1.Clinical Curative Effect Observation of Bumetanide on Elderly Type 2 Diabetic Patients with Middle and Advanced Stages Nephropathy
Wenwen MAO ; Zhenglei SHEN ; Huifang LI ; Weimeng TIAN ; Guoqiang CHEN
Journal of Kunming Medical University 2014;(1):76-79
Objective The purpose of this study was to observe the effects of bumetanide on elderly type 2 diabetic patients with middle and advanced stages nephropathy. Methods Forty cases with diabetic nephropathy (DN) were divided into two groups:control group (20 cases) and treatment group (20 cases) . The control group accepted furosemide (20 mg, once a day) and the bumetanide was orally administrated at the dose of 1.0 mg, twice a day to the treatment group for 3 months. The assessment of transferrin (TRF) and urine microalbumin (UALB) was performed at the time points at the end of 1, 4, 8, 12 weeks after treatment. Results (1) The levels of BUN, SCr and UA after treatment were lower than before treatment, but there were no significant differences. (2) In the treatment group, the levels of TRF and UALB have decreased after treatment for 1 week, with no statistically significant. But at the end of 4, 8 and 12 weeks,the differences were statistically significant ( <0.05) . Especially, during the three months follow-up,the levels of TRF and UALB at 12 weeks have decreased obviously. Conclusion The therapeutic effect of bumetanide on DN might be better than that of furosemide.
2.Correlation between wedge hepatic vein pressure and portal vein pressure in 22 patients with liver cirrhosis
Ming ZHANG ; Yuzheng ZHUGE ; Xiaoping ZOU ; Feng ZHANG ; Chunyan PENG ; Qibin HE ; Zhenglei LI
Chinese Journal of Digestion 2016;36(8):554-558
Objective To explore the correlation between wedged hepatic vein pressure (WHVP) and directly measured portal vein pressure (PVP) and further analyze the correlation between hepatic venous pressure gradient (HVPG) and portal pressure gradient (PPG).Methods From December 2012 to April 2014,the related data including WHVP,free hepatic venous pressure (FHVP),inferior vena cava pressure (IVCP) and PVP of patients who received transjugular interahepatic portosystem stentshunt (TIPS) treatment were collected,and HVPG and PPG were calculated.The correlations between WHVP and PVP,between FHVP and IVCP,between HVPG and PPG were analyzed.Pearson's correlation analysis were performed for correlation analysis.Results Twenty two patients matched the criteria were enrolled during the December 2012 to April 2014.The mean pressures of PVP and WHVP were (28.07±4.43) mmHg (1 mmHg=0.133 kPa) and (26.22±5.91) mmHg,respectively.PVPand WHVP were positively correlated,the correlation coefficient of them was 0.431 (P=0.045) and slope was0.323.The mean pressures of FHVP and IVCP were (7.31±3.37) mmHg and (6.82±4.01) mmHg,respectively.FHVP and IVCP were positively correlated,the correlation coefficient of them was 0.845 (P<0.01) and slope was 0.711.The mean pressures of PPG and HVPG was (21.02±3.76) mmHg and (18.90±4.86) mmHg,respectively.There was no correlation between PPG and HVPG,the correlation coefficient of them was 0.014 (P=0.951).Conclusions There is a good correlation between PVP and WHVP,and so is the correlation between FHVP and IVCP.However,there is no good correlation between HVPG and PPG in this study because of the effects of many factors.
3.Clinical analysis of fresh cervical spinal cord injury without radiographic abnormality in children
Li-min CHEN ; Meng YAO ; Qi-tao ZHANG ; Chongyi SUN ; Zhenglei WANG ; Jichang GAO
Chinese Journal of Rehabilitation Theory and Practice 2004;10(12):765-766
ObjectiveTo investigate the clinical characteristics and therapy of fresh cervical spinal cord injury without radiographic abnormality (SCIWORA) in children.MethodsThe materials of fourteen SCIWORA children (13 cases treated with non operative menthod, 1 case treated by atlantoocciptal fusion) were analyzed retrospectively.ResultsOne child was dead, and the other 13 cases had a 3-year follow up. Three children's symptoms had no change. According to ASIA criterion, there were 3 cases with grade A, 5 cases with grade B, 5 cases with grade C and 1 case with grade D before treatment. After treatment, there were 1 case recovered to grade B, 2 cases recovered to grade C, 5 cases recovered to grade D, 2 cases recovered to grade E.ConclusionSpinal cord injury caused by a short time dislocation of cervical vertebrae is the main reason of SCIWORA in children. The degree of the injury of spinal cord is related directly with the recovery of function of nervous system. Most patients can get satisfactory results by non operative methods. Operations are useful to the cases with obvious instability of cervical spine.
