Shaanxi BLOOM Tech Co., Ltd. is one of the most experienced manufacturers and suppliers of cardarine tablet in China. Welcome to wholesale bulk high quality cardarine tablet for sale here from our factory. Good service and reasonable price are available.
Cardarine tablet, the core component is GW-501516 (Cardarine), a compound that has been studied for the treatment of prostate and breast tumors, and is now receiving more attention as a selective PPAR δ receptor agonist in the fields of exercise science and metabolic regulation. This compound significantly enhances the oxidative utilization ability of skeletal muscle cells towards fatty acids by activating PPAR δ receptors, while reducing glucose dependence, thereby optimizing energy metabolism efficiency. In animal experiments and athlete trials, two core advantages have been demonstrated: firstly, significantly enhancing aerobic endurance, prolonging exercise time, and reducing fatigue; The second is to promote fat breakdown, help retain muscle mass during weight loss, and improve body composition.
Our Product form
Cardarine COA
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| Certificate of Analysis | ||
| Compound name | Cardarine/GW501516/Endurobol | |
| Grade | Pharmaceutical grade | |
| CAS No. | 317318-70-0 | |
| Quantity | 50g | |
| Packaging standard | PE bag+Al foil bag | |
| Manufacturer | Shaanxi BLOOM TECH Co., Ltd | |
| Lot No. | 202601090056 | |
| MFG | Jan 9th 2026 | |
| EXP | Jan 8th 2029 | |
| Structure |
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| Item | Enterprise standard | Analysis result |
| Appearance | White or almost white powder | Conformed |
| Water content | ≤5.0% | 0.47% |
| Loss on drying | ≤1.0% | 0.29% |
| Heavy Metals | Pb≤0.5ppm | N.D. |
| As≤0.5ppm | N.D. | |
| Hg≤0.5ppm | N.D. | |
| Cd≤0.5ppm | N.D. | |
| Purity (HPLC) | ≥99.0% | 99.80% |
| Single impurity | <0.8% | 0.55% |
| Total microbial count | ≤750cfu/g | 127 |
| E. Coli | ≤2MPN/g | N.D. |
| Salmonella | N.D. | N.D. |
| Ethanol (by GC) | ≤5000ppm | 400ppm |
| Storage | Store in a sealed, dark, and dry place below -20°C | |
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| Chemical Formula | C21H18F3NO3S2 | |
| Exact Mass | 453 | |
| Molecular Weight | 453 | |
| m/z | 453 (100.0%), 454 (22.7%), 455 (9.0%), 455 (2.5%), 456 (2.1%), 454 (1.6%) | |
| Elemental Analysis | C, 55.62; H, 4.00; F, 12.57; N, 3.09; O, 10.58; S, 14.14 | |
Cardarine tablet as a highly selective peroxisome proliferator activated receptor delta (PPAR delta) agonist, has attracted widespread attention in the fields of medicine and sports science due to its unique biological activity. In the field of medicine, it has been studied for improving metabolic syndrome, enhancing exercise endurance, and potentially treating cardiovascular diseases; In the field of sports science, it has attracted the attention of some athletes due to its ability to improve fat metabolism efficiency and athletic performance.
Biomedical Polymers: Targeted Drug Delivery and Tissue Engineering
Intelligent drug carrier
Traditional drug carriers such as liposomes and poly (lactic acid glycolic acid) copolymers (PLGA) have some obvious limitations in practical applications, such as uncontrollable drug release, which may lead to premature or insufficient drug release in the body, affecting the therapeutic effect; Poor targeting makes it difficult for drugs to accurately reach the lesion site, which can have side effects on normal tissues. Covalent modification of it onto the surface of thermosensitive polymer poly (N-isopropylacrylamide) (PNIPAAm) can construct an "environmentally responsive" drug delivery system.
Mechanism: PNIPAAm has unique temperature sensitive properties. When the ambient temperature is below its low critical solution temperature (LCST), the polymer chains are stretched and the drug is encapsulated within them; When the carrier reaches the site of inflammation, the local temperature rises to 39-41 ℃, exceeding the LCST of PNIPAAm. At this point, the polymer chain undergoes a volume phase transition from an extended state to a contracted state, thereby releasing the loaded substance.
Advantage: After being released, it inhibits the NF - κ B pathway by activating PPAR δ. NF - κ B is an important transcription factor that plays a crucial role in inflammatory responses. It can induce the expression of various inflammatory factors, such as TNF - α and IL-6. After inhibiting the NF - κ B pathway, GW-50516 can reduce the release of inflammatory factors and promote the expression of anti-inflammatory factors (such as IL-10), achieving a dual effect of "treatment anti-inflammatory" and more effectively treating inflammation related diseases.
Organizational Engineering Support
In bone tissue engineering, promoting osteogenic differentiation of mesenchymal stem cells (MSCs) is crucial for repairing bone defects. The PPAR δ activation property of this substance can be cleverly utilized to regulate the osteogenic differentiation process of MSCs. Load it onto a 3D printed polycaprolactone (PCL)/hydroxyapatite (HA) composite scaffold.
Experimental evidence: Studies have shown that MSCs treated with it have significantly increased alkaline phosphatase (ALP) activity, reaching 2.3 times that of the untreated group.
