The H7N9 virus mutated in 2017, resulting in new cases of highly pathogenic avian influenza (HPAI) H7N9 virus infection. H7N9 was found in a viraemic patient in Guangdong province, China. The present study aimed to clarify the pathogenic characteristics of HPAI H7N9. Virus was isolated from the plasma and sputum of the patient with HPAI H7N9. Liquid phase chip technology was used to detect the plasma cytokines from the infected patient and healthy controls. Mice were infected with strains A/Guangdong/GZ8H002/2017(H7N9) and A/Zhejiang/DTID-ZJU01/2013(H7N9) to observe the virus's pathogenic characteristics. Serum and brain tissue were collected at 2, 4, and 6 days after infection. The viruses in serum and brain tissue were detected and isolated. The two strains were infected into A549 cells, exosomes were extracted, and virus genes in the exosomes were assessed. Live virus was isolated from the patient's plasma. An acute cytokine storm was detected during the whole course of the disease. In animal experiments, A/Guangdong/GZ8H002/ 2017(H7N9) was more pathogenic than A/Zhejiang /DTID-ZJU01/2013(H7N9) and resulted in the death of mice. Live virus was isolated from infected mouse serum. Virus infection was also detected in the brain of mice. Under viral stress, A549 cells secreted exosomes containing the entire viral genome. The viraemic patient was confirmed to have an HPAI H7N9 infection. A/Guangdong/GZ8H002/2017(H7N9) showed significantly enhanced toxicity. Patient deaths might result from cytokine storms and brain infections. Extrapulmonary tissue infection might occur via the exosome pathway. The determined pathogenic characteristics of HPAI H7N9 will contribute to its future treatment.
The innovative technique combining thread lift with small incision rhytidectomy is a good alternative for the treatment of facial aging.
Neovascularization plays an important role in adipose tissue transplantation, because survival of implanted cells strongly relies on sufficient oxygen and nutrient supply. Vascular endothelial growth factor (VEGF) is known as the master regulator of angiogenesis. It is capable of starting the complex cascade of events leading to endothelial cell activation, assembly of new vascular structures, mural cell recruitment, and vessel stabilization. However, consensus is lacking regarding safe and efficient methods for applying VEGF in free fat transplantation in the clinical setting. We investigated whether chitosan nanospheres, a biocompatible high-molecular-weight material, safely improve the efficiency of VEGF application in free fat transplantation. Immunologically compromised nude mice were used as adipose tissue transplantation receptors. Nanospheres loaded with VEGF were mixed with adipocytes and injected subcutaneously to the dorsa of mice. Grafts were harvested at weeks 3, 6, and 12. We found that treated-graft weight and vascularization were significantly higher than controls in a time-dependent manner. We demonstrated that chitosan nanospheres loaded with VEGF significantly promote the fat graft neovascularization and improve adipocyte survival.
For extensive irregular cicatricial alopecia after burn, effective and pleasing restoration of hair-bearing scalp remains challenging. In this article, the authors presented staged reconstructive treatment for extensive irregular cicatricial alopecia with the goal to achieve better and reliable results. A retrospective review of staged reconstructive treatment performed in 16 patients with extensive irregular cicatricial alopecia after burn was conducted. In stage 1, final flaps were designed at 1st. Tissue expanders were placed into the subgaleal plane and serially inflated with normal saline. In stage 2, scarring tissues were excised and the expanded hair-bearing flaps were advanced to the defect. Hair grafts were harvested from excessive hair-bearing scalps excised from the flaps and replanted. For patients with less satisfactory results, stage 3 was performed by hair transplantation. Cicatricial area, follicular unit density, survival rate of hair grafts, and patients’ satisfaction were measured before and after each stage. Thirteen patients received 3-stage treatment, and 3 received 2-stage treatment. Significant improvements in aesthetics and patient satisfaction were achieved in all the patients. No flap necrosis, implant exposure or hematoma was observed. Ideal, aesthetic, and reliable results could be obtained using staged reconstructive treatment for patients with extensive irregular cicatricial alopecia after burn.
