R190.00 Incl. VAT
In stock
Our Herbal Insulin Resistance Supplement is a thoughtfully crafted blend designed to support your body's natural ability to manage blood sugar levels. This supplement aims to assist your body in maintaining insulin sensitivity and promoting a balanced metabolic system.
Adults: 30 drops or 6-8 sprays, 3x daily
Children 4-12 years: 8 drops or 2 sprays, 3x daily
Children 12-16 years: Same as adults
Take 20 minutes before meals
Ingredients as traditionally used for this supplement.
Artichoke
Bilberry
Cinnamon
Dandelion
Fenugreek seed
Ginseng - Korean
Goat’s Rue
Hawthorn
Milk Thistle
Psyllium seed
Stinging nettle
Turmeric
Other African Herbs
Alcohol (Tincture)
Artichoke: Rich in compounds believed to contribute to a balanced response to glucose in the bloodstream. Supports metabolic harmony by promoting healthy liver function and bile production. Offers potential benefits for gut health.
Alpha Lipoic Acid (ALA): Packed with antioxidants, ALA supports cellular health and energy production. Known to regenerate glutathione, recycle co-enzyme Q10, and turn glucose into energy. Exhibits chelating properties for various metal ions.
Bilberry: Rich in anthocyanins and flavonoids, believed to contribute to vascular health and support mechanisms for maintaining blood sugar levels. Possesses antioxidant properties, aiding in repairing small vessels.
Cinnamon: Thought to play a role in promoting a balanced response from the pancreas and supporting the body in maintaining healthy blood sugar levels. Active compounds, including cinnamaldehyde, have demonstrated insulin-sensitizing effects.
Dandelion: Containing sesquiterpene lactones and flavonoids, believed to stimulate insulin release, contributing to the body's effort in maintaining balanced blood sugar levels. Potential anti-inflammatory effects and ability to reduce fasting blood glucose levels.
Fenugreek Seed: Rich in soluble fiber and galactomannan, supports digestive health and influences the body's natural response to glucose absorption. Notable effects on glycaemic control and insulin resistance in type-2 diabetes.
Goat’s Rue: Containing 'galegine,' 'guanidine,' 'rutin,' manganese, selenium, and chromium. May contribute to the body's natural ability to regulate blood sugar levels. Components support pancreatic function, fat metabolism, and glucose regulation.
Hawthorn Berries: With flavonoids, oligomeric procyanidins (OPCs), and quercetin, may offer support for cardiovascular health and blood sugar levels. Compounds contribute to a healthy cardiovascular system.
Milk Thistle: Containing silymarin, offers support for liver function and fat metabolism. Detoxifying effects and role in bile salt production contribute to overall metabolic harmony.
Psyllium Husk: Rich in soluble fiber, promotes digestive health and supports the body's natural response to glucose absorption. Gentle effects on improving digestion align with its potential to contribute to overall well-being.
Stinging Nettle Leaves & Root: Containing lectins, polyphenols, and essential minerals, offers support for blood sugar levels, circulation, and overall metabolic balance. Richness in vitamins and minerals, including Vit C, Iron, and Sodium.
Turmeric: With its active compound curcumin, provides potential benefits for inflammation, digestive health, and metabolic balance. Research suggests its role in supporting pancreatic health and overall metabolic well-being.
Vitamin B6 (Pyridoxine): Essential for amino acid metabolism and neurotransmitter synthesis. Linked to improved glucose tolerance. Role in neurotransmitter regulation may influence insulin signaling and sensitivity.
Vitamin B12 (Cobalamin): Supports DNA synthesis, red blood cell formation, and neural function. Adequate levels associated with improved insulin sensitivity. Deficiency may contribute to insulin resistance.
Vitamin C (Ascorbic Acid): Apart from antioxidant properties, plays a role in collagen synthesis. Associated with improved glucose metabolism. May enhance insulin sensitivity, potentially reducing the risk of insulin resistance.
Vitamin D3 (Cholecalciferol): Essential for calcium metabolism and immune modulation. Influences insulin sensitivity. Adequate vitamin D levels linked to improved insulin action and reduced risk of insulin resistance.
