Stress Support 120 Capsules
Stress Support 120 Capsules
R380.00 Incl. VAT
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Description
Directions for Use
Warning
Technical Information
Our natural herbal supplement is a natural blend of adaptogenic herbs and calming compounds designed to promote relaxation and support the body’s response to stress.
Herbal tonic assists the body in building up its ability to combat stress, anxiety, restlessness, muscle aches, irritability, and insomnia.
What is stress:
Stress is a natural and adaptive response to challenges, demands, or perceived threats.
How People Experience Stress:
The average person experiences stress as a response to various demands or challenges in their life, whether physical, emotional, or psychological. Common stressors include work pressure, relationship issues, financial concerns, or major life changes. When the body encounters stress, it activates a complex physiological response known as the “fight or flight” response.
In response to stressors, the body releases stress hormones such as cortisol and adrenaline. These hormones prepare the body to cope with the perceived threat. The heart rate increases, breathing becomes faster and shallower, and blood is redirected to essential muscles, enabling a quick physical response. This heightened state of alertness is part of the sympathetic nervous system’s activation, which is responsible for the immediate stress reaction.
Additionally, the stress response influences other bodily functions. Digestion may be temporarily suppressed, and energy resources are mobilized to deal with the stressor. Chronic exposure to stress without adequate recovery can lead to imbalances in hormone levels, impacting overall health.
Emotionally, stress can manifest as feelings of anxiety, irritability, or being overwhelmed. Cognitive functions may be affected, leading to difficulty concentrating or making decisions. Sleep patterns can be disrupted, contributing to fatigue and a sense of exhaustion.
While the stress response is a natural and adaptive mechanism, prolonged or chronic stress can have negative consequences on physical and mental well-being. Therefore, understanding and implementing effective stress management strategies are essential for maintaining a balanced and healthy lifestyle.
What happens in the body when we experience stress?
When the body experiences stress and trauma, it initiates a coordinated physiological response that involves several key systems. The process unfolds as follows:
- Perception of Stress or Trauma: The journey begins with the brain’s perception of a stressor or traumatic event. The amygdala associated with emotion and memory, plays a crucial role in recognizing potential threats.
- Hypothalamus Activation: The amygdala signals the hypothalamus, a vital control center in the brain. The hypothalamus activates the body’s stress response by releasing corticotropin-releasing hormone (CRH).
- Pituitary Gland Response: CRH signals the pituitary gland to release adrenocorticotropic hormone (ACTH) into the bloodstream.
- Adrenal Gland Activation: ACTH stimulates the adrenal glands, located atop the kidneys, to release stress hormones—cortisol and adrenaline.
- Cortisol Release: Cortisol, often referred to as the “stress hormone,” is released to increase blood sugar levels and temporarily suppress non-essential functions, such as the immune system. This is part of the body’s preparation for a quick and decisive response to the perceived threat.
- Adrenaline Release: Simultaneously, adrenaline (epinephrine) is released, preparing the body for immediate action. This includes increasing heart rate, dilating airways, and redirecting blood flow to essential muscles.
- Nervous System Activation: The sympathetic nervous system is engaged, triggering the “fight or flight” response. This activation enhances alertness and physical readiness to confront or escape the stressor.
- Enzyme Activity and Digestive Changes: The stress response can influence enzyme activity, potentially impacting processes like digestion. Digestive functions are temporarily suppressed as the body prioritizes resources for immediate survival.
- Pineal Gland Involvement: The pineal gland, responsible for melatonin production, may be influenced, potentially disrupting normal sleep patterns.
- Psychological and Emotional Impact: Emotionally, stress and trauma can manifest as feelings of anxiety, fear, or helplessness. Cognitive functions may be affected, leading to difficulty concentrating or making decisions.
- Long-Term Effects: While the stress response is adaptive in the short term, chronic exposure to stress or trauma without adequate recovery can contribute to long-term health issues. This includes conditions such as chronic inflammation, immune system suppression, and an increased risk of mental health disorders.
Understanding this intricate path in the body provides insights into the complex interplay between the brain, hormones, and the nervous system during stress and trauma. Effective stress management and coping strategies are crucial for mitigating the potential negative consequences on overall well-being.
The role of the Adrenal Glands during stress:
Adrenal Processing of Stress: When you encounter stress, the adrenal glands, situated atop your kidneys, play a pivotal role in the body’s response.
The process begins with the brain’s recognition of the stressor, signaling the hypothalamus to release corticotropin-releasing hormone (CRH). This hormone prompts the pituitary gland to release adrenocorticotropic hormone (ACTH), which then signals the adrenal glands to produce and release stress hormones, primarily cortisol and adrenaline (epinephrine).
Cortisol’s Role:
- Release: Cortisol is released in response to stress, playing a central role in the body’s “fight or flight” response.
- Functions: It increases blood sugar levels, providing quick energy for the body’s immediate needs. Simultaneously, it suppresses non-essential functions like the immune system and digestive processes to redirect resources for the stress response.
