OBJECTIVE To evaluate the antibiotic susceptibility on coagulase negative staphylococci(CNS) in Xiangya Hospital and to investigate the role of slime in the resistance mechanism of biofilms.METHODS To isolate and identify CNS from clinical(specimens).The susceptibility of 15 antibiotics was tested by the disc diffusion method.The quantity of slime(produced) by CNS was measured by the colorimetric method.Slime was isolated from selected strains of CNS and analyzed by SDS-PAGE.The MICs to vancomycin,gentamicin and rifampin were determined with and(without) the addition of extracted slime by a standard microtiter method.RESULTS Of all these 15 antibiotics,the highest resistance to CNS was penicillin,followed by erythromycin and trimethoprim-sulfamethoxazole.CNS was more susceptible to ampicillin/sulbactam and rifampin.None was resistant to vancomycin.All of 158 CNS,except one strain,could produce slime.There was a statistical difference between the quantities of slime produced by CNS that produced high and low quantity slime.However,there was a non-statistical difference of resistance to these 15 antibiotics of above CNS. There was an increase in the MICs to vancomycin and gentamicin,but no in the MIC to rifampin,in the absence of 20mg/ml extracted slime.The extracted slime seemed to be similar to the glycosaminoglycans(GAG);it had mobility similar to that of chondroitin sulfate.CONCLUSIONS CNS can(produce slime) on some condition,universally,then to form biofilms.However,in vitro susceptibility testing(employed) cannot really reflect the susceptibility of bacteria in biofilms in vivo.Slime can increase the MICs to vancomycin and gentamicin because of interference with either the antimicrobial action of these drugs or the(perfusion) of these drugs through the medium to increase the resistance of biofilms.It does not affect the MIC to rifampin.

Objective To evaluate the clinical effect of endovascular stent placement to the treatment of intracranial internal carotid artery dissection.Methods Two patients with intracranial internal carotid artery dissection received the treatment of stent placement,and 1 patient with a dissection of the supra clinoid internal carotid artery received conventional anticoagulation treatment.Results Two patients with intracranial internal carotid artery dissection were given treatment of Apollo stent placement,of which 1 patient had improvement of left limb paresis,the score of NIHSS from 3 before operation to 2 after operation; the other one with episodic left limb weakness was not seen any attack after stent placement.Another one patient without stent placement receiving conventional anticoagulation treatment had some improvement of right limb paralysis.Conclusion The treatment of endovascular stent placement to the intracranial internal carotid artery dissection has better clinical efficacy and especially used for those patients with no effect to the conventional anticoagulation treatment.

Objective:To investigate the clinical effect of free anterior tibial artery proximal periosteal perforator bone-skin flap for repairing phased thumb defect.Methods:Eight patients of phased defect of thumb were repaired from March, 2013 to January, 2019 utilizing proximal tibial artery periosteal perforator bone and skin flap. Of which, 2 cases suffered defects at interphalangeal joint of thumb, 3 in proximal phalanx, and 3 at thenar muscle and metacarpale. There were 4 cases with tendon defect, 6 cases with other finger injuries.The areas of soft tissue defect was 4.5 cm×2.5 cm to 7.2 cm×4.0 cm, and the length of metacarpale bone defect was 1.2 to 2.5 cm. The flap size ranged from 5.0 cm×3.0 cm to 7.5 cm×4.5 cm, and the bone flap size was 1.2 cm×1.0 cm×0.8 cm to 2.5 cm×1.0 cm×1.0 cm. Six cases received direct suture or local skin metastasis in anterior tibial region and 2 cases with skin grafting. All patients were followed-up by clinic visits, telephone or WeChat reviews, and home visits.Results:All the flaps survived after surgery. A 6 to 24 months followed-up showed that the flaps were normal in colour with good texture and moderate thickness. TPD of the flaps ranged from 7 to 10 mm. The donor site of the shank had good appearance and were in normal function, and the walking were not affected. Healing time of transplanted bone flaps ranged from 2.0 to 4.0 months, with an average of 2.6 months. According to the Evaluation Criteria of Upper Limb Function of the Hand Surgery Society of Chinese Medical Association, the results were excellent in 7 thumbs and good in 1 thumb. According to Michigan Hand Function Evaluation Criteria, 8 thumbs scored 81.3 to 91.8 points, with an average of 83.6 points.Conclusion:The reconstruction of phased defect of thumb with proximal tibial artery periosteal perforator bone-skin flap can restore the appearance and function of thumb to the greatest extent, and the affect to donor site is minimum. It is an effective surgical method for repairing phased defect of thumb.