Zinc: A crucial mineral for various enzymatic functions, redox balance, and immune function. Involved in insulin.
Not suitable for pregnant or breastfeeding women
Protect from sunlight.
Store below 25°c
What is Insulin resistance?
Insulin resistance is a medical condition in which the body’s cells become less responsive to the effects of insulin, a hormone produced by the pancreas. Insulin plays a crucial role in regulating blood sugar (glucose) levels by facilitating the uptake of glucose into cells, where it is used for energy. In individuals with insulin resistance, cells do not respond effectively to the normal action of insulin, leading to elevated levels of glucose in the bloodstream.
When insulin resistance occurs, the pancreas compensates by producing more insulin to maintain normal blood sugar levels. However, over time, the pancreas may struggle to keep up with the increased demand for insulin, leading to higher blood glucose levels and the potential development of prediabetes or type 2 diabetes.
Several factors contribute to the development of insulin resistance, including
Insulin resistance is a key component of metabolic syndrome, a cluster of conditions that increase the risk of heart disease, stroke, and type 2 diabetes. It is often diagnosed through blood tests that measure fasting insulin levels or by calculating the homeostasis model assessment of insulin resistance (HOMA-IR).
Management and prevention of insulin resistance involve lifestyle changes, including a healthy diet, regular physical activity, and weight management. In some cases, medications may be prescribed to improve insulin sensitivity. Managing insulin resistance is crucial for preventing the progression to type 2 diabetes and reducing the risk of associated complications.
Symptoms of Insulin resistance
Insulin resistance can manifest with various symptoms and signs, indicating underlying metabolic dysfunction. It’s important to note that individuals may experience these symptoms to varying degrees, and some people with insulin resistance may not exhibit noticeable signs. Common symptoms and manifestations of insulin resistance include
It’s crucial to recognize these symptoms and seek medical advice for proper evaluation and diagnosis. Early identification of insulin resistance allows for interventions to address underlying metabolic issues and reduce the risk of associated health conditions, such as type 2 diabetes and cardiovascular disease.
Do children and babies develop insulin resistance?
While insulin resistance is more commonly associated with adults, it can also occur in children and even infants under certain circumstances. Insulin resistance in children is often linked to factors such as genetics, obesity, and metabolic conditions. Here are some consideration
It’s important to note that insulin resistance in children doesn’t necessarily mean they will develop type 2 diabetes at a young age. However, prolonged and severe insulin resistance, especially when combined with other risk factors, can contribute
The dangers of Insulin Resistance
Insulin resistance poses several dangers to the body, as it is a key factor in the development of various metabolic and cardiovascular complications. The dangers associated with insulin resistance include.
Addressing insulin resistance through lifestyle modifications, such as a healthy diet, regular physical activity, and weight management, is crucial to mitigating these dangers and preventing the progression to more severe health conditions. Early detection and intervention play a key role in minimizing the risks associated with insulin resistance.
The connection between insulin resistance, the adrenal glands, and the pancreasTop of Form
The connection between insulin resistance, the adrenal glands, and the pancreas is intricate and involves the hormonal regulation of glucose metabolism within the body.
Insulin Resistance:
Pancreas:
Adrenal Glands:
Crosstalk:
In summary, insulin resistance, the adrenal glands, and the pancreas are interconnected through a network of hormonal signals involved in glucose metabolism. The development of insulin resistance often triggers compensatory responses from the pancreas, while factors such as chronic stress and elevated cortisol levels from the adrenal glands can contribute to insulin resistance. A balance in these hormonal interactions is crucial for maintaining optimal glucose regulation and preventing the progression to conditions like type 2 diabetes. Lifestyle factors, including stress management, regular exercise, and a balanced diet, play a significant role in maintaining this balance and promoting metabolic health.
Insulin Resistance Chemical processes
Insulin resistance involves a series of complex chemical processes that impact the body’s response to insulin. Here’s an overview of these processes
Lipid accumulation in cells with insulin resistance, and how it happens throughout the body
In the context of insulin resistance, the normal balance between insulin and its effects on lipid metabolism is disrupted, leading to the accumulation of lipids within cells. This phenomenon is particularly notable in adipose (fat) tissue, liver cells, and muscle cells.
