Objective To analyze the drug resistance in clinical isolates of Serratiamarcescens of conventional treatment and carbapenemases,guiding the clinical rational drug use.Methods 106 strains of Serratiamarcescens from 2009~2012 year the clinical isolation,K-B disk diffusion susceptibility test,the modified Hodge method for screening the carbapenemase, Whonet statistical analysis.Results Serratia marcescens in sputum,secretions,swallow swab,urine samples were isolated 89 strains (84.1%),4 strains (3.8%),3 strains (2.8%)and 3 strains (2.8%).Serratiamarcescens resistant to ampicillin and cefazolin rate more than 90%,to aztreonam,cefepime,ceftazidime,piperacillin/tazobactam and Cefoperazone/sulbactam, drug resistance rate was 10%~22%,to amikacin,ciprofloxacin and imipenem were lower than 10%.Imipenem the resistant strains in 4 strains,the modified Hodge test positive 3 strains,the positive rate was 2.8%.Conclusion Serratiamarcescens extensively drug-resistant strains,the resistant mechanism is very complex,the institute has appeared carbapenemase produ-cing strains,clinicians should be based on the drug sensitivity test results.

Microalgae is an easy-to-obtain natural biological material with many varieties and abundant natural reserves. Microalgae are rich in natural fluorescein, which can be used as a contrast agent for fluorescence imaging and photoacoustic imaging for medical imaging. With its active surface, microalgae can effectively adsorb functional molecules, metal elements, etc., and have good application prospects in the field of drug delivery. Microalgae can generate oxygen through photosynthesis to increase local oxygen concentration, reverse local hypoxia to enhance the efficacy of hypoxic tumors and promote wound healing. In addition, microalgae have good biocompatibility, and different administration methods have no obvious toxicity. This paper reviews the research progress on the biomedical application of microalgae in bioimaging, drug delivery, hypoxic tumor treatment, wound healing.
Drug Delivery Systems ; Humans ; Hypoxia ; Microalgae ; Oxygen ; Wound Healing

Functional reconstruction of a major injured nerve or muscle group in a destructive limb caused by high energy has always been a big problem for trauma orthopedists.When no local tendon,muscle or nerve is available for transference,functional free muscle transplantation (FFMT) is an ideal functional reconstruction method for severe limb injury characterized by definite curative effect and quick recovery.Gracilis is considered to be an ideal donor site for FFMT because of its anatomic features of long tendon,good excursion,stable blood supply,long neurovascular pedicle,shaded donor site,little donor site loss and sufficient nourishment of the whole musculocutaneous flap by anastomosis of one single major pedicle.It has been widely applied in clinics.Transplantation of single free gracilis flap,double free gracilis flaps,and adductor longus-gracilis flap with single pedicle anastomosis can meet different clinical applications.The best donor motor nerve,which is critical to functional restoration of the affected limb using FFMT,is always a major concern to many scholars.This paper focuses on the advances in functioning free gracilis transplantation in reconstruction of limb motor function,applied anatomy of the gracilis and application of functional reconstruction for major nerve injury and major muscle group defects in a destructive limb,hoping to provide useful information for wider clinical application of FFMT.

ObjectiveTo explore the characteristics of balance and cortical activation in older adults when performing cognition-balance dual tasks. MethodsFrom January to April, 2023, 20 healthy older adults were non-targeted recruited. They completed six tasks of close eyes & fixed platform (CF), close eyes & fixed platform & cognitive task (CFc), open eyes & sway-referenced platform (OS), open eyes & sway-referenced platform & cognitive task (OSc), close eyes & sway-referenced platform (CS), and close eyes & sway-referenced platform & cognitive task (CSc) on the Balance SD, wearing functional near-infrared spectroscopy caps. The overal stability index (OSI) was measured with Balance SD. The premotor cortex (PMC), sensorimotor cortex (SMC) and prefrontal cortex (PFC) were as regions of interest (ROIs), and the β values were calculated. ResultsThe OSI was more as CFc than as CF (Z = -2.014, P < 0.05), and was less as CSc than as CS (Z = -2.063, P < 0.05). The β values of bilateral ROIs were all more as CFc than as CF (|Z| > 2.464, |t| > 3.733, P < 0.05), and as OSc than as OS (|t| > 2.308, P < 0.05); the β value of the right SMC was more as CSc than as CS (t = -2.912, P < 0.05). The number of correct counts was less as CSc than as CFc and OSc (|Z| > 3.643, P < 0.001). ConclusionBalance has been impaired under dual tasks for older adults, while activation of cerebral cortex increases. However, for more difficult balance task, older adults would preferentially maintain postural balance under dual tasks, while cognitive performance decreases, which may be the results from no more activation of cerebral cortex under dual tasks.