Claims
- 1. A method for evaluating an activity of each member of a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the method comprising:
providing, for each constituent composition, a constituent array of locations, each location associated with a specific concentration of such constituent composition, the arrays having a number corresponding to the plurality of constituent compositions; providing an assay array of locations, each location of the assay array corresponding to a member of the set and being associated with a designated aliquot from each of the constituent arrays, wherein each aliquot is one of zero and non-zero; and evaluating the activity of the combined composition at each location of the assay array.
- 2. A method according to claim 1, wherein at least one constituent composition includes an entity approved by a governmental regulatory agency for administration to a patient.
- 3. A method according to claim 1, wherein each of at least two constituent compositions include an entity approved by a governmental regulatory agency for administration to a patient.
- 4. A method according to claim 2, wherein the entity also has at least one of an established safety profile, a recognized pharmacology profile, and a recognized toxicity profile.
- 5. A method according to claim 1, wherein a plurality of locations of the assay array contain an evaluative composition pertinent to evaluating the activity of the combined composition.
- 6. A method according to claim 1, wherein the evaluative composition includes at least one test entity.
- 7. A method according to claim 1, wherein a particular concentration of at least one constituent composition in the assay array is designated based upon activity data of the at least one constituent composition.
- 8. A method according to claim 7, wherein the particular concentration corresponds approximately with a designated activity of the at least one constituent composition in the assay array.
- 9. A method according to claim 7 further comprising
evaluating an activity of the at least one constituent composition before providing its constituent array of locations; wherein the activity data is based upon the evaluated activity of the at least one constituent composition before providing its constituent array of locations.
- 10. A method according to claim 7, wherein the activity data is based upon known activity data of the at least one constituent composition.
- 11. A method according to claim 7, wherein the activity data is in the form of at least one value of inhibition.
- 12. A method according to claim 7, wherein a plurality of particular concentrations of the at least one constituent composition in the assay array are based upon the activity data of the at least one constituent composition.
- 13. A method according to claim 12, wherein the plurality of particular concentrations correspond approximately with designated values of activity of the at least one constituent composition based upon the activity data of the at least one constituent composition.
- 14. A method according to claim 13, wherein the designated values of activity correspond to values of inhibition.
- 15. A method according to claim 14, wherein the designated values of inhibition are approximately between 20% and 80% of a maximum inhibition of the at least one constituent composition.
- 16. A method according to claim 12, wherein the plurality of particular concentrations include at least one concentration corresponding approximately to a selected value of activity of the at least one constituent composition based upon the activity data of the at least one constituent composition, and at least one other particular concentration based upon the selected value of activity.
- 17. A method according to claim 16, wherein the at least one other particular concentration is based upon a product of the selected concentration and a predetermined multiplicative factor.
- 18. A method according to claim 17, wherein the selected value of activity is a value of inhibition of 80% of a maximum inhibition of the at least one constituent composition, and the at least one specific concentration corresponds to approximately a two-fold multiple dilution from a concentration corresponding to the value of inhibition of 80% of the maximum inhibition of the at least one constituent composition.
- 19. A method according to claim 1, wherein at least one constituent array includes a series of members having successively greater dilutions of such constituent composition.
- 20. A method according to claim 19, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 50,000, achieved in steps of a factor of at least approximately 3.
- 21. A method according to claim 19, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 1,000, achieved in steps of a factor of at least approximately 4.
- 22. A method according to claim 19, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 250, achieved in steps of a factor of at least approximately 2.
- 23. A method according to claim 1, wherein each of a plurality of locations of any constituent array has at least one corresponding location in any of the other constituent arrays, and the designated aliquot from each of the constituent arrays is taken from corresponding locations of the constituent arrays.
- 24. A method according to claim 23, wherein each constituent array includes at least one constituent composition with varying concentration in a plurality of locations, and wherein at least one concentration of the at least one constituent composition of one particular constituent array is not combined with every concentration of another constituent composition associated with another constituent array in the assay array.
- 25. A method according to claim 24, wherein the constituent array is embodied on more than one physical object, and the assay array is embodied on more than one physical object.
- 26. A method according to claim 25, wherein locations of any constituent array containing a particular concentration of the at least one entity are only present on one physical object.
