Cissus Populnea Flour Addition and Proximate Composition , Functional and Sedimentation Properties of Millet Kunu

The study evaluated the possibility of using cissus populnea mucilage flour as a colloid in beverage production and its influence on proximate composition, functional properties and sedimentation rate of millet kunu during storage at ambient temperature. Hot water (80 90 0C) extraction method was used to extract the mucilage from fresh stem cuttings of cissus populnea plant. Freeze (100g,-400C, 48 hr) drying method was used in mucilage flour production. Standard methods were used in millet-cissus kunu production and determination of the proximate composition, functional properties and sedimentation rates of the beverage samples. Results showed that addition of freeze dried cissus populnea mucilage flour to millet kunu significantly decreased its moisture content but increased its protein, fat, fibre, ash and carbohydrate contents, when compared to 100% millet kunu (control). Similarly, the addition of freeze dried cissus populnea mucilage flour to millet kunu significantly elevated the viscosity, pH, and tritratable acidity of the beverage samples when compared to control. The addition of C. populnea mucilage flour to millet kunu equally reduced the rate of dissociation of the starch granules from the beverage during 8 hr storage at ambient temperature. Freeze dried C. populnea mucilage flour has the potentials of serving as a colloid in beverages and improving its nutritional and functional attributes.


Introduction
Kunu beverage is an excellent source of carbohydrate, minerals and vitamins.Kunu a cereal based non-alcoholic fermented beverage is widely consumed in northern Nigeria.After production however, starch molecules of the cereal(s) used tend to dissociate from water in which they are held in suspension forming a two layer beverage product lacking in homogeneity.Though the consumption of kunu beverage continues to increase in Nigeria, however, the formation of sediment in the beverage is one of the major reasons some consumers reject it.Additionally, the sediment can adversely influence the quality of beverage by absorbing flavour substances.Sediment velocity relies on the particles' diameter and density, the density and viscosity of the solution.Reduction of particle size and incorporation of polysaccharide stabilizers or soluble dietary fibres are simplified means for solving the problem of beverage sedimentation.
Hydrocolloids have been used in improving cloud stability in beverage production, however, this is limited by quantity of hydrocolloids added, type of beverage product and production process adapted [1].High quantity of hydrocolloids addition impacts adversely on texture quality of products.Hydrocolloids are important groups of polysaccharides, generally characterized by high molecular weight [2].As food gums, they are used to improve mouth feel and to change the viscosity of solutions due to their high polymeric nature and the interactions between polymer chains when they are dissolved or dispersed [3].
Cissus populnea mucilage flour when used as soluble dietary fiber has important nutritive component for human health, due to its various physiological functions.Fresh Cissus populnea mucilage is extremely viscous giving rise to liquid products with high viscosity.Foods with high viscosity decrease protein efficacy and lipid utilization by interfering with the digestion and absorption of nutrients [4,5,6].When high viscose foods are dissolved in water, they tend to slow gastric emptying [7].Alfa et, al. reported that cissus gum has very high water-absorption and swelling capacities, becoming both pseudoplastic and thixotropic in an aqueous solution of at least 4 % w/v.As an emulsifying agent, cissus gum would perform better as an emulsion stabilizer than as emulsifying agent in comparison with gum arabic [8,9].In another study, confirmed cissus gum as an emulsion stabilizer [10].Cissus populnea(Gull and Perr) is a savannah shrub and climber which can reach height of three meters or more depending on the supporting tree and its age [11].It is an under-utilized edible gum grown in the middle belt of Nigeria, where it has long found a place in the traditional menu of Tiv, Idoma and Igala ethnic groups [12,13].It is called Ager in Tiv, Okoho in Idoma and Igala, Dafara in Hausa and Ogbolo in Yoruba languages in Nigeria [14].The demulcent property, biocompatibility, cheapness, lack of toxicity, soothing action and non irritant nature of cissus gum favours it wide usage in several industries.In the food industry its viscose property enables it to be employed as hydrocolloid and soup thickener, its gelling/thickening property in the production of jam, jelly, marmalades, dairy products and salad dressings while its binding/coating property in the production of baked

Functional properties
The viscosity of the millet-cissus kunu samples were analyzed according to method, total titratable acidity according to method while pH was determined according to method using a pH meter with a glass electrode (Model 82-63, Orion Research, Inc., Beverly, MA) [18,20,21].

Sedimentation characteristics
Sedimentation rate was determined by method [22].

Statistical analysis
Data for all determinations were subjected to analysis of variance (ANOVA) while differences among means were separated using Duncan's New Multiple Range Test [23].