ALP is an important biomarker for early differentiation of osteoblasts, and its increased activity indicates an enhanced trend towards osteogenic differentiation. At the same time, the number of mineralized nodules increased by 1.8 times. Mineralized nodules are a sign of osteoblast differentiation and maturation, and their increase further proves the promoting effect of cardarine tablet on MSC osteogenic differentiation.
Clinical significance: this kind of composite scaffold containing this material can accelerate the repair process of bone defects, especially for people with weak bone regeneration ability such as osteoporosis or diabetes. It provides these patients with a more effective bone repair method, which is expected to improve their quality of life.
Environmentally responsive polymers: pollution control and intelligent sensing
Heavy Metal Adsorption Materials
Traditional ion exchange resins have limited adsorption selectivity in the adsorption process of heavy metal ions, making it difficult to achieve efficient selective adsorption of specific heavy metal ions. By modifying it on the surface of chelating resins (such as iminodiacetic acid type resins), a synergistic system of "biological activity chemical adsorption" can be constructed.
Mechanism: Activation of PPAR δ can upregulate the expression of metal transporters (such as ZIP8 and DMT1) on the cell membrane. These metal transporters can specifically recognize and transport heavy metal ions such as Cd ² ⁺ and Pb ² ⁺, thereby enhancing the resin's adsorption capacity for these heavy metal ions.
At the same time, the chemical adsorption of chelating resin itself can also adsorb heavy metal ions, and the synergistic effect of the two greatly improves the adsorption effect.
Performance improvement: In a 10 mg/L Cd ² ⁺ solution, the adsorption capacity of the modified resin significantly increased from 45 mg/g to 68 mg/g, and the adsorption rate increased by 40%. This indicates that the collaborative system has great potential in heavy metal pollution control, which can more efficiently remove heavy metal ions from water, protect water resources and the environment.
Fluorescent sensing materials
The sulfide bonds in its molecules can undergo oxidation reactions under specific conditions, such as when in contact with oxidants, to produce sulfoxides or sulfone compounds with fluorescent properties. By utilizing this characteristic and embedding it into conjugated polymers such as poly (p-phenylacetylene) (PPV), fluorescent sensors for detecting oxidative stress can be developed.
Application scenario: Real time monitoring of intracellular reactive oxygen species (ROS) levels is of great significance in biomedical research and clinical diagnosis.
ROS plays a crucial role in the normal physiological processes of cells and the occurrence and development of various diseases, such as cardiovascular diseases, neurodegenerative diseases, etc.
The fluorescence sensor can monitor real-time and accurate changes in intracellular ROS levels, thereby evaluating the efficacy of antioxidant drugs and providing important evidence for disease treatment.
Sensitivity: This fluorescent sensor has extremely high sensitivity, with a detection limit as low as 0.1 μ M, and can detect trace changes in ROS within cells. At the same time, its response time is less than 5 seconds, which can quickly reflect the dynamic changes in intracellular ROS levels, providing strong support for real-time monitoring.
Energy Conversion Polymer: Solar Energy Utilization and Energy Storage
Photocatalytic Materials
Its benzene ring structure has a π - π conjugated system, which enables it to absorb ultraviolet light (λ<300 nm). By combining GW-501516 with titanium dioxide (TiO ₂) nanoparticles, the light response range of TiO ₂ can be extended to the visible light region.
Mechanism: In the photocatalytic process, as a photosensitizer, it absorbs light energy and is excited, and then transfers the absorbed light energy to the conduction band of TiO ₂. After obtaining energy, electrons in the conduction band become active and easily separate from holes, thereby promoting the separation of electron hole pairs.
Electrons and holes can participate in redox reactions separately, degrading organic pollutants into harmless small molecule substances.
Performance improvement: Under simulated sunlight, the efficiency of photocatalytic degradation of Rhodamine B in composite materials is significantly improved, reaching 2.1 times that of non composite materials. This indicates that the composite material has broad application prospects in solar energy utilization and environmental purification, and can more efficiently utilize solar energy to degrade pollutants, providing a new method for solving environmental pollution problems.
Electrolytes for Lithium ion Batteries
The growth of lithium dendrites is a serious issue in lithium-ion batteries, which can lead to safety hazards such as short circuits, capacity degradation, and even explosions. Adding cardarine tablet to polyethylene oxide (PEO) based solid electrolytes can effectively inhibit the growth of lithium dendrites.
Mechanism: Upregulate the expression of extracellular matrix proteins (such as collagen I) by activating PPAR δ. At the electrode electrolyte interface, these extracellular matrix proteins can form a stable solid electrolyte interface (SEI) membrane.
SEI film has good ion conductivity and electronic insulation, which allows lithium ions to pass through while preventing the passage of electrons, thereby inhibiting the growth of lithium dendrites and improving the safety and stability of batteries.
Effect: After 100 cycles at a 0.5 C rate, the battery capacity retention rate increased from 72% to 89% with its addition. This indicates that the electrolyte material can significantly improve the cycling performance of lithium-ion batteries, extend their service life, and is of great significance for promoting the application of lithium-ion batteries in fields such as electric vehicles and energy storage.
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