Abstract
Chemically modified starches are one of the most commonly used additives in food products. Different chemical reactions like esterification, etherification, hydrolysis, oxidation, crosslinking, and bleaching have been employed to develop chemically modified starches globally. The most commercially exploited sources for the development of modified starches are waxy corn, normal and high-amylose corn, tapioca, potato, and rice starch. These are used as bulking agent, thickening agent, coating agent, anti-crystallizing agent, and texturizing agent in wide range of products. Their fat replacement potential in different ready-to-eat products has also been a known starch application. This chapter in-depth discussed preparation, applications, and safety assessment of crosslinked, esterified, etherified, oxidized/bleached, and acid-thinned starches along with the impact of these modifications on the structural, functional, and digestibility characteristics of starches.
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References
Abdorreza MN, Robal M, Cheng LH, Tajul AY, Karim AA (2012) Physicochemical, thermal, and rheological properties of acid-hydrolyzed sago (Metroxylon sagu) starch. LWT Food Sci Technol 46:135–141
Adebowale KO, Afolabi TA, Olu-Owolabi BI (2006) Functional, physicochemical and retrogradation properties of sword bean (Canavalia gladiata) acetylated and oxidized starches. Carbohydr Polym 65:93–101
Ahsan M, Ali TM, Hasnain A (2023) Use of oxidized potato starch as simultaneous fat and casein replacer in analogue mozzarella cheese- : impact on functional and sensory properties of cheese. Food Hydrocoll 142:108810
Ali TM, Hasnain A (2011) Functional and morphological characterization of low-substituted acetylated white sorghum (Sorghum bicolor) starch. Int J Polym Anal Charact 16:187–198
Ali TM, Hasnain A (2014) Morphological, physicochemical, and pasting properties of modified white sorghum (Sorghum bicolor) starch. Int J Food Prop 17:523–535
Ali TM, Hasnain A (2016) Physicochemical, morphological, thermal, pasting, and textural properties of starch acetates. Food Rev Intl 32:161–180
Ali TM, Waqar S, Ali S, Mehboob S, Hasnain A (2015) Comparison of textural and sensory characteristics of low-fat mayonnaise prepared from octenyl succinic anhydride modified corn and white sorghum starches. Starch/Staerke 67:183–190
Altuna L, Herrera ML, Foresti ML (2018) Synthesis and characterization of octenyl succinic anhydride modified starches for food applications. A review of recent literature. Food Hydrocoll 80:97–110
An D, **ao Q, Zhang C, Cai M, Zhang Y, Weng H, Chen F, **ao A (2021) Preparation, characterization, and application of high-whiteness agar bleached with hydrogen peroxide. Food Hydrocoll 113:106520
Aparicio-Saguilán A, Valera-Zaragoza M, Perucini-Avendaño M, Páramo-Calderón DE, Aguirre-Cruz A, Ramirez-Hernández A, Bello-Pérez LA (2015) Lintnerization of banana starch isolated from underutilized variety: morphological, thermal, functional properties, and digestibility. CyTA J Food 13:3–9
Arshad H, Ali TM, Abbas T, Hasnain A (2018) Effect of microencapsulation on antimicrobial and antioxidant activity of nutmeg oleoresin using mixtures of gum Arabic, OSA, and native sorghum starch. Starch/Staerke 70:1–12
Arshad H, Ali TM, Hasnain A (2020a) Bioactive properties and oxidative stability of nutmeg oleoresin microencapsulated by freeze drying using native and OSA sorghum starches as wall materials. J Food Meas Charact 14:2559–2569
Arshad H, Ali TM, Hasnain A (2020b) Comparative study on efficiency of nutmeg microencapsulation (freeze-drying method) using native and OSA sorghum starch as wall materials in combination with gum arabic. Cereal Chem 97:589–600
Ashogbon AO, Akintayo ET (2014) Recent trend in the physical and chemical modification of starches from different botanical sources: A review. Starch-Stärke 66:41–57
Ayucitra A (2012) Preparation and characterisation of acetylated corn starches. Int J Chem Eng Appl 3:156
