Review
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Year 2022, , 194 - 203, 30.06.2022
https://doi.org/10.46592/turkager.1065108

Abstract

References

  • Abdelrahman A, Hoseney RC and Varriano-Marston E (1984). The proportions and chemical compositions of hand-dissected anatomical parts of pearl millet. Journal of Cereal Science, 2(2): 127-133.
  • Abecassis J, Autran JC and Feillet P (2000). Durum Wheat, Semolina and Pasta Quality: Recent Achievements and New Trends, Montpellier, France, pp. 42.
  • Aktan B and Khan K (1992). Effect of high-temperature drying of pasta on quality parameters and on solubility, gel electrophoresis, and reversed-phase high performance liquid chromatography of protein components. Cereal Chemistry, 69(3): 288-295.
  • Anonymous (2016a). http://fmtmagazine.in/interview022014.html. (01 August 2016).
  • Anonymous (2016b). http://economictimes.indiatimes.com/industry/cons-products /fmcg/itc-market-share-in-instant-noodles-segment-rises-to-30-40/articleshow /51481603.cms. (01 August 2016).
  • Anonymous (2017). https://www.ndtv.com/food/6-to-8-million-indians-suffer-from-celiac-disease-go-gluten-free-to-manage-the-condition-1748085. (28 April 2022).
  • Anonymous (2021). https://www.imarcgroup.com/pasta-market. (27 April 2022).
  • Archana, Sehgal S and Kawatra A (1998). Reduction of polyphenol and phytic acid content of pearl millet grains by malting and blanching. Plant Foods for Human Nutrition, 53: 93-98.
  • Arora P, Sehgal S and Kawatra A (2002). The role of dry heat treatment in improving the shelf life of pearl millet flour. Nutrition and Health, 16: 331-336.
  • Devi KP, Prema RS, Vaidheswaran H, Sudha A and Sangeetha V (2015). Quality evaluation of non wheat sweet vermicelli. International Journal of Engineering and Techno Science, 1(1): 1-6.
  • Gopalan C, Rama Sastri BV and Balasubramanian SC (2004). Nutritive value of Indian foods, second ed. National Institute of Nutrition, ICMR, Hyderabad, India, pp. 47.
  • Gull A, Prasad K and Kumar P (2015). Effect of millet flours and carrot pomace on cooking qualities, color and texture of developed pasta. LWT- Food Science and Technology, 63: 470-474.
  • Jalgaonkar K and Jha SK (2016). Influence of particle size and blend composition on quality of wheat semolina and pearl millet pasta. Journal of Cereal Science, 71: 239-245.
  • Jalgaonkar K, Jha SK and Mahawar MK (2018). Influence of incorporating defatted soy flour, carrot powder, mango peel powder and moringa leaves powder on quality characteristics of wheat semolina-pearl millet pasta. Journal of Food Processing and Preservation, 42(4): e13575.
  • Jalgaonkar K, Jha SK and Sharma DK (2016). Effect of thermal treatments on the storage life of pearl millet (Pennisetum glaucum) flour. Indian Journal of Agricultural Sciences, 86(6): 762-767.
  • Jalgaonkar K, Jha SK, Mahawar MK and Yadav DN (2019). Pearl millet based pasta: optimization of extrusion process through response surface methodology. Journal of Food Science and Technology, 56(3):1134-1144.
  • Jalgaonkar K, Jha SK, Nain L and Iquebal MA (2017). Quality Changes in Pearl Millet Based Pasta during Storage in Flexible Packaging. Journal of Agricultural Engineering, 54(3): 22-31.
