Bone cell apoptosis increases the Spaces of bone trabeculae and decreases the bone mass.
当骨细胞凋亡率增加,可致骨小梁间空隙加大和骨量减少。
Histological analysis showed active bone cell differentiation proliferation increased bone trabecula.
组织学分析显示:骨组织呈活跃增殖分化相,骨小梁增加,骨基质深染。
Histological analysis showed active bone cell differentiation, proliferation, increased bone trabecula.
组织学分析显示:骨组织呈活跃增殖分化相,骨小梁增加,骨基质深染。
Cell Stems are so powerful because they have the amazing ability to transform and grow into other types of cells - such as blood cells or bone cells.
干细胞具有如此强大的功效,原因在于干细胞拥有转化并成长为其他类型细胞- - -如血球或骨小体的神奇能力。
During this period, the appropriate amount of exercise can increase the stimulation to the epiphyseal plate and accelerate the proliferation of bone cell, so as to promote children's bone growth.
这个阶段,适量的锻炼可增加对骨端骺板的刺激,加速骨细胞的增殖,从而促进儿童的骨骼生长。
Or femoral head anemic necrosis, is the femoral head partial blood circulation which causes by many kinds of reasons bad, thus causes the bone cell further ischemia, necrosis, bone young Liang breaks.
或股骨头缺血性坏死,是由多种原因导致的股骨头局部血运不良,从而引起骨细胞进一步缺血、坏死,骨小梁断裂。
The Brazilian team found that human fallopian tube mesenchymal stem cells could be easily isolated and expanded in vitro, and are able to differentiate into muscle, fat, cartilage and bone cell lines.
巴西的研究小组发现,在活体中人类输卵管间质干细胞能轻易的分离和扩展,能分化成肌肉、脂肪、软骨和骨骼细胞株。
We have what are called mesenchymal stem cells. This type of stem cell goes on to become either fat or bone.
间质干细胞是一种有分化潜能的干细胞,它可以分化成脂肪细胞或者骨髓细胞。
The biologist holds patents including a cell nanoinjector that introduces molecules into living cells, artificial bone materials, targets for tuberculosis therapy and cell microarray platforms.
该生物学家拥有包括将分子导入活体细胞的纳米注射器、人工骨科材料、结核病靶标治疗和细胞芯片平台等专利。
There is roughly one adipose stem cell per 100 fat cells. (By comparison, bone marrow contains one per 250, 000 to 400, 000 cells.)
每一百个脂肪细胞中就大概包含一个脂肪干细胞(相比之下,骨髓中是250000至400000个细胞中包含一个干细胞)。
She said it could make bone marrow stem cell transplants an option for more patients, allowing doctors to collect and bank patients' own stem cells for use after high-dose chemotherapy.
她说,这样可以有更多的病人选择骨髓干细胞移植疗法,允许医生收集储存病人自己的干细胞在大剂量的化疗之后使用。
The life of a t cell, and all other blood cells, begins in the bone marrow as a hematopoietic stem cell (HSC).
T细胞和其他任何血细胞的生命史开始于骨髓中的造血干细胞(hsc),造血干细胞具有生成血液中各种细胞的潜能。
Drugs are available that increase white blood-cell production to counter any damage that may have occurred to the bone marrow, and to reduce the risk of further infections due to immune-system damage.
为了使白血球增多以防护辐射对骨髓的损害,在条件允许的情况下可以注射一些药物,这样能够防止其对免疫系统的进一步伤害。
Regions of the body that are most vulnerable to radiation damage include the cells lining the intestine and stomach, and the blood-cell producing cells in the bone marrow.
一些人体区域对辐射产生的破坏异常敏感,这些部位包括肠部和胃部上的细胞,还有骨髓中的造血细胞。
It is hoped the discovery could lead to the creation of stem cell therapies for re-growing bone and tissue, and also for conditions such as arthritis.
我们希望这个新发现能为干细胞治疗骨质和组织再生,还有其他疾病(比如关节炎)翻开崭新的一页。
Autologous stem cell transplant is a procedure using a patient's own bone marrow that is designed to repair damaged bone marrow after the use of high chemotherapy doses.
自身干细胞移植是用患者自身骨髓的方法被设计修复高剂量化疗损伤骨髓。
The most serious side-effect is damage to the bone marrow. Because of this, the white blood cell count should be controlled often enough druing the treatment.
最严重的副作用是骨髓损害,因此在治疗期间,要经常监测白细胞计数。
Every cell and body organization, bone and tendon and organ and muscle is under the control of your subconsciousness.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
They then took samples of Ms Castillo's other bronchus and also her bone marrow and grew them as cell cultures.
他们在Castillo的其他气管取了一些样本,并从她的骨髓中取了一些样品作为细胞培养物。
Every cell, body tissue, bone and tendon of your whole body is under the control of your subconsciousness.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
Every cell and body organization, every bone and muscle tendon, as well as every organ and muscle in your body is controlled by your subconscious mind.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
Objective: To find out a method of extraction and purification of bone morphogenetic protein (BMP) from osteosarcoma cell conditioned medium, and evaluate the biological activity of BMP.
目的探索从骨肉瘤细胞条件培养基中提取骨形态蛋白(BMP)的方法,并测定其生物学活性。
Objective: To find out a method of extraction and purification of bone morphogenetic protein (BMP) from osteosarcoma cell conditioned medium, and evaluate the biological activity of BMP.
目的探索从骨肉瘤细胞条件培养基中提取骨形态蛋白(BMP)的方法,并测定其生物学活性。
Objective To explore the biodynamic properties of bone marrow cells and the relation with cell cell interaction in radiation injury mice.
目的了解放射损伤条件下骨髓细胞的生物力学特性及与细胞间相互作用的关系。
Clinical analysis on23cases of solitary langerhans cell granuloma of long bone.
长骨孤立性朗格罕细胞肉芽肿23例临床分析。
Objective to investigate the preparation of bone acellular extra cell matrix (AECM) and to analyze its component.
目的探讨脱细胞骨细胞外基质(AECM)的制备,并对其进行有机成分分析。
Objective to investigate the preparation of bone acellular extra cell matrix (AECM) and to analyze its component.
目的探讨脱细胞骨细胞外基质(AECM)的制备,并对其进行有机成分分析。
应用推荐