Free shipping for all orders across India.
VaraSpan® is made of high-purity (>99%) NAD+ Precursor, Resveratrol, DHA, Vitamin D3 and Vitamin K2-7. This powerful longevity formulation is targeted towards boosting energy, metabolism, and DNA repair via NAD+.
Prica Labs Private Limited
No. 31, 3rd Floor, 28th Cross, 9th Main Road,
Industrial Area, Banashankari II Stage,
Bengaluru, Karanataka, India - 560070
FSSAI License No.: 11222999000034
Vantage Nutrition LLP
Gate No. 475B, Dhangarwadi Village,
Tal: Khandala, Satara,
Maharashtra, India - 412801
Country of Origin: India
Increase NAD+ levels to youthful levels.
Support healthy DNA repair and maintenance.
Ingredients to helps assist with calorie burn.
Revitalize hair, skin & nails.
I have been using this product for about a month now. I have been losing weight without significant changes to my lifestyle, have improved skin and focus, and have been recovering from my workouts much better. Your body might take the first week to get used to the new regimen, but its a smooth ride after. I plan to continue taking these and hope to see sustained benefits. Well worth the price!
I am normally skeptical about trying newer supplements but after a 30 days period of consuming the VaraSpan daily, I see a clear increase in my energy levels and metabolism and I am also able to focus better. I started seeing improvement in energy levels 3/4 hours after having the capsule - this helped me power through afternoons. PS - The mint smell was a pleasant surprise once the bottle is opened.
I had purchased this product for my mother. My mother has been consuming this for almost 2 weeks, she noticed a gradual improvement and feels more energetic, happy and relaxed and less tired. She also feels an improvement in gut health.
My gut health and skin seems to be improving. I'm a vegetarian, hence prefer vegan products only. Pleasant experience in the mouth and good quality. Met their research team at a conference and appreciated the knowledge and enthusiasm.
As the human lifespan continues to increase worldwide, so is the number of people seeking solutions for age-related conditions. NAD+ is an essential enzyme for various critical cell functions, including metabolism, DNA repair, cell growth and survival.
Polyphenolic compounds in various plants, including grape, peanut, and berry fruits, are known its association with several health benefits such as anti-obesity, cardioprotective neuroprotective, antitumor, antidiabetic, antioxidants.
Docosahexaenoic acid (DHA) is uniquely concentrated in the brain, and is essential for its function, but must be mostly acquired from diet. Studies show that dietary LPC-DHA efficiently increases brain DHA content and improves brain function in adult mammals.
Vitamin K2 is involved in the production of osteocalcin, which strengthens bones by forming a protein scaffold. Vitamin K2 is also involved in the production of matrix Gla protein, which prevents vascular calcification by repairing smooth muscle and endothelium.
Calcium, the most abundant mineral in the body, and vitamin D, a group of fat-soluble secosteroids crucial to calcium homeostasis, are essential for the mineralization of bone matrix. Vitamin D also promotes intestinal calcium absorption.
|5-in-1 Ingredient Combination
|Mint Aroma for Improved Experience
|Third Party Lab Tested
|Manufactured in FSSC:22000 Certified Facilities
A decline of the epigenome could be one of the most important reasons causing the aging process. The epigenome determines which genes are active and provides instruction for genes that need to be kept inactive. During the process of aging, the epigenome tends to dysregulate i.e., genes that should be deactivated are activated (like cancer-promoting genes), and genes that should be activated are deactivated (like genes that protect and repair our cells). This, in turn, leads to instability in the DNA.
Proteins are the building blocks and workhorses of our cells. A cell contains millions of proteins. These proteins are continuously built up and broken down in a complex and intricate recycling process. However, this process is not deterministic. Often proteins are not broken down and start to accumulate in and around the cells. This leads to the process of coagulation of the proteins, which hampers the functioning of the cells. This “protein toxicity,” caused by what is also known as a “Loss of Proteostasis,” is one of the reasons for causing the aging phenomenon.
