Objective:To conduct a comparative analysis of the oxygen depletion and oxygen effect of FLASH irradiation and conventional irradiation by direct measurement of oxygen content.Methods:The oxygen content in different tissues and organs of mice was measured using a phosphorescent probe. A subcutaneous xenograft tumor model in mice was established, to receive electron-beam irradiation at different doses and dose rates. The oxygen depletion of tumor and normal tissue was analyzed, and tumor control was evaluated. The oxygen depletion of conventional irradiation and FLASH irradiation was further analyzed using an in vitro model. The survival fraction (SF) of normal cells after conventional irradiation and FLASH irradiation was calculated using colony formation assay under different partial pressures of oxygen, and the data were fitted to the oxygen enhancement ratio (OER) curve. Results:The mean oxygen content of subcutaneous xenograft tumor in mice was 1.28%, suggesting hypoxia. The mean oxygen content of normal tissue ranged from 3.51% to 6.53%, suggesting physioxia. In animal experiments, oxygen depletion was not observed during conventional irradiation. High-dose-rate (20 Gy/s) and ultra-high-dose-rate (FLASH, 40 Gy/s) irradiation produced oxygen depletion. During FLASH irradiation, with the increase of oxygen content, the oxygen depletion was 0.1-0.2 mm Hg/Gy for tumor tissue and 0.19-0.21 mm Hg/Gy for skin tissue, which tended to stabilize. FLASH irradiation maintained equivalent tumor control compared to conventional irradiation. The tumoricidal effect was significantly enhanced with the increase of oxygen content in the tissue ( t=3.46, P<0.01). In in vitro experiments, the mean oxygen depletion rate was about 0.16 mm Hg/Gy for conventional irradiation and 0.16-0.18 mm Hg/Gy for FLASH irradiation, which did not change significantly with the increase of oxygen content. FLASH irradiation was associated with an oxygen effect. When the partial pressure of oxygen decreased from physioxia to hypoxia, the OER value significantly reduced. Conclusions:Normal tissues and organs are in physioxia, which exhibits a lower oxygen content than that in the air. FLASH irradiation can consume a proportion of oxygen, producing an oxygen effect. When oxygen content decreases, the oxygen depletion rate slows down after FLASH irradiation.

Objective:To conduct a comparative analysis of the oxygen depletion and oxygen effect of FLASH irradiation and conventional irradiation by direct measurement of oxygen content.Methods:The oxygen content in different tissues and organs of mice was measured using a phosphorescent probe. A subcutaneous xenograft tumor model in mice was established, to receive electron-beam irradiation at different doses and dose rates. The oxygen depletion of tumor and normal tissue was analyzed, and tumor control was evaluated. The oxygen depletion of conventional irradiation and FLASH irradiation was further analyzed using an in vitro model. The survival fraction (SF) of normal cells after conventional irradiation and FLASH irradiation was calculated using colony formation assay under different partial pressures of oxygen, and the data were fitted to the oxygen enhancement ratio (OER) curve. Results:The mean oxygen content of subcutaneous xenograft tumor in mice was 1.28%, suggesting hypoxia. The mean oxygen content of normal tissue ranged from 3.51% to 6.53%, suggesting physioxia. In animal experiments, oxygen depletion was not observed during conventional irradiation. High-dose-rate (20 Gy/s) and ultra-high-dose-rate (FLASH, 40 Gy/s) irradiation produced oxygen depletion. During FLASH irradiation, with the increase of oxygen content, the oxygen depletion was 0.1-0.2 mm Hg/Gy for tumor tissue and 0.19-0.21 mm Hg/Gy for skin tissue, which tended to stabilize. FLASH irradiation maintained equivalent tumor control compared to conventional irradiation. The tumoricidal effect was significantly enhanced with the increase of oxygen content in the tissue ( t=3.46, P<0.01). In in vitro experiments, the mean oxygen depletion rate was about 0.16 mm Hg/Gy for conventional irradiation and 0.16-0.18 mm Hg/Gy for FLASH irradiation, which did not change significantly with the increase of oxygen content. FLASH irradiation was associated with an oxygen effect. When the partial pressure of oxygen decreased from physioxia to hypoxia, the OER value significantly reduced. Conclusions:Normal tissues and organs are in physioxia, which exhibits a lower oxygen content than that in the air. FLASH irradiation can consume a proportion of oxygen, producing an oxygen effect. When oxygen content decreases, the oxygen depletion rate slows down after FLASH irradiation.

