1.Cone-Beam CT evaluation of upper airway following rapid maxillary expansion and maxillary protraction for the treatment of skeletal class Ⅲ malocclusion
Hongwei WANG ; Suqing QI ; Chao ZHANG ; Sufeng REN ; Hongwei HUI ; Lei LI ; Jiandong BAN
Journal of Practical Stomatology 2016;32(4):532-536
Objective:To analyze the 3D changes of pharyngeal airway in patients with skeletal Class Ⅲ malocclusion after rapid maxillary expansion(RME)and maxillary protraction.Methods:53 patients underwent orthodontic treatment with Hyrax palatal ex-panders and maxillary protraction.Cone-Beam computed tomography(CBCT)scan was taken before treatment(T0),after 1 6 d RME (T1 )and after about 5 month maxillary protraction(T2).Data were reconstructed into 3D model,sagittal and transversal measure-ments,cross sectional areas,volumes of the pharyngeal airway were computed.Results:After RME,the transversal measurements, cross sectional areas,volumes of nasal passage were increased(P <0.05).After maxillary protraction,the 4 nasopharyngeal measure-ments were increased(P <0.05).Conclusion:RME and maxillary protraction may increase pharyngonasal airway.
2.Optimized expression, preparation of human papillomavirus 16 L2E7 fusion protein and its inhibitory effect on tumor growth in mice.
Yunshui JIANG ; Jianbo LI ; Meng GAO ; Jiao REN ; Sufeng JIN ; Gang CHEN ; Jie WU ; Fangcheng ZHUANG ; Houwen TIAN
Chinese Journal of Biotechnology 2015;31(4):566-576
HPV16 L2E7 is a fusion protein used for therapeutical vaccine targeting HPV virus. To increase its expression in Escherichia coli, we optimized the codon usage of HPV16 l2e7 gene based on its codon usage bias. The optimized gene of HPV16 sl2e7 was cloned into three different vectors: pGEX-5X-1, pQE30, ET41a, and expressed in JM109, JM109 (DE3) and BL21 (DE3) lines separately. A high expression line was selected with pET41a vector in BL21 (DE3) cells. After optimization of the growth condition, including inoculation amount, IPTG concentration, induction time and temperature, the expression level of HPV16 L2E7 was increased from less than 10% to about 28% of total protein. HPV16 L2E7 protein was then purified from 15 L culture by means of SP Sepharose Fast Flow, Q Sepharose Fast Flow and Superdex 200 pg. After renaturing, HPV16 L2E7 protein with ≥ 95% purity was achieved, which was confirmed via SDS-PAGE gel and Western blotting. The combined use of purified HPV16 L2E7 and CpG helper has shown clear inhibition of tumor growth in mice injected with tumor cells, with six out of eight mice shown no sign of tumor. This study lays a solid foundation for a new pipeline of large-scale vaccine production.
Animals
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Capsid Proteins
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biosynthesis
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Codon
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Electrophoresis, Polyacrylamide Gel
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Escherichia coli
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Genetic Vectors
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Human papillomavirus 16
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Mice
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Neoplasms, Experimental
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prevention & control
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Oncogene Proteins, Viral
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biosynthesis
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Papillomavirus E7 Proteins
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biosynthesis
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Papillomavirus Vaccines
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therapeutic use
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Recombinant Fusion Proteins
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biosynthesis
3.Cone-beam computed tomography evaluation of upper airway change in skeletal Class III patients after orthodontic-mandibular setback surgery.
Hongwei WANG ; Suqing QI ; Ming YAN ; Chao ZHANG ; Sufeng REN ; Jingjing ZHANG
Chinese Journal of Stomatology 2015;50(10):615-618
OBJECTIVETo evaluate the short-term and long-term effects of pharyngeal airway in mandibular prognathism patients after the combined orthodontic and orthognathic treatment.
METHODSThe sample included 28 skeletal Class III patients (13 males, 15 females) who had undergone mandibular setback surgery and orthodontic treatment. Cone-beam CT was taken one week before treatment (T0), 6 months (T1) and 3 years after surgery (T2). Raw data were reconstructed into three-dimensional model. Sagittal and transversal measurements, cross sectional areas, partial and total volumes were computed.
RESULTSSix months after surgery, oropharyngeal volume [(9 021 ± 4 263) mm³], hypopharyngeal volume [(9 236 ± 5 963) mm³] and total volume [(28 619 ± 9 854) mm³] decreased significantly (P < 0.05). Three years after surgery, only sagittal diameters [(15.9 ± 3.5) mm] and cross sectional areas [(996 ± 398) mm²] in the first cervical vertebra plane came back to the original levels (P > 0.05).
CONCLUSIONSThe pharyngeal airway space decreased after orthodontic-orthognathic therapy in the short term and it increased in some areas in the long term.
Cephalometry ; Cone-Beam Computed Tomography ; Female ; Humans ; Hypopharynx ; anatomy & histology ; diagnostic imaging ; Male ; Malocclusion, Angle Class III ; diagnostic imaging ; surgery ; Oropharynx ; anatomy & histology ; diagnostic imaging ; Osteotomy, Le Fort ; Osteotomy, Sagittal Split Ramus ; Pharynx ; anatomy & histology ; diagnostic imaging ; Time Factors
4.Cone-beam CT evaluation of nasomaxillary complex and upper airway following rapid maxillary expansion.
Lei LI ; Suqing QI ; Email: QSQ7615038@163.COM. ; Hongwei WANG ; Sufeng REN ; Jiandong BAN
Chinese Journal of Stomatology 2015;50(7):403-407
OBJECTIVESTo evaluate the naso-maxillary complex width and pharyngeal airway volume changes after rapid maxillary expansion (RME).
METHODSThirty-five patients were selected (18 males, 17 females, mean age, 12.1 ± 1.1 years). All patients underwent orthodontic treatment with Hyrax palatal expanders. Cone-beam CT (CBCT) scan was taken before treatment (T0), 16 days (T1) and three months (T3) after RME. Naso-maxillary complex width and pharyngeal airway volume were measured.
RESULTSAfter treatment the width of piriform aperture and maxillary width were significantly increased compared with that before treatment (P < 0.05). Three months after RME, no statistical difference was found in maxillary width compared with that before treatment. The nasopharyngeal volume significantly increased by 29.9% compared with that before treatment (P < 0.05), and the volume remained relatively stable after three months.
CONCLUSIONSRME resulted in a significant increase in the naso-maxillary complex width and nasopharyngeal volume.
Cone-Beam Computed Tomography ; Female ; Humans ; Imaging, Three-Dimensional ; Male ; Maxilla ; diagnostic imaging ; Nose ; diagnostic imaging ; Palatal Expansion Technique ; Palate ; diagnostic imaging ; Pharynx ; diagnostic imaging