Adipose Tissue:
Muscle Cells:
Liver Cells (Hepatic Steatosis):
Systemic Impact:
Ectopic Fat Deposition:
Consequences:
Lipid accumulation in cells with insulin resistance reflects a complex interplay of altered hormonal regulation, impaired glucose metabolism, and disrupted lipid homeostasis. Addressing insulin resistance is crucial to mitigating the adverse effects of lipid accumulation throughout the body.
Ingredients which are traditionally used for this disorder
Technical info:
Aloe: Aloe extract, containing active compounds like aloin and glucomannan, exhibits potential in increasing insulin sensitivity, lowering fasting blood glucose, and reducing HbA1C levels. Aloin, known for its anti-inflammatory properties, may modulate inflammatory pathways associated with insulin resistance. The impact on gut mucosa and potential regulation of immune responses may contribute to its efficacy.
Artichoke: Artichoke, rich in bioactive compounds such as cynarin and chlorogenic acid, plays a vital role in absorbing excess glucose and supporting liver function. Cynarin’s impact on bile production and choleresis may influence glucose metabolism. Chlorogenic acid, with antioxidant properties, may contribute to improved insulin sensitivity by mitigating oxidative stress.
Alpha Lipoic Acid (ALA): ALA, a potent antioxidant, regenerates glutathione and recycles co-enzyme Q10 and NAD, contributing to cellular redox balance. Its role in turning glucose into energy may impact mitochondrial function, potentially influencing insulin signaling. ALA’s ability to traverse the blood-brain barrier may have neuroprotective effects in diabetes-related neuropathy.
Bilberry: Bilberry, with anthocyanins, flavonoids, and tannins, showcases potential benefits in lowering blood sugar levels and repairing small vessels. Anthocyanins, through their vasoprotective effects, may contribute to improved microcirculation and vascular health. The antioxidative and anti-inflammatory properties of flavonoids further support their impact on insulin sensitivity.
Burdock Root: Burdock root, containing inulin, Vit B3, and antioxidants, demonstrates potential in improving insulin effectiveness. Inulin, with prebiotic effects, may influence gut microbiota, impacting inflammatory pathways associated with insulin resistance. Antioxidants contribute to mitigating oxidative stress, supporting overall metabolic health.
Cinnamon: Cinnamon, rich in cinnamaldehyde, cinnamic acid, and polyphenols, supports pancreas function and reduces insulin resistance. Cinnamaldehyde’s potential modulation of insulin-responsive genes may enhance glucose homeostasis. Polyphenols, through their anti-inflammatory effects, contribute to improved insulin sensitivity.
Dandelion: Dandelion, with sesquiterpene lactones, flavonoids, and bitter principles, stimulates insulin release from pancreatic β-cells. Sesquiterpene lactones may influence cellular processes involved in insulin secretion. Flavonoids and bitter principles, with anti-inflammatory properties, may contribute to improved fasting blood glucose levels.
Fenugreek Seed: Fenugreek seed, rich in soluble fiber, trigonelline, and galactomannan, offers potential benefits in improving insulin sensitivity and glycaemic control. Soluble fiber and galactomannan may impact gut health and glucose absorption, contributing to metabolic balance. Trigonelline’s role in glucose metabolism aligns with its broader effects on diabetes management.
Fructoligosaccharide: Fructoligosaccharide, found in burdock root, exhibits antiviral, anti-inflammatory, hypolipidemic, and antidiabetic effects. Its potential modulation of inflammatory pathways and lipid metabolism may contribute to improved insulin sensitivity. The impact on blood glucose and insulin levels in diabetic rats further underscores its therapeutic potential.
Garcinia Cambogia: Garcinia Cambogia, containing hydroxycitric acid (HCA), reduces appetite and inhibits fat production. HCA’s influence on citrate lyase may impact fatty acid synthesis, contributing to weight management. The modulation of appetite-regulating pathways and potential effects on lipid metabolism highlight its role in metabolic health.
