[Summary] As the gradual deepening understanding of gastroesophageal reflux disease ( GERD ) , more extraesophageal symptoms are noted .The concept and therapeutic strategy for GERD has also undergone a quiet revolution over recent years .The application of proton pump inhibitor ( PPI) has been a landmark of medical treatment for GERD , and the invention of laparoscopic fundoplication and endoscopic radiofrequency energy delivery to the lower esophageal sphincter are marking a new era of comprehensive therapy for GERD .Good short and long term outcomes have been obtained since endoscopic radiofrequency energy delivery to the lower esophageal sphincter was applied on typical symptoms of GERD .Furthermore, the technique has also been successfully used in treating extraesophageal symptoms induced by proximal reflux in China .With more simple and less invasive features compared with anti-reflux surgery, the radiofrequency procedure has broad application prospects .

Gadoxetate disodium is a widely used magnetic resonance (MR) contrast agent for liver MR imaging, and it provides both dynamic and hepatobiliary phase images. However, acquiring optimal arterial phase images at liver MR using gadoxetate disodium is more challenging than using conventional extracellular MR contrast agent because of the small volume administered, the gadolinium content of the agent, and the common occurrence of transient severe motion. In this article, we identify the challenges in obtaining high-quality arterial-phase images of gadoxetate disodium-enhanced liver MR imaging and present strategies for optimizing arterial-phase imaging based on the thorough review of recent research in this field.
Angiography ; Arteries/anatomy & histology ; Contrast Media/*chemistry ; Gadolinium DTPA/*chemistry ; Humans ; Liver/*radiography ; *Magnetic Resonance Imaging