- 27. A method according to claim 23, wherein all arrays have a common number of locations in corresponding positions of their respective physical objects.
- 28. A method according to claim 27, wherein each array is embodied in at least one plate.
- 29. A method according to claim 28, wherein each location of each array is realized by a well.
- 30. A method according to claim 1, wherein providing a constituent array of locations further comprises:
providing an origin set of unique locations in each constituent array, each location associated with a quantity of constituent composition associated with such array; and providing, for each location of the origin set, a derivative set of unique locations in each constituent array, each location of a specific derivative set having a portion of constituent composition obtained from a location of the origin set.
- 31. A method according to claim 30, wherein the origin set of unique locations are embodied on a single physical object.
- 32. A method according to claim 30, wherein each location of any constituent array has a corresponding location in any of the other constituent arrays, and a plurality of locations, from any particular origin set location and its corresponding derivative set of locations of a given constituent array, are distinct from any locations of such constituent array that correspond to locations of an origin set location and its corresponding derivative set in any other constituent array.
- 33. A method according to claim 32, wherein a plurality of locations of at least one derivative set contains diluent.
- 34. A method according to claim 32, wherein, for at least one constituent array, each location of any derivative set contains at least one entity, all locations of a particular derivative set in the at least one constituent array containing substantially the same concentration of constituent composition.
- 35. A method according to claim 34, wherein each of a first and a second constituent array have an identically configured predetermined number of locations, each derivative set of the first constituent array arranged as a row of locations, and each derivative set of the second constituent array arranged as a column of locations.
- 36. A method according to claim 34, wherein each entity in a given derivative set of one constituent array is present in another derivative set of every other constituent array.
- 37. A method according to claim 36, wherein, for all constituent arrays, a combination of entities is only present in one derivative set.
- 38. A method according to claim 37, wherein each entity in the combination is not present with any other entity of the combination in any other location of any other constituent array.
- 39. A method according to claim 1, wherein each location of any constituent array has a corresponding location in any of the other constituent arrays, wherein the method further comprises:
providing, for each constituent array, a composition control in each location of a composition control set of such array, wherein the composition control set of each constituent array is disposed so that all locations of the composition control set of a given constituent array are distinct from any locations of such constituent array that correspond to locations of the composition control set in any other constituent array.
- 40. A method according to claim 39, wherein at least one of the composition controls is a positive control and at least one of the composition controls is a negative control.
- 41. A method according to claim 40, wherein evaluating the activity of the combined composition at each location of the assay array further comprises:
providing a standard deviation value and an average value for each set of positive control locations and negative control locations of the composition control set of each physically distinct object of the assay array based upon values associated with an activity for each location of the respective set; and providing a z-factor for each physically distinct object of the assay array based upon the standard deviation values and the average values.
- 42. A method according to claim 41, wherein the average values are embodied as numerical average values.
- 43. A method according to claim 41, wherein the average values are embodied as median values.
- 44. A method according to claim 40, wherein evaluating the activity of the combined composition at each location of the assay array further comprises:
providing a plurality of local quantized c-values, determined for at least one constituent composition of one composition control set of a physically distinct object of the assay array, the local quantized c-value being based upon a fractional value of activity, the fractional value of activity being a value of activity at a location of the one composition control set relative to a normalization value; and providing a global c-value for each physically distinct object of the assay array based upon a numerical average of the plurality of local quantized c-values for each location of the physically distinct object of the composition control set.
- 45. A method according to claim 44, wherein the normalization value is associated with an expected activity level of zero.
- 46. A method according to claim 44, wherein the normalization value is associated with a background activity measurement.
- 47. A method according to claim 44, wherein the normalization value is a selected value.
- 48. A method according to claim 1, wherein each location of any constituent array has a corresponding location in any of the other constituent arrays, wherein the method further comprises:
providing an assay control in each location of an assay control set of the assay array, wherein each location of the assay control set has a corresponding location in each constituent array.
- 49. A method according to claim 48, wherein the assay control set of one physical entity of the assay array has a plurality of locations which are adjacent to an edge of the physical entity.
- 50. A method according to claim 48, wherein the assay control set associated with one physical entity of the assay array has a plurality of wells which are arranged from one end of the physical entity to another end of the physical entity.
