PURPOSE: Tenecteplase (TNK; TNKase) is a third-generation plasminogen activator approved for acute myocardial infarction with an enhanced safety profile compared to alteplase. The stability and bioactivity of reconstituted frozen/thawed and diluted tenecteplase solutions used in noncoronary peripheral thrombolysis was determined. MATERIALS AND METHODS: Lyophilized TNK was freshly reconstituted in sterile water (5 mg/mL) and used as control. In freeze/thaw studies, reconstituted TNK aliquots were stored frozen for 4 weeks at -20 degrees C, thawed at ambient temperature, and assayed with and without an additional freeze/thaw cycle. Additional freshly reconstituted TNK aliquots were assayed after six freeze/thaw cycles when frozen at two separate temperatures (-20 degrees and -70 degrees C) and thawed at 2-8 degrees C or ambient temperature. In dilution studies, reconstituted TNK was diluted in 500-mL commercially available normal saline solution bags to concentrations of 0.01, 0.02, and 0.05 mg/mL. Samples were assayed after 0, 8, and 24 hours at ambient temperature. Optical clarity, pH, protein concentration, particle counts, and in-vitro clot-lysis assays were performed. Protein monomer (%), single-chain protein (%), and particle counts were performed in freeze/thaw studies. RESULTS: Frozen/thawed TNK aliquots met all specifications as freshly reconstituted product. For dilution studies (0.01, 0.02, and 0.05 mg/mL), the recovered protein retained 83%-100% bioactivity after 24 hours. The recovered protein rates over the course of 24 hours (relative to target concentration) were 70%-75%, 80%-85%, and 94%-95% at 0.01, 0.02, and 0.05 mg/mL, respectively. Assayed solutions were clear/colorless at all concentrations and time points. CONCLUSION: TNK is fully active after reconstitution and freezing/thawing. TNK dilutions used in clinical practice (0.01-0.05 mg/mL) demonstrated retention of biologic activity at 24 hours without precipitates.
PURPOSE: Tenecteplase (TNK; TNKase) is a third-generation plasminogen activator approved for acute myocardial infarction with an enhanced safety profile compared to alteplase. The stability and bioactivity of reconstituted frozen/thawed and diluted tenecteplase solutions used in noncoronary peripheral thrombolysis was determined. MATERIALS AND METHODS: Lyophilized TNK was freshly reconstituted in sterile water (5 mg/mL) and used as control. In freeze/thaw studies, reconstituted TNK aliquots were stored frozen for 4 weeks at -20 degrees C, thawed at ambient temperature, and assayed with and without an additional freeze/thaw cycle. Additional freshly reconstituted TNK aliquots were assayed after six freeze/thaw cycles when frozen at two separate temperatures (-20 degrees and -70 degrees C) and thawed at 2-8 degrees C or ambient temperature. In dilution studies, reconstituted TNK was diluted in 500-mL commercially available normal saline solution bags to concentrations of 0.01, 0.02, and 0.05 mg/mL. Samples were assayed after 0, 8, and 24 hours at ambient temperature. Optical clarity, pH, protein concentration, particle counts, and in-vitro clot-lysis assays were performed. Protein monomer (%), single-chain protein (%), and particle counts were performed in freeze/thaw studies. RESULTS: Frozen/thawed TNK aliquots met all specifications as freshly reconstituted product. For dilution studies (0.01, 0.02, and 0.05 mg/mL), the recovered protein retained 83%-100% bioactivity after 24 hours. The recovered protein rates over the course of 24 hours (relative to target concentration) were 70%-75%, 80%-85%, and 94%-95% at 0.01, 0.02, and 0.05 mg/mL, respectively. Assayed solutions were clear/colorless at all concentrations and time points. CONCLUSION: TNK is fully active after reconstitution and freezing/thawing. TNK dilutions used in clinical practice (0.01-0.05 mg/mL) demonstrated retention of biologic activity at 24 hours without precipitates.