中华烧伤与创面修复杂志

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Electrical burn injury is very common, including electrical contact burn, electrical arc burn, and lightning burn, etc. Electrical burn patients account for 0.04 to 5 percent of all burn victims in the developed countries, while it hit up to 27 percent in the developing countries, much more than the global average of 4.5 percent. Historical and recent data have shown that the electrical burn injuries in China, either for the case number, the proportion of burn patients in hospital, or the population incidence per year, are much higher than those of the developed countries and the global average. Before the 1960s, conservative treatment or skin grafts after repeated debridements were used for electrical burns, resulting in high rates of amputation and severe deformity. In the 1960s, transplantation of flaps after debridement in early stage were used for repairing wrist electrical burn wounds, breaking through the traditional conservative methods. In the 1980s, local, distant and island pedicled skin or myocutaneous flaps were widely used for early stage repair of electrical burn wounds. In recent years, along with the increasing experience of evaluating the blood vessel injuries and the development of microsurgical techniques, free flaps have been more and more used to cover the deep wounds of electrical burns in early stage, leading to much better effects and shorter length of hospital stay. With the persistent efforts of the burn specialists in the last decades, great improvements have been made for the treatment of electrical burn injuries in China. Future study on decoding the full mechanism of electrical burn injury, exploring new methods to save the injured but not yet necrotic tissue, are still needed to improve the treatment and reduce amputation and deformity of electrical burn injury.

Epidemiological investigation on 2 133 hospitalized patients with electrical burns

Jiang Meijun, Li Ze, Xie Weiguo

2017, 33(12): 732-737. doi: 10.3760/cma.j.issn.1009-2587.2017.12.003

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Objective To analyze the epidemiological characteristics of the hospitalized patients with electrical burns in Institute of Burns of Tongren Hospital of Wuhan University & Wuhan Third Hospital (hereinafter referred to as Institute of Burns of Wuhan Third Hospital), so as to provide reference for the prevention and treatment of electrical burns. Methods Medical records of all hospitalized burn patients in Institute of Burns of Wuhan Third Hospital from January 2004 to December 2016 were collected. Genders, ages, social categories, seasons of injury, total burn areas, depths of wounds, electrical voltages of injury, sites of wound, treatment methods, amputation rates, lengths of hospital stay, operation costs, hospitalization costs, and treatment outcomes of the electrical burn patients were collected. Treatment methods, lengths of hospital stay, operation costs, and hospitalization costs of the thermal burn patients were collected and compared with those of the electrical burn patients. Electrical voltages of injury, amputation rates, operation costs, hospitalization costs, and treatment outcomes were compared and analyzed between the electrical contact burn patients and the electrical arc burn patients. Data were processed with Chi-square test and Wilcoxon rank-sum test. Results During the 13 years, 23 534 burn patients were admitted to Institute of Burns of Wuhan Third Hospital, among whom 2 133 (9.1%) were with electrical burns, without obvious variation in admission number of electrical burn patients every year. There were 1 418 patients (66.5%) with electrical contact burns and 715 patients (33.5%) with electrical arc burns. The ratio of male to female was 11.2∶1.0 among the electrical burn patients with known genders. The proportions of three age groups of more than 20 years old and less than or equal to 30 years old, more than 30 years old and less than or equal to 