- 51. A method according to claim 48 further comprises
providing the assay control in at least one corresponding location of a constituent array before providing the assay array.
- 52. A method according to claim 48, wherein evaluating the activity of the combined composition includes:
evaluating a measured activity of the assay control in each location of the assay control set; providing a deviation activity value for a plurality of locations of the assay array based upon the measured activity and an expected activity in one or more locations of the assay control set; and assigning a corrected activity value for each of the plurality of locations of the assay array based upon the deviation activity values.
- 53. A method according to claim 52, wherein each of the plurality of locations of the assay array has the same expected value of activity.
- 54. A method according to claim 52, wherein providing the deviation value includes providing interpolated values based upon the measured activity in one or more locations of the assay control set.
- 55. A method according to claim 1, wherein evaluating the activity of the combined composition includes:
identifying erroneous activity values in one or more locations of the assay array; and assigning a replacement value of activity in each location associated with the erroneous activity value.
- 56. A method according to claim 55, wherein the replacement value is assigned based upon the evaluated activity in one or more adjacent locations relative to the location associated with the erroneous activity value.
- 57. A method according to claim 55, wherein the replacement value is assigned based upon the concentration of at least one constituent composition in one or more adjacent locations relative to the location associated with the erroneous activity value.
- 58. A method according to claim 35, the method further comprising:
providing, for the assay array and each constituent array, a composition control in each location of a composition control set of such array, and an assay control in each location of an assay control set of such array, wherein the composition control set of each array is disposed so that all locations of the composition control set of a particular array are distinct from any locations of such array that correspond to locations of the composition control set in any other array, and wherein the assay control set of each array is disposed so that each location of the assay control set of such array corresponds to a location of the assay control set in any other array.
- 59. A method according to claim 58, wherein providing an assay array further comprises:
providing a dilution array of locations, each location of the dilution array corresponding to a particular member of the set and being associated with a designated aliquot from each of the constituent arrays, wherein each aliquot is one of zero and non-zero, and deriving the assay array of locations from the dilution array.
- 60. A method according to claim 59, wherein a concentration of a particular entity in a location of the dilution array is at least approximately one order of magnitude more dilute than the concentration of the particular entity in a designated constituent array.
- 61. A method according to claim 59, wherein a plurality of locations of the assay array contain an evaluative composition pertinent to evaluating the activity of the combined composition.
- 62. A method according to claim 59, wherein a concentration of a particular entity in a location of the assay array is at least approximately one order of magnitude more dilute than the concentration of the particular entity in a designated dilution array.
- 63. A method according to claim 59, wherein the assay array is embodied in a plurality of distinct physical objects.
- 64. A method according to claim 59, wherein each constituent array is embodied in at least one distinct physical object.
- 65. A method according to claim 59, wherein each location of the dilution array has a corresponding location in any of the constituent arrays, and the designated aliquot from each of the constituent arrays is taken from corresponding locations of the constituent arrays.
- 66. A method according to claim 65, wherein the arrays are embodied in physically distinct objects and all arrays have a common number of locations in corresponding positions of their respective physical objects.
- 67. A method according to claim 66, wherein each array is embodied in at least one plate.
- 68. A method according to claim 67, wherein each location of each array is realized by a well.
- 69. A method according to claim 68, wherein each constituent array includes a series of wells having successively greater dilutions of such constituent composition.
- 70. A method according to claim 69, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 50,000, achieved in steps of a factor of at least approximately3.
- 71. A method according to claim 69, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 1,000, achieved in steps of a factor of at least approximately4.
- 72. A method according to claim 69, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 250, achieved in steps of a factor of at least approximately2.
- 73. A method according to claim 68, wherein each constituent array includes at least one constituent composition with varying concentration in a plurality of locations, and wherein at least one concentration of the at least one constituent composition of one particular constituent array is not combined with every concentration of another constituent composition associated with another constituent array in the assay array.
- 74. A method according to claim 68, wherein a particular concentration of at least one constituent composition in the assay array corresponds approximately with a designated activity of the at least one constituent composition at the particular concentration.
