1.Mitochondrial Oxidative Stress Enhances Vasoconstriction by Altering Calcium Homeostasis in Cerebrovascular Smooth Muscle Cells under Simulated Microgravity.
Zi Fan LIU ; Hai Ming WANG ; Min JIANG ; Lin WANG ; Le Jian LIN ; Yun Zhang ZHAO ; Jun Jie SHAO ; Jing Jing ZHOU ; Man Jiang XIE ; Xin LI ; Ran ZHANG
Biomedical and Environmental Sciences 2021;34(3):203-212
Objective:
Exposure to microgravity results in postflight cardiovascular deconditioning in astronauts. Vascular oxidative stress injury and mitochondrial dysfunction have been reported during this process. To elucidate the mechanism for this condition, we investigated whether mitochondrial oxidative stress regulates calcium homeostasis and vasoconstriction in hindlimb unweighted (HU) rat cerebral arteries.
Methods:
Three-week HU was used to simulate microgravity in rats. The contractile responses to vasoconstrictors, mitochondrial fission/fusion, Ca
Results:
An increase of cytoplasmic Ca
Conclusion
The present results suggest that mitochondrial oxidative stress enhances cerebral vasoconstriction by regulating calcium homeostasis during simulated microgravity.
Animals
;
Calcium/metabolism*
;
Cerebral Arteries
;
Homeostasis
;
Male
;
Mitochondria/physiology*
;
Myocytes, Smooth Muscle/physiology*
;
Oxidative Stress
;
Rats
;
Rats, Sprague-Dawley
;
Vasoconstriction/physiology*
;
Weightlessness Simulation
2.A Simple and Nonenzymatic Method to Isolate Human Corpus Cavernosum Endothelial Cells and Pericytes for the Study of Erectile Dysfunction
Guo Nan YIN ; Jiyeon OCK ; Min Ji CHOI ; Kang Moon SONG ; Kalyan GHATAK ; Nguyen Nhat MINH ; Mi Hye KWON ; Do Hwan SEONG ; Hai Rong JIN ; Ji Kan RYU ; Jun Kyu SUH
The World Journal of Men's Health 2020;38(1):123-131
gravity into dishes. We performed immunocytochemistry and Western blot to determine phenotype and morphologic changes from passage 1 to 5. The primary cultured cells were exposed to a normal-glucose (5 mmol/L) or a high-glucose (30 mmol/L) condition, and then tube formation assay was done.RESULTS: We successfully isolated high-purity EC and pericytes from human corpus cavernosum tissue. Primary cultured EC showed highly positive staining for von Willebrand factor, and pericyte revealed positive staining for NG2 and platelet-derived growth factor receptor-β. Primary cultured EC and pericytes maintained their cellular characteristics up to passage 2 or 3. However, we observed significant changes in their typical phenotype from the passage 4 and morphological characteristics from the passage 3. Human cavernous EC or pericytes formed well-organized capillary-like structures in normal-glucose condition, whereas severely impaired tube formation was detected in high-glucose condition.CONCLUSIONS: This study provides a simple and nonenzymatic method for primary culture of human cavernous EC and pericytes. Our study will aid us to understand the pathophysiology of diabetic erectile dysfunction, and also be a valuable tool for determining the efficacy of candidate therapeutic targets.]]>
Blotting, Western
;
Cells, Cultured
;
Diabetes Mellitus
;
Endothelial Cells
;
Erectile Dysfunction
;
Gravitation
;
Humans
;
Immunohistochemistry
;
Male
;
Methods
;
Pericytes
;
Phenotype
;
Platelet-Derived Growth Factor
;
von Willebrand Factor
3.Collagen Peptides Improve Lymphocyte Distribution in Peripheral Blood and T Lymphocyte Proliferation in Spleen of Mice under the Condition of Simulated Weightlessness.
Shao-Yan SI ; Bing-Xin XU ; Ying-Ying WU ; Ya-Ya QIN ; Ran DUAN ; Shu-Jun SONG
Journal of Experimental Hematology 2020;28(3):1001-1005
OBJECTIVE:
To investigate whether collagen peptides can improve the immune functions of mice under the condition of simulated weightlessness.
METHODS:
Mouse tail-suspension model was used to simulate the effects of weightlessness. Tail-suspended mice were intraperitoneally injected with 600 mg collagen peptides per kilogram body weight once a day for 10 days. Then, the mice were killed, and white blood cells were counted and classified. Lymphocyte subsets and T lymphocyte proliferations in spleens were analyzed.
