Table 1.
Effects of regular intervals and reaction duration on the integration strategy
| Condition | Method | Equation | Upper limit (U/L) | Lower limit (U/L) |
| RD=6 min dt=10 s | Classical initial rate method | Vi=0.217x+0.879, s<0.15 | 11.0 | 0.45 |
| Improved integrated method | Vi=0.215x+0.889, s<0.21 | 32.0 | ~9.0* | |
| Integration strategy | Vi=0.216x+0.788, s<0.29 | 32.0 | 0.87 | |
| RD=6 min dt=20 s | Classical initial rate method | Vi=0.214x+0.920, s<0.17 | 10.0 | 0.51 |
| Improved integrated method | Vi=0.213x+0.933, s<0.21 | 32.0 | ~10.0* | |
| Integration strategy | Not available | |||
| RD=8 min dt=10 s | Classical initial rate method | Vi=0.217x+0.879, s<0.16 | 11.0 | 0.48 |
| Improved integrated method | Vi=0.215x+0.852, s<0.20 | 32.0 | ~9.0* | |
| Integration strategy | Vi=0.215x+0.738, s<0.20 | 32.0 | 0.93 | |
| RD=8 min dt=20 s | Classical initial rate method | Vi=0.211x+1.120, s<0.17 | 10.0 | 0.51 |
| Improved integrated method | Vi=0.213x+0.939, s<0.23 | 32.0 | ~9.0* | |
| Integration strategy | Vi=0.214x+0.930, s<0.30 | 32.0 | 0.90 | |
| RD=8 min dt=30 s | Classical initial rate method | Vi=0.208x+1.080, s<0.21 | 9.0 | 0.63 |
| Improved integrated method | Vi=0.204x+1.470, s<0.24 | 32.0 | ~10.0* | |
| Integration strategy | Not available | |||
The same series of reaction curves were analyzed after adjusting the regular intervals and/or the reaction duration. All linear response equations gave R 2>0.99
*
indicated the detection limit was higher than the lower limit and hence the detection limit itself was used as the lower limit
RD: reaction duration; dt: regular interval; V i: initial rate; x: amount of GGT from kidney homogenate