  • Kowlessar OD (1972). Dietary gluten sensitivity updated. Journal of the American Dietetic Association. 60(6): 475-477.
  • Leder I (2004). Sorghum and Millets, in cultivated plants, primarily as food sources, [Ed. Gyorgy Fuleky], in Encyclopedia of Life Support Systems (EOLSS), Developed under the Auspices of the UNESCO, Eolss Publishers, Oxford, U.K.
  • McDonough CM and Rooney LW (1989). Structural characteristics of Pennisetum americanum (pearl millet) using scanning electron and florescence microscopy. Food Microstructure, 8: 137-149.
  • Mohamed EA, Ali NA, Ahmed SH, Mohamed Ahmed IA. and Babiker EE (2011). Effect of refrigeration process on antinutrients and HCL extractability of calcium, phosphorus and iron during processing and storage of two millet cultivars. Innovative Romanian Food Biotechnology, 8: 13-21.
  • Nantanga KKM, Seetharaman K, Kock HL and Taylor JRN (2008). Thermal treatments to partially pre-cook and improve the shelf life of whole pearl millet flour. Journal of the Science of Food and Agriculture, 88: 1892-1899.
  • Olamiti G, Takalani TK, Beswa D and Jideani AIO (2020). Effect of malting and fermentation on colour, thermal properties, functional groups and crystallinity level of flours from pearl millet (Pennisetum glaucum) and sorghum (Sorghum bicolor). Heliyon, 6: e05467.
  • Osman MA (2009). Effect of germination on the nutritional quality of pearl millet. Journal of Agricultural Science and Technology, 3(8): 1-6.
  • Pruthi TD (1981). Free fatty acid changes during storage of bajra (Pennisetum typhoideum) flour. Journal of Food Science and Technology, 18(6): 257-258.
  • Rathi A, Kawatra A and Sehgal S (2004). Influence of depigmentation of pearl millet (Pennisetum glaucum L.) on sensory attributes, nutrient composition, in vitro protein and starch digestibility of pasta. Food Chemistry, 85: 275-280.
  • Satyavathi CT, Ambawat S, Khandelwal V, and Srivastava RK (2021). Pearl millet: A climate-resilient nutricereal for mitigating hidden hunger and provide nutritional security. Frontiers in Plant Science, 1828.
  • Serba DD, Yadav RS, Varshney RK, Gupta SK, Mahalingam G, Srivastava RK...Tesso TT (2020). Genomic designing of pearl millet: a resilient crop for arid and semi-arid environments. In Genomic Designing of Climate-Smart Cereal Crops, ed C. Kole (Springer Nature), 221–286.
  • Tiwari A, Jha SK, Pal RK, Sethi S and Krishan L (2014). Effect of pre-milling treatments on storage stability of pearl millet flour. Journal of Food Processing and Preservation, 38: 1215-1223.
  • Yadav DN, Anand T, Kaur J and Singh AK (2012a). Improved storage stability of pearl millet flour through microwave treatment. Agricultural Research, 1(4): 399-404.
  • Yadav DN, Kaur J, Anand T and Singh AK (2012b). Storage stability and pasting properties of hydrothermally treated pearl millet flour. International Journal of Food Science and Technology, 47(12): 2532-2537.
  • Yadav DN, Sharma M, Chikara N, Anand T and Bansal S (2014). Quality characteristics of vegetable-blended wheat pearl millet composite pasta. Agricultural Research, 3(3): 263-270.