4. Clinical research of features of magnetic resonance imaging of high-voltage electrical burns in limbs at early stage
Shujuan LI ; Zhenglei WANG ; Weiping ZHU ; Yang XIANG ; Jing LIN ; Yunjie YU ; Peng LI
Chinese Journal of Burns 2017;33(12):750-756
Objective:
To analyze the features of magnetic resonance imaging (MRI) of patients with high-voltage electrical burns in limbs at early stage.
Methods:
Thirty-eight patients with high-voltage electrical burns, conforming to the study criteria, were hospitalized in our unit from March 2013 to August 2016. T1 weighted imaging (T1WI), T2WI, fat-suppression T2WI plain scan, and fat-suppression T1WI enhanced scan of MRI were performed in 78 limbs, including 56 upper limbs and 22 lower limbs at post injury hour 72. The MRI signal characteristics of electrical burns in skin and subcutaneous tissue, skeletal muscle, tendon, joint ligament, and skeleton of limbs were analyzed. " Sandwich-like" necrosis and injury in skeletal muscle, injuries of tendon, joint ligament, and skeleton were observed. MRI signal characteristics of amputated upper limbs and salvaged limbs were also analyzed. All patients underwent surgery within 24 h after MRI examination, and the muscle vitality was judged during operation. Muscle tissue without reaction to electrical stimulation which was completely necrotic as shown by MRI, muscle tissue with weak reaction to electrical stimulation which was injured with blood supply as shown by MRI, and muscle tissue with edema as shown by MRI were collected, and then the pathological characteristics of muscle tissue were observed with HE staining.
Results:
(1) The defect area of patients at entrance of current was bigger than that at exit. The skin and subcutaneous tissue extensively unevenly thickened. T2WI manifested hyperintensity, and T1WI manifested isointensity, while fat-suppression enhanced T1WI manifested uneven enhancement. Zonal effusion was seen in the region of serious subcutaneous edema. (2) For complete necrosis of skeletal muscle, T2WI manifested hypointense, isointensity, or slight hyperintensity, and T1WI manifested isointensity, slight hyperintensity, or mixed signal of isointensity and slight hyperintensity, while fat-suppression enhanced T1WI manifested most no enhancement area with clear boundary. The MRI signals of injured skeletal muscle could be divided into two types. Type Ⅰ signal was for partial necrotic muscle adjacent to the completely necrotic zone. T2WI manifested uneven hyperintensity or slight hyperintensity, with unclear boundary. T1WI manifested isointensity or slight hyperintensity. Fat-suppression enhanced T1WI manifested significant banding or laciness enhancement. Type Ⅱ signal was for deep muscle tissue far from the complete necrotic zone. T2WI manifested hyperintensity, and T1WI manifested isointensity or main isointensity mixed with hyperintensity, while fat-suppression enhanced T1WI manifested uneven moderate or slight enhancement. Normal muscle signal, type Ⅰ signal, and type Ⅱ signal were all mixed with necrotic signal, showing " sandwich-like" change. For skeletal muscle edema, T2WI manifested slight hyperintensity and unclear boundary, and T1WI manifested hypointense, while fat-suppression enhanced T1WI manifested no obvious enhancement. (3) For complete necrosis of tendon, T2WI manifested isointensity or slight hyperintensity, and T1WI manifested isointensity, while fat-suppression enhanced T1WI manifested no enhancement. For tendon injury, T2WI manifested isointensity, and T1WI manifested isointensity or hypointense, while fat-suppression enhanced T1WI manifested slight enhancement. (4) Severe injury of wrist joint were manifested as complete necrosis of soft tissue around joint. T2WI manifested slight hyperintensity or isointensity, and T1WI manifested isointensity, while fat-suppression enhanced T1WI manifested no enhancement or slightly uneven enhancement. For completely destroyed wrist joints, the structures were not clear from outside to inside. T2WI manifested slight hyperintensity or isointensity, and T1WI manifested hypointense or isointensity, while fat-suppression enhanced T1WI manifested no enhancement. For elbow injury, T2WI manifested hyperintensity, and T1WI manifested isointensity or hypointense, while fat-suppression enhanced T1WI manifested uneven enhancement. For knee injury, T2WI manifested hyperintensity, and T1WI manifested hypointense, while fat-suppression enhanced T1WI manifested slight enhancement. (5) For bone edema, T2WI manifested isointensity, while fat-suppression T2WI manifested slight hyperintensity. T1WI manifested isointensity, and fat-suppression enhanced T1WI manifested patchy