- 75. A method according to claim 74, wherein a plurality of particular concentrations of the at least one constituent composition in the assay array correspond approximately with designated values of inhibition of the at least one constituent composition based upon the activity data of the at least one constituent composition, the designated values of inhibition being approximately between 20% and 80% of a maximum inhibition of the at least one constituent composition.
- 76. A method according to claim 58, wherein providing the constituent array includes providing the origin set and the derivative set on distinct physical objects.
- 77. A method according to claim 76, wherein a plurality of locations of the assay array contain an evaluative composition pertinent to evaluating the activity of the combined composition.
- 78. A method according to claim 76, wherein the assay array is embodied in a plurality of distinct physical objects.
- 79. A method according to claim 76, wherein the designated aliquot from each of the constituent arrays is taken from corresponding locations of the constituent arrays.
- 80. A method according to claim 79, wherein the arrays are embodied in physically distinct objects and all arrays have a common number of locations in corresponding positions of their respective physical objects.
- 81. A method according to claim 80, wherein each array is embodied in at least one plate.
- 82. A method according to claim 81, wherein each location of each array is realized by a well.
- 83. A method according to claim 82, wherein each constituent array includes a series of wells having successively greater dilutions of such constituent composition.
- 84. A method according to claim 83, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 50,000, achieved in steps of a factor of at least approximately3.
- 85. A method according to claim 83, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 1,000, achieved in steps of a factor of at least approximately4.
- 86. A method according to claim 83, wherein the successively greater dilutions encompass a total range of a factor of at least approximately 250, achieved in steps of a factor of at least approximately2.
- 87. A method according to claim 82, wherein each constituent array includes at least one constituent composition with varying concentration in a plurality of locations, and wherein at least one concentration of the at least one constituent composition of one particular constituent array is not combined with every concentration of another constituent composition associated with another constituent array in the assay array.
- 88. A method according to claim 82, wherein a particular concentration of at least one constituent composition in the assay array corresponds approximately with a designated activity of the at least one constituent composition at the particular concentration.
- 89. A method according to claim 88, wherein a plurality of particular concentrations of the at least one constituent composition in the assay array correspond approximately with designated values of inhibition of the at least one constituent composition based upon the activity data of the at least one constituent composition, the designated values of inhibition being approximately between 20% and 80% of a maximum inhibition of the at least one constituent composition.
- 90. A method according to claim 1, wherein evaluating the activity of each member of the set of combined compositions includes providing a measure of synergy for a plurality of members of the set, the measure of synergy depending upon a measured value and a predicted value for each location of the set, each measured value being pertinent to the activity in one location of the set, and each predicted value being calculated from a model.
- 91. A method according to claim 90, wherein the model depends upon measured values pertinent to an activity of at least one entity of a candidate composition in the one location of the set.
- 92. A method according to claim 91, wherein the predicted value is the activity of the at least one entity of the candidate composition.
- 93. A method according to claim 91, wherein the predicted value is calculated from a Bliss Independence Model.
- 94. A method according to claim 91, wherein the predicted value is calculated from a Loewe Additivity Model.
- 95. A method according to claim 90, wherein the measure of synergy is a difference between a measured value and a predicted value for each location of the set.
- 96. A method according to claim 95, wherein the measure of synergy is a sum of the difference between the measured value and predicted value for a plurality of locations of the set.
- 97. A method according to claim 95, wherein the measure of synergy is a representation of the concentrations of entities in a candidate composition associated with a specific level of activity derived from interpolation of a plurality of measured values.
- 98. A method according to claim 95, wherein evaluating the activity includes replacing particular measured values with calculated values that maintain a smooth monotonically changing surface of values with respect to each calculated value and measured values at locations adjacent to the calculated value.
- 99. A method of evaluating the activity of a set of compositions in an array, the method comprising:
determining a measured value for each location of a set of compositions, for each of a plurality of sets of the array, pertinent to the activity thereof, wherein each set of the array includes substantially the same set of compositions arranged in corresponding locations; for each of the locations of the sets of the array, determining predicted values of activity according to each of a plurality of models; and determining the activity of the set of compositions based upon the measured values and predicted values using at least one statistical method.