Rationale:Scars always related to functional limitations, cosmetic impairment, and social and emotional problems. Clinical improvements in scar characteristics after autologous fat grafting are well described. In this paper, we present an innovative approach to treat depressed scars.Patient concerns:We presented a 29-year-old woman with multiple depressed scars in the left upper arm and near the elbow joint after trauma in childhood.Diagnoses:The patient was diagnosed as having multiple depressed scars accompanied with retraction and pain.Interventions:We used small needle knife during fat grafting to treat the depressed scar. Vancouver Scar Scale was used to assess the effect.Outcomes:Aesthetic and functional improvements were observed. Resolution of pain and improvement in scar elasticity were objectively assessable. Improvement of both clinical evaluation and patient perception was obtained.Lessons:Use of small needle knife during fat grafting is a good alternative for the treatment of depressed scars.
Background: Short peptide hydrogel was reported as a possible adjuvant for vaccines. In order to evaluate whether the Tetra-Peptide Hydrogel can be a promising adjuvant for an H7N9 vaccine against the highly pathogenic H7N9 virus, we conducted this study. Methods: Tetra-Peptide Hydrogels (D and L conformations) were prepared by a self-assembly system using a Naproxen acid modified tetra peptide of GFFY (Npx-GFFY). Mice received two immunizations with the D-Tetra-Peptide Hydrogel adjuvant vaccine, the L-Tetra-Peptide Hydrogel adjuvant vaccine, or the split vaccine. Fourteen days following the second dose, the mice were challenged with the highly pathogenic A/Guangdong/GZ8H002/2017(H7N9) virus. The mice were observed for signs of illness, weight loss, pathological alterations of the lung tissues and immune responses in the following 2 weeks. Results: The D/L-Tetra-Peptide Hydrogels resembled long bars with hinges on each other, with a diameter of ~10 nm. The H7N9 vaccine was observed to adhere to the hydrogel. All the unvaccinated mice were dead by 8 days post infection with H7N9. The mice immunized by the split H7N9 vaccine were protected against infection with H7N9. Mice immunized by D/L-Tetra-Peptide Hydrogel adjuvant vaccines experienced shorter symptomatic periods and their micro-neutralization titers were higher than in the split H7N9 vaccine at 2 weeks post infection. The hemagglutinating inhibition (HI) titer in the L-Tetra-Peptide Hydrogel adjuvant vaccine group was higher than that in the split H7N9 vaccine 1 week and 2 weeks post infection. The HI titer in the D-Tetra-Peptide Hydrogel adjuvant vaccine group was higher than that in the split H7N9 vaccine at 2 weeks post infection. Conclusion: The D/L Tetra-Peptide Hydrogels increased the protection of the H7N9 vaccine and could be promising adjuvants for H7N9 vaccines against highly pathogenic H7N9 virus.
Background The highly pathogenic Influenza H7N9 virus is believed to cause multiple organ infections. However, there have been few systematic animal experiments demonstrating the virus distribution after H7N9 virus infection. The present study was carried out to investigate the viral distribution and pathological changes in the main organs of mice after experimental infection with highly pathogenic H7N9 virus. Methods Infection of mice with A/Guangdong/GZ8H002/2017(H7N9) virus was achieved via nasal inoculation. Mice were killed at 2, 3, and 7 days post infection. The other mice were used to observe their illness status and weight changes. Reverse transcription polymerase chain reaction and viral isolation were used to analyse the characteristics of viral invasion. The pathological changes of the main organs were observed using haematoxylin and eosin staining and immunohistochemistry. Results The weight of H7N9 virus-infected mice increased slightly in the first two days. However, the weight of the mice decreased sharply in the following days, by up to 20%. All the mice had died by the 8th day post infection and showed multiple organ injury. The emergence of viremia in mice was synchronous with lung infection. On the third day post infection, except in the brain, the virus could be isolated from all organs (lung, heart, kidney, liver, and spleen). On the seventh day post infection, the virus could be detected in all six organs. Brain infection was detected in all mice, and the viral titre in the heart, kidney, and spleen infection was high. Conclusion Acute diffuse lung injury was the initial pathogenesis in highly pathogenic H7N9 virus infection. In addition to lung infection and viremia, the highly pathogenic H7N9 virus could cause multiple organ infection and injury.
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