Management of Plant-Parasitic Nematodes using Gene Manipulation and Biological Nematicides Biological Nematicides

Soybean cyst nematode (H. glycines), reniform nematode (R. reniformis), and Root-Knot nematode (M. incognita) are three damaging plant-parasitic nematodes on soybean. Syntaxin proteins are involved in the process of membrane fusion. T wo G. max syntaxin genes (Gm-SYP22-1, and Gm-SYP22-2) that were similar in amino acid composition have been found to contribute to the ability of Glycine max to defend itself from infection by the plant parasitic nematode Heterodera glycines. Syntaxin genes SYP22-1 and SYP22-2 were identified to be expressed specifically in syncytia undergoing a resistant reaction to H. glycines parasitism. The Gm-SYP22-1 and Gm-SYP22-2 genes were isolated by molecular means and genetically engineered in G. max [Williams 82/PI 518671], a genotype typically susceptible to H. glycines parasitism. Genetically engineered control plants in G. max [Williams 82/PI 518671] that lack the overexpression of Gm-SYP22-1 or Gm-SYP22-2 genes were produced to serve as a comparison. The transgenic Gm-SYP22-1 or Gm-SYP22-2 overexpression lines with their pRAP15 control have then been infected with H. glycines. In another study, tests include three separate tests in 2015 and one test in 2016 that evaluated different biological products, application rates and product combinations as seed treatments on soybeans. Results collected from soybean plants that were infested with either H. glycines, M. incognita or R. reniformis indicated that many of these biological products significantly reduced the nematode reproduction compared to control. The number of cyst, juveniles, and eggs recovered were significantly reduced compared with the non-treated control. Other findings identified Burkholderia renojensis variant 2 (BioST Nematicide) as being a more consistent nematicide candidate when referencing data from all nematodes and rate ranges. Combinations of B. renojensis variant 2 with selected SAR (systemic acquired resistant) products numerically improved the efficacy and consistency of the biological nematicide. Another study focused about investigated of biological seed treatments on H. glycines, and F. virguliforme indicated that many of these biological products significantly reduced the nematode reproduction over the fungicide only check. Foliar disease severity happened more in the treatments that infested with H. glycines + F. virguliforme combination than F. virguliforme alone

Patient-related risk factors of prosthetic joint infections following total hip and knee arthroplasty at King Abdulaziz Medical City, a 10-year retrospective study

Abstract Background Total joint arthroplasty (TJA) can be associated with the development of periprosthetic joint infection (PJI). It is necessary to determine the modifiable and non-modifiable risk factors of PJI to provide optimum healthcare to TJA candidates. Methods This single-center retrospective review investigated 1198 patients who underwent TJA from 2012 to 2022. The data analysis comprised two stages. The first stage was a descriptive analysis, while the second stage was a bivariate analysis. The sociodemographic data, medical history, operative details, and presence of PJI postoperatively were evaluated. Results The study sample consisted of 1198 patients who underwent TJA. The mean patient age was 63 years. Among the patients, only 1.3% had PJI. No comorbidity was significantly related to PJI. General anesthesia was used in almost 21% of the patients and was significantly associated with a higher risk of infection (p = 0.049). An increased operative time was also significantly related to PJI (p = 0.012). Conversely, tranexamic acid (TXA) administration was a protective factor against PJI (p = 0.017). Conclusion Although PJI is not a common complication of TJA, multiple risk factors such as general anesthesia and prolonged operative time play a significant role in its development. In contrast, TXA administration is thought to reduce the risk of PJI effectively