- 100. A method according to claim 99, wherein determining the activity includes determining the activity based upon the difference between the measured value and the predicted value in corresponding locations of each set for each of the plurality of models.
- 101. A method according to claim 100, wherein determining the activity includes providing a summation of all difference values exceeding a difference threshold for each set of the array.
- 102. A method according to claim 99, wherein using at least one statistical method includes determining a standard error of activity associated with a location of a set based upon the measured values in corresponding locations of each of the plurality of sets of the array.
- 103. A method according to claim 102, wherein determining the activity of the set includes determining a measure of error of the activity of the set based upon the standard error of activity associated with a plurality of locations of the set.
- 104. A method according to claim 103, wherein determining the measure of error includes determining a square-root of the sum of the squares of the standard errors of activity of the plurality of locations.
- 105. A method according to claim 99, wherein using at least one statistical method includes determining an average measured value associated with a location of a set based upon the measured values in corresponding locations of each of the plurality of sets of the array.
- 106. A method according to claim 99, wherein using at least one statistical method includes determining a ratio of an average measured value to a standard error associated with a location of a set based upon the measured values in corresponding locations of each of the plurality of sets of the array.
- 107. A method according to claim 99, wherein the measured values and predicted values are expressed in terms of inhibition.
- 108. An assay array having a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the assay array comprising:
an array of locations, each location corresponding to a member of the set and being associated with a designated aliquot from each of a plurality of constituent arrays, each constituent array having locations holding a specific concentration of a constituent composition, the constituent arrays having a number corresponding to the plurality of constituent compositions, each aliquot is one of zero and non-zero.
- 109. An assay array having a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the assay array comprising:
an array of locations, each location corresponding to a member of the set and being associated with a designated aliquot from of a specific concentration of a constituent composition, each aliquot is one of zero and non-zero, wherein a particular concentration of at least one constituent composition in the assay array is designated based upon activity data of the at least one constituent composition.
- 110. An assay array according to claim 109, wherein the particular concentration corresponds approximately with a designated activity of the at least one constituent composition in the assay array.
- 111. An assay array according to claim 109, wherein the activity data is based upon known activity data of the at least one constituent composition.
- 112. An assay array according to claim 109, wherein a plurality of particular concentrations of the at least one constituent composition in the assay array are based upon the activity data of the at least one constituent composition.
- 113. An assay array according to claim 112, wherein the plurality of particular concentrations correspond approximately with designated values of activity of the at least one constituent composition based upon the activity data of the at least one constituent composition.
- 114. An assay array according to claim 113, wherein the designated values of activity correspond to values of inhibition.
- 115. An assay array according to claim 114, wherein the designated values of inhibition are approximately between 20% and 80% of a maximum inhibition of the at least one constituent composition.
- 116. An assay array according to claim 112, wherein the plurality of particular concentrations include at least one concentration corresponding approximately to a selected value of activity of the at least one constituent composition based upon the activity data of the at least one constituent composition, and at least one other particular concentration based upon the selected value of activity.
- 117. An assay array according to claim 116, wherein the at least one other particular concentration is based upon a product of the selected concentration and a predetermined multiplicative factor.
- 118. An assay array according to claim 117, wherein the selected value of activity is a value of inhibition of 80% of a maximum inhibition of the at least one constituent composition, and the at least one specific concentration corresponds to approximately a two-fold multiple dilution from a concentration corresponding to the value of inhibition of 80% of the maximum inhibition of the at least one constituent composition.
- 119. An assay array having a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the assay array comprising:
an array of locations, each location corresponding to a member of the set and being associated with a designated aliquot from of a specific concentration of a constituent composition, each aliquot is one of zero and non-zero, wherein at least one concentration of a particular constituent composition in the assay array is not combined with every concentration of a different constituent composition in the assay array.
- 120. An assay array according to claim 119, wherein the assay array is embodied on more than one physical object.
- 121. A plurality of arrays for evaluating an activity of each member of a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the plurality of arrays comprising:
for each constituent composition, a constituent array of locations, each location associated with a specific concentration of such constituent composition, the constituent arrays having a number corresponding to the plurality of constituent compositions, each location of any constituent array having a corresponding location in any of the other constituent arrays; an assay array of locations, each location of the assay array corresponding to a member of the set and being associated with a designated aliquot from each of the constituent arrays, each aliquot is one of zero and non-zero; and an assay control in each location of an assay control set of the assay array, wherein each location of the assay control set has a corresponding location in each constituent array.