RESULTS:
Compared with normal control group, total and differential count of leukocytes, lymphocytes, T cells,CD4 and CD8 T cells, B cells and NK cells, and splenic T lymphocyte proliferation all decreased in the weightlessness simulated mice (P<0.05). Except for NK cells, the above-mentioned parameters were increased after administration of collagen peptides, and some of the parameters were recovered to the levels of normal control mice (P<0.05).
CONCLUSION
Collagen peptides can effectively improve peripheral blood lymphocyte distributions and T lymphocyte proliferations of mice under the condition of simulated weightlessness. This study nay provid the experimental basis for improvement of immune functions of astronauts.
Animals
;
CD8-Positive T-Lymphocytes
;
Cell Proliferation
;
Collagen
;
Lymphocyte Count
;
Mice
;
Peptides
;
Spleen
;
Weightlessness
;
Weightlessness Simulation
4.The Impacts of Simulated Microgravity on Rat Brain Depended on Durations and Regions.
Bo CHEN ; Yu Shi ZHANG ; George LI ; Jun-Lae CHO ; Yu Lin DENG ; Yu Juan LI
Biomedical and Environmental Sciences 2019;32(7):496-507
OBJECTIVE:
To explore the dynamic impacts of simulated microgravity (SM) on different vital brain regions of rats.
METHODS:
Microgravity was simulated for 7 and 21 days, respectively, using the tail-suspension rat model. Histomorphology, oxidative stress, inflammatory cytokines and the expression of some key proteins were determined in hippocampus, cerebral cortex and striatum.
RESULTS:
21-day SM decreased brain derived neurotrophic factor and induced neuron atrophy in the cerebral cortex. Strong oxidative stress was triggered at day 7 and the oxidative status returned to physiological level at day 21. Inflammatory cytokines were gradually suppressed and in striatum, the suppression was regulated partially through c-Jun/c-Fos.
CONCLUSION
The results revealed that the significant impacts of SM on rat brain tissue depended on durations and regions, which might help to understand the health risk and to prevent brain damage for astronauts in space travel.
Animals
;
Brain
;
metabolism
;
pathology
;
Brain-Derived Neurotrophic Factor
;
metabolism
;
Cytokines
;
metabolism
;
Male
;
Oxidative Stress
;
Proto-Oncogene Proteins c-fos
;
metabolism
;
Proto-Oncogene Proteins c-jun
;
metabolism
;
Random Allocation
;
Rats
;
Weightlessness Simulation
5.Different Types of Low-frequency Electromagnetic Fields Resist Bone Loss Caused by Weightlessness.
Wen Yuan LI ; Yong Hui TIAN ; Yu Hai GAO ; Bao Ying ZHU ; Hui Rong XI ; Ke Ming CHEN
Acta Academiae Medicinae Sinicae 2019;41(1):11-20
Objective To compare the effects of 50-Hz 0.6-mT low-frequency pulsed electromagnetic fields(PEMFs) and 50-Hz 1.8-mT sinusoidal alternating electromagnetic fields(SEMFs) in preventing bone loss in tail-suspended rats,with an attempt to improve the prevention and treatment of bone loss caused by weightlessness.Methods Tail-suspension rat models were used to simulate microgravity on the ground. Forty rats were randomly divided into four groups[control group,hindlimb-suspended(HLS) group,HLS+PEMFs group,and HLS+SEMFs group],with 10 rats in each group. In the PEMFs treatment group and SEMFs treatment group,the intervention was 90 min per day. Rats were sacrificed after four weeks. Bone mineral density(BMD) of femur and vertebra was measured by dual-energy X-ray absorptiometry and biomechanical strength by AG-IS biomechanical instrument. Serum osteocalcin(OC),tartrate-resistant acid phosphatase 5b(Tracp 5b),parathyroid hormone(PTH),and cyclic adenosine monophosphate(cAMP) were detected by ELISA. The microstructure of bone tissue was observed by Micro-CT and HE staining.Results The BMD of the femur(P=0.000) and vertebrae(P=0.001) in the HLS group was significantly lower than in the control group;the BMD of the femurs(P=0.001) and vertebrae(P=0.039) in the HLS+PEMFs group was significantly higher than in the HLS group;the BMD of the femurs in the HLS+SEMFs group was significantly higher than in the HLS group(P=0.003),but the BMD of the vertebrae showed no significant difference(P=0.130). There was no significant difference in the BMD of the femur(P=0.818) and vertebrae(P=0.614) between the HLS+PEMFs group and the HLS+SEMFs group. The maximum load(P=0.000,P=0.009) and elastic