40 years old, and more than 40 years old and less than or equal to 50 years old were relatively higher, which were 18.3% (391/2 133), 22.1% (471/2 133), and 24.6% (525/2 133), respectively. The first three social category groups in proportions were workers, peasants, and preschool children, which were 57.9% (1 235/2 133), 14.6% (311/2 133), and 6.0% (128/2 133), respectively. Among the electrical burn patients with known seasons of injury, most cases were injured in summer (659 cases, accounting for 34.1%), obviously more than the proportions in autumn (537 cases, accounting for 27.8%), spring (455 cases, accounting for 23.5%), and winter (283 cases, accounting for 14.6%), with χ² values from 8.414 to 149.573, P values below 0.01. The group of patients with total burn areas less than 10% total body surface area (TBSA) occupied the highest proportion (1 603 cases, accounting for 75.15%), among whom 229 (10.74%) were with scattered small wounds which were less than 1% TBSA. The percentage of electrical contact burn patients with deep wounds was 79.1% (1 122/1 418), which was obviously higher than 2.5% (18/715) of the electrical arc burn patients (χ²=381.741, P<0.001). Among the patients with known electrical voltages of injury, patients injured by high voltage among the electrical contact burn patients accounted for 78.4% (469/598), which was obviously higher than 8.7% (11/127) of the electrical arc burn patients (χ²=227.893, P<0.001). The most common wound site of the electrical burn patients was upper limbs (1 650 cases, accounting for 63.2%), followed by lower limbs (382 cases, accounting for 14.6%), head and neck (292 cases, accounting for 11.2%), trunk (247 cases, accounting for 9.5%), and hip and perineum (40 cases, accounting for 1.5%). The operation rate of electrical burn patients was 32.4% (691/2 133), obviously higher than 19.1% (3 860/20 209)of the thermal burn patients during the same period (χ²=210.255, P<0.001). Wounds of 116 electrical contact burn patients were repaired with free flap by vascular anastomosis, of which 9 (7.8%) failed. The length of hospital stay, the operation cost, and the hospitalization cost of electrical burn patients were (28±29) d, (9 534±16 935) and (44 258±93 012) Yuan, respectively, obviously longer or higher than those of the thermal burn patients during the same period [(17±19) d, (2 990±8 916) and (23 291±88 340) Yuan, respectively, with Z values from -21.323 to -10.996, P values below 0.001]. The amputation rate and the death rate of electrical burn patients were 3.8% (82/2 133) and 0.8% (16/2 133) respectively. Compared with those of electrical arc burn patients, the amputation rate and the operation cost of electrical contact burn patients were obviously higher (χ²=36.970, Z=-11.351, P values below 0.001), and the length of hospital stay of electrical contact burn patients was obviously longer (Z=-5.181, P<0.001). There were no significant differences in hospitalization cost and treatment outcome between the electrical contact burn patients and the electrical arc burn patients (Z=-1.461, χ²=1.673, P values above 0.05). Conclusions The number and the proportion of hospitalized electrical burn patients in Institute of Burns of Wuhan Third Hospital were relatively high, indicating a hard task of prevention for electrical burns in Wuhan area. Working-age workers and farmers, and preschool children were the key groups in prevention from electrical burns. The length of hospital stay, the operation cost, and the hospitalization cost of electrical burn patients were obviously higher than those of thermal burn patients. The amputation rate and the operation cost of electrical contact burn patients were obviously higher than those of electrical arc burn patients, but there were no obvious differences in hospitalization cost or treatment outcome between them. Actively using tissue flaps including free flap to repair of wounds may be helpful to reduce the amputation rate, improve the results, and shorten the time of treatment.

