0.00 0 items

V košarici ni izdelkov.

El Mehdi Iouraouine

Diapozitiv30
  • 21.06.2017

Viri:
Anjos O, Campos MG, Ruiz PC, Antunes P, 2015b. Application of FTIR-ATR spectroscopy to the quantification of sugar in honey. Food Chemistry, 169: 218–223.
Anjos O, Iglesias C, Peres F, Martínez J, García A, Taboada J, 2015a. Neural Networks Applied to Discriminate Botanical Origin of Honeys. Food Chemistry, 175: 128-136.
Baracchi D, Turillazzi S, 2010. Differences in venom and cuticular peptides in individuals of Apis meliffera (Hymenoptera: Apidae)determined by MALDI-TOF MS. Journal of Insect Physiology, 56:366–375.
Boukraâ L, 2014. Honey in Traditional and Modern Medicine. Edited by CRC Press © by Taylor & Francis Group, LLC. ISBN-13: 978-1-4398-4017-7.
Bovi T, 2017. Efeito da nutrição e manejo de colheita de Apitoxina no desenvolvimento de glândulas Hipofaringeanas em abelhas Apis mellifera L. PhD Thesis, in Universidade Estadual Paulista “Júlio De Mesquita Filho” Faculdade de Medicina Veterinária e Zootecnia, Câmpus de Botucatu. Brasil.
Campos MG, Almaraz-Abarca N, Pires M, Gomes N, Arruda V, Barth O, Freitas A, Amâncio D, Almeida-Muradian L, 2015. Zea mays L. pollen: an approach to its quality controle. Journal of Agricultural Science and Technology B, 5:513-522.
Campos MG, Olena L, Anjos O, 2016. Chemical Composition of Bee Pollen. In Susana M. Cardoso, Artur M.S. Silva, Chemistry, biology and potential applications of honeybee plant-derived products (chap. 3), Bentham Science Publishers, United Arab. p. 67-88.
Chan GC, Cheung KW, Sze DM, 2013. The immunomodulatory and anticancer properties of propolis. Clinic Review in Allergy & Immunology, 44(3), 262-73.
Dantas CG, Nunesa TLGM, da Paixão AO, Reisa FP, JúniorWL, Cardoso JC, Gramacho KP, Gomes MZ, 2014. Pharmacological evaluation of bee venom and melittin, Revista Brasileira de Farmacognosia, 24, 67-72.
De Castro SL, 2001. Propolis: biological and pharmacological activities. Therapeutic uses of this bee-product. Annual Review of Biomedical Sciences, 3, 49–83.
Dinda SC & Maharana P, 2011. Formulation and Evaluation of matrix tablets with a blend of natural and synthetic waxes by Hot Melt Method for sustained release. Journal of Pharmacy Research, 4(8), 2715-2717
Gajski G & Garaj-Vrhovac V, 2013. Melittin: A lytic peptide with anticancer properties. Environmental Toxicology and Pharmacology, 36(2), 697-705.
Gajski G & Garaj-Vrhovac V, 2009. Radioprotective effects of honey bee venom (Apis mellifera) against 915-MHz microwave radiation-induced DNA damage in Wistar rat lymphocytes: In vitro study. International journal of Toxicology, 28: 88–98.
Ghisalberti EL, 1979. Propolis: a review. Bee World, 60, 59–84.
Gifani A, Taghizadeh M, Seifkordi AA. Ardjmand M, 2009. Preparation and investigation the release behaviour of wax microspheres loaded with salicylic acid. Journal of microencapsulation, 26, 485-484.
Heinen TE & da Veiga ABG, 2011. Arthropod venoms and cancer. Toxicon, 57(4), 497-511.
Hong SJ, Rim GS, Yang HI, Yin CS, Koh HG, Jang MH, et al., 2005. Bee venom induces apoptosis through caspase-3 activation in synovial fibroblasts of patients with rheumatoid arthritis. Toxicon, 46(1), 39−45.
Huang HP, Mehta SC, Radebaugh GW, Fawzi MB, 1994. Journal of Pharmaceutical Science, 83:795.
Jang MH, Shin MC, Lin S, Han SM, Park HJ, Shin I, et al., 2003. Bee venom induces apoptosis and inhibts expression of cyclooxygenase-2 mRNA in human lung cancer cell NCI-H1299. Journal of Pharmacology Science, 91, 95-104.
Kajjari P, Manjeshwar L, Aminabhavi T, 2014. Novel blend microspheres of cellulose triacetate and bee wax for the controlled release of nateglinide. Journal of Industrial and Engineering Chemistry, 20, 397-404.
Kamble R, Maheshwari M, Paradkar A, Kadam S, 2004. Melt solidification technique: Incorporation of higher wax content in ibuprofen beads, 5(4), 75–83.
