JNJ‐73763989, composed of the 2 short‐interfering RNA triggers JNJ‐73763976 and JNJ‐73763924, targets all hepatitis B virus messenger RNAs, thereby reducing all viral proteins. In this phase 1, single‐site, open‐label, parallel‐group, randomized study, participants were given 1 subcutaneous injection of JNJ‐73763989 (100 or 200 mg) to investigate the pharmacokinetics, safety, and tolerability of JNJ‐73763989 in healthy Chinese adult participants. Plasma and urine pharmacokinetic parameters were determined for each trigger up to 48 hours after dosing. Eighteen participants, 9 per dose group, were enrolled. The median age and weight were 33.0 years and 73.65 kg; 83.3% were male. Exposure of both triggers increased dose proportionally. Median time to maximum concentration ranged from 6.0 to 10.0 hours, and mean elimination half‐life ranged from 4.5 to 4.8 hours across both triggers and doses. Mean urinary excretion for JNJ‐73763976 and JNJ‐73763924 ranged from 17.7% to 19.4% and 13.1% to 13.2% for the 100‐ and 200‐mg dose groups, respectively. All treatment‐emergent adverse events (AEs) were mild and resolved by study end, and no AEs or serious AEs resulted in premature study discontinuation or death. Overall, the pharmacokinetics of JNJ‐73763989 in healthy Chinese participants were consistent with previous studies, and JNJ‐73763989 was generally safe and well tolerated after a single dose.
In order to measure the dynamic instantaneous flow of the gear flowmeter, a volumetric gear flowmeter was used as the research object to simulate the measurement of the dynamic flow signal on the high pressure side. The flowmeter speed simulation experiment platform was built, and the inverter was driven by the PLC. When the inverter was activated, the inverter driven the motor to make the motor achieve different speeds, which was convenient for simulating the steady state experiment and dynamic experiment of the gear flowmeter. The program of measuring the signal of the dynamic flowmeter by using the virtual instrument was written. The response frequency of the dynamic gear flowmeter was 25Hz in the experiment. Experiments show that this measurement method is highly accurate and highly flexible, and it is easy to measure dynamic flow.
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