For many decades, the utilization of jack pine in the pulp and paper industry has attracted considerable interest but without any major breakthrough. However, in the past few years the emergence of new technologies has provided hope for its potential use. One of these technologies consists in the addition of hydrogen peroxide within the thermomechanical pulping process. To study the influence of numerous process parameters on the interstage treatment of jack pine and to optimize this complex process, a D-optimal experimental design was conducted. A total of 7 variables were considered. It was found that to maximize the properties of the fibres and the resulting paper, a temperature of 115 degrees C with a narrow plate gap at the first refining stage and a high consistency at the second stage had to prevail. A sodium hydroxide treatment radically improved the fibre bonding properties without affecting the tear strength but at the expense of a loss of 4,6 points in ISO brightness. Validation trials allow to draw some conclusions on the advantages and shortcomings of this type of experimental design. This design is efficient, provided sufficient information is available to target likely interactions. Otherwise, a screening design would be required thus increasing the total cost of the study.