Wound repair and functional reconstruction of high-voltage electrical burns in wrists

Shen Yuming, Ma Chunxu, Qin Fengjun, Zhang Cong, Wang Cheng, Hu Xiaohua

2017, 33(12): 738-743. doi: 10.3760/cma.j.issn.1009-2587.2017.12.004

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Objective To explore the methods and effects of wound repair and functional reconstruction of high-voltage electrical burns in wrists. Methods From January 2009 to June 2016, 71 patients with high-voltage electrical burns in wrists were hospitalized, with 118 wrist wounds including 21 of type Ⅰ, 69 of type Ⅱ, 9 of type Ⅲ, and 19 of type Ⅳ. According to the wrist injuries, different surgical operations were performed. Forearm amputation was conducted in 20 wrists with necrosis in the distal end. On the basis of fasciotomy for decompression, early debridement was performed on the other 98 wrist wounds. After debridement, wounds with area ranging from 10 cm×7 cm to 30 cm×18 cm were repaired with tissue flaps with abundant blood supply. Thirty-two wounds were repaired with pedicled groin flaps, 11 wounds with pedicled paraumbilical flaps, 3 wounds with pedicled anterolateral thigh island flaps, 9 wounds with combined abdominal axial pattern flaps, 37 wounds with free skin flaps or myocutaneous flaps, and 6 wounds with flow-through descending branch of lateral femoral circumflex artery flaps, with tissue flap area ranging from 12 cm×8 cm to 34 cm×20 cm. Ulnar artery or radial artery vascular reconstruction was performed in 20 wrist wounds. Forty-one donor sites were sutured directly, while 14 were closed by thin split-thickness skin grafts from same-side thighs, and 43 were closed by thin split-thickness skin grafts from opposite-side thighs. Fifty-three wrist wounds were performed with tendon and nerve repair surgery, of which 20 were performed with simple tendon and nerve release surgery. Flexor digitorum profundus tendons and (or) flexor pollicis longus tendons were reconstructed with autologous or allogeneic tendon transplantation in 33 wrist wounds, and the median nerve was repaired with sural nerve graft in 21 wrist wounds. In 6 to 24 months after the last operation, tendon function of 53 wrist wounds which had tendon repair was evaluated with finger total active motion (TAM) method, while median nerve function of 21 wrist wounds which had median nerve repair was evaluated with integrate estimation method. Results (1) After forearm amputation, the incisions of 20 wrists with necrosis in the distal end were healed. (2) Among the 98 tissue flaps, 90 had good blood flow, while 8 had distal necrosis, of which 6 were healed after necrotic tissue removal and skin grafting, and two were sutured directly after debridement. Infection occurred under 7 flaps, of which 3 were healed by dressing change, and 4 were healed after second debridement. Twenty wrist wounds which had radial artery or ulnar artery repair had good blood supply of hand and amputation was avoided. During follow-up of 1 to 3 years, the incisions and flaps of patients who had tissue flap repair surgery healed well. (3) The excellent and good rate of TAM in each finger of the corresponding affected limbs of 53 wrist wounds which had tendon and nerve repair surgery was 51%. (4) Twenty wrists which had simple tendon and nerve release surgery were followed up for 1 to 2 years. The strength of muscle dominated by the median nerve was restored to grade Ⅴ in 1 wrist, grade Ⅳ in 3 wrists, and grade Ⅲ in 2 wrists. The strength of muscle dominated by the ulnar nerve was restored to grade Ⅳ in 3 wrists, with no recovery in other wrists. Sensory function examination showed grade S0 in 4 wrists, grade S1 in 2 wrists, grade S2 in 3 wrists, grade S3 in 8 wrists, and grade S4 in 3 wrists. Twenty-one wrists which had median nerve repair were followed up for 1 to 2 years. There was no recovery in muscle strength dominated by the median nerve. Sensory function examination showed grade S0 in 3 wrists, grade S1 in 5 wrists, grade S2 in 8 wrists, and grade S3 in 5 wrists. Conclusions It is a good method to sequentially conduct early fasciotomy for decompression, early debridement, vascular reconstruction, transplant of tissue flap with abundant blood supply, tendon and nerve repair in repairing electrical burn wounds of wrists, avoiding amputation, and reconstructing hand function according to the condition of electrical burns of wrists.

Changes of platelet rheological behavior and the interventional effects of ulinastatin in rats with high-voltage electrical burns