Goat’s Rue: Goat’s Rue, with ‘galegine,’ ‘guanidine,’ ‘rutin,’ manganese, selenium, and chromium, influences blood sugar levels and insulin resistance. ‘Galegine’ and ‘guanidine’ may impact cellular processes involved in glucose regulation. ‘Rutin’ and microelements contribute to pancreatic function and overall metabolic balance.
Goldenseal: Goldenseal, containing berberine, lowers blood sugar, reduces sugar absorption, and promotes insulin secretion. Berberine’s multifaceted effects on glucose metabolism, including AMP-activated protein kinase (AMPK) modulation, highlight its potential as an adjunctive therapy. Berberine’s antibacterial and anti-inflammatory properties contribute to metabolic and inflammatory pathways.
Green Tea: Green tea, rich in catechins, particularly epigallocatechin gallate (EGCG), influences diabetes, metabolism, appetite, body weight, and lipid profiles. Catechins, especially EGCG, impact cellular processes involved in glucose metabolism and lipid oxidation, contributing to improved insulin sensitivity and metabolic balance.
Hawthorn Berries: Hawthorn berries, with flavonoids, oligomeric procyanidins (OPCs), and quercetin, normalize blood sugar levels and support cardiovascular health. Flavonoids and OPCs may influence vascular tone and endothelial function, contributing to improved insulin sensitivity and cardiovascular well-being.
Milk Thistle: Milk thistle, containing silymarin, supports liver function, regeneration, and fat metabolism. Silymarin’s effects on hepatic pathways, including oxidative stress mitigation, contribute to its role in metabolic health and insulin resistance.
Psyllium Husk: Psyllium husk, rich in soluble fiber, reduces glucose absorption and supports gut health. Soluble fiber’s impact on intestinal transit time and glucose absorption aligns with its broader effects on digestive health and metabolic balance.
Stinging Nettle Leaves & Root: Stinging nettle, with lectins, polyphenols, and minerals like magnesium, Vitamin C, Iron, and Sodium, impacts glucose and insulin levels, bile salt production, and blood circulation. Lectins and polyphenols may influence cellular processes involved in insulin sensitivity, while minerals contribute to overall metabolic health and vascular function.
Turmeric: Turmeric, containing curcumin, addresses diabetes, pancreatitis, pancreas disorders, and insulin resistance. Curcumin’s anti-inflammatory and antioxidant properties influence inflammatory pathways and cellular processes involved in insulin signaling, contributing to improved glucose homeostasis.
Vitamin B3: Vitamin B3 supports insulin resistance through its role in cellular metabolism and the NAD-dependent enzymes involved in redox balance. Niacin, a form of Vitamin B3, influences energy metabolism, DNA repair, and antioxidative defenses, collectively supporting metabolic health.
Vitamin B6: Vitamin B6 supports insulin resistance through its role in amino acid metabolism and neurotransmitter synthesis. Pyridoxine, a form of Vitamin B6, contributes to cellular processes involved in glucose homeostasis and insulin signaling, enhancing overall metabolic balance.
Vitamin B12: Vitamin B12 supports insulin resistance through its role in DNA synthesis, red blood cell formation, and neural function. Cobalamin, a form of Vitamin B12, influences cellular processes essential for metabolic health, contributing to improved insulin sensitivity.
Vitamin C: Vitamin C supports insulin resistance through its antioxidant properties and role in collagen synthesis. Ascorbic acid, a form of Vitamin C, mitigates oxidative stress, influences immune modulation, and supports vascular health, collectively contributing to metabolic balance.
Vitamin D3 (Cholecalciferol): Vitamin D3 supports insulin resistance through its role in calcium metabolism, immune modulation, and cellular processes involved in insulin signaling. Cholecalciferol, a form of Vitamin D3, influences overall metabolic health and may enhance insulin sensitivity.
Zinc: Zinc supports insulin resistance through its role as a cofactor for numerous enzymes involved in cellular metabolism and redox balance. Its impact on insulin signaling pathways and antioxidant defenses contributes to improved metabolic health. Zinc’s broader influence on immune function and cellular processes aligns with its role in insulin sensitivity.
For more technical advice, please contact one of our distributors in your area.
If you are interested in becoming a practitioner, please visit our training website for more information on herbs and their applications.