Artificial Intelligence for the Modeling and Prediction ...   299

                          adaptive neuro-fuzzy inference system and artificial neural network. J Food Sci., 76,
                          T112-120.
                       Yan,  C.,  Lee,  J.,  Kong,  F.,  &  Zhang,  D.  (2013).  Anti-glycated  activity  prediction  of
                          polysaccharides from two guava fruits using artificial neural networks. Carbohydrate
                          Polymers, 98, 116-121.
                       Young, I. & Woodside, J. (2001). Antioxidants in health and disease. Journal of Clinical
                          Pathology, 54, 176-186.
                       Zeraatpishe,  A.,  Oryan,  S.,  Bagheri,  M.,  Pilevarian,  A.,  Malekirad,  A.,  Baeeri,  M.,  &
                          Abdollahi, M. (2011). Effects of Melissa officinalis L. on oxidative status and DNA
                          damage  in  subjects  exposed  to  long-term  low-dose  ionizing  radiation.  Toxicol  Ind
                          Health, 27, 205-212.
                       Zheng,  H.,  Fang,  S.,  Lou,  H.,  Chen,  Y.,  Jiang,  L.,  &  Lu,  H.  (2011).  Neural  network
                          prediction of ascorbic acid degradation in green asparagus during thermal treatments.
                          Expert Syst Appl 38, 5591-5602.
                       Zheng, H., Jiang, L., Lou, H., Hu, Y., Kong, X., & Lu, H. (2011). Application of artificial
                          neural  network  (ANN)  and  partial  least-squares  regression  (PLSR)  to  predict  the
                          changes  of  anthocyanins, ascorbic  acid, Total  phenols,  flavonoids,  and  antioxidant
                          activity during storage of red bayberry juice based on fractal analysis and red, green,
                          and blue (RGB) intensity values. J Agric Food Chem., 59, 592-600.
                       Zupan, J. & Gasteiger, J. (1991). Neural networks: A new method for solving chemical
                          problems or just a passing phase? Analytica Chimica Acta, 248, 1-30.


                                                  AUTHOR BIOGRAPHY

                          Dr.  Jose  M.  Prieto  obtained  a  PhD  in  Pharmacology  (2001)  at  the  University  of
                       Valencia  (Valencia,  Spain)  in  the  field  of  topical  inflammation.  His  Post-doctoral
                       research activities include the EU funded projects 'Insect Chemical Ecology' (Department
                       of  Bioorganic  Chemistry,  Universita  degli  Studi  di  Pisa,  Italy)  (2001-2004)  and
                       “Medicinal Cannabis” (Department of Pharmaceutical and Biological Chemistry, School
                       of  Pharmacy,  University  of  London,  United  Kingdom)  (2005-2006).  He  was  then
                       appointed as Lecturer in Pharmacognosy (UCL School of Pharmacy) where his research
                       focuses on the application of advanced techniques (Direct NMR, Artificial Intelligence)
                       to the analysis and biological effects of complex natural products. He has authored more
                       than 50 original papers and is member of the editorial board of Frontiers in Pharmacology
                       (Nature),  Evidence-Based  Complementary  and  Alternative  Medicine  (Hindawi)  and
                       Complementary Therapies in Clinical Practice (Elsevier) among others.