Król W, Bankova V, Sforcin JM, Szliszka E, Czuba Z, Kuropatnicki AK, 2013. Propolis: properties, applications, and its potential. Evid Based Complement Alternative Medicine, 1–2.
Lazarev VN, Shkarupeta MM, Titova GA, Kostrjukova ES, Akopian TA, Govorun VM, 2005. Effect if induced expression of an antimicrobial peptide melittin on Chlamidia trachomatis and Mycoplasma hominis infection in vivo. Biochemical and Biophysical Research Communications BBRC, 338, 946-950.
Liolios V, Tananaki C, Dimou M, Kanelis D, Goras G, Karazafiris E, Thrasyvoulou A, 2016. Ranking pollen from bee plants according to their protein contribution to honey bees. Journal of Apicultural Research, 54(5), 582–592.
Liu X, Chen D, Xie L, Zhang R, 2002. Effect of honey bee lvenom on proliferation of K1735M2 mouse melanoma cells in-vitro and growth of murine B16 melanomas in vivo. Journal of Pharmacy and Pharmacology, 54(8), 1083-1089.
Lonete R E, Dinca OR, Tamain R, Geana EI, 2013. Exploring Apis mellifera venom compounds using highly efficient methods. Progress of Cryogenics and Isotopes Separation, 16(2), 89-100.
Lyngheim L, Scagnetti J, 1979. Bee Pollen: Nature’s Miracle Health Food. Wilshire Book Company, 90 pages.
Merlo LA, Bastos LF, Godin AM, Rocha LT, Nascimento EB Jr, Paiva AL, Moraes-Santos T, Zumpano AA, Bastos EM, Heneine LG, Coelho MM, 2011. Effects induced by Apis mellifera venom and its component in experemental models of nociceptive and inflammatory pain. Toxicon.,57(5), 764–771.
Molan PC, 2006. The evidence supporting the use of honey as a wound dressing. International Journal of Lower Extremity Wounds, 5: 40 – 54 Erratum in: Int J Low Extrem Wounds, 5: 122.
Neelesh RS, Steven L, Baldwin, Grace Hu, Jon N. Marsh, Gregory M. Lanza, John E. Heuser, Paul H. Schlesinger 2013. Moleculary targeted nanocarriers deliver the cytolytic peptide melittin specifically to tumor cells in mice, reducing tumor growth. The Journal of Clinical Investigation, 119:9, 2830-2842.
Newman & Cragg, 2012. Natural products as sources of new drugs over 30 years from 1981 to 2010. Journal of Natural Products, 75, 311-335.
Oršolić.Nada, 2012. Bee venom in cancer therapy. Cancer metastasis review, 31:173-194.
Pascoal A, Rodrigues S, Teixeira A, Féas X, Estevinho LM, 2014. Biological activities of commercial bee pollens: Antimicrobial, antimutagenic, antioxidant and anti-inflamatory. Food and Chemical Toxicology, 63: 233-239.
Ranjha NM, Khan H, Naseem S, Journal of Material Science: Materials in Medicine 21 (2010) 1621.
Roblegg E, Jager E, Hodzic A, Koscher G, Mohr S, Zimmer A, Khinast J, 2011. European Journal of Pharmaceutical and Biopharmaceutics, 79:635.
Salatino A, Teixeira EW, Negri G, Message D. 2005. Origin and chemical variation of Brazilian propolis. Evidence-Based Complementary and Alternative Medicine, 2, 33-38.
Sforcin JM, 2016. Biological Properties and Therapeutic Applications of Propolis. Phytotherapy Research, 30: 894–905.
Shimizu T, Takeshita Y, Takamori Y, Kai H, Sawamura R, Yoshida H, Watanabe W, Tsutsumi A, Park YK, Yasukawa K, Matsuno K, Shiraki K, Kurokawa M, 2011. Efficacy of Brazilian Propolis against Herpes Simplex Virus Type 1 Infection in Mice and Their Modes of Antiherpetic Efficacies. Evidence-Based Complementary and Alternative Medicine, 9 pages.
Silva DNA, João JSS, Campos MG, 2014. Biological and Functional Properties of Bee Products for Medicinal Purposes. In V.K. Gupta, Traditional and Folk Herbal Medicine: Recent Researches (chap. 18) Daya Publishing House, pp:541-562.
Toreti VC, Sato HH, Pastore GM, Park YK, 2013. Recent progress of propolis for its biological and chemical compositions and its botanical origin. Evidence-Based Complementary and Alternative Medicine, 2013: 1–13.
Varanda EA, Monti R, Tavares DC, 1999. Inhibitory effect of propolis and bee venom on the mutagenicity of some direct-and indirect-acting mutagens. Teratogenesis Carcinogenesis and Mutagenesis, 19(6), 403-413.