enhancement. (6) MRI of amputated upper limbs showed necrosis signals, type Ⅰ signals, type Ⅱ signals, and mixed signals of type Ⅰ and type Ⅱ in skeletal muscle. The necrosis signal and type Ⅰ signal area of the distal end were more than 50% greater than those of the lesion. The scope of the ecological tissue was large and the boundary was not clear. There were diffuse injuries in both anterior and posterior muscles, and the ulnar and radial artery pulsation disappeared in the upper limbs. The MRI of salvaged limbs were type Ⅰ signal, type Ⅱ signal, mixed signals of type Ⅰ and type Ⅱ, and local necrosis signals of skeletal muscle. The type Ⅰ signal was the main type, and the distal end showed type Ⅱ signal. (7) For completely necrotic skeletal muscle as shown by MRI, surgical exploration showed loss of muscle viability, and pathological examination showed complete necrosis of striated muscle tissue. For injury area of skeletal muscle as shown by MRI, surgical exploration showed interecological muscle with activity worse than mormal muscle, and pathological examination showed normal muscle cells and muscle fiber mixed with necrotic striated muscle cells having karyopyknosis, with different degree of injury. For edema area of skeletal muscle as shown by MRI, surgical exploration showed swelling skeletal muscle and normal muscle vitality, and pathological examination showed striated muscle interstitial edema with a large number of inflammatory cells infiltration. The manifestions of MRI were consistent with the results of surgical exploration and pathological examination.
Conclusions
Skeletal muscle complete necrosis, injury, and edema could be preferably differentiated by MRI, and the definite scope and depth of electrical injury, the injury of skin, tendon, joint ligament, and bone could also be displayed well on MRI. It can provide objective imaging basis for the diagnosis of high-voltage electrical burns in limbs at early stage, the establishment of clinical operation plan, and the judgment of intraoperative tissue vitality.
5.Study on Repair ,Anti-inflammation and Analgesia Effects of Compound Crocodile Oil Burn Ointment on Super- ficial Second-degree Burned Skin
Xiang PAN ; Sijie HAN ; Kezhuo CHEN ; Zhenglei LI ; Dandan ZHANG ; Xinyao LUO ; Huijun LI ; Heyuan XIA ; Tianhe WANG ; Xiaochuan YE
China Pharmacy 2021;32(20):2467-2472
OBJECTIVE:To study the repa ir,anti-inflammatory and analgesic effects of Compound crocodile oil burn ointment on superficial second-degree burned skin. METHODS :The heated weight was attached to the right depilated skin of guinea pigs for 4 s to induce the model of superficial second-degree burn. After modeling ,guinea pigs were randomly divided into model group , Jingwanhong ointment group (positive control ),formula Ⅰ,Ⅱ and Ⅲ groups of Compound crocodile oil burn ointment (volume fraction 1.5%,3%,4.5%,hereinafter),with 8 guinea pigs in each group. Except for model group ,other groups were smeared with 0.7 g/guinea pigs twice a day for 14 consecutive days. The wound healing was recorded every day ,the healing rate of wound was calculated. HE staining was used to observe the histopathological changes of the wound. The serum levels of EGF ,VEGF, SOD,MDA,TNF-α and IL-1 were detected by ELISA. Eighty Kunming mice were divided into 2 groups,and then sub-grouped into model group ,Jingwanhong ointment group (positive control ),formula Ⅰ and Ⅲ groups of Compound crocodile oil burn ointment,with 10 mice in each group. Then xylene auricle swelling method and acetic acid writhing method were used to investigate the anti-inflammatory and analgesic effects of Compound crocodile oil burn ointment. RESULTS :In the burn repair experiment,after intervention of Compound crocodile oil burn ointment ,the wound area of guinea pigs gradually decreased ,and on the 14th day ,the wound had healed greatly ,and the wound healing rate increased significantly (P<0.01);serum levels of EGF and SOD were increased significantly (P<0.01),while the levels of VEGF ,MDA,TNF-α and IL-1 were decreased significantly(P<0.05 or P<0.01). The thick new epidermal layer was found in wound tissue ,and the connective tissue and neovascularization in the dermis increased significantly. In the anti-inflammatory and analgesic experiment ,after intervention of Compound crocodile oil burn ointment ,the degree of ear swelling and the times of writhing decreased significantly (P<0.05 or P<0.01). CONCLUSIONS :Compound crocodile oil burn ointment shows good skin repair ,anti-inflammatory and analgesic efficacy;the mechanism may be associated with increasing the serum levels of EGF and SOD and reducing the levels of VEGF , MDA,TNF-α,IL-1.