modulus(P=0.015,P=0.009) of the femurs and vertebrae in the HLS group were significantly lower than those in the control group;the maximum load of the femur(P=0.038) and vertebrae(P=0.087) in the HLS+PEMFs group was significantly higher than that in the HLS group,but the elastic modulus was not significantly different from that in the HLS group(P=0.324,P=0.091). The maximum load(P=0.190,P=0.222) and elastic modulus(P=0.512,P=0.437) of femurs and vertebrae in the HLS+SEMFs group were not significantly different from those in the HLS group. There were no significant differences in the maximum load and elastic modulus of femurs(P=0.585,P=0.948) and vertebrae(P=0.668,P=0.349) between the HLS+PEMFs group and the HLS+SEMFs group. The serum OC level in the HLS group was significantly lower than that in the control group(P=0.000),and the OC level in HLS+PEMFs group(P=0.000) and HLS+SEMFs group(P=0.006) were significantly higher than that in the HLS group. The serum Tracp 5b concentration in the HLS group was significantly higher than that in the control group(P=0.011). There was no significant difference between the HLS+PEMFs group(P=0.459) and the HLS+SEMFs group(P=0.469) compared with the control group.Serum Tracp 5b concentrations in the HLS+PEMFs group(P=0.056) and the HLS+SEMFs group(P=0.054) were not significantly different from those in the HLS group. The PTH(P=0.000) and cAMP concentrations(P=0.000) in the HLS group were significantly lower than those in the control group. The PTH(P=0.000,P=0.000) and cAMP concentrations(P=0.000,P=0.000) in the HLS+PEMFs group and the HLS+SEMFs group were significantly higher than in the HLS group. The femoral cancellous bone of the HLS group was very sparse and small compared with the control group. The density and volume of the cancellous bone were similar among the control group,HLS+PEMFs group,and HLS+SEMFs group. Compared with the control group,the HLS group had lower BMD(P=0.000),bone volume (BV)/tissue volume(TV)(P=0.000),number of trabecular bone (Tb.N)(P=0.000),and trabecular thickness(Tb.Th)(P=0.000) and higher trabecular bone dispersion(Tb.Sp)(P=0.000) and bone surface area(BS)/BV(P=0.000). Compared with the HLS group,the HLS+PEMFs group and the HLS+SEMFs group had significantly lower Tb.Sp(P=0.000,P=0.000) and BS/BV(P=0.000,P=0.000) and significantly increased BMD(P=0.000,P=0.000),BV/TV(P=0.001,P=0.004),Tb.Th(P=0.000,P=0.001),and Tb.N(P=0.000,P=0.001). The trabecular thickness significantly differed between the HLS+PEMFs group and the HLS+SEMFs group(P=0.024). The HLS group(P=0.000),HLS+PEMFs group(P=0.000),and HLS+SEMFs group(P=0.000) had the significantly lower osteoblast density on the trabecular bone surface than the control group;however,it was significantly higher in the HLS+SEMFs group(P=0.000) and the HLS+PEMFs group(P=0.000) than in the HLS group. The HLS group had significantly lower density of osteoblasts in the endothelium than the control group(P=0.000);however,the density of osteoblasts was significantly higher in HLS+PEMFs group(P=0.000) and HLS+SEMFs group(P=0.000) than HLS group and was significantly higher in HLS+PEMFs group than in HLS+SEMFs group(P=0.041). Compared with the control group,a large number of fatty cavities were produced in the bone marrow cavity in the HLS group,but the fat globules remarkably decreased in the treatment groups,showing no significant difference from the control group. The number of adipose cells per mm bone marrow in the HLS group was 4 times that of the control group(P=0.000);it was significantly smaller in the HLS+PEMFs group(P=0.000) and HLS+SEMFs group(P=0.000) than in the HLS group,whereas the difference between the HLS+PEMFs group and the HLS+SEMFs group was not statistically significant(P=0.086). Conclusions 50-Hz 0.6-mT PEMFs and 50-Hz 1.8-mT SEMFs can effectively increase bone mineral density and biomechanical values in tail-suspended rats,increase the concentration of bone formation markers in rat blood,activate the cAMP pathway by affecting PTH levels,and thus further increase the content of osteoblasts to prevent the deterioration of bone micro-structure. In particular,PEMFs can prevent the reduction of bone mineral density and maximum load value by about 50% and increase the bone mass of tail-suspended rats by promoting bone formation.
