In order to carry out the evaluation of cartilaginous endplate degeneration based on magnetic resonance imaging (MRI), this paper retrospectively analyzed the MRI data from 120 cases of patients who were diagnosed as lumbar intervertebral disc degeneration and underwent MRI examinations in the designated hospital of this study from June 2018 to June 2020. All cases underwent conventional sagittal and transverse T1WI and T2WI scans, and some cases were added with sagittal fat-suppression T2WI scans; then, the number of degenerative cartilaginous endplates and its ratio to degenerative lumbar intervertebral discs were counted and calculated, and the T1WI and T2WI signal characteristics of each degenerative cartilage endplate and its correlation with cartilaginous endplate degeneration were summarized, compared, and analyzed to evaluate the cartilaginous endplate degeneration by those magnetic resonance information. The study results show that there were 33 cases of cartilaginous endplate degeneration, accounting for 27.50% of all those 120 patients with lumbar intervertebral disc degeneration (54 degenerative endplates in total), including 9 cases with low T1WI and high T2WI signals, 5 cases with high T1WI and low T2WI signals, 12 cases with high and low mixed T1WI and high or mixed T2WI signals, and 4 cases with both low T1WI and T2WI signals. Therefore, MRI scanning can clearly present the abnormal signals of lumbar intervertebral disc and cartilaginous endplate degeneration, accurately identity their lesion locations, and type their degenerative characteristics, which may be best inspection method for the evaluation of cartilaginous endplate degeneration in the early diagnosis of intervertebral disc degeneration. The study results of this paper provide a reference for further researches on the evaluation of cartilaginous endplate degeneration based on magnetic resonance imaging.
Fitness and mutability are the primary traits of living organisms for adaptation and evolution. However, their quantitative linkage remained largely deficient. Whether there is any general relationship between the two features and how genetic and environmental variables influence them remained unclear and were addressed here. The mutation and growth rates of an assortment of Escherichia coli strain collections, including the wild-type strains and the genetically disturbed strains of either reduced genomes or deletion of the genes involved in the DNA replication fidelity, were evaluated in various media. The contribution of media to the mutation and growth rates was differentiated depending on the types of genetic disturbance. Nevertheless, the negative correlation between the mutation and growth rates was observed across the genotypes and was common in all media. It indicated the comprehensive association of the correlated mutation and growth rates with the genetic and medium variation. Multiple linear regression and support vector machine successfully predicted the mutation and growth rates and the categories of genotypes and media, respectively. Taken together, the study provided a quantitative dataset linking the mutation and growth rates, genotype, and medium and presented a simple and successful example of predicting bacterial growth and mutability by data-driven approaches.
Background: Several meta-analyses have been performed to compare unilateral percutaneous kyphoplasty (PKP) and bilateral PKP in the treatment of osteoporotic vertebral compression fractures (OVCFs), but inconsistencies in the results have led to questions as to which technique is preferable. Objective: This study was designed to clarify the benefits and disadvantages of unilateral PKP versus bilateral PKP as found in numerous discordant meta-analyses and thereby present surgical treatment recommendations for OVCFs considering the current best evidence. Study Design: Systematic review/Meta-analysis. Methods: Meta-analyses on unilateral and bilateral PKP for OVCFs were included by searching Pubmed, Embase, and Cochrane library. Meta-analysis quality was assessed using Oxford Levels of Evidence and Assessment of Multiple Systematic Reviews (AMSTAR). The Jadad decision algorithm was used to identify the best evidence. Results: Eight eligible meta-analyses were included, 7 of which were Level-II evidence and one was Level-III evidence. The AMSTAR scores varied from 7 to 8. The Jadad decision algorithm suggested that the best meta-analysis should be selected depending upon publication characteristics and methodology of primary studies, language restrictions, and whether data analysis was performed on individual patients. The best available evidence indicated that both unilateral and bilateral PKP could receive similar good clinical and radiological outcomes. However, without increasing the risk of complications, unilateral PKP required shorter surgical time and less cement volume, offering better pain relief and quality of life at post-operative short term follow-ups. Limitations: Primary studies had defects in their methodologies. Conclusions: Unilateral PKP appears to be superior to bilateral PKP in the treatment of OVCFs. Key words: Osteoporotic vertebral compression fractures, percutaneous kyphoplasty, meta-analysis
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