Improving the Nutritional and Functional Properties of Pearl Millet Pasta: A Review

Year 2022, , 194 - 203, 30.06.2022
https://doi.org/10.46592/turkager.1065108

Abstract

Pasta, generally prepared from durum wheat is extensively consumed worldwide. Apart from being healthy and convenient food, the other outstanding characteristics of pasta include, low glycemic index, low cost, ease of preparation, extended stability during storage with relatively easier preparation. For functional pasta, care must be given to ensure that the added ingredient should enhance the nutritional profile, have minimal impact on pasta quality, palatability and consumer preferences. This review paper presents an overview of the various processing aspects of pearl millet. This comprises recent information about the improvement in the storage period of pearl millet flour (PMF), development of pearl millet pasta and addition of functional ingredients to enhance its nutritional quality. It is observed that the keeping quality of PMF can be enhanced by adopting germination, roasting, fermentation, microwave treatment, hydrothermal treatment, and refrigeration. Development of complete pearl millet pasta is not possible; functional pearl millet-based pasta can be designed using composite flour, the addition of pulses, legumes, fruit and vegetable powder to increase the demand for pearl millet.

References

  • Abdelrahman A, Hoseney RC and Varriano-Marston E (1984). The proportions and chemical compositions of hand-dissected anatomical parts of pearl millet. Journal of Cereal Science, 2(2): 127-133.
  • Abecassis J, Autran JC and Feillet P (2000). Durum Wheat, Semolina and Pasta Quality: Recent Achievements and New Trends, Montpellier, France, pp. 42.
  • Aktan B and Khan K (1992). Effect of high-temperature drying of pasta on quality parameters and on solubility, gel electrophoresis, and reversed-phase high performance liquid chromatography of protein components. Cereal Chemistry, 69(3): 288-295.
  • Anonymous (2016a). http://fmtmagazine.in/interview022014.html. (01 August 2016).
  • Anonymous (2016b). http://economictimes.indiatimes.com/industry/cons-products /fmcg/itc-market-share-in-instant-noodles-segment-rises-to-30-40/articleshow /51481603.cms. (01 August 2016).
  • Anonymous (2017). https://www.ndtv.com/food/6-to-8-million-indians-suffer-from-celiac-disease-go-gluten-free-to-manage-the-condition-1748085. (28 April 2022).
  • Anonymous (2021). https://www.imarcgroup.com/pasta-market. (27 April 2022).
  • Archana, Sehgal S and Kawatra A (1998). Reduction of polyphenol and phytic acid content of pearl millet grains by malting and blanching. Plant Foods for Human Nutrition, 53: 93-98.
  • Arora P, Sehgal S and Kawatra A (2002). The role of dry heat treatment in improving the shelf life of pearl millet flour. Nutrition and Health, 16: 331-336.
  • Devi KP, Prema RS, Vaidheswaran H, Sudha A and Sangeetha V (2015). Quality evaluation of non wheat sweet vermicelli. International Journal of Engineering and Techno Science, 1(1): 1-6.
  • Gopalan C, Rama Sastri BV and Balasubramanian SC (2004). Nutritive value of Indian foods, second ed. National Institute of Nutrition, ICMR, Hyderabad, India, pp. 47.
  • Gull A, Prasad K and Kumar P (2015). Effect of millet flours and carrot pomace on cooking qualities, color and texture of developed pasta. LWT- Food Science and Technology, 63: 470-474.
  • Jalgaonkar K and Jha SK (2016). Influence of particle size and blend composition on quality of wheat semolina and pearl millet pasta. Journal of Cereal Science, 71: 239-245.
  • Jalgaonkar K, Jha SK and Mahawar MK (2018). Influence of incorporating defatted soy flour, carrot powder, mango peel powder and moringa leaves powder on quality characteristics of wheat semolina-pearl millet pasta. Journal of Food Processing and Preservation, 42(4): e13575.
  • Jalgaonkar K, Jha SK and Sharma DK (2016). Effect of thermal treatments on the storage life of pearl millet (Pennisetum glaucum) flour. Indian Journal of Agricultural Sciences, 86(6): 762-767.