Zhang Qingfu, Li Yong, Feng Jianke, Xu Yanfen, Tu Lihong

2017, 33(12): 744-749. doi: 10.3760/cma.j.issn.1009-2587.2017.12.005

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Objective To explore the influence of high-voltage electrical burns on the number of platelet aggregation, β-thromboglobulin (β-TG) and platelet factor 4 (PF-4) and the interventional effects of ulinastatin in rats with high-voltage electrical burns. Methods A total of 240 Sprague-Dawley rats were divided into sham injury (SI) group, simple electrical burn (SEB) group, normal saline (NS) group, and ulinastatin (UTI) group according to the random number table, with 60 rats in each group. The electrical current was applied to the outside proximal part of left forelimb of rats and exited from the outside proximal part of right hind limb of rats. Rats in groups SEB, NS, and UTI were inflicted with high-voltage electrical burn wounds of 1 cm×1 cm at current entrances and exits, with the voltage regulator and experimental transformer. Rats in group SI were sham injured through connecting the same equipments without electricity. At 2 min post injury, rats in group NS were intraperitoneally injected with 2 mL/kg NS, and rats in group UTI were intraperitoneally injected with 2×10⁴ U/kg UTI of 10 g/L. At 15 min before injury and 5 min, 1 h, 2 h, 4 h, 8 h post injury, 10 rats in each group were selected to collect 5-7 mL blood of heart respectively. Blood of 0.05 mL were collected to make fresh blood smear for observing the number of platelet aggregation, and serum were separated from the remaining blood to determine content of β-TG and PF-4 with enzyme-linked immunosorbent assay. Data were processed with analysis of factorial design of variance, student-Newman-Keuls test, Kruskal-Wallis H test, Wilcoxon rank sum test, and Bonferroni correction. Results (1) At 15 min before injury, the numbers of platelet aggregation of rats were close among groups SI, SEB, NS and UTI (5.9±1.2, 5.8±1.2, 5.9±1.3, 5.9±1.1, respectively, with P values above 0.05). At 5 min, 1 h, 2 h, 4 h, 8 h post injury, the numbers of platelet aggregation of rats in group SEB were 57.2±16.3, 59.1±16.9, 60.8±20.6, 83.6±24.9, and 83.4±30.3, respectively, obviously more than those in group SI (6.0±1.3, 6.0±1.4, 5.9±1.4, 5.7±1.1, and 5.8±1.3, respectively, with P values below 0.001); the numbers of platelet aggregation of rats in group UTI were 29.6±7.4, 31.9±10.1, 35.0±14.2, 43.0±13.6, and 35.2±11.1, respectively, obviously more than those in group NS (58.3±16.1, 63.9±18.0, 60.8±17.7, 74.2±23.0, and 82.3±21.9, respectively, with P values below 0.001). There was no significantly statistical difference in the number of platelet aggregation of rats in group SI between each two time points within the same group (with P values above 0.05), but the number of platelet aggregation of rats in the other 3 groups at each time point post injury was significantly more than that of the same group at 15 min before injury (with P values below 0.001). (2) At 2, 4, and 8 h post injury, β-TG content of serum of rats in group SEB was significantly higher than that in group SI (with Z values from -3.780 to -3.477, P values below 0.05). At 5 min and 4 h post injury, β-TG content of serum of rats in group UTI was significantly lower than that in group NS (with Z values respectively -3.477 and -3.780, P values below 0.05). There was no significantly statistical difference in β-TG content of serum of rats in group SI at all time points of the same group (χ²=0.130, P >0.05). At 2, 4, and 8 h post injury, β-TG content of serum of rats in group SEB was significantly higher than that of the same group at 15 min before injury (with Z values from -3.780 to -3.553, P values below 0.05). At 5 min, 1 h, and 4 h post injury, β-TG content of serum of rats in group NS was significantly higher than that of the same group at 15 min before injury (with Z values from -3.780 to -3.477, P values below 0.05). At 1 and 4 h post injury, β-TG content of serum of rats in group UTI was significantly higher than that of the same group at 15 min before injury (with Z values respectively -3.250 and -3.780, P values below 0.05). (3) At 2 and 8 h post injury, PF-4 content of serum of rats in group SEB was significantly higher than that in group SI (with P values below 0.05). At 2 h post injury, PF-4 content of serum of rats in group UTI was significantly higher than that in group NS (P<0.05), and at 4 and 8 h post injury, PF-4 content of serum of rats in group UTI was significantly lower than that in group NS (with P values below 0.05). At all time points, PF-4 content of serum of rats in group SI was close (with P values above 0.05). At 2 and 8 h post injury, PF-4 content of serum of rats in group SEB was significantly higher than that of the same group at 15 min before injury (with P values below 0.05). At 1, 4, and 8 h post injury, PF-4 content of serum of rats in group NS was significantly higher than that of the same group at 15 min before injury (with P values below 0.05). There were significantly statistical differences in PF-4 content of serum of rats between all time points except for 5 min post injury and 15 min before injury (with P values below 0.05). Conclusions Increasing number of platelet aggregation and abnormal secretion of β-TG and PF-4 of rats with high-voltage electrical burns can lead to microcirculation disturbance. UTI can alleviate microcirculation disturbance caused by high-voltage electrical burns by reducing the number of platelet aggregation and inhibiting secretion of β-TG and PF-4.

Clinical research of features of magnetic resonance imaging of high-voltage electrical burns in limbs at early stage

Li Shujuan, Wang Zhenglei, Zhu Weiping, Xiang Yang, Lin Jing, Yu Yunjie, Li Peng

2017, 33(12): 750-756. doi: 10.3760/cma.j.issn.1009-2587.2017.12.006

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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.

