Bone treatment systems and methods

What is claimed is: 1. A bone cement composition configured to provide a controlled viscosity, comprising: a liquid component comprising a monomer; and a non-liquid component comprising first polymer beads having a first average cross-sectional dimension and comprising a radical initiator at a first amount, and second polymer beads having a second average cross-sectional dimension greater than the first average cross-sectional dimension and comprising the radical initiator at a second amount lower than the first amount. 2. The bone cement composition of claim 1 , wherein the initiator is dispersed throughout each of the first polymer beads and the second polymer beads. 3. The bone cement composition of claim 1 , wherein the first average cross-sectional dimension is less than 100 microns, and the second average cross-sectional dimension is greater than 100 microns. 4. The bone cement composition of claim 1 , wherein the first polymer beads and the second polymer beads comprise polymethyl methacrylate polymer (PMMA). 5. The bone cement composition of claim 4 , wherein the non-liquid component comprises less than 75 wt % PMMA on the basis of a total weight of the non-liquid component. 6. The bone cement composition of claim 1 , wherein the radical initiator comprises benzoyl peroxide (BPO). 7. The bone cement composition of claim 6 , wherein the non-liquid component has a mean BPO concentration between 0.3 wt. % and 0.6 wt. % on the basis of the a total weight of the non-liquid component. 8. The bone cement composition of claim 6 , wherein the first polymer beads have greater than 0.5 wt. % of BPO on the basis of a total weight of the non-liquid component. 9. The bone cement composition of claim 1 , wherein the non-liquid component further comprises third polymer beads having a third average cross-sectional dimension smaller than each of the first and second average cross-sectional dimensions, and wherein the third polymer beads comprise the initiator at a third amount lower than each of the first amount and the second amount. 10. A bone cement composition, comprising: a liquid component comprising a monomer; and a non-liquid component comprising a plurality of polymer bead populations having different dissolution rates and different amounts of an initiator, wherein one of the polymer bead populations has a lower dissolution rate and a higher amount of the initiator compared to another one of the polymer bead populations, such that upon forming a mixture with the liquid component, an initiator availability in the mixture increases relatively rapidly during a first time interval and thereafter stays relatively constant during a second time interval compared to the first time interval. 11. The bone cement composition of claim 10 , wherein the second time interval is longer than the first time interval and exceeds 2 minutes. 12. The bone cement composition of claim 10 , wherein the liquid component further comprises an activator at a sufficient concentration, and wherein the initiator availability is such that, post-mixing, the mixture has a setting time greater than 25 minutes. 13. The bone cement composition of claim 12 , wherein during the second time interval, the initiator availability is between 0.004 g/ml/min and 0.04 g/ml/min. 14. The bone cement composition of claim 12 , wherein the liquid component comprises an activator at a concentration less than about 1% based on an overall weight of the liquid component. 15. The bone cement kit package of claim 12 , wherein the initiator comprises benzoyl peroxide (BPO) and the activator comprises N,N-dimethyl-p-toluidine (DMPT). 16. The bone cement composition of claim 12 , wherein the liquid component comprises: greater than 99 wt. % methyl methacrylate (MMA); less than 1 wt. % N, N-dimethyl-p-toluidine (DMPT); and 30 to 120 ppm hydroquinone (HQ), wherein the amount of each component is on the basis of a total amount of the liquid component. 17. A method of providing a bone cement mixture having a controlled viscosity, the method comprising: mixing a liquid component comprising a monomer and a non-liquid component comprising at plurality of polymer bead populations having different dissolution rates and different amounts of an initiator, wherein mixing dissolves one of the polymer bead populations having a higher amount of an initiator at a faster rate compared to a dissolution rate another one of the polymer bead populations having a lower amount of the initiator, such that an initiator availability in the mixture initially increases relatively rapidly during a first time interval, followed by a second time interval during which the initiator availability stays substantially constant relative to the first time interval. 18. The method of claim 17 , wherein the liquid component further comprises an activator at a sufficient concentration, and wherein the initiator availability is such that, post-mixing, the mixture has a setting time greater than 25 minutes. 19. The method of claim 17 , wherein during the second interval, a time-viscosity curve slope remains less than or equal to about 200 Pa·s/minute immediately before the mixture reaches a viscosity of about 1500 Pa·s. 20. The method of claim 17 , wherein during the second interval, a time-viscosity curve slope remains less than or equal to about 200 Pa·s at about 15 minutes post-mixing.