In recent years, the development of bispecific antibodies (bsAbs) has been rapid, with many new structures and target combinations being created. The boom in bsAbs has led to the successive issuance of industry guidance for their development in the US and China. However, there is a high degree of similarity in target selection, which could affect the development of diversity in bsAbs. This review presents a classification of various bsAbs for cancer therapy based on structure and target selection and examines the advantages of bsAbs over monoclonal antibodies (mAbs). Through database research, we have identified the preferences of available bsAbs combinations, suggesting rational target selection options and warning of potential wastage of medical resources. We have also compared the US and Chinese guidelines for bsAbs in order to provide a reference for their development.

Hematopoietic stem cell (HSC) transplantation is the only curative therapy for many diseases. HSCs from umbilical cord blood (UCB) source have many advantages over from bone marrow. However, limited HSC dose in a single CB unit restrict its widespread use. Over the past two decades, ex vivo HSC expansion with small molecules has been an effective approach for obtaining adequate HSCs. Till now, several small-molecule compounds have entered the phase I/II trials, showing safe and favorable pharmacological profiles. As HSC expansion has become a hot topic over recent years, many newly identified small molecules along with novel biological mechanisms for HSC expansion would help solve this challenging issue. Here, we will give an overview of HSC biology, discovery and medicinal chemistry development of small molecules, natural products targeting for HSC expansion, and their recent clinical progresses, as well as potential protein targets for HSC expansion.

Scar is a kind of skin fibroproliferative disease characterized by excessive repair of skin tissue and disorganized deposition of extracellular matrix resulting from deep dermal injury caused by burns or trauma. Scar is accompanied by symptoms such as itching and pain, which could lead to appearance damage and psychological disorders, and is one of the common diseases in burns and plastic surgery clinics. Currently, transplantation of adipose tissue and components is considered as one of the most cutting-edge treatments for scar. Adipose components transplantation includes transplantation of nanofat, adipose-derived stem cell matrix gel, stromal vascular fraction, and adipose-derived stem cell. More and more studies showed that adipose tissue and components possess the functions of tissue regeneration, extracellular matrix remodeling, and anti-fibrosis, which could improve the appearance and symptoms of scar by local transplantation. Therefore, this paper reviews the effects of adipose tissue and components transplantation on scar treatment, aiming to provide theoretical reference for adipose treatment of scar.

Objective: To explore the clinical application of facial artery perforator flap in repairing medium-size midfacial defects. Methods: Sixteen patients with facial tumors or trauma were admitted in the Affiliated Hospital of Zunyi Medical University, from October 2017 to March 2018. The patients were 41—74 years of age, including 8 males and 8 females. The tissue defects were caused by basal cell carcinoma(BCC, n=10), trauma (n=4), and squamous cell carcinoma (SqCa, n=2). The size of tumor and trauma ranged from 0.3 cm×2 cm to 2 cm×4 cm. Patients with skin tumors undergone extended radical resection, according to the nature of the tumor. Debridement was performed routinely in patients with trauma. Facial artery perforator flap was designed based on the size and shape of defect area. The scar of donor site was as parallel or hidden in the nasolabial groove. The perforator branch of the lateral nasal artery was used as the pivot point, to cover the wound surface without tension. The ipsilateral secondary relay flap pedicled with the perforator of the nasal artery was designed, which was in triangular shape and slightly larger in size than the primary flap. The pedicle was located in the middle of the flap, then the flap was pushed to cover the donor site of primary flap. The postoperative results were evaluated by patients. Results: All primary and secondary relay skin flaps survived. The follow-up period of the first stage was 3—12 months, with an average of 7.5 months. There was no obvious scar, no eyelid eversion or angular deviation, and no recurrence of tumor was observed. The primary and secondary flaps have similar appearance and matched color with normal skin. Ten patients were very satisfied with the surgical outcome, and 6 were satisfied, at the latest follow-up. Conclusions The facial artery perforator relay skin flap is an alternative method to repair medium facial defect.

