1.The Clinical Value of CT in Diagnosis of Thyroid Disease
Daidi JIANG ; Wenya LIU ; Wenxiao JIA ; Jun DANG ; Yuhua ZHANG
Journal of Practical Radiology 2001;0(08):-
Objective To study the value of CT scan in diagnosis and clinical therapy of thyroid diseases.Methods CT findings in 61 cases with various thyroid diseases confirmed pathologically were analyzed retrospectively.Results ① 9 patients were Hashimoto’s thyroiditis.Of them,5 cases were diffuse lesions and 4 localized at one enlarged lobe and 1 with calcification.② 28 cases with hyperplasia included 2 Graves disease of diffuse lesions with enlargement and 26 nodular hyperplasia.There were calcification in 8 and cystic change in 13.③ 24 cases of thyroid tumor included 14 thyroid adenomas with complete circumscribed enhanced ring around the lesion,10 of them were in company with cystic change and 4 with calcification.13 cases were single lesion and one case was mattiple lesions.10 thyroid carcinoma,3 cases were in company with cystic change and 7 with calcification.Metastasis of cervical lymph nodus was found by CT in 7 cases.Metastatic lymph nodes presented marked enhancement,cystic change and calcification.Conclusion CT scan both plain and contrast-enhanced are beneficial for the detection of thyroid diseases,and is also important for planning the management and predicting the prognosis of this disease.
2.Study of synchronized imaging technology of 64-slice spiral CT on urography and angiography
Rongsheng HU ; Gang WU ; Daidi JIANG ; Yuehong LU
Journal of Practical Radiology 2018;34(1):105-108
Objective To investigate the feasibility and effect of synchronization imaging technology of 64-slice spiral CT on urography and angiography(CTUA).Methods 36 adult patients with urinary symptoms that apply for the conventional CTU were selected. Exclusion of iodine allergy,serious heart,liver and renal insufficiency,multiple myeloma,long-term diabetes,hyperthyroidism,etc.All patients were placed intravenous tube.100 mL iohexol(300 mg I/mL),divided into 40-60 mL and 35-40 mL,shall be injected respectively by interval about 25-45 min,and the corresponding injection rate was 2-2.5 mL/s and 3.5-4.0 mL/s.About 20-30 s after the second injection,scan urinary tract for a quick CTUA source image,then scan urinary tract again for a quick source image of CTU with 5 min delay.Two groups of data with reconstruction technique(including MPR,MIP,VR etc.)should be read and diagnosed independently and double-blinded by two doctors with many years'experience in CTU.They also need to evaluate the image quality of the kidneys,urinary tracts and renal vessels,and make a statistical analysis to judge whether the CTUA inspection technique was feasible and effective.Results CTUA was good at showing renal parenchyma,ureters,urinary bladder and renal vessels,and the display rate was respectively:0.83,0.916,1,0.806,by contrast,the conventional CTU was 0,0.972,1,0,accordingly.Compared with the conventional CTU,CTUA was obviously different from the CTU,especial in displaying the distinction between renal cortex and medulla,renal vessels,and CTUA was better than the conventional CTU.While in display of ureters and urinary bladder,they had no difference,both show good.Conclusion CTUA inspection technology is superior to the conventional CTU technique,and using a routine dose contrast medium with twice bolus injection and one scanning can provide information such as the kidneys,urinary tract and renal vessels.
3.Biocatalytic strategies in producing ginsenoside by glycosidase-a review.
Weina LI ; Yunyun JIANG ; Yannan LIU ; Chunying LI ; Daidi FAN
Chinese Journal of Biotechnology 2019;35(9):1590-1606
Panax ginseng is a traditional Chinese medicine with significant pharmaceutical effects and wide application. Through orientational modification and transformation of ginsenoside glycosyl, rare ginsenosides with high antitumor activities can be generated. Traditional chemical methods cannot be applied in clinic. because of extremely complex preparation technologies and very high cost Transformations using microorganisms and their enzymatic systems provide the most feasible methods for solving the main problems. At present, the key problems in enzymatic synthesis of ginsenosides include low specific enzyme activities, identity of enzymes involved in the enzymatic synthesis, and their catalytic mechanisms, as well as nonsystematic studies on structural bioinformatics; specificity of enzymatic hydrolysis for saponin glycosyl has been rarely studied. Many reviews have been reported on glycosidase molecular recognition, immobilization, and biotransformation in ionic liquids (ILs), whereas ginsenoside transformation and application have not been systematically studied. To evaluate theoretical and applied studies on ginsenoside-oriented biotransformation, by reviewing the latest developments in related fields and evaluating the widely applied biocatalytic strategy, this review aims to evaluate the ginsenoside-oriented transformation method with improved product specificity, increased biocatalytic efficiency, and industrial application prospect based on the designed transformations of enzyme and solvent engineering of ILs. Therefore, useful theoretical and experimental evidence can be obtained for the development of ginsenoside anticancer drugs, large-scale preparation, and clinical applications in cancer therapy.
Biocatalysis
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Ginsenosides
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Glycoside Hydrolases
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Panax
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Saponins