Adjustable tibial trial instrument and orthopaedic surgical method of using the same

The invention claimed is: 1. An orthopaedic surgical system for use in implanting a total knee prosthesis, the system comprising: an adjustable tibial trial instrument having (i) a tibial plate, (ii) an attachment mechanism configured to secure the tibial plate to a surgically-prepared resected planar surface of the tibia of a patient, and (iii) an adjustment mechanism operable to (a) move the tibial plate in the anterior/posterior direction relative to the resected planar surface and (b) rotate the tibial plate relative to the resected planar surface when the tibial trial instrument is secured to the tibia of the patient, and a tibial insert trial secured to the tibial trial instrument. 2. The orthopaedic surgical system of claim 1 , wherein: the adjustment mechanism comprises a first knob operatively coupled to a first shuttle and a second knob operatively coupled to a second shuttle, rotation of the first knob causes the first shuttle to move relative to the tibial plate, rotation of the second knob causes the second shuttle to move relative to the tibial plate, and the attachment mechanism includes a first bone-engaging spike secured to the first shuttle and a second bone-engaging spike secured to the second shuttle. 3. The orthopaedic surgical system of claim 2 , wherein rotation of both the first knob and the second knob in the same direction and through the same rotational distance causes the tibial plate to move linearly relative to the bone-engaging spikes when the tibial trial instrument is secured to the tibia of the patient. 4. The orthopaedic surgical system of claim 2 , wherein rotation of both the first knob and the second knob in opposite directions causes the tibial plate to rotate relative to the bone-engaging spikes when the tibial trial instrument is secured to the tibia of the patient. 5. The orthopaedic surgical system of claim 2 , wherein rotation of both the first knob and the second knob through a different rotational distance causes the tibial plate to rotate relative to the bone-engaging spikes when the tibial trial instrument is secured to the tibia of the patient. 6. The orthopaedic surgical system of claim 1 , further comprising a sizing template, wherein: the sizing template is the same size and shape as the tibial plate, the sizing template has a first closed slot and a second closed slot formed therein, both of the first closed slot and the second closed slot have posterior ends that open into a posterior edge of the sizing template, and both of the first closed slot and the second closed slot are sized to receive, and closely conform to, a pair of bone-engaging spikes of the adjustable tibial trial instrument. 7. The orthopaedic surgical system of claim 1 , further comprising a position transfer instrument and a non-adjustable tibial trial instrument, wherein: both the adjustable tibial trial instrument and the non-adjustable tibial trial instrument have plate openings defined therein, and the plate openings of the adjustable tibial trial instrument and the non-adjustable tibial trial instrument have a similar size and shape as an outer periphery of the position transfer instrument such that the position transfer instrument closely conforms to the plate openings when positioned therein. 8. An orthopaedic surgical system for use in implanting a total knee prosthesis, the system comprising: an adjustable tibial trial instrument having (i) a tibial plate having a pair of channels formed therein, (ii) a pair of shuttles, one of which is positioned in each of the pair of channels, wherein each of the pair of shuttles has a bone-engaging spike extending from its inferior surface, the bone-engaging spikes being configured to secure the tibial plate to a surgically-prepared resected planar surface of the tibia of a patient, (iii) a pair of thumbscrews, each of which is threadingly engaged with one of the pair of shuttles such that rotation thereof causes the shuttle to translate within the channel in which it is positioned, wherein rotation of one or both of the pair of thumbscrews is operable to (a) move the tibial plate in the anterior/posterior direction relative to the resected planar surface and (b) rotate the tibial plate relative to the resected planar surface when the tibial trial instrument is secured to the tibia of the patient, and a tibial insert trial secured to the tibial trial instrument. 9. The orthopaedic surgical system of claim 8 , wherein each of the pair of thumbscrews includes a knob such that rotation of the knob causes rotation of the thumbscrew. 10. The orthopaedic surgical system of claim 8 , wherein rotation of the pair of thumbscrews in the same direction and through the same rotational distance causes the tibial plate to move linearly relative to the resected planar surface when the tibial trial instrument is secured to the tibia of the patient. 11. The orthopaedic surgical system of claim 8 , wherein rotation of the pair of thumbscrews in opposite directions of one another causes the tibial plate to rotate relative to the resected planar surface when the tibial trial instrument is secured to the tibia of the patient. 12. The orthopaedic surgical system of claim 8 , wherein rotation of the pair of thumbscrews through a different rotational distance relative to the other causes the tibial plate to rotate relative to the resected planar surface when the tibial trial instrument is secured to the tibia of the patient. 13. The orthopaedic surgical system of claim 8 , further comprising a sizing template, wherein: the sizing template is the same size and shape as the tibial plate, the sizing template has a pair of closed slots formed therein, both of the pair of closed slots have posterior ends that open into a posterior edge of the sizing template, and both of the pair of closed slots are sized to receive, and closely conform to, the pair of bone-engaging spikes of the adjustable tibial trial instrument. 14. The orthopaedic surgical system of claim 8 , further comprising a position transfer instrument and a non-adjustable tibial trial instrument, wherein: both the adjustable tibial trial instrument and the non-adjustable tibial trial instrument have plate openings defined therein, and the plate openings of the adjustable tibial trial instrument and the non-adjustable tibial trial instrument have a similar size and shape as an outer periphery of the position transfer instrument such that the position transfer instrument closely conforms to the plate openings when positioned therein.