Delta sleep-inducing peptide (DSIP) is a regulatory peptide recognized for its potential to influence sleep, hormone release, and stress adaptation. Initially identified in 1977, DSIP drew interest due to its ability to encourage slow-wave sleep and growth hormone release, although its full role in sleep regulation remains complex. Beyond sleep, DSIP exhibits diverse physiological functions, including hormone modulation and neuroprotection. It has been shown to reduce corticotropin levels, stimulate the release of luteinizing and growth hormones, and act as a stress adaptogen, especially in amphetamine-induced models. These effects highlight DSIP’s therapeutic potential in stress management and neuropsychiatric applications, positioning it as a compound with promising multifaceted benefits.
Tukhovskaya, E.A., Ismailova, A.M., Shaykhutdinova, E.R., Slashcheva, G.A., Prudchenko, I.A., Mikhaleva, I.I., Khokhlova, O.N., Murashev, A.N., and Ivanov, V.T., 2021. Delta Sleep-Inducing Peptide Recovers Motor Function in SD Rats after Focal Stroke. Molecules.
Disclaimer: Information provided it this page is for general information only and does not substitute for professional medical advice.
For detailed information about DSIP by Ultima Pharmaceuticals, consult with your doctor or healthcare professional.
Tukhovskaya, E.A., Ismailova, A.M., Shaykhutdinova, E.R., Slashcheva, G.A., Prudchenko, I.A., Mikhaleva, I.I., Khokhlova, O.N., Murashev, A.N., and Ivanov, V.T., 2021. Delta Sleep-Inducing Peptide Recovers Motor Function in SD Rats after Focal Stroke. Molecules.
Tukhovskaya, E.A., Ismailova, A.M., Shaykhutdinova, E.R., Slashcheva, G.A., Prudchenko, I.A., Mikhaleva, I.I., Khokhlova, O.N., Murashev, A.N., and Ivanov, V.T., 2021. Delta Sleep-Inducing Peptide Recovers Motor Function in SD Rats after Focal Stroke. Molecules.
Tukhovskaya, E.A., Ismailova, A.M., Shaykhutdinova, E.R., Slashcheva, G.A., Prudchenko, I.A., Mikhaleva, I.I., Khokhlova, O.N., Murashev, A.N., and Ivanov, V.T., 2021. Delta Sleep-Inducing Peptide Recovers Motor Function in SD Rats after Focal Stroke. Molecules.
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