Patent Number: 
Section: claims

1. A radioisotope generator, comprising an eluent reservoir and a chromatographic column connected to one another by a first eluent transmission duct, said chromatographic column having a stationary phase loaded with a parent radioisotope disintegrating spontaneously into a daughter radioisotope, said generator being characterized in that it comprises a second duct and a valve housed between an upstream part of the first eluent duct and a downstream part of the first eluent duct, and connecting said second duct to said upstream part of the first eluent duct and to the downstream part of the first eluent duct, said valve having a first position in which the second duct is in fluid communication with said upstream part of the first eluent duct and a second position in which the second duct is in fluid communication with said downstream part of the first eluent duct, said second duct having a bypass segment for a predetermined volume of eluent, said segment being defined directly between said valve and a segment end, said predetermined eluent volume being a sufficient volume to obtain, when said sufficient volume crosses through the chromatographic column, under the action of a driving force of the eluent, an eluate comprising a parent radioisotope activity comprised in a value range from 0.0% to 30.0% relative to a daughter radioisotope activity of said eluate, and wherein said generator comprises means for blocking the eluent in fluid communication with said bypass segment, so as to block the passage of said eluent volume past said segment end. 2. The generator according to claim 1, wherein said segment end is directly connected to a first sterile filter with a polarity opposite that of said eluent, said first sterile filter being said blocking means of the eluent. 3. The generator according to claim 2, comprising a pumping means arranged to be connected hermetically to an eluate outlet and designed to pump, once said valve is in its second position and after elution of the stationary phase of the chromatographic column by said sufficient volume of eluent, a fluid from the segment end or from the free end of the second duct toward the eluate outlet, said fluid being a remaining fraction of said sufficient volume of eluent present in the column or ambient air pumped from said free end or said segment end of said second duct. 4. The generator according to claim 3, wherein said pumping means is a vacuum container. 5. The generator according to claim 3, wherein the pumping means is an actuator comprising a piston mounted in a cylinder, said cylinder having a first end communicating with said eluate outlet of the chromatographic column, said piston being extended by an arm that extends outside said cylinder through an orifice present on a second cylinder end, opposite the first cylinder end, said piston having a first idle position and a fluid pumping position, said piston, when it is set in motion between said first idle position and said pumping position, generating a pumping force for the fluid. 6. The generator according to claim 1, wherein said free end is connected to a second sterile filter with an inverse polarity relative to that of said eluent. 7. The generator according to claim 1, wherein said segment end corresponds to a free end of the second duct. 8. The generator according to claim 1, wherein said reservoir is situated above said chromatographic column, said segment end being positioned at a sufficient height, measured from an apical end of the chromatographic column, such that the gravitational force has a sufficient intensity to allow a flow of the eluent through the segment. 9. The generator according to claim 8, wherein at least one bypass segment part connected to said valve is inclined relative to a horizontal plane by an angle a defined between said horizontal plane and a line secant to said horizontal plane, said angle α having a predetermined value such that its sine value is greater than 0 and less than or equal to 1, and its cosine value is between −1 and 1. 10. The generator according to claim 1, positioned in a shielded box, said box preferably being at least partially made from a dense material, for example tungsten or lead. 11. The generator according to claim 1, wherein the parent radioisotope activity is comprised in a value range from 0.0% to 20%, advantageously from 0.0% to 10%, more preferably from 0.0% to 5.0%, still more preferably from 0.0% to 2.0%, more advantageously from 0.0% to 1.0%, relative to the daughter radioisotope activity of said eluate. 12. The generator according to claim 11, wherein the parent radioisotope activity is equal to 0.0 mCi. 13. An elution method for a chromatographic column of a radioisotope generator comprising an eluent reservoir and connected to a chromatographic column by a first eluent duct, said chromatographic column having a stationary phase impregnated with eluent and loaded with a parent radioisotope disintegrating spontaneously into a daughter radioisotope, said method comprising the following steps: withdrawing a predetermined volume in a withdrawal segment a second eluent duct connected to an upstream part of the first eluent duct and to a downstream part of the first eluent duct by a valve, said withdrawal segment being defined directly between the valve and a segment end, the withdrawal being done when the valve is in a first position in which the second duct is in fluid communication with said upstream part of the first eluent duct; and an elution, under the action of a driving force of the eluent, of said predetermined volume of eluent from said withdrawal segment toward said chromatographic column when the valve is in a second position in which the second duct is in fluid communication with said downstream part of the first eluent duct, a step for drying the column by pumping sterilized ambient air from the segment end or from a free end of the second duct toward the eluent outlet, said predetermined eluent volume being a sufficient volume to obtain, when said sufficient volume crosses through the chromatographic column, an eluate comprising a parent radioisotope activity comprised in a value range from 0.0% to 30.0% relative to a daughter radioisotope activity of said eluate. 14. The method according to claim 13, comprising a step for blocking the eluent, after said injection step, so as to block the passage of said volume of eluent past said segment end. 15. The method according to claim 13, comprising a bleeding step, carried out before the drying step, when said valve is in its second position and after elution of the stationary phase of the chromatographic column by the sufficient eluent volume, consisting of pumping a remaining fraction of the sufficient volume of eluent present in the column toward a bleed container connected beforehand to a column outlet. 16. The method according to claim 13, wherein the parent radioisotope activity is comprised in a value range from 0.0% to 20%, advantageously from 0.0% to 10%, more preferably from 0.0% to 5.0%, still more preferably from 0.0% to 2.0%, more advantageously from 0.0% to 1.0%, relative to the daughter radioisotope activity of said eluate. 17. The method according to claim 16, where the parent radioisotope activity is equal to 0.0 mCi.