Objective: To explore the effect of exercise preconditioning (EP) on pathological cardiac hypertrophy and heart failure (HF) in pressure over-loaded experimental rats.
Methods:A total of 60 SD rats at the age of 6 weeks were randomly divided into 3 groups, n=20 in each group. Sham-operation group, Transverse aortic constriction (TAC) group and EP + TAC group. The cardiac function and structure were evaluated by echocardiography, patholgical changes and HF biomarkers were examined for EP effect at 4 and 8 weeks after TAC.
Results:Compared with Sham-operation group, the cardiac function and structure had obvious changes in the other 2 groups. Compared with TAC group, the ejection fraction in EP+ TAC group increased 15%, the heart weight index and left ventricular weight index decrease 15.7%and 20%respectively at 8 weeks after TAC, all P<0.05. Compared with Sham-operation group, the mRNA and protein expressions of ANP and BNP increased in TAC group at 4 and 8 weeks after TAC, increased in EP+TAC group at 8 week after TAC. Compared with TAC group, the mRNA expressions of ANP and BNP in EP+TAC group decreased 47%and 62%at 4 weeks after TAC, decreased 44%and 28.1%at 8 weeks after TAC, all P<0.05;the protein expression of ANP and BNP in EP+TAC group decreased 22.3%and 48%at 4 weeks after TAC, decreased 21.5%and 38.3%at 8 weeks after TAC, all P<0.01.
Conclusion: EP may improve cardiac pathological hypertrophy in pressure over-loaded rats at the early stage, and delay the heart failure process.

Objective Three-dimension (3D) cell matrix adhesion in vivo is fundamentally important for a wide variety of cellular physiological and pathological phenomena, however, the cell-matrix 3D adhesion is hardly observed in vitro. We present the human foreskin fibroblasts (HFF) formed 3D adhesion complexes on the thoroughly acellular human amniotic matrix (TAHAM). Methods TAHAM were produced by suspending digestion with trypsin. The HFF were seeded on 6 well plate, matrigel and TAHAM individually.The light microscope, scanning electronic microscope, immunohistochemistry and immunofluorescence were used to observe the micro-structures and detect the type Ⅰ , Ⅲ, Ⅳ, Ⅵ collagen, laminin, fibronectin, TGF-β1, TGF-β2, FGF of the TAHAM. Phase contrast microscope was engaged to observe the morphology of HFF. The time-lapse CCD and the trace analysis software were employed to prescribe the cell migration. The 3D adhesion foci were identified by the laser confocal microscope. The strain of the TAHAM was tested by the universal mechanical testing instrument. Results The fibers of the TAHAM were intact, type Ⅰ , Ⅲ,Ⅳ, Ⅵ collagen, laminin, fibronectin were positive, TGF-β1, TGF-β2, FGF were negative. HFF had a bipolar extension to form multilayer cell clusters networks and grew into the matrix. All of the seeded cells survived three weeks under regular culture without transfer. On TAHAM, HFF moved in a straight line with a speed of 12 μm/h. α5 integrin (green), paxillin (red) and fibronectin (blue) co localized to form 3D adhesion complexes (white). Conclusion The main molecular components and biomechanical properties is preserved in TAHAM. HFF forms 3D adhesion complexes on TAHAM. Cell morphology and migration of HFF on TAHAM correspond to that under 3D adhesion behavior.

Small cell carcinoma of cervix (SCCC) is a rare disease with highly aggressive behaviour and is pathologically hard to diagnose. In this study, the clinicopathological features, diagnosis, treatment and prognosis of the condition were examined. Clinical records and follow-up data of 7 cases of SCCC were retrospectively studied. Our results showed that five non-recurrent cases initially presented irregular vaginal bleeding or increased apocenosis of varying degrees. Pathological examination revealed that the stroma was diffusely infiltrated with small monomorphous cells ranging from round to oval shape. Three cases were immunohistochemically confirmed. One case was accompanied with squamous cell cancer. Of the 7 cases, one case was classified as stage I b1, two stage I b2, one stage IIa, one stage IIb, and one stage IIIb. On the basis of their stages of condition, one subject with stage III b underwent chemotherapy, and one with stage Ib2 received extensive hysterectomy plus pelvic lymphadenectomy, while the other 5 cases were treated by extensive hysterectomy and pelvic lymphadenectomy in combination with pre- and/or post-operative adjuvant chemotherapy and radiotherapy. Of the 7 patients, 4 had relapse-free survival of 14, 14, 16 and 28 months respectively. It is concluded that SCCC is an aggressive tumor with propensity for early pelvis lymph node metastases. Early-stage patients should be treated by extensive hysterectomy and pelvic lymphadenectomy in combination with pre- and/or post-operative adjuvant chemotherapy and radiotherapy.