Platelet indices(PIs)including high mean platelet volume(MPV),plateletcrit(PLC),and platelet distribution width(PLDW)are associated with poor glycemic control.In addition,they can indicate prothrombotic and procoagulation risk among patients with diabetes.PI measurement is cheap,quick and fits healthcare system needs in remote outreaching areas in low-income countries.However,a broader insight into their clinical implications in diabetes is lacking.To achieve a wider understanding,we reviewed PubMed/MEDLINE,Google Scholar and Cochrane Library for relevant articles investigating the role of PIs in diabetes mellitus.No limitation to the publication date was applied,which included all articles published up to August 17,2024.The terms used were MPV,PLC,PLDW,platelet large cell ratio,glycated hemoglobin(HbA1c),PIs,platelet activity and diabetes mellitus.Out of the 790 articles retrieved,187 full texts were reviewed,and 44 were included.PIs,when measurements are done promptly and within 2 h,could be short-term pointers to glycemic control in the life span of the platelets(2 wk).PIs are easy to perform,cheap and useful in remote outreaching areas with limited facilities where measurement of HbA1c is not available or cost-effective.However,PIs are not specific and are affected by demographic factors,such as pregnancy,renal failure,medications,hemoglobin and duration of diabetes.PIs could be implemented with daily blood glucose to inform doctors in low-income countries about their patients'glycemic control and cardiovascular risk.An important application might be when blood glucose control is needed quickly(before elective surgery).
Graphene platelets(GPLs)-reinforced metal foam structures enhance the mechanical properties while maintaining the lightweight characteristics of metal foams.Further bonding piezoelectric actuator and sensor layers on the surfaces of GPLs-reinforced metal foam beams enables active vibration control,greatly expanding their applications in the aerospace industry.For the first time,this paper investigates the vibration characteristics and active vibration control of GPLs-reinforced metal foam beams with surfacebonded piezoelectric layers.The constant velocity feedback scheme is used to design the closed-loop controller including piezoelectric actuators and sensors.The effects of the GPLs on the linear and nonlinear free vibrations of the beams are numerically studied.The Newmark-βmethod combined with Newton's iteration technique is used to calculate the nonlinear responses of the beams under different load forms including harmonic loads,impact loads,and moving loads.Additionally,special attention is given to the vibration reduction performance of the velocity feedback control on the responses of the beam.
