【摘 要】
:
Background: Static magnetic fields (SMFs) have been applied to various aspects of medical therapy for cancer treatment.Some studies showed that the static magnetic fields with or without gradient have
【机 构】
:
Key Laboratory for Space Biosciences and Biotechnology, Institute of Special Environmental Biophysic
论文部分内容阅读
Background: Static magnetic fields (SMFs) have been applied to various aspects of medical therapy for cancer treatment.Some studies showed that the static magnetic fields with or without gradient have diverse effects on biological systems.In this study,we investigated the effects of a gradient static magnetic field (GSMF 0.2-0.4 T, 2.09 T/m) on tumor cell mechanical property and membrane ultrastructure.
其他文献
Mechanical factors are important in the development, growth, and maintenance of tissues as well for functions such as bone production, muscle contraction, and cardiovascular tissue remodeling.
Tendon and ligament injuries constitute an unmet clinical need with approximately 100,000 new cases annually in US alone.Tissue grafts are considered the gold standard in clinical practice.
Adipose-derived stem cells (ASCs)hold promise for cartilage regeneration but their chondrogenesis potentialis inferior.Here we employed a baculovirus system that exploited FLPo/Frt-mediated transgene
Introduction:Tricalcium phosphate (β-TCP)is osteoconductive, while calcium silicate (β-CS)is bioactive with osteostimulative property.
Hyaline cartilage has very restricted regeneration capacity,the treatment of full-thickness cartilage lesions has represented a difficult challenge.
In vitro tissue regeneration is an important direction for clinical translation and industrialization of tissue engineered product.Cartilage is a kind of tissue fitting for in vitro regeneration due t
[Introduction] It is well known that cartilage defects in the knee rarely heal.Cartilage defects are a major health care problem due to high prevalence, absence of curative treatment, and propensity t
One of the most common and challenging injuries for physicians to treat is cartilage damage in joints.The structure and function of articular cartilage leads to non-healing lesions or the formation of
Osteoarthritis and cartilage injuries are the challenge in orthopedic clinical practice.Tissue engineering approach provides a promising strategy to develop new therapeutics.
The current challenge in cartilage research is to develop the ability to repair chondraldefects in synovial joints to prevent early onset of osteoarthritis with a view eventually to biologically resur