Treatment of patients with different degree of acute respiratory distress syndrome caused by inhalation of white smoke

Yang Fuwang, Xin Haiming, Zhu Jinhong, Feng Xiaoyan, Jiang Xiaochen, Gong Zhenyu, Tong Yalin

2017, 33(12): 760-765. doi: 10.3760/cma.j.issn.1009-2587.2017.12.008

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Objective To summarize the treatment experience of patients with different degree of acute respiratory distress syndrome (ARDS) caused by inhalation of white smoke from burning smoke bomb. Methods A batch of 13 patients with different degree of ARDS caused by inhalation of white smoke from burning smoke bomb, including 2 patients complicated by pulmonary fibrosis at the late stage, were admitted to our unit in February 2016. Patients were divided into mild (9 cases), moderate (2 cases), and serious (2 cases) degree according to the ARDS Berlin diagnostic criteria. Patients with mild and moderate ARDS were conventionally treated with glucocorticoid. Patients with severe ARDS were sequentially treated with glucocorticoid and pirfenidone, and ventilator-assisted breathing, etc. were applied. The vital signs, arterial oxygenation index, changes of lung imaging, pulmonary ventilation function, general condition, and the other important organs/systems function were timely monitored according to the condition of patients. The above indexes were also monitored during the follow-up time of 10-15 months post injury. Data were processed with SPSS 18.0 statistical software. Results (1) The symptoms of respiratory system of patients with mild and moderate ARDS almost disappeared after 3 days′ treatment. Their arterial oxygenation index was decreased from post injury day 1 to 4, which almost recovered on post injury day 7 and completely recovered one month post injury. The symptoms of respiratory system of patients with severe ARDS almost disappeared at tranquillization condition 1-3 month (s) post injury. Their arterial oxygenation index was decreased from post injury day 3 to 21, which gradually recovered 1-3 month (s) post injury and was normal 15 months post injury. (2) Within 24 hours post injury, there was no obvious abnormality or only a little texture enlargement of lung in image of chest CT or X-rays of patients with mild and moderate ARDS. One patient with moderate ARDS had diffuse patchy and ground-glass like increased density shadow (pulmonary exudation for short) at post injury hour 96. Chest iconography of all patients with mild and moderate ARDS showed no abnormalities 10 months post injury. Both lungs of each of the two patients with severe ARDS showed obvious pulmonary exudation at post injury hours 45 and 75, respectively. One patient with severe ARDS showed no abnormality in chest image 10 months post injury, but there was still a small mesh-like increased density shadow in double lobes with slight adhesion of pleura in the other patient with severe ARDS 15 months post injury. (3) All patients showed severe restrictive hypoventilation when admitted to hospital. Pulmonary ventilation function of patients with mild and moderate ARDS recovered to normal one month post injury, and they could do exercises like running, etc. Pulmonary ventilation function of one patient with severe ARDS recovered to normal 6 months post injury, and the patient could do exercises like running, etc. The other patient with severe ARDS showed mild restrictive hypoventilation 15 months post injury and could do exercises like rapid walking, etc. (4) The condition of all mild and one moderate ARDS patients was better on post injury day 3, and they were transferred to the local hospital for subsequent treatment and left hospital on post injury day 21. One patient with moderate ARDS healed and left hospital on post injury day 29. Patients with severe ARDS healed and left hospital on post injury day 81. During the follow-up time of 10-15 months post injury, the other important organs/systems of all patients showed no abnormality, and there was no adverse reaction of glucocorticoid like osteoporosis, femoral head necrosis, or metabolic disorder. Two patients with severe ARDS did not have any adverse reaction of pirfenidone like liver function damage, photosensitivity, anorexia, or lethargy. Conclusions Early enough and uninterrupted application of glucocorticoid can significantly reduce the ARDS of patients caused by inhalation of white smoke from burning smoke bomb. Sequential application of glucocorticoid and pirfenidone can effectively treat pulmonary fibrosis at the late stage.

Effects of non-muscle myosin ⅡA silenced bone marrow mesenchymal stem cells on lung damage of rats at early stage of smoke inhalation injury

Liu Mingzhuo, Wang Junjie, Fu Zhonghua, Li Yucong, Jiang Zhengying, Sun Wei, Guo Guanghua, Zhu Feng

