Buy Lisinopril 20 MG Online

Lisinopril 20 MG represents a significant and widely studied compound in the pharmaceutical research landscape, specifically within the angiotensin-converting enzyme (ACE) inhibitor class. For researchers investigating cardiovascular pharmacology, hypertension management models, or renal function studies, understanding this product’s specific profile is foundational.

What is Lisinopril 20 MG?
This product consists of the active pharmaceutical ingredient (API) Lisinopril in a standardized 20-milligram dosage. It is a lysine derivative of enalaprilat and functions as a long-acting, non-sulfhydryl ACE inhibitor. In research settings, it serves as a critical reference standard for studies involving the renin-angiotensin-aldosterone system (RAAS), a key hormonal pathway regulating blood pressure and fluid balance. Researchers value this specific dosage for its utility in creating consistent experimental models and comparing therapeutic indices.

Mechanism of Action for Study
From a research perspective, Lisinopril operates by competitively inhibiting the ACE enzyme. This inhibition prevents the conversion of angiotensin I to the potent vasoconstrictor angiotensin II. The resultant biochemical cascade observed in study models includes vasodilation, reduced aldosterone secretion leading to decreased sodium and water retention, and increased bradykinin levels. This makes the 20 MG formulation a precise tool for examining blood pressure modulation, cardiac afterload, and renal hemodynamics in controlled experimental designs.

Research Benefits and Advantages
The advantages of sourcing a well-characterized Lisinopril 20 MG standard for research are multifaceted. It offers high chemical purity and batch-to-batch consistency, which are non-negotiable for reproducible scientific inquiry. Its well-documented pharmacokinetic profile, including its renal excretion pathway and lack of liver metabolism, allows for clear variable tracking in pharmacokinetic/pharmacodynamic (PK/PD) studies. Furthermore, its established role in landmark clinical trials provides a rich body of literature for comparative analysis and meta-research.

Critical Safety & Responsible Usage Considerations for the Lab
Handling Lisinopril 20 MG in a research environment demands stringent safety protocols. It is for in-vitro or approved preclinical study only, unless under specific clinical trial authorization. Principal investigators must ensure all research complies with institutional review board (IRB) and regulatory agency guidelines (e.g., FDA, EMA). Standard laboratory safety practices, including the use of personal protective equipment (PPE) like gloves and lab coats, are mandatory to prevent accidental exposure. All research involving animal or human subjects requires rigorous ethical review and oversight.

Stability, Longevity, and Storage
To preserve the integrity of the compound for research, proper storage is critical. Lisinopril 20 MG should be stored in its original packaging at a controlled room temperature, typically between 15°C and 30°C (59°F – 86°F), in a dry place protected from light and moisture. Under these conditions, the product maintains its labeled potency and physical characteristics throughout its stated shelf life, which is typically 24 to 36 months from the date of manufacture when unopened. Researchers should always note the batch-specific expiration date and avoid using degraded materials.

Composition and Ingredient Profile
The primary composition is the API Lisinopril (20mg). In its tablet form for reference purposes, it also contains inert excipients such as calcium phosphate, magnesium stearate, mannitol, and starch. These non-active components are crucial for researchers to note in dissolution studies, formulation comparisons, or investigations into bioavailability factors.

Areas of Research Application
This product is utilized across diverse research domains:

• Cardiovascular Research: Modeling hypertension, studying heart failure pathophysiology, and investigating vascular endothelial function.

• Renal (Nephrology) Research: Examining drug effects on glomerular filtration rate (GFR), proteinuria models, and diabetic nephropathy progression.

• Comparative Efficacy Studies: Serving as an active control in trials for new antihypertensive agents.

• Pharmacoeconomic Research: Analyzing cost-benefit models of long-term chronic disease management.

For sourcing high-purity reference standards and APIs for legitimate research, trusted suppliers are essential. Researchers can explore vetted suppliers through resources like healthaidpharmacy.com.