NuBest VITAMIN D3 Tall Growth Protein Powder Chocolate Flavor Instructions

NuBest VITAMIN D3 Tall Growth Protein Powder Chocolate Flavor

Product Information

Specifications:

• Product Name: NuBest Tall Protein Powder
• Source of Vitamin D: Lichen (Vitamin D3)
• Vitamin D Content: 30mcg (as Cholecalciferol)
• Age Range: 2+ to teens
• Available Flavors: Chocolate and Vanilla

Product Usage Instructions

About Vitamin D3 from Lichen:
Vitamin D3 from lichen is a pure and effective source of the Sunshine Vitamin. It offers numerous benefits for bone health, brain health, immune system support, cardiovascular function, and the nervous system.

How to Use NuBest Tall Protein Powder:

1. Choose your preferred flavor – Chocolate or Vanilla.
2. Mix one scoop of the powder with your preferred drink.
3. Consume one shake daily for optimal results.
4. Perfect for active kids, teens, and even picky eaters.
5. Can be used as an instant energy boost, on-the-go meal, or a lunchbox beverage.

FAQ

• What age group is NuBest Tall Protein Powder suitable for?
  NuBest Tall Protein Powder is expertly crafted for children aged 2 years and above, up to teenagers.

• How often should I consume NuBest Tall Protein Powder?
  It is recommended to have one shake of NuBest Tall Protein Powder daily for best results.

• Can NuBest Tall Protein Powder be mixed with any drink?
  Yes, you can mix NuBest Tall Protein Powder with your preferred drink for a delicious and nutritious shake.

VITAMIN D3 FROM LICHEN

Vitamin D3, also known as the “Sunshine Vitamin,” has many documented benefits. Research has shown that it is good for bone and brain health, as well as for the immune system, cardiovascular function, and nervous system.

The fascinating realm of lichens

• Lichens are an appealing type of organism that results from a partnership between a fungus and an alga. They can survive in many different environments, from the Arctic to deserts. Lichens produce vitamin D3 when exposed to sunlight, making it a pure and effective source of this essential nutrient. This form of vitamin D3 is similar to the type produced by human skin when exposed to sunlight, so it is an important part of nutrition science.
• Studies suggest lichen-derived Vitamin D3 is more effective in raising and maintaining healthy serum Vitamin D levels, unlike many supplements that are animal-based or contain the less effective Vitamin D2.

Offering a comprehensive blend of essential nutrients in one convenient formula, NuBest Tall Protein is expertly crafted to accelerate children’s health and body development, from ages 2+ to teens. Perfect for active kids and teens, even picky eaters, it is available in two delicious flavors – Chocolate and Vanilla. Whether as an instant energy boost, an on-the-go meal, or a lunchbox beverage, simply mix it with the preferred drink and grow strong with one daily shake.*

CLINICALLY PROVEN RESULTS

Study
‘Long-term vitamin D3 supplementation is more effective than vitamin D2 in maintaining serum 25-hydroxyvitamin D status over the winter months’ Victoria F. Logan, Andrew R. Gray, Meredith C. Peddie, et al. from the University of Otago, New Zealand

Purpose
This research aimed to assess how a daily physiological amount of either vitamin D2 or vitamin D3 impacts the levels of 25-hydroxyvitamin D (25(OH)D) during the winter season among healthy adults residing in Dunedin, New Zealand, located at latitude 46°S.

Study details

• 95 participants between the ages of 18 and 50
• 3 random groups: one receiving a daily dose of 25 μg (1000 IU) of vitamin D3 (n 32), another group receiving 25 μg (1000 IU) of vitamin D2 daily (n 31), and a third group receiving a placebo (n 32).
• 25 weeks, commencing after the summer season.

Measurements

• Participants were to return to the clinic at weeks 4, 8, 12, and 24 to provide non-fasting blood samples at a standard time in the day between 08.00 and 11.00 hours.
• Measurements of height and weight were taken once again after the study.

Results
At the end of the 25 weeks, participants who were assigned to the D2 and placebo groups experienced a notable decrease in their serum 25(OH)D3 levels during the winter months when compared to those who received vitamin D3 supplementation. Notably, vitamin D2 supplementation led to an increase in serum 25(OH)D2 levels but also resulted in a 9 nmol/l greater decline (with a 95% confidence interval of 1 to 17) in the 25(OH)D3 metabolite compared to the placebo group (P < 0.036).

Study
‘Does vitamin D supplementation of healthy Danish Caucasian girls affect bone turnover and bone mineralization?’ Researchers from different departments in Denmark, Ireland, and Finland

Purpose
The objective of this study was to examine the impact of 5 and 10 μg/day vitamin D3 supplementation for 12 months on bone mass and bone turnover in 11-to-12-year-old girls, while also considering the potential influence of vitamin D receptor (VDR) and ER genotype on the outcomes of the supplementation.

