PaganiM.A.ResminiP.DalbonG., “Influence of the extrusion process on characteristics and structure of pasta”, Food Microstructure8, 173–182 (1989).
2.
MatsuoR.R.DexterJ.E.DronzeekB.L., “Scanning electron microscopy study of spaghetti processing”, Cereal Chem. 55, 744–753 (1978).
3.
DexterJ.E.MatsuoR.R.DronzekB.L., “A scanning electron microscopy study of Japanese noodles”, Cereal Chem. 56, 202–208 (1979).
4.
ZardettoS.RosaM. Dalla, “Study of the effect of lamination process on pasta by physical chemical determination and near infrared spectroscopy analysis”, J. Food Eng. 74, 402–440 (2006).
5.
GuyR.C.E.OsborneB.G., “The application of near infrared reflectance spectroscopy to measure the degree of processing in extrusion cooking processes”, J. Food Eng. 27, 241–258 (1996).
6.
DelwicheS.R.PittR.E.NorrisK.H., “Examination of starch-water and cellulose–water interactions with near infrared (NIR) diffuse reflectance spectroscopy”, Starch3, 85–92 (1991).
7.
OsborneB.G., “Near infrared spectroscopic studies of starch and water in some processed cereal foods”, J. Near Infrared Spectrosc. 4, 195–200 (1996).
8.
WesleyI.J.BlakeneyA.B., “Investigation of starch-protein-water mixtures using dynamic near infrared spectroscopy”, J. Near Infrared Spectrosc. 9, 211–220 (2001).
9.
NzabonimpaR.NicodP., “Determination of the degree of the gelatinisation of starch by near infrared spectroscopy”, in Near Infrared Spectroscopy: Proceedings of the 9th International Conference, Ed by DaviesA.M.C.GiangiacomoR., NIR Publications, Chichester, UK, pp. 75–80 (2000).
10.
AbruzzeseF.BalkeS.T.DiosadyL.L., “In line colour and composition monitoring in the extrusion cooking process”, Food Research International33, 621–628 (2000).
11.
ZardettoS., “Potential applications of near infrared spectroscopy for evaluating thermal treatments of fresh egg pasta”, Food Control16, 249–253 (2005).
