Nanoparticle "TRUE" Colloidal Silver 100PPM 16oz

$39.00

Our nanoparticle “TRUE” Colloidal Silver is derived from 99.99% bioactive silver ions which provides broad-spectrum IMMUNE SYSTEM SUPPORT. It can enhance immunity in times of need, as well as assist in maintaining a strong immune system.

Silver nanoparticles (AgNPs) are ultra-small silver particles with a size from 1 to 100 nanometers. Unlike bulk silver, they have unique physical and chemical properties. Numerous studies have shown that AgNPs have beneficial biological effects on various diseases, including antibacterial, anti-inflammatory, antioxidant, antiparasitic, and antiviruses. One of the most well-known applications is in the field of antibacterial applications, where AgNPs have strong abilities to kill multi-drug resistant bacteria, making them a potential candidate as an antibacterial drug. Recently, AgNPs synthesized from plant extracts have exhibited outstanding antiparasitic effects, with a shorter duration of use and enhanced ability to inhibit parasite multiplication compared to traditional antiparasitic drugs.Due to the small size effect and surface effect of nanoparticles, the release rate of silver ions is significantly higher, and AgNPs can cause direct damage to cell membranes through silver ions, increase the permeability of the cell membrane, and enter many cells, eventually causing apoptosis or necrosis. Due to these properties, the bactericidal effect of AgNPs is significantly higher than that of silver ions.

Research on AgNPs has shown promising results for in vivo applications. In vivo studies have also demonstrated the antibacterial and anticancer properties of AgNPs.

In animal studies, AgNPs have been shown to be effective in treating various infections, including skin, respiratory, urinary tract, and parasitic infections [75]. In addition, AgNPs have been shown to inhibit tumor growth and improve survival in animal models of cancer.

In experiments targeting human cervical cancer cells, AgNPs were extracted using Nepeta deflersiana (ND), yielding face-centered cubic structures with an average size of 33 nm, by targeting human cervical cancer cells (HeLa) for their anticancer potential by observing the cytotoxic response where the neutral red uptake assay and morphological changes, cytotoxic concentrations on oxidative stress markers, ROS production, and mitochondrial membrane potential parameters responded to cytotoxicity depending on the concentration. Potential mitochondrial membrane and glutathione levels decreased and AgNPs induced apoptosis, demonstrating that ND-AgNPs have an anticancer ability and can be used to treat cervical cancer cells.

Our nanoparticle “TRUE” Colloidal Silver is derived from 99.99% bioactive silver ions which provides broad-spectrum IMMUNE SYSTEM SUPPORT. It can enhance immunity in times of need, as well as assist in maintaining a strong immune system.

Silver nanoparticles (AgNPs) are ultra-small silver particles with a size from 1 to 100 nanometers. Unlike bulk silver, they have unique physical and chemical properties. Numerous studies have shown that AgNPs have beneficial biological effects on various diseases, including antibacterial, anti-inflammatory, antioxidant, antiparasitic, and antiviruses. One of the most well-known applications is in the field of antibacterial applications, where AgNPs have strong abilities to kill multi-drug resistant bacteria, making them a potential candidate as an antibacterial drug. Recently, AgNPs synthesized from plant extracts have exhibited outstanding antiparasitic effects, with a shorter duration of use and enhanced ability to inhibit parasite multiplication compared to traditional antiparasitic drugs.Due to the small size effect and surface effect of nanoparticles, the release rate of silver ions is significantly higher, and AgNPs can cause direct damage to cell membranes through silver ions, increase the permeability of the cell membrane, and enter many cells, eventually causing apoptosis or necrosis. Due to these properties, the bactericidal effect of AgNPs is significantly higher than that of silver ions.

Research on AgNPs has shown promising results for in vivo applications. In vivo studies have also demonstrated the antibacterial and anticancer properties of AgNPs.

In animal studies, AgNPs have been shown to be effective in treating various infections, including skin, respiratory, urinary tract, and parasitic infections [75]. In addition, AgNPs have been shown to inhibit tumor growth and improve survival in animal models of cancer.

In experiments targeting human cervical cancer cells, AgNPs were extracted using Nepeta deflersiana (ND), yielding face-centered cubic structures with an average size of 33 nm, by targeting human cervical cancer cells (HeLa) for their anticancer potential by observing the cytotoxic response where the neutral red uptake assay and morphological changes, cytotoxic concentrations on oxidative stress markers, ROS production, and mitochondrial membrane potential parameters responded to cytotoxicity depending on the concentration. Potential mitochondrial membrane and glutathione levels decreased and AgNPs induced apoptosis, demonstrating that ND-AgNPs have an anticancer ability and can be used to treat cervical cancer cells.