Bai Y, Shi YC, Herrera A, Prakash O (2011) Study of octenyl succinic anhydride-modified waxy maize starch by nuclear magnetic resonance spectroscopy. Carbohydr Polym 83:407–413
Bello-Pérez LA, Bello-Flores CA, del Carmen Nuñez-Santiago M, Coronel-Aguilera CP, Alvarez-Ramirez J (2015) Effect of the degree of substitution of octenyl succinic anhydride-banana starch on emulsion stability. Carbohydr Polym 132:17–24
BeMiller JN (2019) Corn starch modification. In: Corn: chemistry and technology (third). Elsevier, United Kingdom, pp 537–549
Broekman JOP, Genuino HC, Heeres HJ, Brinksma J, Wielema T, Deuss PJ (2023) Benign catalytic oxidation of potato starch using a homogeneous binuclear manganese catalyst and hydrogen peroxide. Catal Sci Technol 13:1233–1243
CFR (2022) CFR—Code of Federal Regulations Title 21. CFR - Code of Federal Regulations Title 21, Volume (2)
CFR (2023) CFR—Code of Federal Regulations Title 21
Cheng F, Ai Y, Ghosh S (2021) Utilization of octenyl succinic anhydride-modified pea and corn starches for stabilizing oil-in-water emulsions. Food Hydrocoll 118:106773
Chi H, Xu K, Wu X, Chen Q, Xue D, Song C, Zhang W, Wang P (2008) Effect of acetylation on the properties of corn starch. Food Chem 106:923–928
Chiu C, Solarek D (2009) Chapter 17—modification of starches. Starch, pp 629–655
Choi HW, Kim H-S (2022) Hydroxypropylation and acetylation of rice starch: effects of starch protein content. Food Sci Biotechnol 31:1169–1177
Chowdary KPR, Enturi V, Sandhya Rani A (2011) Preparation and evaluation of starch phosphate- A new modified starch as a disintegrant in tablet formulations. Int J Chem Sci 9:889–899
Chuenkamol B, Puttanlek C, Rungsardthong V, Uttapap D (2007) Characterization of low-substituted hydroxypropylated canna starch. Food Hydrocoll 21:1123–1132
Chun S, Yoo B (2007) Effect of molar substitution on rheological properties of hydroxypropylated rice starch pastes. Starch-Stärke 59:334–341
Chung HJ, Shin DH, Lim ST (2008) In vitro starch digestibility and estimated glycemic index of chemically modified corn starches. Food Res Int 41:579–585
Colussi R, El Halal SLM, Pinto VZ, Bartz J, Gutkoski LC, da Rosa Zavareze E, Dias ARG (2015) Acetylation of rice starch in an aqueous medium for use in food. LWT Food Sci Technol 62:1076–1082
Colussi R, Pinto VZ, El Halal SLM, Vanier NL, Villanova FA, e Silva RM, da Rosa Zavareze E, Dias ARG (2014) Structural, morphological, and physicochemical properties of acetylated high-, medium-, and low-amylose rice starches. Carbohydr Polym 103:405–413
Deetae P, Shobsngob S, Varanyanond W, Chinachoti P, Naivikul O, Varavinit S (2008) Preparation, pasting properties and freeze—thaw stability of dual modified crosslink-phosphorylated rice starch. Carbohydr Polym 73:351–358
Delley RJ, O’Donoghue AC, Hodgson DRW (2012) Hydrolysis studies of phosphodichloridate and thiophosphodichloridate ions. J Org Chem 77:5829–5831
Desam GP, Li J, Chen G, Campanella O, Narsimhan G (2018) Prediction of swelling behavior of crosslinked maize starch suspensions. Carbohydr Polym 199:331–340
Dhull SB, Bangar SP, Deswal R, Dhandhi P, Kumar M, Trif M, Rusu A (2021) Development and characterization of active native and cross-linked pearl millet starch-based film loaded with fenugreek oil. Food Secur 10:3097
Dias ARG, Zavareze EDR, Elias MC, Helbig E, Da Silva DO, Ciacco CF (2011) Pasting, expansion and textural properties of fermented cassava starch oxidised with sodium hypochlorite. Carbohydr Polym 84:268–275
Dong H, Vasanthan T (2020) Effect of phosphorylation techniques on structural, thermal, and pasting properties of pulse starches in comparison with corn starch. Food Hydrocoll 109:106078
Dundar AN, Gocmen D (2013) Effects of autoclaving temperature and storing time on resistant starch formation and its functional and physicochemical properties. Carbohydr Polym 97:764–771
Egharevba HO (2019) Chemical properties of starch and its application in the food industry. In: Chemical properties of starch, In Chemical properties of starch, vol 9. IntechOpen, London, UK
FDA (2019) questions-and-answers-dietary-fiber @ www.fda.gov.
