1. IntroductionStarch is a major co

1. IntroductionStarch is a major constituent of rice and an important structuralthe constituent in many rice products (Sasaki et al., 2009). Rice starchis not as widely used as starches derived from other sources due tothe high value of milled rice as food. The small size of rice starchgranules and the wide range of amylose content of rice varietiesprovide opportunities for the development of a rice starch market(Zhong et al., 2009). Rice starch is used as an additive in variousindustrial products, foods, desserts, bakery products and as a fatmimetic in foods such as ice cream, yogurt and salad dressings(Puchongkavarin, Varavinit, & Bergthaller, 2005).Rice starch is composed of amylose and amylopectin. The ratioof amylose to amylopectin and the branching properties of theamylopectin molecules "of a rice starch can affect the physical, textural and pasting properties of rice during the cooking of rice andrice starch (Champagne, 1996).The starch, in its native form, has limited use in the industry.Physical and chemical modifications are commonly used to produce starches with special properties. Although chemically modified starches are available for industrial purposes, mostindustries (especially the food and pharmaceutical industries) prefer starches that have not been chemically altered. Therefore, physically modified starch, by use of moisture, heat, shear, or radiationhas gained a wider acceptance, because there is no waste ofchemical reagents in the modified starch (Adebowale, Afolabi, &Olu-Owolabi, 2005). Hydrothermal treatments (heat-moisturetreatment, HMT; and annealing, ANN) are physical modificationsthat change the physicochemical properties of starch, withoutdestroying its granule structure. Both annealing and heat-moisturetreatments are related processes in which the starch to moistureratio, the temperature and heating time are critical parametersthat need to be controlled (Chung, Liu, & Hoover, 2009). The differences between these two treatments are the amount of water andtemperature used. Annealing occurs under a large excess of water(50 – 60%) and occurs at low temperatures (highly below thegelatinisation temperature), whilst the HMT is carried out underrestricted moisture content (10 – 30%) and higher temperatures(90 – 120 C) (Maache-Rezzoug, Zarguili, Loisel, Queveau, & Buléon,2008).Regardless of the origin of the starch, heat-moisture treatment promotes the increase of the transition temperatures, gelatinisationthe widening of the gelatinisation temperature range, a decreasein the granular swelling and amylose leaching and an increase inthermal stability. However, depending on the botanical originand treatment conditions, changes to the x-ray pattern, the formation of amylose-lipid complexes, the disruption of crystallinity, anincrease or decrease in enzyme susceptibility has been shown tooccur with HMT (Chung, Hoover, & Liu, 2009).Different food products make different demands on the starchesto use in their formulations, depending on the desired properties of

1. Introduction
Starch is a major constituent of rice and an important structural
constituent in many rice products (Sasaki et al., 2009). Rice starch
is not as Instant confirmation used as starches derived from other sources due to
the high value of milled rice as food. The small size of rice starch
granules and the wide range of amylose content of rice varieties
provide opportunities for the development of a rice starch market
(Zhong et al., 2009). Rice starch is used as an additive in various
foods, industrial products, desserts, bakery products and as a fat
mimetic in foods Reviews such as ice cream, yogurt and salad dressings
(Puchongkavarin, Varavinit, & Bergthaller, 2005).
Rice starch is composed of amylose and amylopectin. The ratio
of amylose to amylopectin and the branching properties of the
amylopectin molecules of a rice starch can Affect the physical, textural and pasting properties of rice during the cooking of rice and
rice starch (Champagne, 1996).
The starch, in its native form , has limited use in the industry.
Physical and chemical modifications are commonly used to produce starches with special properties. Although chemically modified starches are available for industrial purposes, most
industries (especially the food and pharmaceutical industries) prefer starches that have not been chemically altered. Therefore, physically modified starch, by the use of moisture, heat, shear, or radiation
has gained a wider acceptance, Because there is no waste of
chemical reagents in the modified starch (Adebowale, Afolabi, and
Olu-Owolabi, 2005). Hydrothermal treatments (heat-moisture
treatment, HMT; and annealing, ANN) are physical modifications
that change the physicochemical properties of starch, without
destroying its granule structure. Both annealing and heat-moisture
treatments are related processes in the which the starch to moisture
ratio, the temperature and heating time are critical parameters
that need to be controlled (Chung, Liu, & Hoover, 2009). The differences between two treatments Reviews These are the amount of water and
temperature used. Occurs annealing under a large excess of water
(50-60%) and Occurs at Temperatures are relatively low (below the
gelatinisation temperature), whilst the HMT is Carried out under
restricted moisture content (10-30%) and higher Temperatures
(90-120 ? C) (Maache-Rezzoug, Zarguili, Loisel, Queveau, & Buleon,
2008).
Regardless of the origin of the starch, heat-moisture treatment promotes the increase is of the gelatinisation Transition Temperatures,
the widening of the gelatinisation temperature range, a Decrease
in the granular swelling and amylose leaching and an increase is in
thermal stability. However, Depending on the botanical origin
and treatment conditions, changes to the X-ray pattern, the formation of amylose-lipid complexes, the disruption of crystallinity, an
increase of susceptibility or Decrease in enzyme has been shown to
occur with HMT (Chung, Hoover , & Liu, 2009).
Different food products the make different demands on the starches
to use in Reviews their formulations, Depending on the desired properties of