- 122. A plurality of arrays according to claim 121, wherein the assay control set of one physical entity of the assay array has a plurality of locations which are adjacent to an edge of the physical entity.
- 123. A plurality of arrays according to claim 121, wherein the assay control set associated with one physical entity of the assay array has a plurality of wells which are arranged from one end of the physical entity to another end of the physical entity.
- 124. A plurality of arrays according to claim 121, wherein the assay control is in at least one corresponding location of a constituent array before being in the assay array.
- 125. A plurality of constituent arrays for producing an assay array, each constituent array comprising:
an array of locations for holding a constituent composition, each location associated with a specific concentration of such constituent composition, the constituent arrays having a number corresponding to the plurality of constituent compositions, each constituent array including:
(i) an origin set of unique locations, each origin set location associated with a quantity of constituent composition associated with such array; and (ii) for each location of the origin set, a derivative set of unique locations, each location of a specific derivative set having a portion of constituent composition obtained from a location of the origin set.
- 126. A plurality of constituent arrays according to claim 125, wherein the origin set of unique locations are embodied on a single physical object.
- 127. A plurality of constituent arrays according to claim 125, wherein each location of any constituent array has a corresponding location in any of the other constituent arrays, and a plurality of locations, from any particular origin set location and its corresponding derivative set of locations of a given constituent array, are distinct from any locations of such constituent array that correspond to locations of an origin set location and its corresponding derivative set in any other constituent array.
- 128. A plurality of constituent arrays according to claim 127, wherein a plurality of locations of at least one derivative set contains diluent.
- 129. A plurality of constituent arrays according to claim 127, wherein, for at least one constituent array, each location of any derivative set contains at least one entity, all locations of a particular derivative set in the at least one constituent array containing substantially the same concentration of constituent composition.
- 130. A plurality of constituent arrays according to claim 129, wherein each of a first and a second constituent array have an identically configured predetermined number of locations, each derivative set of the first constituent array arranged as a row of locations, and each derivative set of the second constituent array arranged as a column of locations.
- 131. A plurality of constituent arrays according to claim 129, wherein each entity in a given derivative set of one constituent array is present in another derivative set of every other constituent array.
- 132. A plurality of constituent arrays according to claim 131, wherein, for all constituent arrays, a combination of entities is only present in one derivative set.
- 133. A plurality of constituent arrays according to claim 132, wherein each entity in the combination is not present with any other entity of the combination in any other location of any other constituent array.
- 134. A plurality of arrays for evaluating an activity of each member of a set of combined compositions, each member of the set being a combination of a common plurality of constituent compositions, the plurality of arrays comprising:
for each constituent composition, a constituent array of locations, each location associated with a specific concentration of such constituent composition, the constituent arrays having a number corresponding to the plurality of constituent compositions, each location of any constituent array having a corresponding location in any of the other constituent arrays; an assay array of locations, each location of the assay array corresponding to a member of the set and being associated with a designated aliquot from each of the constituent arrays, each aliquot is one of zero and non-zero; and a composition control in each location of a composition control set, wherein the composition control set of each constituent array is disposed so that all locations of the composition control set of a given constituent array are distinct from any locations of such constituent array that correspond to locations of the composition control set in any other constituent array, the locations of all composition control sets having a corresponding location in the assay array.
- 135. A plurality of arrays according to claim 134, wherein at least one of the composition controls is a positive control and at least one of the composition controls is a negative control.
- 136. A plurality of arrays according to claim 134 further comprising:
an assay control in each location of an assay control set of the assay array, wherein each location of the assay control set has a corresponding location in each constituent array.
- 137. A plurality of arrays according to claim 136, wherein a particular concentration of at least one constituent composition in the assay array is designated based upon activity data of the at least one constituent composition.
- 138. A plurality of arrays according to claim 137, wherein a plurality of particular concentrations of the at least one constituent composition in the assay array correspond approximately with designated values of inhibition of the at least one constituent composition based upon the activity data of the at least one constituent composition, the designated values of inhibition being approximately between 20% and 80% of a maximum inhibition of the at least one constituent composition.
