Manufacturing of bupivacaine multivesicular liposomes

What is claimed is: 1. A batch comprising a composition of bupivacaine encapsulated multivesicular liposomes (MVLs), prepared by a process comprising: (a) mixing a first aqueous solution comprising phosphoric acid with a volatile water-immiscible solvent solution to form a water-in-oil first emulsion, wherein the volatile water-immiscible solvent solution comprises 1,2-dipalmitoyl-sn-glycero-3-phospho-rac-(1-glycerol) (DPPG) or a salt thereof, 1,2-dierucoylphosphatidylcholine (DEPC), tricaprylin and cholesterol, and wherein either the first aqueous solution or the volatile water-immiscible solvent solution comprises bupivacaine; (b) mixing the water-in-oil first emulsion with a second aqueous solution to form a water-in-oil-in-water second emulsion, wherein the second aqueous solution comprises lysine and at least one osmotic agent; (c) substantially removing the volatile water-immiscible solvent from the water-in-oil-in-water second emulsion by sparging the water-in-oil-in-water second emulsion to form a first aqueous suspension of bupivacaine encapsulated MVLs having a first volume; (d) reducing the first volume of the first aqueous suspension of bupivacaine encapsulated multivesicular liposomes by a first microfiltration to provide a second aqueous suspension of bupivacaine encapsulated MVLs having a second volume, wherein the first microfiltration feed flow rate is about 200 L/min to about 400 L/min; (e) exchanging the second aqueous suspension medium with a saline solution by diafiltration to provide a third aqueous suspension of bupivacaine encapsulated MVLs having a third volume, wherein the diafiltration feed flow rate is about 200 L/min to about 350 L/min; and (f) reducing the third volume of the third aqueous suspension by a second microfiltration to provide a batch of aqueous suspension of bupivacaine encapsulated MVLs having a target concentration of bupivacaine from 12 mg/mL to 17 mg/mL; wherein the batch has a volume of at least 100 liters to about 300 liters; wherein the batch has a cumulative percentage release of bupivacaine from 46% to 71% at a 24-hour time point, measured from two to six aliquots of the batch using a rotator-facilitated in vitro release assay for at least 48 hours, after storage of the aliquots at 2° C. to 8° C. for about 12 months from batch manufacture date; and wherein the rate of change in the cumulative percentage release of bupivacaine at the 24-hour time point is 0.05%/month to 0.5%/month after storage of the aliquots at 2° C. to 8° C. for about 12 months. 2. The batch of claim 1 , wherein the rate of change in the cumulative percentage release of bupivacaine at the 24-hour time point is 0.08%/month to 0.5%/month. 3. The batch of claim 2 , wherein the rate of change in the cumulative percentage release of bupivacaine at the 24-hour time point is 0.1%/month to 0.4%/month. 4. The batch of claim 1 , wherein the cumulative percentage release of bupivacaine of the batch is measured as the average of six aliquots. 5. The batch of claim 4 , wherein each aliquot has a cumulative percentage release of bupivacaine from 36% to 81% at the 24-hour time point, and a cumulative percentage release of bupivacaine from 50% to 95% at the 48-hour time point. 6. The batch of claim 1 , wherein the total bupivacaine concentration in the composition is about 13.3 mg/mL. 7. The batch of claim 1 , wherein the mixing in step (a) is performed at a high speed from about 1100 rpm to about 1300 rpm for about 65 minutes to about 75 minutes. 8. The batch of claim 7 , wherein the mixing in step (b) is performed at a low speed from about 445 rpm to about 680 rpm for about 60 to about 85 seconds. 9. The batch of claim 1 , wherein the batch has a volume of about 110 L to about 250 L. 10. The batch of claim 1 , wherein the first microfiltration feed flow rate comprises a beginning first microfiltration feed flow rate from about 290 L/min to about 350 L/min, and an end first microfiltration feed flow rate from about 250 L/min to about 310 L/min. 11. The batch of claim 10 , wherein the diafiltration feed flow rate comprises a first stage diafiltration feed flow rate from about 250 L/min to 310 L/min and a second stage feed flow rate from about 245 L/min to about 265 L/min. 12. A batch comprising a composition of bupivacaine encapsulated multivesicular liposomes (MVLs), prepared by a process comprising: (a) mixing a first aqueous solution comprising phosphoric acid with a volatile water-immiscible solvent solution to form a water-in-oil first emulsion, wherein the volatile water-immiscible solvent solution comprises 1,2-dipalmitoyl-sn-glycero-3-phospho-rac-(1-glycerol) (DPPG) or a salt thereof, 1,2-dierucoylphosphatidylcholine (DEPC), tricaprylin and cholesterol, and wherein either the first aqueous solution or the volatile water-immiscible solvent solution comprises bupivacaine; (b) mixing the water-in-oil first emulsion with a second aqueous solution to form a water-in-oil-in-water second emulsion, wherein the second aqueous solution comprises lysine and at least one osmotic agent; (c) substantially removing the volatile water-immiscible solvent from the water-in-oil-in-water second emulsion by sparging the water-in-oil-in-water second emulsion to form a first aqueous suspension of bupivacaine encapsulated MVLs having a first volume; (d) reducing the first volume of the first aqueous suspension of bupivacaine encapsulated multivesicular liposomes by a first microfiltration to provide a second aqueous suspension of bupivacaine encapsulated MVLs having a second volume, wherein the first microfiltration feed flow rate is about 200 L/min to about 400 L/min; (e) exchanging the second aqueous suspension medium with a saline solution by diafiltration to provide a third aqueous suspension of bupivacaine encapsulated MVLs having a third volume, wherein the diafiltration feed flow rate is about 200 L/min to about 350 L/min; and (f) reducing the third volume of the third aqueous suspension by a second microfiltration to provide a batch of aqueous suspension of bupivacaine encapsulated MVLs having a target concentration of bupivacaine from 12 mg/mL to 17 mg/mL; wherein the batch has a volume of at least 100 liters to about 300 liters; wherein the batch has a cumulative percentage release of bupivacaine from 60% to 85% at a 48-hour time point, measured from two to six aliquots of the batch using a rotator-facilitated in vitro release assay for at least 48 hours, after storage of the aliquots at 2° C. to 8° C. for about 12 months from batch manufacture date; and wherein the rate of change in the cumulative percentage release of bupivacaine of the batch at the 48-hour time point is-0.18%/month to 0.33%/month after storage of the aliquots at 2° C. to 8° C. for about 12 months. 13. The batch of claim 12 , wherein the rate of change in the cumulative percentage release of bupivacaine at the 48-hour time point is-0.15%/month to 0.30%/month. 14. The batch of claim 13 , wherein the rate of change in the cumulative percentage release of bupivacaine at the 48-hour time point is from −0.12%/month to 0.28%/month. 15. The batch of claim 12 , wherein the cumulative percentage release of bupivacaine of each batch is measured as the average of six aliquots. 16. The batch of claim 15 , wherein each aliquot has a cumulative percentage release of bupivacaine from 36% to 81% at the 24-hour time point, and a cumulative percentage release of bupivacaine from 50% to 95% at the 48-hour time point. 17. The batch of claim 12 , wherein the total bupivacaine concentration in the composition is about 13.3