Absorptiometry, Photon
;
Animals
;
Bone Density
;
Electromagnetic Fields
;
Femur
;
Rats
;
Rats, Sprague-Dawley
;
Weightlessness
6.Research of simulated microgravity regulate MC3T3-E1 cells differentiation through the nuclear factor-kappa B signaling pathway.
Biao HAN ; Yang ZHANG ; Hao LI ; Shuping WEI ; Ruixin LI ; Xizheng ZHANG
Journal of Biomedical Engineering 2019;36(3):421-427
In this study, we aim to investigat the effect of microgravity on osteoblast differentiation in osteoblast-like cells (MC3T3-E1). In addition, we explored the response mechanism of nuclear factor-kappa B (NF-κB) signaling pathway to "zero- " in MC3T3-E1 cells under the simulated microgravity conditions. MC3T3-E1 were cultured in conventional (CON) and simulated microgravity (SMG), respectively. Then, the expression of the related osteoblastic genes and the specific molecules in NF-κB signaling pathway were measured. The results showed that the mRNA and protein levels of alkaline phosphatase (ALP), osteocalcin (OCN) and type Ⅰ collagen (CoL-Ⅰ) were dramatically decreased under the simulated microgravity. Meanwhile, the NF-κB inhibitor α (IκB-α) protein level was decreased and the expressions of phosphorylation of IκB-α (p-IκB-α), p65 and phosphorylation of p65 (p-p65) were significantly up-regulated in SMG group. In addition, the IL-6 content in SMG group was increased compared to CON. These results indicated that simulated microgravity could activate the NF-κB pathway to regulate MC3T3-E1 cells differentiation.
3T3 Cells
;
Animals
;
Cell Differentiation
;
Mice
;
NF-kappa B
;
physiology
;
Osteoblasts
;
Signal Transduction
;
Weightlessness Simulation
7.A modified protocol for generating the simulated weightlessness rat model.
Zi Hao FU ; Zhen WANG ; Jie WU ; Hong Yan YANG ; Xing ZHANG ; Feng GAO ; Jia LI
Chinese Journal of Applied Physiology 2019;35(2):189-192
OBJECTIVE:
To introduce a modified protocol for generating the simulated weightlessness rat model by hindlimb unloading.
METHODS:
Ninety male adult SD rats were randomly divided into three groups: the control group, classical suspension group and modified suspension group (n=30/group). In the classical suspension group, a strip of medical adhesive tape was attached to the tail, with horizontal filament tape wrapping. A piece of gauze was wrapped around the tail at the outermost layer and the tail was suspended for hindlimb unloading. In the modified suspension group, a layer of plastic net was added between the horizontal filament tape and the gauze to reduce the squeeze on the tail as a buffer zone and ensure proper circulation of the tail. After 4 weeks of suspension, damage to the tail and sheath detachment were observed. Meanwhile the body weight and right soleus wet weight of rats were measured.
RESULTS:
The ratio of right soleus wet weight to body weight was decreased significantly in both the classical suspension group and the modified suspension group compared with the control group, while there was no difference in body weight among the three different groups. Importantly, the incidence of tail ischemia and necrosis (13.3% vs 40.0% in the classical suspension group) and the incidence of sheath detachment from tail (3.3% vs 26.7% in the classical suspension group) were significantly lower whereas the success rates of model (33.3% vs 83.3% in classical suspension group) was significantly higher in the modified suspension group.
CONCLUSION
The modified protocol decreases the incidence of tail necrosis and sheath detachment in the rat tail suspension and increases the success rate of the hindlimb unloading rat model, with improved simplicity and practicability.