Fonseca LM, Gonçalves JR, El Halal SLM, Pinto VZ, Dias ARG, Jacques AC, Zavareze EDR (2015) Oxidation of potato starch with different sodium hypochlorite concentrations and its effect on biodegradable films. Lwt 60:714–720
Fouladi E, Nafchi AM (2014) Effects of acid-hydrolysis and hydroxypropylation on functional properties of sago starch. Int J Biol Macromol 68:251–257
Gao F, Li D, Bi C, Mao Z, Adhikari B (2014) Preparation and characterization of starch crosslinked with sodium trimetaphosphate and hydrolyzed by enzymes. Carbohydr Polym 103:310–318
Garcia MAVT, Garcia CF, Faraco AAG (2020) Pharmaceutical and biomedical applications of native and modified starch: A review. Starch-Stärke 72:1900270
Garrido LH, Schnitzler E, Zortéa MEB, de Souza Rocha T, Demiate IM (2014) Physicochemical properties of cassava starch oxidized by sodium hypochlorite. J Food Sci Technol 51:2640–2647
Golachowski A, Zięba T, Kapelko-Zeberska M, Drozdz W, Gryszkin A, Grzechac M (2015) Current research addressing starch acetylation. Food Chem 176:350–356
Gonenc I, Us F (2019) Effect of glutaraldehyde crosslinking on degree of substitution, thermal, structural, and physicochemical properties of corn starch. Starch-Stärke 71:1800046
Guleria P, Yadav BS (2022) Effect of chemical treatments on the functional, morphological and rheological properties of starch isolated from pigeon pea (Cajanus cajan). Curr Res Food Sci 5:1750–1759
Halal SLME, Colussi R, Pinto VZ, Bartz J, Radunz M, Carreño NLV, Dias ARG, Zavareze EDR (2015) Structure, morphology and functionality of acetylated and oxidised barley starches. Food Chem 168:247–256
Haq F, Yu H, Wang LI, Teng L, Haroon M, Khan RU, Mehmood S, Ullah RS, Khan A, Nazir A et al (2019) Advances in chemical modifications of starches and their applications. Carbohydr Res 476:12–35
Hong J, Zeng X-A, Brennan CS, Brennan M, Han Z (2016) Recent advances in techniques for starch esters and the applications: A review. Food Secur 5:50
Hong J, Zeng XA, Buckow R, Han Z (2018) Structural, thermodynamic and digestible properties of maize starches esterified by conventional and dual methods: differentiation of amylose contents. Food Hydrocoll 83:419–429
Hong Y, Li Z, Gu Z, Wang Y, Pang Y (2017) Structure and emulsification properties of octenyl succinic anhydride starch using acid-hydrolyzed method. Starch/Staerke 69:1–9
Hoover R (2000) Acid-treated starches acid-treated starches. Food Rev Intl 370
Hornung PS, De Oliveira CS, Lazzarotto M, Da Silveira Lazzarotto SR, Schnitzler E (2016) Investigation of the photo-oxidation of cassava starch granules: thermal, rheological and structural behaviour. J Therm Anal Calorim 123:2129–2137
Hornung PS, Granza AG, de Oliveira CS, Lazzarotto M, Schnitzler E (2015) Study of the effects of ultraviolet light and sodium hypochlorite solutions on properties of cassava starch granules. Food Biophy 10:368–374
Hu H, Liu W, Shi J, Huang Z, Zhang Y, Huang A, Yang M, Qin X, Shen F (2016) Structure and functional properties of octenyl succinic anhydride modified starch prepared by a non-conventional technology. Starch/Staerke 68:151–159
Huang J, Schols HA, ** Z, Sulmann E, Voragen AGJ (2007) Characterization of differently sized granule fractions of yellow pea, cowpea and chickpea starches after modification with acetic anhydride and vinyl acetate. Carbohydr Polym 67:11–20
Hwang D, Kim S, Kim J, Ryu J, Yoo S, Park C, Kim B, Baik M (2009) In vitro digestibility of hydroxypropylated and cross-linked waxy and non-waxy rice starches. Starch-Stärke 61:20–27
Iftikhar SA, Chakraborty S, Dutta H (2022) Effect of acetylation, hydroxypropylation and dual acetylation-hydroxypropylation on physicochemical and digestive properties of rice starches with different amylose content. Biointerface Res Appl Chem 12(2022):6788–6803
Imre B, Vilaplana F (2020) Organocatalytic esterification of corn starches towards enhanced thermal stability and moisture resistance. Green Chem 22:5017–5031
Ingredion (2022) Modified starches. https://www.ingredion.com/emea/en-uk/ingredients/ingredient-types/starches/modified-starch.html
Iwuagwu M (2000) The effect of bleaching on the disintegrant properties of maize starch. STP Pharma Sci 10(2):43–147
James BeMiller RW (ed) (2009) Starch chemistry and technology, 3rd edn. Academic Press, UK, London
