1.Analysis on problems and strategies of preclinical medicine curriculum for foreign students
Chenyou SUN ; Peng ZHOU ; Huairui CUI ; Maolin TANG
Chinese Journal of Medical Education Research 2006;0(12):-
It was bound to think highly of its teaching reform,because our college has in-creased the recruitment of foreign students since 2006.Based on teachers'English level,foreign students'own qualities,discrepancy between teaching mode as well as proper characteristic of preclinical medicine curriculum,the problems were investigated and the corresponding solutions have been sought in the phase of preclinical medicine.
2.Anatomy of the superficial epigastric artery perforator flap in rats
Dong FANG ; Haishuang LIN ; Feng YU ; Sifang ZHANG ; Maochao DING ; Huairui CUI ; Maolin TANG ; Dachuan XU
Acta Anatomica Sinica 2014;(4):531-535
Objective To investigate the anatomy of the superficial epigastric artery perforator flap , and to provide anatomical basis for harvesting flap .Methods Of 27 SD rats, 7 were used for gross anatomy observation and anatomic characteristics and 20 rats for lead oxide-gelatin injection followed by computer picture processing , measurements and the related parameters recording .Results The superficial epigastric artery originated from femoral artery , and gave off its first branch when passed through the superficial fascia .The trunk branched into a lateral perforator and a medial perforator , which anastomosed with thoracodorsal artery and lateral thoracic artery , respectively .The average external diameter of superficial epigastric artery was (0.46 ±0.02)mm at its starting point,and(0.46 ±0.02)mm at the superficial fascia level . The nutritive area of superficial epigastric artery was (18.37 ±3.67) cm2 .The anastomosed area with thoracodorsal artery and lateral thoracic artery was(5.34 ±0.86)cm and(6.28 ±0.29)cm, respectively, away from the horizontal line through axillary,and (4.38 ±0.38)cm and(2.04 ±0.33)cm, respectively, away from the ventral median line.Conclusion The position and external diameter of superficial epigastric artery are constant , and the superficial epigastric artery perforator flap is a ideal flap model for research on free flap transplantation , flap supercharging , and hemodynamics .
3.Anatomical study of the femoral and tibial insertions of the anterolateral and posteromedial bundles of human posterior cruciate ligament
Min LIU ; Guojing YANG ; Licheng ZHANG ; Ruixin LIN ; Chunyuan CAI ; Huairui CUI ; Chengxuan TANG ; Weiliang WANG
Acta Anatomica Sinica 2009;40(6):1008-1011
Objective To provide an anatomic evidence for the double-bundle posterior cruciate ligament (PCL) reconstruction, the sizes and locations of the attachments of the PCL to the tibia and the femur were measured. Methods We studied 30 cadaveric knees. PCLs were divided into anterolateral and posteromedial bundles to the insertion footprint, and those locations were measured and described. Results The distances from the center of the femoral insertions of the anterolateral and posteromedial bundles to the anterior margin of the medial femoral condyle were (8.52±1.81)mm and (11.63±1.81)mm. The vertical distances from the center of the femoral insertions of the double-bundle to the intercondylar roof were (4.67±0.55)mm and (10.32±1.23) mm. The vertical distances from the tibial insertion of the center of the double-bundle to the plane of the tibial articular surface were (8.43±1.21)mm and (14.52±2.31)mm. The distances from the medial margin of the articular cartilage of the tibial plateau to the center of the tibial insertions of double-bundle were (47.44±6.23)mm and (45.95±6.32)mm. The areas of the insertions of the anterolateral and posteromedial bundles on the femur were (107.12±15.25)mm~2 and (65.35±10.27)mm~2. The areas of the insertions of the double-bundle on the tibia were (50.07±11.33)mm~2and (51.08±10.22)mm~2. Conclusion The anatomic characteristic of the attachment of the anterolateral and posteromedial bundles was revealed, providing anatomical bases for surgery.
4.Clinical application of the adjacent horn shaped perforator fasciocutaneous flap in the trunk area.
Wende YAO ; Xiaojing LI ; Jinlong NING ; Xinyi LI ; Zhao CHEN ; Maolin TANG ; Huairui CUI
Chinese Journal of Plastic Surgery 2014;30(4):241-244
OBJECTIVETo study the anatomy basis for the clinical application of the adjacent horn shaped perforator fasciocutaneous flap for the reconstruction of small and medium-sized defects in the trunk area.
METHODS(1) Ten adult antiseptic cadavers (20 sides) were perfused with red latex. The skin blood supply, line of the blood vessels, branches in accordance with the distribution and crossing were observed. (2) Fifteen cases with defects in the trunk were treated with the adjacent horn shaped perforator fasciocutaneous flaps. The defects size ranged from 5 cm x 5 cm to 13 cm x 13 cm with the size of the flaps ranging from 10 cm x 6 cm to 35 cm x 15 cm.
RESULTSThe trunk skin is supplied by mainly 17 groups arteries such as thyrocervical trunk, internal thoracic artery, posterior intercostal arteries, superior epigastric artery, arteria epigastrica inferior, lumbar arteries, and so on. The perforators (diameter > 0.5 mm) numbers are about 20, 40, 24, 6, on the chest, abdomen and perineum, upper back, waist, respectively. All the flaps survived completely with primary healing both on donor and recipient sites. The flaps color, texture, function and appearance were satisfactory during the follow-up period of 1-24 months.
CONCLUSIONSThe adjacent horn shaped perforator fasciocutaneous flap should be designed flexibly. The defects in the donor sites could be closed directly without skin graft. It is an effective, easy and ideal method for the reconstruction of large defects in the trunk.
