OBJECTIVE: The first goal of phase I drug development is the determination of maximal tolerated dose, which must be established by case-by-case analysis, sometimes using a laboratory adverse event. Since no accurate rule defining lab adverse events, has been validated yet, we propose a new "combined method" based on combination of two thresholds: inclusion values and magnitude of variation. Using this combined method, the label "lab adverse event" is applied if any lab value exceeds the inclusion threshold and is associated with a variation from baseline exceeding the variation threshold defined from reference change limit. Thus, this study aimed to test this combined method on a large healthy volunteer population, studied in 19 phase I centres worldwide, and on five lab parameters: alanine amino transferase, aspartate amino transferase, alkaline phosphatases, creatinine and polymorphonuclear leukocytes. METHODS: The inclusion threshold from each center was used. Reference change limits were defined from volunteers previously included in comparable studies and were expressed as absolute values: increases of 10 IU.l-1 for alanine amino transferase or aspartate amino transferase, 15 IU.l-1 for alkaline phosphatases, 15 mumol.l-1 for creatinine and a 0.34 10(9).l-1 decrease for polymorphonuclear leukocytes. Comparison between the "combined method" and a normal range method was made using positive predictive value and a ratio between relevant and irrelevant results. This application was implemented in all young healthy volunteers (1134) included in 38 phase I studies sponsored by Rhone Poulenc Rorer from 1991 to 1993. RESULTS: Seventy seven subjects (6.7%) were indicated in final study reports as having a lab adverse event (reference group). Of 179 subjects with lab abnormalities defined by the normal range method, 77 belonged to the reference group, inducing a poor 0.43 positive predictive value. Of ninety subjects with lab adverse events defined by the "combined method", seventy-five belonged to the reference group, inducing a two-fold higher 0.83 positive predictive value. The combined method produced a high ratio of relevant/irrelevant results (5 = 75/15) compared with the low ratio (0.76 = 77/102) achieved using the normal range method. CONCLUSION: This new "combined method", leading to a better definition of lab adverse event, seems an accurate and useful tool for routine case-by-case analysis within phase I drug development studies.
OBJECTIVE: The first goal of phase I drug development is the determination of maximal tolerated dose, which must be established by case-by-case analysis, sometimes using a laboratory adverse event. Since no accurate rule defining lab adverse events, has been validated yet, we propose a new "combined method" based on combination of two thresholds: inclusion values and magnitude of variation. Using this combined method, the label "lab adverse event" is applied if any lab value exceeds the inclusion threshold and is associated with a variation from baseline exceeding the variation threshold defined from reference change limit. Thus, this study aimed to test this combined method on a large healthy volunteer population, studied in 19 phase I centres worldwide, and on five lab parameters: alanine amino transferase, aspartate amino transferase, alkaline phosphatases, creatinine and polymorphonuclear leukocytes. METHODS: The inclusion threshold from each center was used. Reference change limits were defined from volunteers previously included in comparable studies and were expressed as absolute values: increases of 10 IU.l-1 for alanine amino transferase or aspartate amino transferase, 15 IU.l-1 for alkaline phosphatases, 15 mumol.l-1 for creatinine and a 0.34 10(9).l-1 decrease for polymorphonuclear leukocytes. Comparison between the "combined method" and a normal range method was made using positive predictive value and a ratio between relevant and irrelevant results. This application was implemented in all young healthy volunteers (1134) included in 38 phase I studies sponsored by Rhone Poulenc Rorer from 1991 to 1993. RESULTS: Seventy seven subjects (6.7%) were indicated in final study reports as having a lab adverse event (reference group). Of 179 subjects with lab abnormalities defined by the normal range method, 77 belonged to the reference group, inducing a poor 0.43 positive predictive value. Of ninety subjects with lab adverse events defined by the "combined method", seventy-five belonged to the reference group, inducing a two-fold higher 0.83 positive predictive value. The combined method produced a high ratio of relevant/irrelevant results (5 = 75/15) compared with the low ratio (0.76 = 77/102) achieved using the normal range method. CONCLUSION: This new "combined method", leading to a better definition of lab adverse event, seems an accurate and useful tool for routine case-by-case analysis within phase I drug development studies.
Authors: Kerstin Breithaupt-Groegler; Christoph Coch; Martin Coenen; Frank Donath; Katharina Erb-Zohar; Klaus Francke; Karin Goehler; Mario Iovino; Klaus Peter Kammerer; Gerd Mikus; Jens Rengelshausen; Hildegard Sourgens; Reinhard Schinzel; Thomas Sudhop; Georg Wensing Journal: Eur J Clin Pharmacol Date: 2017-01-07 Impact factor: 2.953