JECFA (2021) Specifications Monograph prepared by the meeting of the Joint FAO/WHO Expert Committee on Food Additives (JECFA), 92nd Meeting 2021
Juansang J, Puttanlek C, Rungsardthong V, Puncha-arnon S, Uttapap D (2012) Effect of gelatinisation on slowly digestible starch and resistant starch of heat-moisture treated and chemically modified canna starches. Food Chem 131:500–507
Jyothi AN, Moorthy SN, Rajasekharan KN (2006) Effect of cross-linking with epichlorohydrin on the properties of cassava (Manihot esculenta Crantz) starch. Starch-Stärke 58:292–299
Kalita D, Kaushik N, Mahanta CL (2014) Physicochemical, morphological, thermal and IR spectral changes in the properties of waxy rice starch modified with vinyl acetate. J Food Sci Technol 51:2790–2796
Kaur L, Singh N, Singh J (2004) Factors influencing the properties of hydroxypropylated potato starches. Carbohydr Polym 55:211–223
Kim H-S, Choi H-S, Kim B-Y, Baik M-Y (2011) Ultra high pressure (UHP)-assisted hydroxypropylation of corn starch. Carbohydr Polym 83:755–761
Kittipongpatana OS, Kittipongpatana N (2011) Preparation and physicochemical properties of modified jackfruit starches. LWT Food Sci Technol 44:1766–1773
Klang JM, Tene ST, Nguemguo Kalamo LG, Boungo GT, Ndomou Houketchang SC, Kohole Foffe HA, Womeni HM (2019) Effect of bleaching and variety on the physico-chemical, functional and rheological properties of three new Irish potatoes (Cipira, Pamela and Dosa) flours grown in the locality of Dschang (West region of Cameroon). Heliyon 5:e02982
Kou T, Gao Q (2018) New insight in crosslinking degree determination for crosslinked starch. Carbohydr Res 458–459:13–18
Kuakpetoon D, Wang YJ (2001) Characterization of different starches oxidized by hypochlorite. Starch/Staerke 53:211–218
Kuakpetoon D, Wang YJ (2008) Locations of hypochlorite oxidation in corn starches varying in amylose content. Carbohydr Res 343:90–100
Kuo W-Y, Lai H-M (2009) Effects of reaction conditions on the physicochemical properties of cationic starch studied by RSM. Carbohydr Polym 75:627–635
Lawal OS (2004) Composition, physicochemical properties and retrogradation characteristics of native, oxidised, acetylated and acid-thinned new cocoyam (Xanthosoma sagittifolium) starch. Food Chem 87:205–218
Lawal OS (2011) Hydroxypropylation of pigeon pea (Cajanus cajan) starch: preparation, functional characterizations and enzymatic digestibility. LWT Food Sci Technol 44:771–778
Lazzarotto SRDS, Bet CD, Hornung PS, Lazzarotto M, Schnitzler E (2017) Induced effects by oxidation with potassium permanganate on the thermal, morphological, colorimetric and pasting properties of corn starch. Ukrainian Food J 6:197–210
Le Corre D, Bras J, Dufresne A (2010) Starch nanoparticles: a review. Biomacromolecules 11:1139–1153
Lee HL, Yoo B (2011) Effect of hydroxypropylation on physical and rheological properties of sweet potato starch. LWT Food Sci Technol 44:765–770
Lee HL, Shin JY, Koh C-H, Ryu H, Lee DJ, Sohn C (2002) Surface sizing with cationic starch: its effect on paper quality and papermaking process. TAPPI J 1:34–40
Li H, Wang R, Liu J, Zhang Q, Li G, Shan Y, Ding S (2020) Effects of heat-moisture and acid treatments on the structural, physicochemical, and in vitro digestibility properties of lily starch. Int J Biol Macromol 148:956–968
Li W, Corke H, Beta T (2007) Kinetics of hydrolysis and changes in amylose content during preparation of microcrystalline starch from high-amylose maize starches. Carbohydr Polym 69:398–405
Liang S, Hong Y, Gu Z, Cheng L, Li C, Li Z (2021) Effect of debranching on the structure and digestibility of octenyl succinic anhydride starch nanoparticles. Lwt 141:111076
Lim S, Seib PA (1993) Preparation and pasting properties of wheat and corn starch phosphates. Cereal Chem 70:137
Lin Q, **ao H, Zhao J, Li L, Yu F (2009) Characterization of the pasting, flow and rheological properties of native and phosphorylated rice starches. Starch/Staerke 61:709–715
Lin Q, Liang R, Zhong F, Ye A, Singh H (2018) Effect of degree of octenyl succinic anhydride (OSA) substitution on the digestion of emulsions and the bioaccessibility of $β$-carotene in OSA-modified-starch-stabilized-emulsions. Food Hydrocoll 84:303–312
Liu H, Ramsden L, Corke H (1999) Physical properties and enzymatic digestibility of hydroxypropylated ae, wx, and normal maize starch. Carbohydr Polym 40:175–182
