NAD+ – 100mg (Research Nasal Solution)
Overview
Nicotinamide adenine dinucleotide (NAD+) is a fundamental coenzyme found in every living cell. It plays a central role in redox reactions, mitochondrial energy production, and cellular repair processes. Because of its importance across so many biological pathways, NAD+ is considered one of the most widely studied metabolic cofactors in research environments.
Research Context
Across scientific literature, NAD+ has been examined for its involvement in:
Mitochondrial energy metabolism:
NAD+ serves as a critical electron carrier in oxidative phosphorylation. Researchers frequently use it to study ATP production, mitochondrial decay, and bioenergetic stress.
Sirtuin activity models:
Sirtuin enzymes require NAD+ as a substrate. Labs studying longevity, metabolic regulation, or gene-silencing pathways often analyze how NAD+ levels influence sirtuin behavior.
DNA repair and cellular resilience:
NAD+ supports PARP enzyme activity, a system involved in DNA damage detection and repair. Research teams investigating genomic stability often use NAD+ in oxidative-damage models.
Oxidative stress balance:
The NAD+/NADH ratio is a common metric for assessing redox homeostasis, and many experiments manipulate NAD+ levels to examine responses to cellular stress.
What Researchers Use It For
NAD+ is typically used in studies focused on:
Mitochondrial function and ATP production
Cellular aging pathways
Metabolic health modeling
DNA-repair mechanisms
Oxidative stress and redox biology
The 100mg concentration provides researchers with a higher-volume option for experiments involving diffusion, degradation studies, environmental stability testing, or repeated assay cycles.
NOT FOR HUMAN USE
 
 
 
Lab Handling Overview for Nano/Mist Devices
This device is designed to support laboratory environments where researchers work with diluted peptide solutions and sterile media. It provides a controlled method for dispersing research materials in a fine mist suitable for in-vitro setups, surface exposure studies, and general aerosol-based research modeling.
General Research Preparation Context
Researchers often prepare peptide samples by first reconstituting them in a small volume of sterile diluent to create a concentrated stock solution. Once the stock solution is prepared, it may then be combined with a larger volume of sterile water or other lab-grade diluent depending on the experimental design or desired concentration for in-vitro studies.
This device’s reservoir is intended to hold the secondary diluent volume, while the initial stock solution—once prepared independently in a controlled environment—can be introduced afterward to achieve the final laboratory concentration required for the experiment. All preparation should be performed using aseptic technique and according to the researcher’s internal protocols.
Important Laboratory Notes
Use aseptic technique when handling peptides, diluents, and device reservoirs
Ensure all containers, tools, and surfaces remain contamination-free
Follow your lab’s internal concentration, dilution, and handling guidelines
Do not exceed the device’s stated fluid capacity
Replace any compromised or contaminated solutions immediately
Compliance
🔬 For laboratory research use only.
Not for human consumption, medical use, administration, or veterinary application.