  • Jalgaonkar K, Jha SK, Mahawar MK and Yadav DN (2019). Pearl millet based pasta: optimization of extrusion process through response surface methodology. Journal of Food Science and Technology, 56(3):1134-1144.
  • Jalgaonkar K, Jha SK, Nain L and Iquebal MA (2017). Quality Changes in Pearl Millet Based Pasta during Storage in Flexible Packaging. Journal of Agricultural Engineering, 54(3): 22-31.
  • Kowlessar OD (1972). Dietary gluten sensitivity updated. Journal of the American Dietetic Association. 60(6): 475-477.
  • Leder I (2004). Sorghum and Millets, in cultivated plants, primarily as food sources, [Ed. Gyorgy Fuleky], in Encyclopedia of Life Support Systems (EOLSS), Developed under the Auspices of the UNESCO, Eolss Publishers, Oxford, U.K.
  • McDonough CM and Rooney LW (1989). Structural characteristics of Pennisetum americanum (pearl millet) using scanning electron and florescence microscopy. Food Microstructure, 8: 137-149.
  • Mohamed EA, Ali NA, Ahmed SH, Mohamed Ahmed IA. and Babiker EE (2011). Effect of refrigeration process on antinutrients and HCL extractability of calcium, phosphorus and iron during processing and storage of two millet cultivars. Innovative Romanian Food Biotechnology, 8: 13-21.
  • Nantanga KKM, Seetharaman K, Kock HL and Taylor JRN (2008). Thermal treatments to partially pre-cook and improve the shelf life of whole pearl millet flour. Journal of the Science of Food and Agriculture, 88: 1892-1899.
  • Olamiti G, Takalani TK, Beswa D and Jideani AIO (2020). Effect of malting and fermentation on colour, thermal properties, functional groups and crystallinity level of flours from pearl millet (Pennisetum glaucum) and sorghum (Sorghum bicolor). Heliyon, 6: e05467.
  • Osman MA (2009). Effect of germination on the nutritional quality of pearl millet. Journal of Agricultural Science and Technology, 3(8): 1-6.
  • Pruthi TD (1981). Free fatty acid changes during storage of bajra (Pennisetum typhoideum) flour. Journal of Food Science and Technology, 18(6): 257-258.
  • Rathi A, Kawatra A and Sehgal S (2004). Influence of depigmentation of pearl millet (Pennisetum glaucum L.) on sensory attributes, nutrient composition, in vitro protein and starch digestibility of pasta. Food Chemistry, 85: 275-280.
  • Satyavathi CT, Ambawat S, Khandelwal V, and Srivastava RK (2021). Pearl millet: A climate-resilient nutricereal for mitigating hidden hunger and provide nutritional security. Frontiers in Plant Science, 1828.
  • Serba DD, Yadav RS, Varshney RK, Gupta SK, Mahalingam G, Srivastava RK...Tesso TT (2020). Genomic designing of pearl millet: a resilient crop for arid and semi-arid environments. In Genomic Designing of Climate-Smart Cereal Crops, ed C. Kole (Springer Nature), 221–286.
  • Tiwari A, Jha SK, Pal RK, Sethi S and Krishan L (2014). Effect of pre-milling treatments on storage stability of pearl millet flour. Journal of Food Processing and Preservation, 38: 1215-1223.
  • Yadav DN, Anand T, Kaur J and Singh AK (2012a). Improved storage stability of pearl millet flour through microwave treatment. Agricultural Research, 1(4): 399-404.
  • Yadav DN, Kaur J, Anand T and Singh AK (2012b). Storage stability and pasting properties of hydrothermally treated pearl millet flour. International Journal of Food Science and Technology, 47(12): 2532-2537.
  • Yadav DN, Sharma M, Chikara N, Anand T and Bansal S (2014). Quality characteristics of vegetable-blended wheat pearl millet composite pasta. Agricultural Research, 3(3): 263-270.
There are 32 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Review
Authors

Kirti Jalgaonkar 0000-0001-9347-806X

Manoj Mahawar 0000-0001-6802-252X

Sharmila Patil 0000-0003-0221-5956

Jyoti Dhakane Lad 0000-0003-3093-7104

Publication Date June 30, 2022
Submission Date January 29, 2022
Acceptance Date May 11, 2022
Published in Issue Year 2022

Cite

APA Jalgaonkar, K., Mahawar, M., Patil, S., Dhakane Lad, J. (2022). Improving the Nutritional and Functional Properties of Pearl Millet Pasta: A Review. Turkish Journal of Agricultural Engineering Research, 3(1), 194-203. https://doi.org/10.46592/turkager.1065108

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