Liu H, Liang R, Antoniou J, Liu F, Shoemaker CF, Li Y, Zhong F (2014) The effect of high moisture heat-acid treatment on the structure and digestion property of normal maize starch. Food Chem 159:222–229
Liu Q, Li M, **ong L, Qiu L, Bian X, Sun C, Sun Q (2018) Oxidation modification of debranched starch for the preparation of starch nanoparticles with calcium ions. Food Hydrocoll 85:86–92
Luo F, Huang Q, Fu X, Zhang L, Yu S (2009) Preparation and characterisation of crosslinked waxy potato starch. Food Chem 115:563–568
Luo Z-G, Shi Y-C (2012) Preparation of acetylated waxy, normal, and high-amylose maize starches with intermediate degrees of substitution in aqueous solution and their properties. J Agric Food Chem 60:9468–9475
Majzoobi M, Saberi B, Farahnaky A, Mesbahi G (2014) Comparison of physicochemical and gel characteristics of hydroxypropylated oat and wheat starches. Int J Food Eng 10:657–667
Manelius R, Buléon A, Nurmi K, Bertoft E (2000) The substitution pattern in cationised and oxidised potato starch granules. Carbohydr Res 329:621–633
Mason WR (2009) Starch use in foods. In: BeMiller JN (ed) Starch: chemistry and technology, 3rd edn. Academic Press, San Diego, California
Massicotte LP, Baille WE, Mateescu MA (2008) Carboxylated high amylose starch as pharmaceutical excipients: structural insights and formulation of pancreatic enzymes. Int J Pharm 356:212–223
Mehboob S, Ali TM, Sheikh M, Hasnain A (2020) Effects of cross linking and/or acetylation on sorghum starch and film characteristics. Int J Biol Macromol 155:786–794
Mehboob S, Mohsin Ali T, Shaikh M, Hasnain A (2021) Effects of varying levels of succinylation and hydroxypropylation on functional, thermal and textural characteristics of white sorghum starch. Cereal Chem 98:624–633
Mehfooz T, Ali TM, Hasnain A (2019) Effect of cross-linking on characteristics of succinylated and oxidized barley starch. J Food Meas Charact 13:1058–1069
Mehfooz T, Ali TM, Shaikh M, Hasnain A (2020) Characterization of hydroxypropylated-distarch phosphate barley starch and its impact on rheological and sensory properties of soup. Int J Biol Macromol 144:410–418
Miao M, Jiang B, Zhang T, ** Z, Mu W (2011) Impact of mild acid hydrolysis on structure and digestion properties of waxy maize starch. Food Chem 126:506–513
Moin A, Ali TM, Hasnain A (2017) Influence of different molar concentrations of acid on morphological, physicochemical and pasting properties of Pakistani Basmati and Irri rice starches. Int J Biol Macromol 101:214–221
Moin A, Ali TM, Hasnain A (2019) Effect of basmati and irri acetylated rice starches on textural and sensorial characteristics of dumpling wrappers. J Food Meas Charact 13:2594–2602
Naknaen P (2014) Physicochemical, thermal, pasting and microstructure properties of hydroxypropylated jackfruit seed starch prepared by etherification with propylene oxide. Food Biophys 9:249–259
Niu CM, Li SY, Gongc YX (2014) Synthesis and properties of the cassava starch succinate. Adv Mater Res 1033–1034:346–351
Okekunle MO, Adebowale KO, Olu-Owolabi BI, Lamprecht A (2020) Physicochemical, morphological and thermal properties of oxidized starches from Lima bean (Phaseolus lunatus). Sci Afr 8:e00432
Oladebeye AO, Oshodi AA, Amoo IA, Karim AA (2013) Hydroxypropyl derivatives of legume starches: functional, rheological and thermal properties. Starch-Stärke 65:762–772
Otache MA, Duru RU, Achugasim O, Abayeh OJ (2021) Advances in the modification of starch via esterification for enhanced properties. J Polym Environ 29:1365–1379
Park EY, Ma J-G, Kim J, Lee DH, Kim SY, Kwon D-J, Kim J-Y (2018) Effect of dual modification of HMT and crosslinking on physicochemical properties and digestibility of waxy maize starch. Food Hydrocoll 75:33–40
Passauer L, Liebner F, Fischer K (2006) Synthesis and properties of novel hydrogels from cross-linked starch phosphates. In: Macromolecular symposia, vol 244, pp 180–193
Pietrzyk S, Fortuna T, Łabanowska M, Kurdziel M, Królikowska K, Juszczak L (2019) Effect of oxidation level of high-amylose corn starch on its acetylation, molecular structure, and functional properties. Starch-Stärke 71:1800097
Polnaya FJ, Haryadi, Marseno DW, Cahyanto MN (2013) Effects of phosphorylation and cross-linking on the pasting properties and molecular structure of sago starch. Int Food Res J 20:1609–1615
