Literatur

1. Ames, B. N. et al: Ranking possible carcinogenic hazards. In: Glickman, T. S., Gough, M.: Readings in Risk. Resources for the Future, Washington 1990: 76-92

2. Anon: DONALD-Studie: Acrylamid. Ernährungs-Umschau 2004; 51: 252

3. Bader, M. et al: Querschnittstudie zur ernährungs- und tabakrauchbedingten Belastung mit Acrylamid. Deutsches Ärzteblatt 2005; 102: 2640-2643

4. Blank, I.: Current status of acrylamide research in food: measurement, safety assessment, and formation. Annals of the New York Academy of Sciences 2005; 1043: 30-40

5. Bömer, A., Mattis, H.: Der Solaningehalt der Kartoffeln. Zeitschrift für Untersuchung der Nahrungs- und Genussmittel sowie der Gebrauchsgegenstände 1924; 47: 97-127

6. Botezatu, L. et al: Organic farming in the EU. Considering food safety and quality, animal welfare and environmental degradation. Fysisk Institut, Aarhus 2002

7. Cantwell, M.: A review of important facts about potato glycoalkaloids. Perishables Handling Newsletter Issue 1996; 87: 26-27

8. Carman, A. S. et al: Rapid high-performance liquid chromatographic determination of the potato glycoalkaloids a-solanine and a-chaconine. Journal of Agricultural and Food Chemistry 1986; 34: 279-282

9. Claus, A. et al: Pyrolytic acrylamide formation from purified wheat gluten and gluten-supplemented wheat bread rolls. Molecular Nutrition & Food Research 2006; 50: 87-93

10. Deutsche Forschungsgemeinschaft: Acrylamide. Occupational Toxicants 1992; 3: 11-21

11. Dinkins, C. L. P., Peterson, R. K. D.: A human dietary risk assessment associated with glycoalkaloid responses of potato to Colorado potato beetle defoliation. Food and Chemical Toxicology 2008; 46: 2837-2840

12. Fröhlich, E. (Hrsg.): Als die Erde brannte. Deutsche Schicksale in den letzten Kriegstagen. Droemer Knaur, München 2005

13. Fuhr, U. et al: Toxicokinetics of acrylamide in humans after ingestion of a defined dose in a test meal to improve risk assessment for acrylamide carcinogenicity. Cancer Epidemiology, Biomarkers & Prevention 2006; 15: 266-271

14. Gaffield, W., Keeler, R. F.: Introduction of terata in hamsters by solanidane alkaloids derived from Solanum tuberosum. Chemical Research in Toxicology 1996; 9: 426-433

15. Gold, B. G., Schaumburg, H. H.: Acrylamide. In: Spencer, P. S., Schaumburg, H. H. (Eds): Experimental and Clinical Neurotoxicology. Oxford University Press, Oxford 2000: 124-132

16. Gold, L. S. et al: Pesticide residues in food and cancer risk: a critical analysis. In: Krieger, R. (Ed): Handbook of PesticideToxicology. Academic Press, San Diego 2001: 799-843

17. Haase, N. U.: Glycoalkaloidgehalte in Kartoffelknollen - ein Risiko für den Konsumenten? VDLUFA-Schriftenreihe 1998; 49: 127-130

18. Habermeyer, M. et al: Einfluss von Maillard-Reaktionsprodukten auf das Wachstum humaner Tumorzellen. Lebensmittelchemie 2003; 57: 111

19. Hellenäs, K. E. et al: High levels of glycoalkaloids in the established Swedish potato variety Magnum bonum. Journal of the Science of Food and Agriculture 1995; 68: 249-255

20. Henderson, A.: Greening of Potatoes. In: State of Victoria, Department of Primary Industries (Ed): Agriculture Notes. Knoxfield, October 1999

21. Hogervorst, J. G. F. et al: Dietary acrylamide intake is not associated with gastrointestinal cancer risk. Journal of Nutrition 2008; 138: 2229-2236

22. Hogervorst. J. G. F. et al: Lung cancer risk in relation to dietary acrylamide intake. Journal of the National Cancer Institute 2009; 101: 651-662

23. Hamm, H.: Acrylamid: Keine Angst vor der Bratkartoffel. Natur & Kosmos 2003; H. 2: 20-22

24. JECFA: Toxicological Evaluation of Certain Food Additives and Naturally Occuring Toxicants. WHO Food Additives series 1993; 30: 339-372

25. Kjuus, H. et al: Chromosome aberrations in tunnel workers exposed to acrylamide and N-methylolacrylamide. Scandinavian Journal of Work, Environment & Health 2005; 31: 300-306

