2001, Advanced drug delivery reviews.

[145]  S. Alzamora,et al.  Structural changes in apple tissue during glucose and sucrose osmotic dehydration: shrinkage, porosity, density and microscopic features , 2004 .

[146]  Sakamon Devahastin,et al.  Determination of deformation of a food product undergoing different drying methods and conditions via evolution of a shape factor , 2007 .

[147]  Azharul Karim,et al.  Effect of temperature distribution on predicting quality of microwave dehydrated food , 2013 .

[148]  Junhong Yang,et al.  Application of Pore Size Analyzers in Study of Chinese Angelica Slices Drying , 2010 .

[149]  Xiao Dong Chen,et al.  Modern analyses and binding studies of flavour volatiles with particular reference to dairy protein products , 1996 .

[150]  J. Lyng,et al.  Advances in radio frequency and ohmic heating of meats , 2006 .

[151]  R. Hunt Colour Science : Concepts and Methods, Quantitative Data and Formulas , 1968 .

[152]  C. Wright,et al.  Measurement of firmness in carrot tissue during cooking using dynamic, static and sensory tests , 1992 .

[153]  José Miguel Aguilera,et al.  Seligman lecture 2005 food product engineering: building the right structures , 2006 .

[154]  Frédéric Prothon,et al.  Mechanisms and Prevention of Plant Tissue Collapse during Dehydration: A Critical Review , 2003, Critical reviews in food science and nutrition.

[155]  J. G. Brennan Food dehydration : a dictionary and guide , 1994 .

[156]  A. Vega‐Gálvez,et al.  Effect of temperature and air velocity on drying kinetics, antioxidant capacity, total phenolic content, colour, texture and microstructure of apple (var. Granny Smith) slices. , 2012, Food chemistry.

[157]  P. Lillford,et al.  Food materials science : principles and practice , 2008 .

[158]  B. Rasco PHYSICAL PRINCIPLES OF FOOD PRESERVATION , 2004 .

[159]  Suresh Prasad,et al.  Drying kinetics and rehydration characteristics of microwave-vacuum and convective hot-air dried mushrooms , 2007 .

[160]  Somnath Ghosh,et al.  Computational methods for microstructure-property relationships , 2011 .

[161]  Ashim K. Datta,et al.  Modeling Transport in Porous Media With Phase Change: Applications to Food Processing , 2011 .

[162]  Medeni Maskan,et al.  Drying, shrinkage and rehydration characteristics of kiwifruits during hot air and microwave drying , 2001 .

[163]  P McCrory,et al.  Shelf life , 1996, British Dental Journal.

[164]  Elisa Gayán,et al.  Biological Aspects in Food Preservation by Ultraviolet Light: a Review , 2013, Food and Bioprocess Technology.

[165]  P. H. Santos,et al.  Retention of Vitamin C in Drying Processes of Fruits and Vegetables—A Review , 2008 .