Pratiwi M, Faridah DN, Lioe HN (2018) Structural changes to starch after acid hydrolysis, debranching, autoclaving-cooling cycles, and heat moisture treatment (HMT): a review. Starch/Staerke 70
Purcell S, Wang YJ, Seo HS (2014) Application of oxidized starch in bake-only chicken nuggets. J Food Sci 79:C810–C815
Quintero-Castaño VD, Castellanos-Galeano FJ, Álvarez-Barreto CI, Lucas-Aguirre JC, Bello-Pérez LA, Rodríguez-Garcia ME (2020) Starch from two unripe plantains and esterified with octenyl succinic anhydride (OSA): partial characterization. Food Chem 315:126241
Ragheb AA, El-Sayiad HS, Hebeish A (1997) Preparation and characterization of carboxymethyl starch (CMS) products and their utilization in textile printing. Starch-Stärke 49:238–245
Rao H, Sindhu R, Panwar S (2022) Morphology and functionality of dry heat-treated and oxidized quinoa starches. J Food Process Preserv 46:1–10
Reddy N, Yang Y (2010) Citric acid cross-linking of starch films. Food Chem 118:702–711
Sánchez-Rivera MM, Méndez-Montealvo G, Núñez-Santiago C, De La Rosa-Millan J, Wang YJ, Bello-Péreza LA (2009) Physicochemical properties of banana starch oxidized under different conditions. Starch/Staerke 61:206–213
Sandhu KS, Singh N, Lim S-T (2007) A comparison of native and acid thinned normal and waxy corn starches: physicochemical, thermal, morphological and pasting properties. LWT Food Sci Technol 40:1527–1536
Sang Y, Prakash O, Seib PA (2007) Characterization of phosphorylated cross-linked resistant starch by 31P nuclear magnetic resonance (31P NMR) spectroscopy. Carbohydr Polym 67:201–212
Sang Y, Seib PA (2006) Resistant starches from amylose mutants of corn by simultaneous heat-moisture treatment and phosphorylation. Carbohydr Polym 63:167–175
Sangseethong K, Lertphanich S, Sriroth K (2009) Physicochemical properties of oxidized cassava starch prepared under various alkalinity levels. Starch - Stärke 61:92–100
Sangseethong K, Termvejsayanon N, Sriroth K (2010) Characterization of physicochemical properties of hypochlorite- and peroxide-oxidized cassava starches. Carbohydr Polym 82:446–453
Shah N, Mewada RK, Mehta T (2016) Crosslinking of starch and its effect on viscosity behaviour. Rev Chem Eng 32:265–270
Shaikh F, Ali TM, Arif S, Raza L, Hasnain A (2022) Rheological, textural and digestibility characteristics of chapatti as affected by RS4 starch prepared from corn and sorghum. J Food Meas Charact:1–8
Shaikh F, Ali TM, Mustafa G, Hasnain A (2019a) Comparative study on effects of citric and lactic acid treatment on morphological, functional, resistant starch fraction and glycemic index of corn and sorghum starches. Int J Biol Macromol 135:314–327
Shaikh M, Haider S, Ali TM, Hasnain A (2019b) Physical, thermal, mechanical and barrier properties of pearl millet starch films as affected by levels of acetylation and hydroxypropylation. Int J Biol Macromol 124:209
Shaikh M, Ali TM, Hasnain A (2017) Utilization of chemically modified pearl millet starches in preparation of custards with improved cold storage stability. Int J Biol Macromol 104:360–366
Shaikh M, Ali TM, Hasnain A (2020) Comparative study on the application of chemically modified corn and pearl millet starches in white sauce. J Food Process Preserv 44:e14393
Sharma M, Singh AK, Yadav DN, Arora S, Vishwakarma RK (2016) Impact of octenyl succinylation on rheological, pasting, thermal and physicochemical properties of pearl millet (Pennisetum typhoides) starch. LWT 73:52–59
Shi R, Tang N, Zhang X, Cheng Y (2023) Characterization of physicochemical properties of hypochlorite oxidized starches and their suitability for making starch noodles. Starch - Stärke 75:2200212
Shi SS, He GQ (2012) Process optimization for cassava starch modified by octenyl succinic anhydride. Procedia Eng 37:255–259
Shi Y, Ju B, Zhang S (2012) Flocculation behavior of a new recyclable flocculant based on pH responsive tertiary amine starch ether. Carbohydr Polym 88:132–138
Shujun W, **glin Y, Jiugao Y, Haixia C, Ji** P (2007) The effect of acid hydrolysis on morphological and crystalline properties of Rhizoma Dioscoreae starch. Food Hydrocoll 21:1217–1222
Simsek S, Ovando-Martinez M, Marefati A, Malin S, Rayner M (2015) Chemical composition, digestibility and emulsification properties of octenyl succinic esters of various starches. Food Res Int 75:41–49
