Testosterone(T) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Testosterone(T) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Testosterone(T)

OVA-Testosterone(T)

Anti-Testosterone(T) mouse monoclonal antibody

Anti-Testosterone(T) human monoclonal antibody

Reference

Validation Data

Click to get more Data / Case study about the product.

Biomarker Information

Serial Number 1: Testosterone (T) Description:

Testosterone (T) is a critical androgenic hormone classified as a small molecule. Within the realm of human physiology, it holds profound significance due to its multifaceted roles. Testosterone primarily originates in the Leydig cells of the testes in males, while in females, it is synthesized in the ovaries and adrenal glands, albeit in smaller quantities. This steroid hormone belongs to the class of androgens and serves as a potent endocrine messenger.

Serial Number 1.1: Endocrine Functions of Testosterone:

Testosterone plays an intricate role in shaping various physiological processes, encompassing:

a. Reproductive Health: Testosterone is a key driver of male sexual development and the maintenance of male reproductive organs, including the testes and prostate. It stimulates the production of sperm and the development of secondary sexual characteristics during puberty, such as increased muscle mass, body hair, and deepening of the voice.

b. Muscle and Bone Health: Testosterone contributes to muscle growth and strength, influencing muscle protein synthesis. It also plays a pivotal role in maintaining bone density, as low levels of testosterone are associated with an increased risk of osteoporosis.

c. Metabolism: Testosterone has an impact on metabolism, affecting factors like fat distribution, insulin sensitivity, and overall energy levels.

d. Cognitive Function: Emerging research suggests that testosterone may have cognitive effects, including influence on memory, mood, and cognitive performance.

Serial Number 1.2: Testosterone in Males and Females:

While often associated with male traits, Testosterone also plays an essential role in females. In women, it contributes to overall health, influencing aspects such as libido, mood, and energy levels. The balance of Testosterone in both genders is finely regulated, and deviations from the norm can have significant health implications.

Serial Number 2: Role in in vitro Diagnosis:

Within the sphere of in vitro diagnosis, Testosterone assumes a pivotal role as a valuable biomarker. Precise measurement of Testosterone levels in clinical laboratories enables the assessment of hormonal balance and the detection of potential hormonal abnormalities. It is employed in a range of diagnostic applications, including:

Serial Number 2.1: Hormonal Health Assessment:

Testosterone serves as a critical indicator of hormonal health in both males and females. Monitoring Testosterone levels allows healthcare professionals to assess hormonal balance, identify potential imbalances, and tailor appropriate treatment plans for hormonal disorders. For instance, low Testosterone levels in males (hypogonadism) or females can signal underlying health issues and guide therapeutic interventions.

Serial Number 2.2: Reproductive Health Evaluation:

In cases of infertility and reproductive health issues, measuring Testosterone levels is essential. It aids in diagnosing the causes of infertility, including male factor infertility, and guides fertility treatments and interventions. Testosterone assessments contribute to comprehensive evaluations of reproductive health, helping couples achieve their reproductive goals.

Serial Number 2.3: Androgen-Related Disorders:

Testosterone measurement is pivotal in diagnosing and monitoring androgen-related disorders, such as polycystic ovary syndrome (PCOS) in females and hypogonadism in males. Accurate quantification assists in determining the severity of these conditions and aids in treatment decisions. For instance, elevated Testosterone levels in females with PCOS can serve as a diagnostic marker.

Serial Number 2.4: Biopharmaceutical Research:

Within the biopharmaceutical industry, Testosterone measurement is a fundamental aspect of clinical trials and drug development, particularly for products related to hormonal therapy, reproductive health, and endocrinology. It ensures the efficacy and safety of pharmaceutical products, serving as a critical component of quality control.

Serial Number 2.5: Anti-Doping Testing:

In the world of sports and athletics, measuring Testosterone levels is vital for anti-doping purposes. Monitoring Testosterone helps detect the use of performance-enhancing substances, ensuring fair competition and upholding the integrity of sports. Athletes may misuse Testosterone to gain a competitive advantage, and anti-doping agencies rely on accurate testing to maintain fairness in sports.

Serial Number 2.6: Personalized Medicine:

The era of precision or personalized medicine relies on accurate biomarker measurements to tailor treatment plans to individual patients. Testosterone measurement contributes to the customization of treatment regimens, optimizing patient outcomes in various medical contexts.

In conclusion, the meticulous measurement of Testosterone (T) stands as a linchpin in assessing hormonal health, diagnosing reproductive and endocrine disorders, guiding treatment strategies, advancing biopharmaceutical research, and ensuring equitable sports competition. Accurate quantification of Testosterone levels addresses a wide spectrum of scientific and clinical challenges, ultimately enhancing patient care and overall well-being. Its multifaceted roles and diagnostic significance underscore its enduring importance in the field of biopharmaceuticals and clinical diagnostics.

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