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Thymulin acetate

  • CAS no: 63958-90-7
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Thymulin acetate is a small molecule peptide produced by the thymus gland that is primarily used to regulate the immune system. It is physiologically mainly involved in the development and function of T cells, which in turn affects the immune response. Thymulin in acetate form improves its stability and biological activity, making it more usable in research and clinical applications.

Thymulin Acetate Basic information:

Chemical structure:

Thymulin is composed of several amino acids, the specific amino acid sequence is GLy-SER-Lys-ASN-GLy-SER-LEU-ARG-ser. The acetate form is used to improve its solubility and stability.

Mechanism of action:

Thymulin regulates the proliferation and maturation of T cells by binding to receptors in the thymus, enhancing the function of the immune system. It can promote the activity of lymphocyte.

Purpose:

Immunomodulation: Used to enhance the body's immune function and help the body resist infection and disease.

Adjuvant therapy for chronic diseases: In some studies, Thymulin has been used as an adjuvant therapy for autoimmune diseases and infections.

Anti-aging: Thymulin acetate is also thought to have potential for anti-aging due to its properties of promoting cell regeneration and immune regulation.

Usage:

Thymulin acetate is usually administered as an injection.

Side effects:

Thymulin acetate is generally considered safe and has few side effects, which may include mild injection site reactions or allergic reactions.

What is the main function of Thymulin acetate?

Thymulin acetate is a thymic peptide that works primarily by modulating the immune system. Here are the main effects of Thymulin acetate:

Immune system regulation

Thymulin acetate promoted the development and maturation of T cells and enhanced the immune response of the body. It improves the body's resistance to pathogens (such as viruses and bacteria) by regulating the function of lymphocytes.

Enhanced antibody production

Thymulin acetate can stimulate the activity of B cells and promote the production of antibodies, helping the body to respond more effectively to infections.

Regulatory cytokine

The compound affects the release of various cytokines, which play an important role in regulating immune response, inflammatory response, and signaling between cells. This helps keep the immune system in balance.

Anti-aging effect

Thymulin acetate may help delay the decline of thymus function, thereby improving immune function in the elderly. This makes it show potential in anti-aging research.

Promote cell regeneration

The compound may promote the regeneration and repair of damaged tissues and has potential applications in the recovery process after injury.

Improve autoimmune diseases

In some autoimmune diseases, Thymulin acetate may help restore normal immune function and reduce the symptoms of the disease by regulating the immune response.

Anti-tumor

The immunomodulatory effect of Thymulin acetate may play an important role in anti-tumor therapy, by enhancing the body's ability to recognize and attack tumor cells, and improving the anti-tumor ability of the immune system.

Neuroprotection

Several studies have shown that Thymulin acetate may have potential in neuroprotection and nerve regeneration, which makes it promising for use in the study of neurodegenerative diseases.

Sum up

The main effects of Thymulin acetate are mainly focused on the regulation of the immune system, improving the immune ability of the body by enhancing the function of immune cells and promoting the production of antibodies. Its potential applications in many fields, such as anti-aging, cell regeneration, tumor immunity and autoimmune diseases, make it an important target of biomedical research. With further research on its mechanism of action, Thymulin acetate may play a greater role in future clinical treatment.

 

Is Thymulin acetate safe?

There is currently limited information on the side effects of Thymulin acetate. Possible side effects include reactions at the injection site, allergic reactions, or other discomfort. Due to individual differences, different populations may respond differently to this compound.

The dosage and manner of use of Thymulin acetate should be adjusted according to specific research purposes or medical recommendations. Following the recommended dosage and usage can help reduce the risk of adverse reactions.

Each person's physical condition and response to medication may be different. Some people may experience adverse reactions to Thymulin acetate, so it is important to know the health status of the individual before use.

Overall, the safety of Thymulin acetate has not been fully validated in large-scale clinical studies, so caution is needed when using it. Use under the guidance of a medical professional is recommended to ensure safety and minimize potential risks.

 

How to use Thymulin acetate?

When using Thymulin acetate, specific steps and precautions need to be followed to ensure safety and effectiveness. Here is a detailed guide on how to use Thymulin acetate, including dosage, method of use, storage and precautions.

Dose

Dosage Determination: The dosage of Thymulin acetate is usually based on the purpose of the study or the recommendation of your doctor. In general, the recommended dose may be in the range of micrograms to milligrams. It is important to adapt to the specific study design or treatment regimen.

Dissolution and dilution

Prepare the solution: Thymulin acetate is usually provided in powder form. Before use, it should be dissolved in a suitable solvent, such as normal saline or PBS (phosphate buffered saline).

Mixing: Make sure to mix thoroughly during the dissolution process to obtain a uniform solution.

Mode of administration

Subcutaneous injection: Thymulin acetate is usually administered by subcutaneous injection. Use sterile syringes and needles and make sure the injection site is clean. Common injection sites include the abdomen, thigh, or upper arm.

Intravenous administration: In some studies, Thymulin acetate may be administered intravenously. This should be done under the guidance of a medical professional.

Frequency of administration

Frequency adjustment: The frequency of administration of Thymulin acetate may vary depending on the study design or treatment regimen. Some studies may call for daily dosing, while others may employ a weekly or monthly regimen. Follow specific research or medical instructions.

Store

Storage conditions: Thymulin acetate should be stored in a cool, dry place away from light. In most cases, the storage temperature should be kept at -20°C or lower to maintain its stability and activity.

Matters needing attention

Consult a professional: Always consult a doctor or medical professional before using Thymulin acetate. They can provide advice on dosage, safety and suitability.

Monitor reaction: After using Thymulin acetate, the body's reaction should be closely monitored. If discomfort or side effects occur, discontinue use immediately and consult a doctor.

Avoid interactions with other medications: If you are taking other medications or supplements, especially immunomodulatory medications, talk to a medical professional before using Thymulin acetate to avoid potential interactions.

Conclusion

When using Thymulin acetate, following proper dosing, method of use, and storage recommendations is key to ensuring safety and effectiveness. By consulting a medical professional and closely monitoring the body's reactions, its potential effects can be maximised and the risk reduced.

 

Product Name:Thymulin acetate

CAS#:63958-90-7

MF:C33H54N12O15

MW: 858.85

Purity:98% HPLC

Packing: 10 mg/vial;  10vials/box

Min Order: 1box

Payment:Bitcoin,Moneygram and Wester Union

Lead time:24hours after received payment

Safe shipping to US and most of Europe country

Storage:Shading, confined preservation,2-8°C