Simsek S, Ovando-Martinez M, Whitney K, Bello-Pérez LA (2012) Effect of acetylation, oxidation and annealing on physicochemical properties of bean starch. Food Chem 134:1796–1803
Sindhu R, Devi A, Khatkar BS (2021) Morphology, structure and functionality of acetylated, oxidized and heat moisture treated amaranth starches. Food Hydrocoll 118:106800
Singh H, Sodhi NS, Singh N (2009) Structure and functional properties of acid thinned sorghum starch. Int J Food Prop 12:713–725
Singh J, Kaur L, McCarthy OJ (2007) Factors influencing the physico-chemical, morphological, thermal and rheological properties of some chemically modified starches for food applications-A review. Food Hydrocoll 21:1–22
Sitohy MZ, Labib SM, El-Saadany SS, Ramadan MF (2000) Optimizing the conditions for starch dry phosphorylation with sodium mono- and dihydrogen orthophosphate under heat and vacuum. Starch/Staerke 52:095–100
Srichuwong S, Isono N, Mishima T, Hisamatsu M (2005) Structure of lintnerized starch is related to X-ray diffraction pattern and susceptibility to acid and enzyme hydrolysis of starch granules. Int J Biol Macromol 37:115–121
Subroto E, Indiarto R, Djali M, Rosyida HD (2020) Production and application of crosslinking-modified starch as fat replacer: A review. Int J Eng Trends Technol 68:26–30
Sugih AK, Christabella L, Kristianto H, Prasetyo S (2019) Effect of different types of phosphorylating reagent on the synthesis of modified tapioca starch. IOP Conf Ser Mater Sci Eng 673:12001
Sun Q, Zhu X, Si F, **ong L (2015) Effect of acid hydrolysis combined with heat moisture treatment on structure and physicochemical properties of corn starch. J Food Sci Technol 52:375–382
Tethool EF, Jading A, Santoso B (2012) Characterization of physicochemical and baking expansion properties of oxidized sago starch using hydrogen peroxide and sodium hypochlorite catalyzed by UV irradiation. Food Sci Qual Manag 10:1–11
Thomas DJ, Atwell WA (1999) Handbook series—starches. American Association of Cereal Chemists
Utomo P, Nizardo NM, Saepudin E (2020) Crosslink modification of tapioca starch with citric acid as a functional food. AIP Conference Proceedings. Vol. 2242. No. 1. AIP Publishing
Vanier NL, El Halal SLM, Dias ARG, da Rosa Zavareze E (2017) Molecular structure, functionality and applications of oxidized starches: a review. Food Chem 221:1546
Wang J, Su L, Wang S (2010) Physicochemical properties of octenyl succinic anhydride-modified potato starch with different degrees of substitution. J Sci Food Agric 90:424–429
Wang PP, Luo ZG, Chun-Chen X-F, Tamer TM (2020) Effects of octenyl succinic anhydride groups distribution on the storage and shear stability of Pickering emulsions formulated by modified rice starch. Carbohydr Polym 228:115389
Wang S, Blazek J, Gilbert E, Copeland L (2012) New insights on the mechanism of acid degradation of pea starch. Carbohydr Polym 87:1941–1949
Wang S, Copeland L (2015) Effect of acid hydrolysis on starch structure and functionality: a review https://doi.org/10.1080/10408398.2012.684551, 55, 1081–1097
Wang YJ, Truong VD, Wang L (2003) Structures and rheological properties of corn starch as affected by acid hydrolysis. Carbohydr Polym 52:327–333
Wang YJ, Wang L (2003) Physicochemical properties of common and waxy corn starches oxidized by different levels of sodium hypochlorite. Carbohydr Polym 52:207–217
Wani IA, Sogi DS, Gill BS (2012) Physicochemical properties of acetylated starches from some Indian kidney bean (Phaseolus vulgaris L.) cultivars. Int J Food Sci Technol 47:1993–1999
Whitney K, Reuhs BL, Martinez MO, Simsek S (2016) Analysis of octenylsuccinate rice and tapioca starches: distribution of octenylsuccinic anhydride groups in starch granules. Food Chem 211:608–615
Won C, ** Y, Kim M, Lee Y, Chang YH (2017) Structural and rheological properties of potato starch affected by degree of substitution by octenyl succinic anhydride. Int J Food Prop 20:3076–3089
Wongsagonsup R, Pujchakarn T, Jitrakbumrung S, Chaiwat W, Fuongfuchat A, Varavinit S, Dangtip S, Suphantharika M (2014) Effect of cross-linking on physicochemical properties of tapioca starch and its application in soup product. Carbohydr Polym 101:656–665
Wongsagonsup R, Shobsngob S, Oonkhanond B, Varavinit S (2005) Zeta potential (ζ) and pasting properties of phosphorylated or crosslinked rice starches. Starch/Staerke 57:32–37