26. Korpan, Y. I. et al: Potato glycoalkaloids: true safety or false sense security? Trends in Biotechnology 2004; 22: 147-151

27. Kozukue, N. et al: Inheritance of morphological characters and glycoalkaloids in potatoes of somatic hybrids between dihaploid Solanum acaule and tetraploid Solanum tuberosum. Journal of Agricultural and Food Chemistry 1999; 47: 4478-4483

28. Lachman, J. et al: Potato glycoalkaloids and their significance in plant protection and human nutrition. Series Rostlinná výroba 2001; 47: 181-191

29. Larsson, S. C. et al: Long-term dietary acrylamide intake and breast cancer risk in a prospective co-hort of Swedish women. American Journal of Epidemiology 2009; 169: 376-381

30. Larsson, S. C. et al: Long-term dietary acrylamide intake and risk of endometrial cancer in a prospective cohort of Swedish women. International Journal of Cancer 2009; 124: 1196-1199

31. Matsui, K. et al: Toxic dose of unripe potato glycoalkaloids in children and measures against the food poisoning. Shokuhin Eisei Kenkyu 2001; 51: 99-107

32. Mensinga, T. T. et al: Potato glycoalkaloids and adverse effects in humans: an ascending dose study. Regulatory Toxicology and Pharmacology 2005; 41: 66-72

33. Mizukami, Y. et al: Analysis of acrylamide in green tea by gas chromatography-mass spectrometry. Journal of Agricultural and Food Chemistry 2006; 54: 7370-7377

34. Morris, S. C., Lee, T. H.: The toxicity and teratogenicity of Solanaceae glycoalkaloids, particulary those of the potato (Solanum tuberosum): a review. Food Technology in Australia 1984; 36: 118-124

35. Morrissey, J. P., Osbourn, A. E.: Fungal resistance to plant antibiotics as a mechanism of pathogenesis. Microbiology and Molecular Biology Reviews 1990; 63: 708-724

36. Mucci, L. A. et al: Acrylamide intake and breast cancer risk in Swedish women. Journal of the American Medical Association 2005; 293: 1326-1327

37. Mucci, L. A. et al: Dietary acrylamide and cancer of the large bowel, kidney, and bladder: Absence of an association in a population-based study in Sweden. British Journal of Cancer 2003; 88: 84-89

38. Mucci, L. A. et al: Dietary acrylamide and risk of renal cell cancer. International Journal of Cancer 2004; 109: 774-776

39. Mucci, L. A. et al: Prospective study of dietary acrylamide and risk of colorectal cancer among women. International Journal of Cancer 2006; 118: 169-173

40. Mun, A. M. et al: Teratogenic effects in early chick embryos of solanine and glycoalkaloids from potatoes infected with late-blight, Phytophthora infestans. Teratology 1975; 11: 73-78

41. Patel, B. et al: Potato glycoalkaloids adversely affect intestinal permeability and aggravate inflammatory bowel disease. Inflammatory Bowel Diseases 2002; 8: 340-346

42. Pelucchi, C. et al: Fried potatoes and human cancer. International Journal of Cancer 2003; 105: 558-560

43. Plhak, L. C., Sporns, P.: Biological activities of potato glycoalkaloids. In: Shahidi, F. (Ed): Antinutrients and Phytochemicals in Food. American Chemical Society, Washington, DC, 1997: 115-126

44. Prakash, C. S.: The genetically modified crop debate in the context of agricultural evolution. Plant Physiology 2001; 126: 8-15

45. Renwick, J. H.: Hypothesis: anencephaly and spina bifida are usually preventable by avoidance of a specific unidentified substance present in certain potato tubers. British Journal of Preventive & Social Medicine 1972; 26: 67-88

46. Rice, J. M.: The carcinogenicity of acrylamide. Mutation Research 2005; 580: 3-20

47. Ross, H. et al: Der Glycoalkaloidgehalt von Kartoffelsorten in seiner Abhängigkeit von Anbauort und -jahr und seiner Beziehung zum Geschmack. Zeitschrift für Pflanzenzüchtung 1978; 80: 64-79

48. Rytel, E. et al: Changes in glycoalkaloid and nitrate contents in potatoes during French fries processing. Journal of the Science of Food and Agriculture 2001; 85: 879-882

49. Sharma, R. P., Salunkhe, D. K. (Eds): Mycotoxins and Phytoalexins. CRC Press, Florida 1991

50. Sizer, C. E. et al: Total glycoalkaloids in potatoes and potato chips. Journal of Agricultural and Food Chemistry 1980; 28: 578-579

51. Slanina, P.: Solanine (glycoalkaloids) in potatoes: toxicological evaluation. Food and Chemical Toxicology 1990; 28: 759-761

52. Smith,...