The mitochondria are the powerhouses of the cells. Each cell can contain hundreds to thousands of mitochondria. It produces the energy that the human body needs to live. As humans succumb to aging, mitochondrial dysfunctions often occur. Without sufficiently functioning mitochondria, the cells decline, leading to symptoms of aging.
The telomeres are the outer ends of the DNA strand. It is composed of repetitive DNA and protects the ends of the DNA. With each cell division, the telomeres shorten, until it can no longer protect the DNA. In non-dividing cells (in which the telomeres do not shorten), it does not cause an issue. Still, these cells can become damaged because the dividing surrounding cells that nourish and protect these cells become damaged due to telomere shortening. Also, during aging, the telomeres become damaged, not just shortened, which further stresses the cells.
During aging, an increasing number of senescent cells appear in the tissues. Senescent cells are also called “zombie cells”: these cells should normally have died but tend to linger in the body perpetually. Normally, these cells should be self-eradicated because of this damage, but due to certain reasons this process does not take place. These cells secrete substances that damage the healthy surrounding cells. Accumulation of senescent cells in the skin contributes to wrinkles. Senescent cells in the blood vessels make the blood vessels stiffer and more prone to atherosclerosis. It also contributes to brain inflammation and aging.
Some scientists speculate that DNA damage can accelerate aging indirectly. To repair a DNA break, specific repair enzymes are displaced from regions where these enzymes normally help to stabilize the epigenome. During extreme DNA breakage, the enzymes cannot maintain the epigenome appropriately and are transported to repair the DNA breaks, which could result in a dysregulated epigenome, an important driver of aging.
Stem cells grow new cells that replenish the tissues. During aging, the amount of stem cells in the body declines. Additionally, the remaining stem cells function less optimally. This leads to our tissues being less maintained, repaired, and replenished, contributing to aging. The decline in stem cells is caused because of the aforementioned aging mechanisms, such as epigenetic dysregulation, mitochondrial dysfunction, protein accumulation, and crosslinking, which also happen in stem cells.
As the human body ages, instability arises in communication between cells. Senescent cells, secrete substances that damage other healthy cells. These senescent cells also secrete pro-inflammatory substances that travel throughout the body and cause damage everywhere. During aging, desensitization of cells to specific triggers, like insulin or other nutrients, leading to insulin resistance, a precursor of diabetes, or resulting in aging switches (like mTOR) that are activated for periods longer than necessary.
Cross-linking refers to the molecular issues that arise when glucose binds to protein. This process occurs under the presence of oxygen, and as we age there are increased odds that oxygen comes in contact with glucose and protein to activate the cross-linking transition. Cross-linking of proteins may also play a role in the hardening of collagen and cardiac enlargement, increasing the risk for cardiac arrest. In addition to these potentially serious implications, many believe that cross-linking is responsible for age-related skin changes including wrinkles and reduced elasticity.
Our metabolic activities can put stress on our cells. When there is an increased amount of activity and changes in nutrient availability and composition in our body, the cells age faster. As cells age due to various stresses it is subjected to, these damaging events also deregulate various nutrient sensing molecules. For example, a misguided hypothalamus may signal for greater food intake when the body does not really require it. This can result in age-related obesity, diabetes and other metabolic syndromes.
At Varalife, we believe in democratizing the benefits of longevity research and metamorphosing scientific breakthroughs in the field to longevity oriented nutraceuticals. Our formulations are carefully crafted to thoroughly address each hallmark of aging.
Delve into the world of cutting edge longevity research and learn more about the hallmarks of aging and the research behind the ingredients used in our formulations.
The Varalife® team is huddled around a common vision
and mission. Our 5 guiding pillars help us in bringing
world class products to you.
One of the main tenets of Varalife® is to provide
accessibility to the latest intel in the field of longevity.
Learn more about how you can slow your aging through
our elaborate information library.