Woo K, Seib PA (1997) Cross-linking of wheat starch and hydroxypropylated wheat starch in alkaline slurry with sodium trimetaphosphate. Carbohydr Polym 33:263–271
Woo KS, Seib PA (2002) Cross-linked resistant starch: preparation and properties. Cereal Chem 79:819–825
**e Y, Zhang B, Li M-N, Chen H-Q (2019) Effects of cross-linking with sodium trimetaphosphate on structural and adsorptive properties of porous wheat starches. Food Chem 289:187–194
**ong Y, Zhang P, Warner RD, Fang Z (2019) Sorghum grain: from genotype, nutrition, and phenolic profile to its health benefits and food applications. Compr Rev Food Sci Food Saf 18:2025–2046
Xu J, Zhou CW, Wang RZ, Yang L, Du SS, Wang FP, Ruan H, He GQ (2012) Lipase-coupling esterification of starch with octenyl succinic anhydride. Carbohydr Polym 87:2137–2144
Yang L, Zhou Y, Wu Y, Meng X, Jiang Y, Zhang H, Wang H (2016) Preparation and physicochemical properties of three types of modified glutinous rice starches. Carbohydr Polym 137:305–313
Yi X, Zhang S, Ju B (2014) Preparation of water-soluble oxidized starch with high carbonyl content by sodium hypochlorite. Starch - Stärke 66:115–123
Yousefi AR, Razavi SMA, Norouzy A (2015) In vitro gastrointestinal digestibility of native, hydroxypropylated and cross-linked wheat starches. Food Funct 6:3126–3134
Zainal Abiddin NF, Yusoff A, Ahmad N (2018) Effect of octenylsuccinylation on physicochemical, thermal, morphological and stability of octenyl succinic anhydride (OSA) modified sago starch. Food Hydrocoll 75:138–146
Zhang B, Mei JQ, Chen B, Chen HQ (2017) Digestibility, physicochemical and structural properties of octenyl succinic anhydride-modified cassava starches with different degree of substitution. Food Chem 229:136–141
Zhang G, Venkatachalam M, Hamaker BR (2006) Structural basis for the slow digestion property of native cereal starches. Biomacromolecules 7:3259–3266
Zhang J, Ran C, Jiang X, Dou J (2021) Impact of octenyl succinic anhydride (OSA) esterification on microstructure and physicochemical properties of sorghum starch. Lwt 152:112320
Zhang JY, **ong JW, Chen ZP, Cui N (2022) Physicochemical properties of potato starches oxidised by different concentrations of sodium hypochlorite, and their application in yogurt. Int Food Res J 29:582–592
Zhang M, Zhang S, Ju B, Yang J (2007) A review of amphoteric starches in preparation and application. In The Proceedings of The 3rdInternational Conference on Functional Molecules (pp. 31–35). Citeseer
Zhang M, Jia H, Wang B, Ma C, He F, Fan Q, Liu W (2023) A prospective review on the research Progress of citric acid modified starch. Food Secur 12:458
Zhang Y, Dai Y, Hou H, Li X, Dong H, Wang W, Zhang H (2020) Ultrasound-assisted preparation of octenyl succinic anhydride modified starch and its influence mechanism on the quality. Food Chem: X 5:100077
Zhang YR, Wang XL, Zhao GM, Wang YZ (2012) Preparation and properties of oxidized starch with high degree of oxidation. Carbohydr Polym 87:2554–2562
Zhao J, Chen Z, ** Z, de Waard P, Buwalda P, Gruppen H, Schols HA (2015) Level and position of substituents in cross-linked and hydroxypropylated sweet potato starches using nuclear magnetic resonance spectroscopy. Carbohydr Polym 131:424–431
Zhao J, Schols HA, Chen Z, ** Z, Buwalda P, Gruppen H (2012) Substituent distribution within cross-linked and hydroxypropylated sweet potato starch and potato starch. Food Chem 133:1333–1340
Zheng Y, Hu L, Ding N, Liu P, Yao C, Zhang H (2017) Physicochemical and structural characteristics of the octenyl succinic ester of ginkgo starch. Int J Biol Macromol 94:566–570
Zhou F, Liu Q, Zhang H, Chen Q, Kong B (2016) Potato starch oxidation induced by sodium hypochlorite and its effect on functional properties and digestibility. Int J Biol Macromol 84:410–417
Zięba T, Kapelko M, Szumny A (2013) Effect of preparation method on the properties of potato starch acetates with an equal degree of substitution. Carbohydr Polym 94:193–198
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Ali, T.M., Haider, S., Shaikh, M., Butt, N.A., Zehra, N. (2024). Chemical Crosslinking, Acid Hydrolysis, Oxidation, Esterification, and Etherification of Starch. In: Mazumder, N., Rahman, M.H. (eds) Advanced Research in Starch. Springer, Singapore. https://doi.org/10.1007/978-981-99-9527-1_2
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