Bone Healing Cancer Research Results
Bone Healing, Bone Healing: Click to Expand ⟱
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Bone Healing
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Scientific Papers found: Click to Expand⟱
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ROS↑, action mechanisms of AgNPs, which mainly involve the release of silver ions (Ag+), generation of reactive oxygen species (ROS), destruction of membrane structure.
eff↑, briefly introduce a new type of Ag particles smaller than AgNPs, silver Ångstrom (Å, 1 Å = 0.1 nm) particles (AgÅPs), which exhibit better biological activity and lower toxicity compared with AgNPs.
other↝, This method involves reducing silver ions to silver atoms 9, and the process can be divided into two steps, nucleation and growth
DNAdam↑, antimicrobial mechanisms of AgNPs includes destructing bacterial cell walls, producing reactive oxygen species (ROS) and damaging DNA structure
EPR↑, Due to the enhanced permeability and retention (EPR) effect, tumor cells preferentially absorb NPs-sized bodies than normal tissues
eff↑, Large surface area may lead to increased silver ions (Ag+) released from AgNPs, which may enhance the toxicity of nanoparticles.
eff↑, Our team prepared Ångstrom silver particles, capped with fructose as stabilizer, can be stable for a long time
TumMeta↓, AgNPs can induce tumor cell apoptosis through inactivating proteins and regulating signaling pathways, or blocking tumor cell metastasis by inhibiting angiogenesis
angioG↓, Various studies support that AgNPs can deprive cancer cells of both nutrients and oxygen via inhibiting angiogenesis
*Bacteria↓, Rather than Gram-positive bacteria, AgNPs show a stronger effect on the Gram-negative ones. This may be due to the different thickness of cell wall between two kinds of bacteria
*eff↑, In general, as particle size decreases, the antibacterial effect of AgNPs increases significantly
*AntiViral↑, AgNPs with less than 10 nm size exhibit good antiviral activity 185, 186, which may be due to their large reaction area and strong adhesion to the virus surface.
*AntiFungal↑, Some studies confirm that AgNPs exhibit good antifungal properties against Colletotrichum coccodes, Monilinia sp. 178, Candida spp.
eff↑, The greater cytotoxicity and more ROS production are observed in tumor cells exposed to high positive charged AgNPs
eff↑, Nanoparticles exposed to a protein-containing medium are covered with a layer of mixed protein called protein corona. formation of protein coronas around AgNPs can be a prerequisite for their cytotoxicity
TumCP↓, Numerous experiments in vitro and in vivo have proved that AgNPs can decrease the proliferation and viability of cancer cells.
tumCV↓,
P53↝, gNPs can promote apoptosis by up- or down-regulating expression of key genes, such as p53 242, and regulating essential signaling pathways, such as hypoxia-inducible factor (HIF) pathway
HIF-1↓, Yang et al. found that AgNPs could disrupt the HIF signaling pathway by attenuating HIF-1 protein accumulation and downstream target genes expression
TumCCA↑, Cancer cells treated with AgNPs may also show cell cycle arrest 160, 244
lipid-P↑, Ag+ released by AgNPs induces oxidation of glutathione, and increases lipid peroxidation in cellular membranes, resulting in cytoplasmic constituents leaking from damaged cells
ATP↓, mitochondrial function can be inhibited by AgNPs via disrupting mitochondrial respiratory chain, suppressing ATP production
Cyt‑c↑, and the release of Cyt c, destroy the electron transport chain, and impair mitochondrial function
MMPs↓, AgNPs can also inhibit the progression of tumors by inhibiting MMPs activity.
PI3K↓, Various studies support that AgNPs can deprive cancer cells of both nutrients and oxygen via inhibiting angiogenesis
Akt↓,
*Wound Healing↑, AgNPs exhibit good properties in promoting wound repair and bone healing, as well as inhibition of inflammation.
*Inflam↓,
*Bone Healing↑,
*glucose↓, blood glucose level of diabetic rats decreased when treated with AgNPs for 14 days and 21 days without significant acute toxicity.
*AntiDiabetic↑,
*BBB↑, The small-sized AgNPs are easy to penetrate the body and cross biological barriers like the blood-brain barrier and the blood-testis barrier
Showing Research Papers: 1 to 1 of 1
* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 1
Pathway results for Effect on Cancer / Diseased Cells:
Redox & Oxidative Stress ⓘ
lipid-P↑, 1, ROS↑, 1,
Mitochondria & Bioenergetics ⓘ
ATP↓, 1,
Cell Death ⓘ
Akt↓, 1, Cyt‑c↑, 1,
Transcription & Epigenetics ⓘ
other↝, 1, tumCV↓, 1,
DNA Damage & Repair ⓘ
DNAdam↑, 1, P53↝, 1,
Cell Cycle & Senescence ⓘ
TumCCA↑, 1,
Proliferation, Differentiation & Cell State ⓘ
PI3K↓, 1,
Migration ⓘ
MMPs↓, 1, TumCP↓, 1, TumMeta↓, 1,
Angiogenesis & Vasculature ⓘ
angioG↓, 1, EPR↑, 1, HIF-1↓, 1,
Drug Metabolism & Resistance ⓘ
eff↑, 5,
Total Targets: 18
Pathway results for Effect on Normal Cells:
Core Metabolism/Glycolysis ⓘ
glucose↓, 1,
Barriers & Transport ⓘ
BBB↑, 1,
Immune & Inflammatory Signaling ⓘ
Inflam↓, 1,
Drug Metabolism & Resistance ⓘ
eff↑, 1,
Functional Outcomes ⓘ
AntiDiabetic↑, 1, Bone Healing↑, 1, Wound Healing↑, 1,
Infection & Microbiome ⓘ
AntiFungal↑, 1, AntiViral↑, 1, Bacteria↓, 1,
Total Targets: 10
Scientific Paper Hit Count for: Bone Healing, Bone Healing
Query results interpretion may depend on "conditions" listed in the research papers.
Such Conditions may include :
-low or high Dose
-format for product, such as nano of lipid formations
-different cell line effects
-synergies with other products
-if effect was for normal or cancerous cells
Filter Conditions: Pro/AntiFlg:% IllCat:% CanType:% Cells:% prod#:% Target#:1384 State#:% Dir#:2
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