1. De Carvalho, L.M.J., Gomes, P.B., de
Oliveira Godoy, R.L., Pacheco, S., do
Monte, P.H.F., de Carvalho, J.L.V.,
Nutti, M.R., Neves, A.C.L., Vieira,
A.C.R.A., and Ramos, S.R.R. 2012.
Total carotenoid content, α-carotene and
β-carotene, of landrace pumpkins
(Cucurbita moschata Duch): A
preliminary study, Food Research
International. 47: 337-340.
2. Kulaitiene, J., Danilcenko, H., Jariene,
E., Jukneviciene, E., and Jukneviciene,
E. 2014. Pumpkin fruit flour as a source
for food enrichment in dietary fiber,
Notulae Botanicae Horti Agrobotanici
Cluj-Napoca. 42: 19.
3. See, E., Abdullah, W., Nadiah, W., and
Abdul Aziz, N.A. 2007. Physicochemical and sensory evaluation of
breads supplemented with pumpkin
flour, ASEAN Food J. 14: 123-130.
4. Yadav, M., Jain, S., Tomar, R., Prasad,
G., and Yadav, H. 2010. Medicinal and
biological potential of pumpkin: an
updated review, Nutrition Research
Reviews. 23: 184-190.
5. Yee, N.K., Hamzah, Y. 2012.
Physicochemical properties of instant
pumpkin javanese noodle gravy, Jurnal
Teknologi Dan Industri Pangan. 23: 199.
6. Salehi, F., Kashaninejad, M., Asadi, F.,
and Najafi, A. 2016. Improvement of
quality attributes of sponge cake using
infrared dried button mushroom, Journal
of Food Science and Technology. 53:
1418-1423.
7. El-Demery, M.E. 2011. Evaluation of
physico-chemical properties of toast
bread fortified with pumpkin (Cucurbita
moschata) flour, in: The 6th Arab and
3rd International Annual Scientific
Conference on Development of Higher
Specific Education Programs in Egypt
and the Arab World in the Light of
Knowledge Era Requirements, Faculty
of Specific Education, Mansoura
University, Mansoura, Egypt, pp. 13-14.
8. Tamer, C.E., Incedayi, B., YÖNEL, S.,
Yonak, S., and ÇOPUR, Ö.U. 2010.
Evaluation of several quality criteria of
low calorie pumpkin dessert, Notulae
Botanicae Horti Agrobotanici ClujNapoca. 38: 76.
9. Booth, R.G. 1990 Snack food, Springer
Science & Business Media.
10.Norfezah, M., Hardacre, A., and
Brennan, C. 2011. Comparison of waste
pumpkin material and its potential use in
extruded snack foods,Food Science and
Technology International. 17: 367-373.
11.Dehghan-Shoar, Z., Hardacre, A.K., and
Brennan, C.S. 2010. The physicochemical characteristics of extruded
snacks enriched with tomato lycopene,
Food Chemistry. 123: 1117-1122.
12.Nor, N.M., Carr, A., Hardacre, A., and
Brennan, C.S. 2013. The development
of expanded snack product made from
pumpkin flour-corn grits: Effect of
extrusion conditions and formulations
on physical characteristics and
microstructure, Foods. 2: 160-169.
13.Mehrjardi, P.Y., Tarzi, B.G., and
Bassiri, A. 2012. Developing vacuum
fried pumpkin (Cucurbita moschata
Dutch) snack, World Applied Sciences
Journal. 18: 214-220.
14.Sun-Waterhouse, D., Teoh, A.,
Massarotto, C., Wibisono, R., and
Wadhwa, S. 2010. Comparative analysis
of fruit-based functional snack bars,
Food Chemistry. 119: 1369-1379.
15.Bhat, M.A., Bhat, A. 2013. Study on
physico-chemical characteristics of
pumpkin blended cake, Journal of Food
Processing & Technology. 4: 4-9.
16.Hosseini, Z. 2006 Common Methods in
Food Analysis, Shiraz University.
17.Sharma, K.D., Karki, S., Thakur, N.S.,
and Attri, S. 2012. Chemical
composition, functional properties and
processing of carrot—a review, Journal
of food science and technology. 49: 22-
32.
18.Sharma, P., Gujral, H.S., and Singh, B.
2012. Antioxidant activity of barley as
affected by extrusion cooking, Food
Chemistry. 131: 1406-1413.
19.Hosseini Ghaboos, S.H., Seyedain
Ardabili, S.M., Kashaninejad, M.,
Asadi, G., and Aalami, M. 2016.
Combined infrared-vacuum drying of
pumpkin slices, Journal of Food Science
and Technology. 53: 2380-2388.
20.Salehi, F., Kashaninejad, M., Akbari, E.,
Sobhani, S.M., and Asadi, F. 2016.
Potential of Sponge Cake Making using
Infrared–Hot Air Dried Carrot, Journal
of Texture Studies. 47: 34-39.
21.Salehi, F., Kashaninejad, M., and
Alipour, N. 2016. Evaluation of
Physicochemical, Sensory and Textural
Properties of Rich Sponge Cake with
Dried Apples Powder, in: Innovative
Food Science and Technology,.
22.Bisharat, G.I., Katsavou, I.D.,
Panagiotou, N.M., Krokida, M.K., and
Maroulis, Z.B. 2015. Investigation of
functional properties and color changes
of corn extrudates enriched with
broccoli or olive paste, Food Sci.
Technol. Int. 21: 613-630.
23.Wongsagonsup, R., Kittisuban, P.,
Yaowalak, A., and Suphantharika, M.
2015. Physical and sensory qualities of
composite wheat-pumpkin flour bread
with addition of hydrocolloids,
International Food Research Journal. 22.
24.Černiauskienė, J., Kulaitienė, J.,
Danilčenko, H., Jarienė, E.,
Juknevičienė, E., and Juknevičienė, E.
2014. Pumpkin Fruit Flour as a Source
for Food Enrichment in Dietary Fiber,
2014. 42: 5.
25.Lee, C.H., Cho, J. K., Lee, S.J., Koh,
W., Park, W., and Kim, C.-H. 2002.
Enhancing β-carotene content in Asian
noodles by adding pumpkin powder,
Cereal Chem. 79: 593-595.
26.Tomar, P.P.S., Nikhil, K., Singh, A.,
Selvakumar, P., Roy, P., and Sharma,
A.K. 2014. Characterization of
anticancer, DNase and antifungal
activity of pumpkin 2S albumin,
Biochemical and Biophysical Research
Communications. 448: 349-354.
27.Pongjanta, J., Naulbunrang, A.,
Kawngdang, S., Manon, T., and
Thepjaikat, T. 2006. Utilization of
pumpkin powder in bakery products,
Songklanakarin Journal of Science and
Technology. 28: 71-79.
28.Rakcejeva, T., Galoburda, R., Cude, L.,
and Strautniece, E. 2011. Use of dried
pumpkins in wheat bread production,
Procedia Food Science. 1: 441-447.
29.Anton, A.A., Fulcher, R.G., and
Arntfield, S.D. 2009. Physical and
nutritional impact of fortification of corn
starch-based extruded snacks with
common bean (Phaseolus vulgaris L.)
flour: Effects of bean addition and
extrusion cooking, Food Chemistry.
113: 989-996.
30.Shahmohammadi, H., Bakar, J., Russly,
A., Noranizan, M., and Mirhosseini, H.
2014. Puffed corn-fish snack
development by extrusion technology,
Iran. J. Fish. Sci. 13: 748-760.