Objective: To report the clinical effect of skin grafting in small wounds with exposed vascular anastomosis. Methods: From January, 2011 to May, 2018, 16 small wounds with anastomotic vascular exposure were treated by full-thickness skin grafting. Of which, 4 performed after replantation, 9 after reconstruction and 3 after flap transplantation. Thirteen wounds were on hand and 3 in foot. After anastomosing the vessels, 3 arterial anastomoses, 9 venous anastomoses and 4 arterial-and-venous anastomoses were left exposure in wounds. Sizes of artery exposed in wound were 0.8 to 2.3 mm with an average of 1.0 mm. Sizes of vein exposed in wound were 0.8 to 2.5 mm with an average of 1.2 mm. The areas of soft tissue defect were 1.0 cm×1.5 cm to 2.6 cm×6.0 cm, and the areas of grafted skins were 1.0 cm×1.5 cm to 2.6 cm×6.0 cm. Grafted skin were covered without package nor pressurization. Donor areas were directly sutured. Postoperative follow-up was conducted to observe the postoperative effect. Results: Fourteen grafted skin completely survived, one partially survived and healed after immobilization of the limb and change of dressing, and one developed necrosis. All patients were followed-up for 6-24 months (mean 14.4 months). CDU, HHD or CTA were used at the final follow-up. Vascular anastomoses were patency in 15 patients, and 1 patient had embolism developed. No pigmentation was found on the grafted skin. All grafted skin was soft and wearable with two point discrimination at 7-10 mm. The pulse of anastomotic artery could be felt on the grafted skins. Only linear scars were left in the donor sites. Conclusion The operation of full-thickness skin grafting in small wounds with exposed vascular anastomosis was easy to perform and with high survival rate. The effect of operation is satisfactory. The exposure of anastomosed vessels does not affect the patency of anastomotic vessels, and has considerable clinical values.

OBJECTIVE To establish the fingerprint of Huangqin decoction （HQD）， to separate the phase states and screen the active phase states of antidermatophytic activity so as to study the spectrum-effect relationship. METHODS HPLC method was adopted using baicalin as reference， the fingerprints of 10 batches of HQD were drawn and the similarity evaluation was carried out using the Similarity Evaluation System of Chromatographic Fingerprint of TCM （2012 edition） to determine the common peak； the phase states of HQD were separated and characterized by high-speed centrifugation and membrane dialysis. The minimum inhibitory concentrations （MIC） of HQD and its different phase states against Trichophyton mentagrophytes were determined simultaneously. Using the peak area of 37 common peaks as independent variable， MIC as dependent variable， Pearson correlation analysis was performed by using SPSS 21.0 software. RESULTS A total of 37 common peaks were obtained in HPLC fingerprints of 10 batches of HQD， with the similarity higher than 0.99. Ten components were identified， such as albiflorin， paeoniflorin， liquiritin apioside， baicalin， melaleuca glycoside A， wogonoside， baicalein， glycyrrhizic acid， wogonin and oroxylin A. HQD was split into 3 phase states， such as precipitation phase （HQD-P）， solution phase （HQD-S） and nano phase （HQD-N）. The morphology of HQD-P was irregular granular， and the average particle size was 4.670-91.522 μm. The morphology of HQD-S was uniform flakes， and no particle size was detected. HQD-N was spherical in shape and the particle size was （129.0±12.9） nm. MIC values of each phase state of HQD against T. mentagrophytes in different phase states were HQD-N （4.64 mg/mL） ＜HQD （5.85 mg/mL） ＜HQD-P （7.37 mg/mL） ＜HQD-S （12.89 mg/mL） at the same dosage. Pearson correlation analysis showed that the peak area of 25 of the 37 common peaks （including identified components） was significantly negatively correlated with MIC （absolute values of correlation coefficient＞0.95 and P＜0.05）. CONCLUSIONS The chemical composition of 10 batches of HQD is consistent； HQD-N is the active phase state of HQD. Ten components such as paeoniflorin， liquiritin apioside and baicalin may be the main active components of HQD. The antidermatophytic effect of HQD is closely related to its component content and physical phase state.