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Organo-leptic Evaluation of A Product  Incorporating Treated Fenugreek  (Trigonella  Foenum  Graecum) Flour -Diabetes Case Control Study

E. Lakshmi

Department of Nutrition, S.R.M. University, College of Nursing, Chennai, India, 603 203.

Corresponding author Email: elakshmi20@gmail.com

DOI : https://dx.doi.org/10.12944/CRNFSJ.5.2.15

Article Publishing History

Received: 26-03-2017

Accepted: 10-07-2017

Published Online: 12-07-2017

Plagiarism Check: Yes

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Abstract:

Despite the evidence demonstrating the efficacy of fenugreek in the treatment of diabetes, its use for that purpose has been inhibited by its extremely  bitter taste. Impairment in taste modalities is described long before in patients with T2DM.
To determine any significant difference in  bitter flavor and  taste  perception between diabetics and normoglycaemics at each per cent level of fenugreek incorporation. To determine the significant difference in the thresh hold level for bitter  flavor and  taste  perception in diabetics between different  per cent level of fenugreek incorporation. To determine  per cent level  of fenugreek incorporation and the product acceptability in terms of visual attributes and tactile feel.
Dhoklas  the Indian recipe was  standardized with each receipe consisting of  10 ,15, 20 and 25 per cent variation  of treated fenugreek flour with a control   coded as S1,S2,S3 and S4.at the dietary department of Sri Avinashilingam deemed university. The experimental group consists of  20T2DM  and the control with 20 normoglycaemic subjects .They were in the age group of 35-45 years from among  the staff members. The product was evaluated using score card based on  product related lexicon of  5 point hedonic scale rating. The results were statistically analysed using 2- way anova with interaction model  and post-hoc  test for paired comparison.
Statistically there was significant difference( P<0.001) in evaluation of dhoklas at 20 and 25 per cent. The post-hoc test in diabetics showed significant difference (P<0.005) in taste perception. The threshold for bitter taste was perceived by diabetics slightly at 25 per cent level. In terms of visual  attributes and tactile feel dhoklas were acceptable at 10 per cent.
The study revealed a lower sensitivity to bitter flavor and  taste modality in diabetics. Treated  fenugreek  flour can be incorporated to about 25 per cent to reduce blood sugar in type II diabetes

Keywords:

Dhokla; DM; Fenugreek; Normoglycaemic; Organo-leptic; Sensory evaluation; T2

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Lakshmi E. Organo-leptic Evaluation of A Product Incorporating Treated Fenugreek (Trigonella Foenum Graecum) Flour -Diabetes Case Control Study. Curr Res Nutr Food Sci 2017;5(2). doi : http://dx.doi.org/10.12944/CRNFSJ.5.2.15


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Lakshmi E. Organo-leptic Evaluation of A Product Incorporating Treated Fenugreek (Trigonella Foenum Graecum) Flour -Diabetes Case Control Study. Curr Res Nutr Food Sci 2017;5(2). http://www.foodandnutritionjournal.org/?p=3561


Introduction

Inflammatory diseases of oral cavities and soft tissue changes are associated with diabetes mellitus.1 Taste disorder is a common observation in type 1 and type 2 diabetes . The threshold for bitter taste is reduced in these patients due to diabetic neuropathy. It is reported that more than 250 medications affect smell and taste sensation in diabetes.2 Dietary intervention plays a major role in the treatment of type II diabetes along with drugs and exercise. Low carbohydrate diet (30-40%) followed for more than hundreds of years is no longer necessary. It is universally agreed that carbohydrate may form 60-65% of total calories .Three fourth of total carbohydrate may come preferably from complex carbohydrate like unrefined cereals in the form of hand pounded rice, whole wheat, ragi and cumbu.3 The gluten present in wheat increases the chewing counts and the sense of satiety. The dietary fiber present in milled cereals increases the standing time of food in the gut and fullness to prevent hyperglycemia. An optimum level of fiber would be 25gms per 1000 calories . Green leafy vegetables like cluster beans, kovakkai, plantain stem and ladies finger are rich sources of dietary fiber. In the management of hyperlipedemia in obese T2dm fat content should be reduced to 20-25%. The unsaturated fatty acid(UFA) present in olive oil, cottonseed oil, corn oil, soy bean oil and sunflower oil, are necessary for the metabolism and function.4 There is evidence that T2dm can be treated by the use of indigenous foods like bitter gourd juice, ginger, garlic oil, thulasi extract, jamun seed extract and fenugreek seeds.5 Fenugreek (Trigonella foenum graecum) is a common condiment used in Indian homes as a spice and food to reduce hyperglycemia.6 About 25-100gms of fenugreek seeds taken daily can diminish reactive hyperglycemia. The beneficial effect of soluble dietary fiber fraction of fenugreek on insulinemic and lipidimic status in type 2 diabetes is well established.7 Indian diet recipes and food ingredients are yet to be standardized. In a heterogeneous culture like ours one has to necessarily take into account the factors such as regional and local food habits, cooking habits, eating habits, timing and frequency of food intake, various recipes, and indigenous dietetic ideas prevalent in the society.8 Sensory analysis of a product is related to the organoleptic feel of the product. They are the visible attributes like appearance and color.The tactile feel consists of texture and the olfactory and gustatory sensation are the flavor per se and taste per se.9

