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Isoephedrine (Pseudoephedrine)
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Looking for Pseudoephedrine API 90-82-4?
- Description:
- Here you will find a list of producers, manufacturers and distributors of Pseudoephedrine. You can filter on certificates such as GMP, FDA, CEP, Written Confirmation and more. Send inquiries for free and get in direct contact with the supplier of your choice.
- API | Excipient name:
- Pseudoephedrine
- Synonyms:
- D-Isoephedrine , D-Psi-ephedrine , Isoephedrine , L(+)-Psi-ephedrine , Pseudoefedrina , Pseudoephedrine , Pseudoephedrinum , Psi-ephedrin , Psi-ephedrine , trans-Ephedrine , Pseudoephedrini , Pseudoephedrine hydrochloride
- Cas Number:
- 90-82-4
- DrugBank number:
- DB00852
- Unique Ingredient Identifier:
- 7CUC9DDI9F
About Pseudoephedrine
Why are professionals looking for Pseudoephedrine? Pseudoephedrine is structurally related to ephedrine but exerts a weaker effect on the sympathetic nervous system Both drugs naturally occur in in ephedra plant which have a history of use in traditional Eastern medicine and were first researched in the west in 1889. The decongestant effect of pseudoephedrine was described in dogs in 1927.
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Pseudoephedrine is a type of Adrenergic agents
Adrenergic agents are a subcategory of pharmaceutical active pharmaceutical ingredients (APIs) that target the adrenergic system in the body. This system is responsible for regulating various physiological responses, including heart rate, blood pressure, and smooth muscle contraction.
Adrenergic agents can be further divided into two main groups: adrenergic agonists and adrenergic antagonists. Adrenergic agonists stimulate the adrenergic receptors, leading to an increase in sympathetic nervous system activity. This can result in effects such as vasoconstriction, bronchodilation, and increased heart rate. Adrenergic agonists are commonly used in the treatment of conditions such as asthma, hypotension, and cardiac arrest.
On the other hand, adrenergic antagonists block the adrenergic receptors, thereby inhibiting the effects of sympathetic nervous system activation. These agents are often employed to lower blood pressure, treat certain heart conditions, and manage symptoms associated with conditions like benign prostatic hyperplasia. Adrenergic antagonists can be further classified into alpha-adrenergic antagonists and beta-adrenergic antagonists, based on their selectivity for different adrenergic receptor subtypes.
Pharmaceutical companies extensively utilize adrenergic agents as key components in the development of various medications. Adrenergic APIs offer targeted effects on the adrenergic system, allowing for precise modulation of physiological responses. The understanding of adrenergic agents and their mechanisms of action is vital for the design and optimization of drugs used in the treatment of numerous medical conditions. Researchers and scientists continue to explore and innovate within this subcategory to develop new adrenergic agents with enhanced efficacy and fewer side effects, ultimately improving patient outcomes.
Pseudoephedrine (Adrenergic agents), classified under Central Nervous System Agents
Central Nervous System (CNS) Agents are a crucial category of pharmaceutical Active Pharmaceutical Ingredients (APIs) that specifically target the central nervous system. The CNS encompasses the brain and spinal cord, playing a vital role in regulating and controlling various bodily functions, including cognition, movement, emotions, and sensory perception. These agents are designed to interact with specific receptors, enzymes, or ion channels within the CNS to modulate neural activity and restore normal functioning.
CNS agents comprise a diverse range of pharmaceutical APIs, including analgesics, anesthetics, antipsychotics, sedatives, hypnotics, anti-epileptics, and antidepressants. Each subcategory addresses distinct neurological disorders and conditions. For instance, analgesics alleviate pain by targeting receptors in the brain and spinal cord, while antipsychotics are employed to manage psychosis symptoms in mental illnesses such as schizophrenia.
The development of CNS agents involves rigorous research, molecular modeling, and extensive clinical trials to ensure safety, efficacy, and specific target engagement. Pharmaceutical companies invest significant resources in identifying novel drug targets, synthesizing new compounds, and optimizing their pharmacological properties. These agents undergo rigorous regulatory evaluations and must adhere to stringent quality standards and guidelines.
Given the prevalence of CNS disorders globally, the market demand for effective CNS agents is substantial. The development of innovative CNS APIs not only improves patient outcomes but also provides valuable commercial opportunities for pharmaceutical companies. Continued advancements in CNS agent research and development hold the promise of groundbreaking therapies that can improve the quality of life for individuals affected by neurological conditions.