ABSTRACT
Early-onset sepsis (EOS) continues to be a significant cause of mortality and morbidity in neonates, with difficulty in early identification and a worse prognosis if the treatment is delayed. Clinically, a comprehensive evaluation is usually carried out according to high-risk factors in the perinatal period, early clinical manifestations after birth, and laboratory tests of patients. early empirical antibiotic treatment as soon as possible in suspected cases. However, there is an evidence gap for the standardized evaluation of the EOS risk factors and clinical manifestation, leading to unnecessary early antibiotic treatment in those neonates who are misdiagnosed with neonatal sepsis, resulting in adverse outcomes in the short and long term. Neonatal EOS risk calculator (NEOSC), a new quantitative algorithm for the evaluation of EOS risk in neonates in recent years, has been extensively reached in some developed countries and has been applied in clinical research, providing a new strategy to guide early antibiotic management in patients with suspected EOS. This review summarizes the research progress on NEOSC and its clinical application.
ABSTRACT
Total hip replacement is a very effective method to cure many kinds of hip joint illnesses. About a century ago, it was first used in clinic. Since then, total hip replacement has been well developed. Hip joints sustain the most load of body, so people pay great attention to the hip prothesis' mechanics property. Especially after the finite element analysis was widely used in biomechanics investigation, the stress distribution of different designs can be easily compared with each other, and the relatively better parameters of the design could be decided. The stress distribution of different materials with the same design also can be valued. However, studies have indicated that total hip joint replacement still has some disadvantages. Loosening of the hip prothesis is still the most likely cause of the failure of surgery, and generally this is believed to stem from either mechanical failure of the fixation in response to over high density stresses, or osteolysis of the surrounding bone stock responsing to particular wear debris. Many researchers on computational studies have considered the potential for the former one, but only a few have attempted to tackle the latter. The process of osteolysis of the bone is not yet completely known. Nowadays, in order to solve the problems of loosening, investigators are trying to find different methods. Some of them are working on improving the geometry parameters and the shape of the hip prothesises, some are trying to find new suitable biomaterials, and, at the same time, the fixation methods are under deliberation.