Mucinous cystic neoplasm of the liver: A case report

BACKGROUND Mucinous cystic neoplasm of the liver(MCN-L)is a cyst-forming epithelial neoplasm.The most distinguishing feature is the ovarian-type subepithelial stroma on pathological examination.CASE SUMMARY An abdominal ultrasound incidentally revealed a liver tumor in a 32-year-old woman.Physical and laboratory examination results did not reveal any abnormalities.Enhanced abdominal computed tomography(CT)revealed a cystic space measuring 7.2 cm×5.4 cm in the liver.Subsequent CT showed an increase in tumor size.Thus,we performed surgical resection of the tumor and gallbladder.Postoperative histopathological examination confirmed the diagnosis of MCN-L.At the 6-mo of follow-up,no recurrence was observed on ultrasound or CT.CONCLUSION Since preoperative diagnosis of MCN-L is difficult,active surgery is recommended and helpful for the diagnosis and treatment of MCN-L.

Influence of in-flight particle characteristics and substrate temperature on the formation mechanisms of hypereutectic Al-Si-Cu coatings prepared by supersonic atmospheric plasma spraying

Hypereutectic Al-Si-Cu coatings were prepared by supersonic atmospheric plasma spraying to enhance the surface performance of lightweight alloys.To find out optimum process conditions and achieve desirable coatings,this work focuses on the influence of three important parameters(in-flight particle temperature,impact velocity,and substrate temperature)on the collected splats morphology coatings microstructure and microhardness.Results show that appropriate combinations of temperature and velocity of in-flight particles cannot only completely melt hypereutectic Al-Si-Cu particles especially the primary Si phase,but also provide the particles with sufficient kinetic energy.Thus,the optimized coating consists of 98.6%of fully-melted region with nanosized coupled eutectic and 0.9%of porosity.Increasing the substrate deposition temperature promotes the transition from inhomogeneous banded microstructure to homogeneous equiaxed microstructure with a lower porosity level.The observations are further interpreted by a newly developed phase-change heat transfer model on quantitatively revealing the solidification and remelting behaviors of several splats deposited on substrate Besides,phase evolutions including the formation of supersaturatedα-Al matrix solid solution,growth of Si and Al_(2)Cu phases at different process conditions are elaborated.An ideal microstructure(low fractions of unmelted/partially-melted regions and defects)together with solid solution,grain refinement and second phase strengthening effects contributes to the enhanced microhardness of coating.This integrated study not only provides a framework for optimizing Al-Si based coatings via thermal spraying but also gives valuable insights into the formation mechanisms of this class of coating materials.