Animals
;
Hindlimb Suspension
;
Male
;
Muscle, Skeletal
;
Random Allocation
;
Rats
;
Rats, Sprague-Dawley
;
Weightlessness Simulation
;
methods
8.Effects of Virtual Reality Horse Riding Simulator Training Using a Head-Mounted Display on Balance and Gait Functions in Children with Cerebral Palsy: A Preliminary Pilot Study
Hae Won KIM ; Ki Seok NAM ; Sung Min SON
Journal of Korean Physical Therapy 2019;31(5):273-278
PURPOSE: The purpose of this study was to investigate the effects of three-dimensional virtual reality horse riding simulator training using a head-mounted display on gait and balance in children with cerebral palsy.METHODS: Ten children with cerebral palsy were randomly assigned to the horse riding simulator (HRS) group (n=5) or the horse riding simulator with virtual reality (HRSVR) group (n=5). To evaluate balance, center of gravity (COG) sway velocity and total sway distance of each group were assessed using the Wii balance board, and gait speed and stride length of each group were assessed using a gait analysis system.RESULTS: Intra-group comparisons between pre- and post-intervention measures revealed that there were significant changes in all gait and balance variables such as stride length, gait velocity, COG sway velocity and COG sway distance in the HRSVR group (p<0.05). In the HRS group, there were significant changes in all variables except stride length (p<0.05). In addition, inter-group comparisons showed significant differences between the two groups in stride length, gait velocity and COG sway distance except COG sway velocity (p<0.05).CONCLUSION: The findings of this study suggest that horse riding simulator training combined with 3D virtual reality can be a new positive therapeutic approach for improving functional performance in children with cerebral palsy.
Cerebral Palsy
;
Child
;
Gait
;
Gravitation
;
Horses
;
Humans
;
Pilot Projects
9.Points to consider before the insertion of maxillary implants: the otolaryngologist's perspective
Sung Won KIM ; Il Hwan LEE ; Soo Whan KIM ; Do Hyun KIM
Journal of Periodontal & Implant Science 2019;49(6):346-354
Maxillary implants are inserted in the upward direction, meaning that they oppose gravity, and achieving stable support is difficult if the alveolar bone facing the maxillary sinus is thin. Correspondingly, several sinus-lifting procedures conducted with or without bone graft materials have been used to place implants in the posterior area of the maxilla. Even with these procedures available, it has been reported that in about 5% of cases, complications occurred after implantation, including acute and chronic sinusitis, penetration of the sinus by the implant, implant dislocation, oroantral fistula formation, infection, bone graft dislocation, foreign-body reaction, Schneiderian membrane perforation, and ostium plugging by a dislodged bone graft. This review summarizes common maxillary sinus pathologies related to implants and suggests an appropriate management plan for patients requiring dental implantation.
Dental Implantation
;
Dental Implants
;
Dislocations
;
Foreign-Body Reaction
;
Gravitation
;
Humans
;
Maxilla
;
Maxillary Sinus
;
Maxillary Sinusitis
;
Nasal Mucosa
;
Oroantral Fistula
;
Pathology
;
Postoperative Complications
;
Sinusitis
;
Transplants
10.Finite element analysis of long-term changes of the breast after augmentation mammoplasty: Implications for implant design
Yujin MYUNG ; Jong Gu LEE ; Maenghyo CHO ; Chan Yeong HEO
Archives of Plastic Surgery 2019;46(4):386-389
The development of breast implant technology continues to evolve over time, but changes in breast shape after implantation have not been fully elucidated. Thus, we performed computerized finite element analysis in order to better understand the trajectory of changes and stress variation after breast implantation. The finite element analysis of changes in breast shape involved two components: a static analysis of the position where the implant is inserted, and a dynamic analysis of the downward pressure applied in the direction of gravity during physical activity. Through this finite element analysis, in terms of extrinsic changes, it was found that the dimensions of the breast implant and the position of the top-point did not directly correspond to the trajectory of changes in the breast after implantation. In addition, in terms of internal changes, static and dynamic analysis showed that implants with a lower top-point led to an increased amount of stress applied to the lower thorax. The maximum stress values were 1.6 to 2 times larger in the dynamic analysis than in the static analysis. This finding has important implications for plastic surgeons who are concerned with long-term changes or side effects, such as bottoming-out, after anatomic implant placement.
Breast Implantation
;
Breast Implants
;
Breast
;
Computer Simulation
;
Female
;
Finite Element Analysis
;
Gravitation
;
Mammaplasty
;
Motor Activity
;
Plastics
;
Surgeons
;
Thorax

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