Study details

• 225 girls were randomized to each of the three groups: (A) placebo, (B) 5 μg vitamin D3, and (C) 10 μg vitamin D3, daily for 1 year.
• Height, weight, bone mineral content (BMC), and bone mineral density (BMD), as well as stage of pubertal status, were assessed at baseline and after 12 months of intervention.
• Fasting blood and second void urine samples were taken between 08.00 and 10.00 am at baseline and after 6 and 12 months of intervention.

Results
Vitamin D supplementation did not yield any observable impact on biomarkers related to bone turnover or on the increase in bone mineral content (BMC) or bone mineral density (BMD) in the entire study population. Nevertheless, it was found that vitamin D supplementation led to a significant increase in both whole-body BMD (p = 0.007) and BMC (p = 0.048) exclusively in individuals with the FF VDR genotype, with no such effect observed in those with the Ff or ff VDR genotypes.

Conclusion
Supplementing with vitamin D at doses of 5 or 10 μg/day for 12 months led to an increase in S-25OHD concentration. However, there was no significant effect on bone health indicators for the entire group of girls. Notably, among a subgroup of girls with the FF VDR genotype, there was an observed impact on bone mineral density (BMD), underscoring the influence of genotype on these outcomes.

Study
‘Formulation of Lichen Based Pill a Natural Source of Vitamin D3 with a High Absorption Rate by Ambrosiya Neo-Medicine Pvt. Ltd’ Gourvendra Gangwar from Ambrosia Food Farm Company, India

Purpose
This study aims to address the global consequences of vitamin D deficiency, which can lead to various health issues, such as bone problems, cancer, heart diseases, infectious diseases, and CNS issues. It also focuses on the effectiveness of a food-grade vitamin D pill derived from lichen, introduced by Ambrosiya Neo-Medicine Pvt. Ltd., an Indian pharmaceutical company, in maintaining adequate blood levels of vitamin D and mitigating these health risks.

Study details

• 10 patients who have a deficiency of Vitamin D were first identified.
• Out of ten five patients (P1-P5) were given Normal Vitamin D (Marketed product) and the remaining five patients (P6-P10) were given Lichen-Based Vitamin D3.

Results
After 48 hours the absorption of lichen-based Vitamin D3 in patients (P6-P10) was highly observed.

Conclusion
Lichen-based vitamin D3 offers a potent and absorbable form of the vitamin. It’s cost-effective, toxin-free, and ideal for those with dietary limitations. Studies have shown higher absorption rates compared to regular Vitamin D3. With the ability to produce a consistent supply, it ensures optimal bone health, immune system function, and mental well-being while being environmentally conscious and vegan-friendly.

Study

• ‘‘Effect of Vitamin D Replacement on MusculoskeletalParameters in School Children: A RandomizedControlled Trial’
• Ghada El-Hajj Fuleihan, Mona Nabulsi, Hala Tamim, Joyce Maalouf, et al. from the American University of Beirut and Toronto University

Purpose
While hypovitaminosis D is commonly found in children and adolescents worldwide, the precise effect of vitamin D deficiency on skeletal health remains uncertain. This research aims to administer high-dose vitamin D would lead to the highest improvements in muscle mass, bone mineral density (BMD), and bone mineral content (BMC) in adolescent girls when compared to low-dose vitamin D and a placebo.

Study details

• 179 girls, ages 10–17 yr
• 2 treatment groups: Receive weekly oral vitamin D doses of 1,400 IU (equivalent to 200 IU/d) or 14,000 IU (equivalent to 2,000 IU/d)
• A double-blind, placebo-controlled, 1-yr protocol.

Measurement

• Baseline and 1-year measurements included assessments of areal bone mineral density (BMD) and bone mineral content (BMC) at multiple locations, including the lumbar spine, hip, forearm, total body, and body composition.
• Additionally, serum levels of calcium, phosphorus, alkaline phosphatase, and vitamin D metabolites were monitored throughout the study.

Results

• In the overall group of girls, both treatment groups showed a significant increase in lean mass (P ≤ 0.05), while the high-dose group exhibited growth in bone area and total hip bone mineral content (BMC) (P < 0.02).
• Among premenarcheal girls, both treatment groups saw a significant rise in lean mass, with trends indicating improved bone mineral density (BMD) and/or BMC at various skeletal sites. These trends reached significance at the lumbar spine BMD for the low-dose group and the trochanter BMC for both groups.
• However, there were no significant changes in lean mass, BMD, or BMC in postmenarcheal girls.

Conclusion
The replacement of Vitamin D had a beneficial effect on musculoskeletal parameters in girls, particularly during the premenarcheal period.

A recommended dose of NuBest Tall Protein provides 30 mcg of Vitamin D from Lichen, allowing the diet and other supplements to bring the remaining RDI for optimal health. Furthermore, the protein powder is loaded with essential vitamins A, B, C & and E, Calcium, Zinc, Magnesium, and so much more nutrients, all of which contribute to healthy bone strength, energy, and overall health.*

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