ULTIMATE

NUTRITION

PREMIUM & NATURAL HEALTH BOOST

Elevate your health journey and well-being with every dose of our carefully crafted supplements for a holistic solution.

ULTIMATE

NUTRITION

PREMIUM & NATURAL HEALTH BOOST

Elevate your health journey and well-being with every dose of our carefully crafted supplements for a holistic solution.

PREMIUM

COMBINATION IN A SACHET

Asia’s Beneficial Traditions

Gamat

Wild Sea Cucumber

Highly renowned as Gamat in Malaysia. Used for medicinal and beauty purposes such as Gamat oil and lotion.

Believed to possess miraculous healing nature, some of which remain a mystery. This can be seen in its fame in traditional medicine.

Gamat is also effective for treating joint pain, fatigue, blood circulation, heart health, and immune system enhancement.

Efficient Vitamin C Carriers

Liposomal Vit-C-2

Liposomal Vitamin C

Refers to a form of ascorbic acid (vitamin C), wherein the acid is encapsulated within tiny spheres made up of a double layer of lipid called liposomes.

Liposomes protect the vitamin C and facilitate its absorption and delivery into cells.

The encapsulation in liposomes helps protect the vitamin C from degradation in the digestive system and enhances its bioavailability.

Chlorophyll-Rich Sources

AFA copy-3

Liposomal AFA

AFA (or Aphanizomenon flos-aquae) also known as blue-green algae, that grows naturally in fresh water. AFA are rich in nutrients such as proteins, vitamins, minerals, and essential fatty acids.

Liposomal AFA works similarly to liposomal vitamin C or other liposomal formulations, which aims to protect the AFA from degradation in the digestive system and enhance its absorption and bioavailability in the body.

WITH OTHER HIGH VITAMIN C FRUITS

01

Pink Guava-01

Pink Guava

4x higher in vitamin C than oranges.
2.5x higher in vitamin C than kiwi fruits.

02

Camu-camu-01

Camu-camu

60x higher in vitamin C than oranges
32x higher in vitamin C than kiwi fruits.

03

Acelora Cherries-01

Acelora Cherries

85x higher in vitamin C than oranges
49x higher in vitamin C than kiwi fruits.

DIFFERENCES BETWEEN VITAMIN C & LIPOSOMAL VITAMIN C

Vitamin C that is not encapsulated in liposomes is water-soluble and has an absorption rate as low as 20%, with 80% being excreted from the body.

Usually, only a small percentage of nutrients are absorbed, with the majority being destroyed in the stomach (due to stomach acid) or eliminated through excretion.

In contrast, a much higher amount of liposomal Vitamin C can pass through the digestive tract and be absorbed into the bloodstream, potentially up to 90% absorption rate.

Almost all of the liposomal Vitamin C is delivered directly to target cells throughout the body.

LIPOSOMAL TECHNOLOGY APPLICATIONS

Pharmaceutical-01

Pharmaceutical Industries

Applicable in cancer and infectious diseases treatments by improving the solubility, stability, and integrated delivery in drug delivery system.
Cosmetic & Skincare-01

Cosmetics & Skin Cares

Liposomal formulations enhance the delivery of active ingredients in skin care products, promoting skin renewal and skin health.

R&D-01

Researches & Developments

Liposomal technology continues to advance innovation in vaccine development, gene therapy, and regenerative medicine.

LIPOSOMAL AFA & STEM CELLS

What are Stem Cells?

Known as cells with extraordinary capabilities, where these cells can renew themselves and transform into various types of cells in the human body. They have great potential in the treatment of diseases and injuries that cannot be addressed.

How Aphanizomenon (AFA) Affected Stem Cells?

Research has shown that the practice of consuming AFA may promote the activation of stem cells and enhance immunomodulatory effects of the body.

Activating Stem Cells: Several studies suggest that AFA may contain bioactive compounds that can stimulate the activation and mobilization of stem cells to contribute to tissue repair and regeneration.

Immunomodulatory Effects: AFA has been shown to have immunomodulatory properties, which can indirectly impact stem cell activity by creating a favorable setting for stem cell function and regeneration.

ROLES AND FUNCTIONS OF STEM CELLS

TOTIPOTENT

PLURIPOTENT

Fertilization
(Zigot)

2-Cell

4-Cell

8-Cell

Morula

Blastocyst

MULTIPOTENT

Mesenchymal Stem Cell
(Adult Tissue Stem Cell)

Hematopoietic Stem Cell
(Blood Stem Cell)

UNIPOTENT

Other Cells
/ Tissues

Muscle Cell
(Heart)

Neuron Cell
(Nerve)

Osteocyte Cell
(Bone)

Epithelial Cell
(Skin)

White Blood Cell
(Granulocytes, Neutrophils, Eosinophils)

Red Blood Cell

Totipotent Stem Cells

The zygote and the cells in the very early stages of embryonic development are totipotent stem cells. They can develop into any cell type, such as extraembryonic tissues, and have the potential to form an entire individual.

Pluripotent Stem Cells

Pluripotent cells are descendants of totipotent cells, where they can develop into nearly any cell type in the body, but not extraembryonic tissues. They also cannot develop into a whole organism.

Multipotent Stem Cells

Multipotent cells can develop into multiple cell types, but they are only typically specific to a particular organ or tissue type. Examples include hematopoietic stem cells, which can develop into various types of blood cells.

Unipotent Stem Cells

Unipotent cells can differentiate into only one type of cell. These cells are able to self-renew and produce cells of their own type. For example, muscle stem cells can only produce muscle cells.

ROLES AND FUNCTIONS OF STEM CELLS

Totipotent Stem Cells

The zygote and the cells in the very early stages of embryonic development are totipotent stem cells. They can develop into any cell type, such as extraembryonic tissues, and have the potential to form an entire individual.

Pluripotent Stem Cells

Pluripotent cells are descendants of totipotent cells, where they can develop into nearly any cell type in the body, but not extraembryonic tissues. They also cannot develop into a whole organism.

Multipotent Stem Cells

Multipotent cells can develop into multiple cell types, but they are only typically specific to a particular organ or tissue type. Examples include hematopoietic stem cells, which can develop into various types of blood cells.

Unipotent Stem Cells

Unipotent cells can differentiate into only one type of cell. These cells are able to self-renew and produce cells of their own type. For example, muscle stem cells can only produce muscle cells.

Unlock the Power of Advanced Nutrition and Achieve Peak Wellness with Our Liposomal Supplements