Patent ID: 6989253
Filing Date: 2006-01-24
Classification: A61K,C12N

Abstract:
1. A biological composition comprising activated and conditioned yeast cells, wherein the yeast cells are characterized by their ability to retard the growth of testicular cancer cells in mammals as compared to yeast cells not having been so activated and conditioned, and wherein the yeast cells are prepared by a method comprising activating the yeast cells, said activating comprising at least two steps selected from the group consisting of: (a) culturing yeast cells in a first electromagnetic field having a frequency in the range of 8,021 to 8,030 MHz and a field strength in the range of 310 to 330 mV/cm; (b) culturing the yeast cells in a second electromagnetic field having a frequency in the range of 9,011 to 9,020 MHz and a field strength in the range of 310 to 330 mV/cm; (c) culturing the yeast cells in a third electromagnetic field electromagnetic fields having a frequency in the range of 9,936 to 9,945 MHz and a field strength in the range of 355 to 375 mV/cm; (d) culturing the yeast cells in a fourth electromagnetic field having a frequency in the range of 12,061 to 12,070 MHz and a field strength in the range of 355 to 375 mV/cm; and (e) culturing the yeast cells in a fifth electromagnetic field having a frequency in the range of 12,731 to 12,740 MHz and a field strength in the range of 380 to 400 mV/cm, and conditioning the activated yeast cells, said conditioning comprising at least one step selected from the group consisting of: (f) culturing the yeast cells in a liquid medium comprising wild hawthorn juice and gastric juice of a mammal in a sixth electromagnetic field having a frequency in the range of 12,061 to 12,070 MHz and a field strength in the range of 320 to 340 mV/cm; and (g) culturing the yeast cells in a liquid medium comprising wild hawthorn juice and gastric juice of a mammal in a seventh electromagnetic field having a frequency in the range of 12,731 to 12,740 MHz and a field strength in the range of 340 to 360 mV/cm.