Materials and method

The study was approved by the research committee of Sri Avinashilingam  deemed university and designed to include eligible T2DM and  normoglycaemic individuals A written consent was obtained and were appraised of the study. The ingredients for recipe  standardization was procured from chintamani    supermarket (Coimbatore).

Sample size

Purposive sampling procedure was followed. Eligible 20T2DM taking oral hypoglycaemic drugs(Past2-3years) and 20 normoglycaemic individuals in the age group of 35-45 years from among the staff members comprised the study.

Product development

Idea generation and screening of ideas were the initial step in product(dhokla) development using food-to- food fortification strategy. The fenugreek seeds were treated to remove lectins, debitterized and processed fenugreek powder  was used to remove  undesirable taste.10

Fenugreek seeds (purchased in lots)

Soaked  (hot boiling water- 1 minute )

Inactivate lectins (To  ↓  fenugreek  odour)

Seeds  Dried (Evaporation)

To remove moisture

Fried slightly

To remove the bitterness

Powdered (Flour mill)

To pass through a 60’ mesh sieve

Treated Fenugreek Flour

( Packed  blends of 10,15 ,20 and 25per cent )

After a series of trials using ingredients in various proportion(Table-1) the concept of the enriched product-dhokla  took shape. Dhoklas   the indian recipe was selected for  fortification  with treated fenugreek  flour due to its commonality of use in Indian homes. The  recipe had four variation with four blends  (10 per cent, 15 per cent,20 per cent and 25 per cent) with a control. The recipes were standardized in the food science laboratory for its repeated.

Table 1: Ingredients in  dhokla preparation

S.no

Ingredients

Amount

1

Maize flour

100 gms

2.

.Wheat flour

10 gms

3.

Onions

20 gms

4

Chillies

2 gms

5

Oil

10 ml

6

Fenugreek

15gms

7

Salt

pinch

8

Water

30 ml

100gms contains 20gms fenugreek flour

100gms yield 5 dhoklas

consistency . Score cards were developed as given in table 1 using product related lexicon based on 5 point hedonic scale rating . One recipe with four variation was prepared .The recipes were coded as S1 , S2 , S3 and S4 to prevent any bias. The panel members were invited by 12.30 pm for sensory analysis. A glass of water was provided to rinse their mouth each time they tasted a different variation.

Table 1a: Score card to evaluate dhoklas

Appearance  Colour Texture Flavour Taste Score
a. Very Good a. Golden Yellow a. Soft a. Highly Acceptable a. Good 5
b. Good b. Yellow b. ModeratelySoft b. Acceptable b. Fair 4
c. Fair c. Light Yellow c. Fairly Hard c. Mild FenugreekFlavour c. Slightly Bitter 3
d. Poor d. Yellowish Brown d. Soggy c. Strong FenugreekFlavour d. Bitter 2
e. Very Poor e. Brown e. Hard e. Raw Flavour e. Highly Bitter 1

 

Statistical Analysis

The results were statistically analyzed using 2- way anova with interaction and post-hoc test for paired comparison.