Adolescent ; Adult ; Female ; Follow-Up Studies ; Humans ; Male ; Middle Aged ; Perforator Flap ; Skin Transplantation ; Torso ; surgery ; Young Adult
5.Vascular supply of intrinsic muscles of foot and anatomic basis for muscular flaps design.
Peng ZHOU ; Peng WEI ; Jin MEI ; Huairui CUI ; Chao LOU ; Maolin TANG ; Shi Xin CHEN ; Wenyue LIU
Chinese Journal of Plastic Surgery 2014;30(3):215-219
OBJECTIVETo investigate the vascular supply of intrinsic muscles of foot and anatomic basis for muscular flap design.
METHODSA radiopaque injectate (lead oxide-gelatin mixtures, 26 ml/kg) was injected into 10 fresh cadavers. The dissected regions were photographed and each intrinsic muscles on the foot was removed and radiographed. The number, type, diameter of vascular branches of muscles and their distributions were observed. The area of the vascular territory supplied by each source vessel was calculated using Scion Image for Windows software.
RESULTSThere were significant architectural differences among the intrinsic muscles. The muscles length varied from 22.5mm to 116.2mm [average, (66.1 +/- 23.2)mm]. The measured fiber length were relatively consistent, ranging from 14.2 mm to 27.5 mm [average, (20.2 +/- 4.5)mm]. There are 63 vascular branches into the 23 foot muscles, each muscle having average branches of 3.2 +/- 0.8. The average diameter of branches, the length and width of each vascular territorial area is (0.8 +/- 0.3) mm, (2.2 +/- 0.8) cm, and (0.9 +/- 0.4) cm, respectively. Other findings included that some muscles were not present in some cadavers.
CONCLUSIONSThe blood supply of intrinsic muscles of foot is abundant with different diameter and distributions of branches. There is an anatomic basis for muscular or musculoosseous flap design. There are 7 intrinsic muscles with large and reliable vascular supply which can be chosen as muscular flaps.
Adult ; Foot ; blood supply ; Humans ; Muscle, Skeletal ; blood supply ; Surgical Flaps
6.Anatomic feature of the adjacent perforator fasciocutaneous flap of plantar and its clinical application
Jing WANG ; Xiaojing LI ; Jinlong NING ; Xinyi LI ; Maolin TANG ; Huairui CUI
Chinese Journal of Microsurgery 2018;41(4):352-355
Objective To study the anatomic basis and its clinical effects of the adjacent perforator fasciocutaneous flap in planta.Methods From October,2010 to December,2017,the work was on two fronts:① The blood supply of the flap was studied by the dissection of 5 adult lower limbs which were perfused with red emulsion.Under the magnifying glass,the source of blood supply to the pedicle perforator fasciocutaneous flap near the foot was observed,and the caliber of perforating vessels was measured by vernier caliper.② Methods based on the anatomic study,the adjacent perforator fasciocutaneous flap was designed to repair plantar defect.Eleven cases with defects in planta were treated with the flap including 5 malignant melanoma,5 refractory wound and 1 pigmented nevus.The size of defects ranged from 1.5 cm×2.0 cm to 4.0 cm ×5.0 cm with the size of the flaps ranging from 7.0 cm×3.0 cm to 13.0 cm×7.0 cm.Results Anatomical studies showed that the supply vessels of the fasciocutaneous flap near the perforator of the plantar space were plantar medial arteries.The external diameter was greater than or equal to the 0.5 mm perforating number of about 7,the average outer diameter was (0.85±0.19) mm.The medial plantar artery emits multiple branches along the running direction and forms anastomotic branches in the arch of the foot to ensure the blood supply of the flap.Eleven cases of perforator fasciocutaneous flaps survived,including 1 case of distal necrosis of small area and healed after change dressings.The follow-up results during 6-24 months showed that all patients were walking normally,with full texture and no localized dull pain.Conclusion On the basis of the extent of diseases,projected the adjacent perforator fasciocutaneous flap,the wear resistance and abrasive resistance are improved resulted from flaps with similar skin texture of defects.The donor site can be closed directly without skin graft.It is an simple and reliable method to repair medium and small-sized plantar defects.
7. Anatomic basis and clinical application of periorbital flap pedicled with zygomatic orbital artery
Ming TIAN ; Xiaojing LI ; Jinglong NING ; Xinyi LI ; Jiani WANG ; Yu WANG ; Huairui CUI
Chinese Journal of Plastic Surgery 2019;35(10):973-977
Objective:
To explore the clinical application effect of the orbital periorbital perforator flap pedicled with zygomatic artery to repair the defect of eyelid ectropion and the defect after tumor resection.
Methods:
(1)Perfused 10 fresh cadavers gelatin lead oxidate with one-time arteriography and CT spiral scanning, and imported DICOM data into Mimics 17.0 for rapid body mapping and three-dimensional reconstruction, and observed the source of zygomatic orbital artery and distribution rules of perforating branches. (2)From July 2012 to July 2017, 18 clinical cases were repaired by orbital periorbital perforator flap pedicled with zygomatic artery, the flap was cut with the same width as the defect width, and the length of the flap was 2 to 3 times the defect length, with an area of 0.3 cm × 1.5 cm to 2.0 cm × 3.0 cm.
Results:
The zygomatic orbital artery originated from the superficial temporal artery, extending up to about the midpoint of the line between the anterior ear and the lateral canthus.The clinical application of the orbital periorbital flap with the perforating branch of the zygomatic orbital artery in 18 cases survived and healed well. After 1 month to 2 years of follow-up, the color, texture and shape function recovered well.
Conclusions
The orbital periorbital flap with the perforating branch of the zygomatic orbital artery is a good method for reconstruction of ectropion and palpebral defect due to its reliable movement and the arterial arch connected with the orbicularis suborbicularis.