- 139. A plurality of arrays according to claim 136, wherein the locations of combinations of the common plurality of constituent compositions of the assay array do not correspond to every virtual location of a virtual assay array representing combinations of the constituent compositions, the virtual assay array having a set of virtual locations, the set of virtual locations corresponding with every possible combination of specific concentrations of constituent compositions utilized in the assay array.
- 140. A plurality of arrays according to claim 138, wherein the locations of combinations of the common plurality of constituent compositions of the assay array do not correspond to every virtual location of a virtual assay array representing combinations of the constituent compositions, the virtual assay array having a set of virtual locations, the set of virtual locations corresponding with every possible combination of specific concentrations of constituent compositions utilized in the assay array.
- 141. A computer program product for use on a computer system for evaluating a combination effect in a plurality of locations of an assay array, the computer readable program code including:
(a) a module for collecting an evaluated activity in the plurality of locations of the assay array; (b) program code for providing a measure value in the plurality of locations of the assay array, the measure values based upon the evaluated activity in the plurality of locations; (c) program code for providing a predicted value for each of the plurality of locations of the assay array, the predicted values based upon a model; and (d) program code for evaluating a combination effect for each of the plurality of locations of the assay array, the evaluation based upon the measured values and predicted values.
- 142. A computer program product according to claim 141, wherein the model depends upon measured values pertinent to an activity of at least one entity of a candidate composition in a location of the set.
- 143. A computer program product according to claim 142, wherein the predicted value is the activity of the at least one entity of the candidate composition.
- 144. A computer program product according to claim 142, wherein the predicted value is calculated from a Bliss Independence Model.
- 145. A computer program product according to claim 142, wherein the predicted value is calculated from a Loewe Additivity Model.
- 146. A computer program product according to claim 141, wherein the evaluation is a set of differences between a measured value and a predicted value for each of the plurality of locations.
- 147. A computer program product according to claim 146, wherein the evaluation is a sum of the difference between the measured value and predicted value for each of the plurality of locations.
- 148. A computer program product according to claim 146, wherein the evaluation is a representation of the concentrations of entities in a candidate composition associated with a specific level of activity derived from interpolation of the set of differences between the measure value and predicted value for each of the plurality of locations.
- 149. A computer program product according to claim 146 further comprising:
(e) program code for replacing particular measured values with calculated values such that a smooth monotonically changing activity surface is produced from the calculated values and measured values that are not replaced.
- 150. A computer program product according to claim 149, wherein the measured value is replaced by a corresponding calculated value when the difference between the measured value and the corresponding predicted value exceeds a given threshold value.
- 151. A computer program product according to claim 146, wherein a subset of the plurality of locations correspond to a plurality of locations containing an assay control, and the predicted values include an identical value corresponding to an expected activity associated with each location of the assay control, the computer program product further comprising:
(e) program code for providing correction values for to the plurality of locations based upon a set of differences between each measured value and predicted value in the assay control locations.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application claims priority from each of the following patent applications: U.S. provisional patent application with Ser. No. 60/476,342 filed on Jun. 6, 2003; as a continuation-in-part of pending U.S. patent application with Ser. No. 09/611,835 filed Jul. 7, 2000; and as a continuation-in-part of pending U.S. patent application with Ser. No. 10/223,882 filed Aug. 20, 2002, which claims priority from a U.S. provisional application with Ser. No. 60/315,884 filed Aug. 29, 2001. The present application is also related to a U.S. patent application with the same inventors and title as the present application, bearing attorney docket number 2729/105, and filed on the same day as the present application. These applications are all hereby incorporated herein by reference in their entirety.
Provisional Applications (2)
|
Number |
Date |
Country |
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60476342 |
Jun 2003 |
US |
|
60315884 |
Aug 2001 |
US |
Continuation in Parts (2)
|
Number |
Date |
Country |
Parent |
09611835 |
Jul 2000 |
US |
Child |
10863594 |
Jun 2004 |
US |
Parent |
10223882 |
Aug 2002 |
US |
Child |
10863594 |
Jun 2004 |
US |