Results

Table 3 shows that there was significant difference ( P<0.001) in rating of dhoklas by diabetics and normoglycaemics at 20 and 25 per cent of fenugreek incorporation. Pathological changes in the peripheral nerves of diabetics affects the myelin sheath resulting in reduced thresh hold for bitter taste.11 A significant difference(P<0.001) in perception of different attributes was observed at 15, 20 and 25 per cent. An altered sensitivity to various perceptions was seen in diabetics. Continuously a significant difference( P<0.001)  in interaction was observed at 25 per cent between experimental and control group for perception of different attributes. Lectins present in fenugreek is the cause for its odour.12 They were removed by soaking with-out compromising the taste and flavor.

Table 2:  Organoleptic evaluation of dhoklas as rated by diabetics and normoglycaemics

Variation          Diabetic Normoglycaemic P-Value
Apperance Colour Texture Flavour Taste Apperance Colour Texture Flavour Taste Patients Characters P×CI
10 percent S1 4±0.25a 4±0.25a 4.6±0.11a 3.7±0.18ab 4.2±0.17a 3.7±0.18ab 4±0.23a 4±0.18a 3.8±0.2ab 3±0.23b o.oo3 0.01 0.008
15per cent S2 3.7±0.18bc 3.8±0.2ab 4.6±0.11a 3.4±0.18bc 3.8±0.2ab 3.6±0.15bc 3.8±0.2ab 3.8±0.2ab 3.4±0.18bc 3.0±0.23c 0.004 <0.001 0.036
20PercentS3 3.2±0.22bc 3.8±0.2ab 4.4±0.11a 3.0±0.23c 3.8±0.2ab 3.4±0.18bc 3.4±0.18bc 3.8±0.2ab 2.8±0.092c 2.8±0.092c <0.001 <0.001 0.015
25PercentS4 3.2±0.22bc 3.7±0.18ab 4.2±0.17a 2.8±0.092c 3.7±0.18ab 3.4±0.18bc 3.4±0.18bc 3.4±0.18bc 2.8±0.092c 2±0.018d <0.001 <0.001 <0.001

Values are means ±SEM,n =20 per treatment group.

Means in a row without a common superscript letter differ( <0.005) as analysed by two-way anova.

P×C= Patients ×Characters interaction effect

Results of post-hoc tukey test revealed that there was significant difference (P<0.005) in taste perception between experimental and control group at all four levels of fenugreek incorporation

Figure 1:Mean scores of flavor and taste Figure 1: Mean scores of flavor and taste 

Click here to View figure

 

The diabetic mean score (4.2±0.17) was higher than normoglycaemics (3 ± 0.23) at 10 per cent. Diabetic neuropathy has possibility to change all four senses of   taste. Continuously a higher mean score was marked by diabetics stating that the taste acquity for bitterness was lesser in diabetics than normoglycaemics.13 At 25 per cent level of fenugreek incorporation again diabetics scored maximum(3.7±0.18) compared to normoglycaemics (2 ±0.18).Acceptability of food products in terms of sensory variables is an important step in determining research priority.14 The perception to bitter flavor was reduced in diabetics with a highest (3.0.23) mean score compared to normoglycaemics (2.8±0.09) at 15 per cent.

In determining the sensitivity to bitter flavor and taste perception in diabetics a significant difference (P<0.005) was seen at different levels of fenugreek incorporation. The diabetics had low threshold for bitter flavor and scored a maximum (3.7±0.17) at 10 per cent. The bitterness was not felt until 20 per cent. The threshold for bitterness was perceived at 25 percent with a minimum(2.8±0.09) score. Systemic disorders like diabetes mellitus can secondarily cause taste changes through neuropathy.15 In terms of taste perception again the threshold was decreased with a maximum score (4.2±0.17) at 10 per cent. A higher thresh hold for bitter taste was perceived at 25 per cent with a (3.7±0.17) minimum score. Sensory analysis techniques have been developed into powerful tool for understanding how sensory attributes emphasize product quality and consumer preferences. Modern techniques of sensory processing can be very useful for optimizing, new product.16

Figure2:  Dhoklas with variation in fenugreek flour Figure 2:  Dhoklas with variation in fenugreek flour 

Click here to View figure

 

The dhoklas had a high level of acceptability (fig -2) at 10 per cent of fenugreek incorporation in terms of appearance (4±0.25), colour(4±0.25) and texture (4.6±0.17).The product was less acceptable at 20 and 25 per cent with  the lowest mean score.