2017, 33(12): 766-771. doi: 10.3760/cma.j.issn.1009-2587.2017.12.009

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Objective To investigate the effects of non-muscle myosin ⅡA (NMⅡA) silenced bone marrow mesenchymal stem cells (BMSCs) on the lung damage of rats at early stage of smoke inhalation injury. Methods Forty Sprague-Dawley rats were divided into control, simple injury, NMⅡA-BMSCs, and BMSCs groups according to the completely random method, with 10 rats in each group. Rats in control group inhaled air normally, while rats in the latter 3 groups inhaled smoke to reproduce model of smoke inhalation injury. At 30 min post injury, rats in simple injury group were injected with 1 mL normal saline via caudal vein, and rats in group BMSCs were injected with 1 mL the fifth passage of BMSCs (1×10⁷/mL), and rats in group NMⅡA-BMSCs were injected with 1 mL NMⅡA silenced BMSCs (1×10⁷/mL). At post injury hour (PIH) 24, abdominal aorta blood and right lung of rats in each group were harvested, and then arterial partial pressure of oxygen (PaO₂), arterial partial pressure of carbon dioxide (PaCO₂), and pH value were detected by blood gas analyzer. Ratio of wet to dry weight of lung was determined by dry-wet weight method. Pathological changes of lung were observed with HE staining. Bronchoalveolar lavage fluid (BALF) were collected, and then tumor necrotic factor-α (TNF-α) and interleukin-10 (IL-10) content of BALF was determined by enzyme-linked immunosorbent assay. Data were processed with one-way analysis of variance, Kruskal-Wallis H test, and least-significant difference test. Results (1) At PIH 24, compared with those in control group, PaO₂ values of rats in simple injury, BMSCs, and NMⅡA-BMSCs groups were obviously decreased (with P values below 0.05), and PaCO₂ values were obviously increased (with P values below 0.05). Compared with those in simple injury group, PaO₂ values of rats in groups NMⅡA-BMSCs and BMSCs were obviously increased (with P values below 0.05), while PaCO₂ values were obviously decreased (with P values below 0.05). PaO₂ value of rats in group NMⅡA-BMSCs was obviously increased as compared with that in group BMSCs (P<0.05). The pH value of arterial blood of rats in simple injury group was obviously lower than that in control group (P<0.05). (2) At PIH 24, ratios of wet to dry weight of lung of rats in control, simple injury, BMSCs, and NMⅡA-BMSCs groups were 4.36±0.15, 7.79±0.42, 5.77±0.18, and 5.11±0.20, respectively. Compared with that in control group, ratio of wet to dry weight of lung of rats was obviously increased in the other 3 groups (with P values below 0.05). Compared with that in simple injury group, ratio of wet to dry weight of lung of rats was obviously decreased in groups BMSCs and NMⅡA-BMSCs (with P values below 0.05). Compared with that in group BMSCs, ratio of wet to dry weight of lung of rats in group NMⅡA-BMSCs was obviously decreased (P<0.05). (3) At PIH 24, alveolar structure of rats in control group was complete without abnormality. Compared with those in simple injury group, lung injury and infiltration of inflammatory cells of rats in groups BMSCs and NMⅡA-BMSCs were obviously alleviated, and alveolar structure was relatively complete with no thickening of alveolar wall. (4) At PIH 24, compared with that in control group, TNF-α content of BALF of rats in simple injury and BMSCs groups was obviously increased (with P values below 0.05). Compared with that in simple injury group, TNF-α content of BALF in groups BMSCs and NMⅡA-BMSCs was obviously decreased (with P values below 0.05). Compared with that in control group, IL-10 content of BALF in simple injury, NMⅡA-BMSCs and BMSCs groups were obviously increased (with P values below 0.05). Compared with that in simple injury group, IL-10 content of BALF in groups BMSCs and NMⅡA-BMSCs was obviously increased (with P values below 0.05). Compared with that in group BMSCs, IL-10 content of BALF in group NMⅡA-BMSCs was obviously increased (P<0.05). Conclusions NMⅡA silenced BMSCs can alleviate lung damage of rats at early stage of smoke inhalation injury, showing better effectiveness than using BMSCs only.

Role of nuclear factor-κB activation in sepsis-induced myocardial dysfunction

Zhou Hao, Wang Guangqing, Luo Pengfei, Xia Zhaofan

2017, 33(12): 782-784. doi: 10.3760/cma.j.issn.1009-2587.2017.12.014

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As a common complication in patients with sepsis, cardiac dysfunction may significantly increase mortality of these patients, but its mechanism is still unclear. Nuclear factor-κB (NF-κB) is a pleiotropic transcription inducing factor, which involves in the regulation of multiple biological phenomena and disease status. NF-κB activation participates in cardiomyocyte apoptosis, cardiomyocyte autophagy, and release of inflammatory cytokines in patients with sepsis, indicating its important role in sepsis-induced myocardial dysfunction.

2017 Vol. 33, No. 12

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