Physical properties of terlipressin acetate salt powder

Comments · 224 Views

SACH will share with you the physical properties of terlipressin acetate salt powder, laying the foundation for its application in medical treatment.

The pharmaceutical industry is a tapestry woven with the threads of innovation and precision. One such thread is terlipressin acetate salt, a potent vasoconstrictor that has garnered significant attention for its ability to traverse the V1 receptors on smooth muscle cells of small arteries. In this blog post, SACH will share with you the physical properties of terlipressin acetate salt powder, laying the foundation for its application in medical treatment.

Physical Properties:

The physical properties of terlipressin acetate salt are nothing short of remarkable. With a density of 1.5±0.1 g/cm³, it offers a solid foundation for pharmaceutical formulations. Its boiling point, recorded at an impressive 1824.0±65.0°C under standard atmospheric pressure, underscores its stability at high temperatures, a crucial factor for manufacturing processes.

Flash Point and Safety:

Safety is a cornerstone in the pharmaceutical industry, and terlipressin acetate salt's flash point of 1056.9±34.3 °C ensures that it is handled with the utmost care, reducing the risk of ignition and ensuring a safe working environment.

Appearance and Storage:

Presented as a white powder, terlipressin acetate salt's appearance is as pure as its applications in medicine. Its recommended storage condition at -20°C is a testament to the meticulous care required to maintain its integrity and potency.

Terlipressin acetate salt

Customization and Innovation:

The customization options for terlipressin acetate salt are as diverse as the peptides it can be a part of. From a mere 2 amino acids (AA) to a robust 100AA, the length of peptides can be tailored to specific needs. The types of peptides available for customization are equally impressive, ranging from Ser, Thr, Tyr, to more complex structures like amide rings and disulfide bond rings, all the way to functional groups like FAM, FITC, BIOTIN, and MAP.

Structural and Purity Ranges:

The structural diversity extends to linear, branched, asymmetric branched peptides, and even cyclic peptides, catering to a wide array of applications. The purity range is equally commendable, offering options from coarse products to desalination and beyond, with purities ranging from greater than 75% to an exceptional 98%.

Industrial Scale Production:

For those looking to scale up, the provision of kilogram-level production for industrial applications is a game-changer. This capacity to meet large-scale demands without compromising on quality is a hallmark of the pharmaceutical industry's commitment to excellence.

Conclusion:

As we conclude our exploration of terlipressin acetate salt, it's clear that its physical properties are not just numbers on a page but the building blocks of life-saving pharmaceuticals. With a commitment to customization, safety, and innovation, the future of terlipressin acetate salt in the medical field looks as bright and stable as its physical properties suggest.

Comments