Discussion
Kunu like other beverages are higher in moisture content than any other parameter.This may be linked to the use of kunu principally for thirst quenching and refreshing purposes.Also, the climate of the zone where kunu is produced and consumed most predominantly calls for this.The dry season which coincide with the peak of production are particularly characterized by very hot weather and excessive loss of fluid.No significant difference was observed in the moisture content of millet-cissus kunu samples while millet kunu (control) had significantly (P ≤ 0.05) higher moisture content than all the millet-cissus kunu samples.The differences in moisture content (2.18-3.47%)may be due to the high water absorption capacity of cissus populnea mucilage flour.The moisture content of millet-cissus kunu samples conform to earlier findings by [24].
There was no significant statistical difference (P < 0.05) between the protein content of millet-cissus kunu samples and control.All the kunu samples were generally low in protein content.The protein content of this study was in contrast with earlier findings of [24,25].The protein content of millet-cissus kunu has made it to be more nutritious than any of the carbonated soft drinks sold in Nigeria, that are devoid of protein but high in sugar, colouring and carbonated water content.Citation: Iombor TT, Yaaya AA (2019) Cissus Populnea Flour Addition and Proximate Composition, Functional and Sedimentation Properties of Millet Kunu J Nutrition Health Food Sci 7( 1):1-6.DOI: 10.15226/jnhfs.2018.001152

Cissus Populnea Flour Addition and Proximate Composition, Functional and Sedimentation Properties of Millet Kunu
Copyright: © 2019 Iombor TT, et al.
Fat content of millet-cissus kunu was found to increase with every 5% cissus populnea mucilage flour addition.The low fat content of both control and millet-cissus kunu samples were in conformity with the report of [24].This could be attributed to the low fats (1-2%) content of cereals generally as earlier documented by [26].The low fat content of millet-cissus kunu is an indication that cissus populnea mucilage flour is a poor source of fat.
There was great increase in the amount of fibre in each sample of millet-cissus kunu relative to control.This could be attributed to addition of the mucilage flour after filtration of millet kunu.This was in conformity with findings that cissus gum has very high water-absorption and swelling capacities, which makes them become both pseudoplastic and thixotropic in aqueous solution [8].The high fibre content of millet-cissus kunu could be employed in the prevention/management/treatment of type 2 diabetes, hypercholesterolemia and body weight in humans.
The high ash content of the millet-cissus kunu samples is an indication that the mucilage flour is a rich source of mineral elements.The processing technique employed has a direct effect on the ash content.Products whose processing method does not require filtration tend to be higher in ash content.On the other hand, among those filtered before consumption, variation in pore size of the sieving material is the determinant factor.Sieving materials with larger pore sizes have higher quantity of suspended particles hence higher ash content.
The carbohydrate contents were relatively low and may be attributed to filtration of millet kunu before addition of cissus mucilage flour.The high fibre content of the kunu samples could account for their low carbohydrate content.The carbohydrate content of this study contrasted the findings of [27].
It was observed that the pH of millet-cissus kunu samples decreased with increase in cissus populnea flour addition relative to control and conforms with the earlier findings by that kunu is an acidic food [28].The kunu samples were `slightly acidic with pH (5.49 -5.55) values for millet-cissus kunu and 6.43 for control.The low pH values (5.49-5.55)/acidity were due to slight fermentation during processing or addition of species of low acidic value for a sour taste.Adebayo et, al. had reported that the presence of lactobacillus, Acidophillus, Candida species and Saccharomyces cerevisiae bacteria which help in acid fermentation of kunu account for their acidity [25].These bacteria however, have been reported to be non-pathogenic as they are beneficial to humans [25].Products with low pH values have higher titratable acidity content and vice versa.Unfermented products tend to have higher values of pH tending towards the neutral state.
The values of titratable acid in all the millet-cissus mucilage flour substituted kunu samples were statistically similar (P<0.05)but lower than 3.30-3.40g/mland 2.18-2.26g/mlreported by [28,29,26].The titratable acid values of millet-cissus kunu were however, higher than 0.4608-0.3870ml/min reported by [30].The low value of TTA for millet-cissus kunu samples indicates poor fermentation with increased incorporation of cissus mucilage flour, which could have caused poor production of lactic acid.This invariably led to increase in their pH values.The values of the sedimentation rate (Figure 1 and 2) showed decrease in the sedimentation rates of millet-cissus kunu samples with increase in Cissus populnea mucilage flour incorporation.Abel et, al. had observed that, interactions between particles in a solution modify the settling behavior of a given particle, relative to that of an isolated particle.Abel and co-workers stated that the most significant interactions being hindered settling, clustering and diffusion [31].In this study however, the predominant interaction observed was hindered settling, as addition of cissus mucilage flour may have decreased the sedimentation velocity of sorghum particles that were held in suspension in the heterogenous solution.That is, as the volume fraction of cissus flour is increased, the average separation distance between each particle of sorghum is decreased.Hydrodynamic interactions are quite strong at these short separation distances, and thus may retard the motion of sorghum starch particles.Sedimentation rate is therefore decreased.This was in contrast with the earlier findings of [30].Among the samples made with Cissus populnea mucilage flour, sample 95:5 had the highest sedimentation rate at the end of 8 hr of storage while the lowest rate was that of 80:20.This affirmed the hindered settling effect of cissus mucilage flour on sorghum starch particles in millet-cissus kunu beverage.

Conclusion
The incorporation of cissus populnea mucilage flour in millet kunu production improved its proximate composition and functional properties but lowered the rate of sedimentation of this beverage.The production of cissus populnea mucilage flour should be exploited to enhance its utilization in the beverage industry.

Table 2 :
Functional properties of millet-cissus kunu Mean ± SD triplicate determinations.Means with same alphabets in a column are not significantly (p<0.