Discussion

Fenugreek was found bitter in taste but incorporating treated fenugreek flour in recipes in varied concentration decreased the bitterness. The diabetics have decreased taste sensitivity for all taste parameters i.e. sweet, salt, sour and bitter.17 A significant difference (P<0.001) at 20 and 25 per cent was found between diabetics and normoglycaemics. The post-hoc test reveals significant difference ( P<0.005) in taste perception between diabetics and normoglycaemics at all four levels. The flavor perception also differed significantly (P<0.005) between various concentration in diabetics. The threshold for bitter taste was perceived slightly at 25 per cent level in diabetics. The product was acceptable at 10 per cent.

Conclusion

The study revealed a lower sensitivity to bitter flavor and taste modality in diabetics. The threshold for bitter taste was perceived only at higher concentration of 25 percent in, dhoklas. Treated fenugreek flour can be incorporated to about 25 per cent to reduce blood sugar in type II diabetes due to its higher threshold for bitter sensitivity.

Acknowledgements

The author wishes to   acknowledge the staff members of Avinashilingam   University for their support as being the members of taste panel.

References

  1. Shailesh M. G, Atul I, Shirish D, Rahul B. Evaluation of gustatory function in patients with diabetes mellitus type 2. Oral Surgery, Oral Medicine, Oral Pathology and   oral Radiology. 2009;108(6).
  2. Shanaz Mohammad Gaphor,  Raz A. Saeed. The evaluation of taste threshold for four main tastes between diabetic and healthy individuals. European Scientific Journal. 2014;10(3):435-439.
  3. Viswanathan M, Ramachandran A, Mohan V, Snehalatha C, Dietary management of diabetes mellitus an update, Diet, digestion and diabetes. Workshop manual, 10. 4. diabetes association of india. 1983:82(2)206.
  4. Viswanathan M, Ramachandran A , Indira P, Sherry J, Snehalatha C, Mohan V , Kymal PK. Responses to legumes in NIDDM subjects: lower plasma glucose and higher insulin levels. Nutritional Reports International. 1989;40:803-812.
  5. Kashikar v.s, kotkar Tejaswita. Indigenous remedies for diabetes mellitus, Int J Pharm PharmSci.2011;3(3):22-29.
  6. Giri J, Sakthidevi T.K, Meerarani S, The effect of ginger on serum cholesterol and blood glucose levels. Society of biological chemists,abstract; Baroda. 85.
  7. Nutrition News, Use of fenugreek seeds (Trigonella foenum graecum) by diabetics, . Nutrition News ;National Institute of Nurition, ICMR. 1987;8(4).
  8. Munichoodappa C,Lalitha C.K, Indigenous dietetic ideas in diabetic dietetic regiment, Diet, Diabetes and Digestion, Workshop manual, 10. 4. diabetes association of india. 1983;82(2)206.
  9. Paul P.C, Palmer H.H, Sensory methods of food quality assessment, Food theory and applications;John wiley and sons. 1972;727.
  10. Paturi V Rao, Use of Plant Foods including Bitter Gourd and Fenugreek in managing type 2 diabetes mellitus, International Journal of Diabetes in   Developing Countries;9: October 1989.
  11. Olson R.K, Taste changes in diabetes mellitus. Nutrition review. 1982;40(8):236-237.13.
  12. Hypoglycaemic effect of fenugreek; Annual report National institute of nutrition ICMR. 1984-198585;11.
  13. Sudharshani W, Priyadarshika H, Shamini P, Sweet taste sensitivity in pre-diabetics,diabetics and normoglycaemic controls: a comparative cross sectional study, BMC Endocrine disorders. 2014;14:67.
    CrossRef
  14. Morr M.L,Irmiter T.F, Evaluation of food products, Introductory foods, II Edition,Macmillan  publishing company. 1975;446.
  15. Hardy S.L, Brennand C.P. Taste threshold of individuals with diabetes mellitus and of control subject. Journal of American dietetic association. 1988;79(3):286-289.
  16. Crina Muresan, Laura Stan, Simona Man, Stancuta Scrob, Sevastita Muste. Sensory evaluation of bakery products and its role in determining of the consumer preferences. Journal of  Agroalimentary Processes and Technologies. 2012;18(4):304-306.
  17. Raghuram T.C. Diabetes mellitus. Nutrition quarterly NIN, ICMR. 1988;22(1):3.


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