ABSTRACT
Projection micro stereolithography three-dimensional(3D)printing method was proposed in this study to fabricate complex microchannels of combined cross-sections.By using 3D printing and polydimethylsiloxane(PDMS)replication methods,two inertial microfluidic chips of three-step and five-step cross-sections were fabricated,and the dimension precisions of the microchannels were controlled within 20 μm.Using the microfluidic chips,the movements of two fluorescent polystyrene particles with diameters of 10 and 6 μm in the stepped channels were investigated.In addition,numerical simulations were applied to demonstrate the inertial focusing mechanisms of particles in the channels.It was found that 10-μm particles had three equilibrium positions in the three-step channel,which located at the inner walls of the three steps,respectively,and most particles focused at the inner step.The 6-μm particles also had three equilibrium positions in the three-step channel.However,the particles migrated to the middle and the outer steps under high flow rates.In the five-step channel,when the flow rate was increased gradually,10-μm particles had a single and two equilibrium positions,respectively,and the particles migrated towards the inner channel wall under high flow rates.In comparison to 10-μm particles,6-μm particles had two stable equilibrium positions in the five-step channel at all flow rate range.It could be concluded that the quantity,shape and strength of the secondary flow vortex could be altered by changing structure of the combined cross-section,thus the equilibrium positions and quantities of the focusing particles could be also regulated.The research outcome might provide new insights for precise cell inertial manipulation and promote the application and development of inertial microfluidic technology in biomedical and other fields.
ABSTRACT
Objective To establish an emergency care mode with fixed position and station for outpatient nurses and to evaluate the effectiveness of this mode.Methods Current problems in emergency care were analyzed,a system-improving team was formed,and the emergency care mode with fixed position and station for outpatient nurses was established.Emergency care start-up time,successful emergency rescue rate and rate of disputes and complaints caused by emergency issues were compared before and after application of the mode.Results After application,emergency care start-up time was reduced from (5.45-±1.21)min to (2.71±0.97)min;successful emergency rescue rate was increased from 82.5% to 96.55%;rate of disputes and complaints caused by emergency issues was decreased from 12.5% to 1.72%.All differences were statistically significant(P<0.05).Conclusion The emergency care mode with fixed position and station for outpatient nurses can shorten emergency care start-up time,increase successful emergency rescue rate,reduce rate of disputes and complaints caused by emergency issues,and further improve general emergency system of the hospital.