- Long-Term Effects: Prolonged elevation of cortisol, as seen in chronic stress, can lead to issues like adrenal fatigue, metabolic imbalances, and a weakened immune system.
Adrenaline’s Role:
- Release: Adrenaline is rapidly released by the adrenal glands, intensifying the body’s immediate physical response to stress.
- Functions: It increases heart rate, opens airways, and redirects blood flow to muscles, preparing the body for quick action.
- Short-Term Impact: While useful for immediate stress response, chronic exposure to adrenaline can contribute to elevated blood pressure and cardiovascular problems.
Enzymes Secreted by Adrenals: The adrenal glands also secrete various enzymes as part of the stress response:
- Catecholamines: These include dopamine, norepinephrine, and epinephrine (adrenaline). They play a crucial role in the sympathetic nervous system’s activation during stress.
- Aldosterone: This hormone helps regulate salt and water balance in the body, influencing blood pressure. Its release can be influenced by stress and impact fluid balance.
Effect on the Body:
- Metabolic Impact:The adrenal response to stress influences metabolic processes, affecting blood sugar levels and insulin sensitivity.
- Immune System-Chronic stress and elevated cortisol levels can suppress the immune system, increasing susceptibility to infections.
- Cardiovascular Health: Long-term exposure to stress hormones may contribute to elevated blood pressure and cardiovascular issues.
- Digestive Suppression: Stress hormones can inhibit digestive processes, potentially leading to gastrointestinal problems.
- Mental Health: The impact on neurotransmitters and brain function can contribute to mental health concerns like anxiety and depression.
Understanding how the adrenals process stress and the subsequent effects on the body emphasizes the importance of stress management for overall health and well-being. Implementing strategies to mitigate chronic stress is crucial in maintaining a balanced and healthy physiological response.
Drink capsules 20 minutes before meals. For those with a sensitive stomach, drink capsules half an hour to an hour, after a meal, for optimal absorption.
Adults: 2-4 Capsules, 3 times daily.
Children between 6-12 years: 1 Capsule, daily.
Children between 13-16 years: 1 Capsules, twice daily. (Start with one capsule and gradually increase to 2 capsules)
Not suitable for pregnant, or breastfeeding women.
Protect from sunlight and store below 25°c.
Ashwagandha: Ashwagandha, containing active compounds like withanolides, acts as an adaptogen, modulating the body’s stress response. Withanolides influence cortisol levels, mitigating stress-induced hormonal imbalances and contributing to its anxiolytic effects.
Basil: Basil’s anxiolytic and mood-stabilizing effects can be attributed to compounds like linalool and eugenol. These constituents interact with neurotransmitter systems, addressing symptoms of anxiety, depression, and muscle spasms.
Borage: Rich in Gamma Linoleic Acid (GLA), Borage contributes to stress management by improving zinc absorption. GLA’s anti-inflammatory properties and impact on cellular health add depth to its stress-related benefits.
Boswellia: Boswellia’s active components, boswellic acids, exhibit anti-inflammatory properties. By rebalancing stress hormones such as cortisol, boswellic acids may contribute to its calming and relaxing effects on the brain.
Catnip: Catnip’s nervine and calming properties stem from compounds like nepetalactone, influencing neurotransmitters to reduce anxiety and tone the nervous system.
Chamomile: Chamomile’s sedative effects are attributed to compounds like apigenin. Apigenin interacts with GABA receptors, providing relief from restlessness, anxiety, and muscle tension.
GABA: Gamma-aminobutyric acid (GABA), the active ingredient itself, acts as a neurotransmitter with calming effects. By binding to GABA receptors, it produces anxiolytic and antiseizure effects, aiding in stress and anxiety management.
Ginseng: Ginseng’s adaptogenic properties, attributed to ginsenosides, impact stress response and cortisol regulation. Its vaso-relaxation effects, potentially mediated by nitric oxide, contribute to its stress-alleviating benefits.
Gymnema Sylvestre: Gymnema’s sugar-blocking properties arise from gymnemic acids. By inhibiting sugar receptors in taste buds, it addresses sugar cravings, linking its effects to stress-related dietary patterns.
Hops: The calming effects of Hops can be associated with compounds like humulone. These constituents, possibly interacting with GABA receptors, contribute to its use as a relaxant.
Lavender: Lavender’s active compounds, such as linalool and linalyl acetate, exert neuroprotective, hormone-balancing, and calming effects. Interactions with neurotransmitters and hormonal regulation add to its stress-relieving properties.
Lemon Balm: Lemon Balm’s anxiolytic effects, attributed to compounds like rosmarinic acid, stimulate the central nervous system, providing relief from anxiety and muscle cramps.
L-Lysine: L-Lysine’s modulation of serotonin receptors and cortisol levels contributes to its stress-reducing effects. Its connection with Vitamin B6 highlights its role in neurotransmitter synthesis.
L-Theanine: L-Theanine, an amino acid present in tea leaves, induces relaxation by influencing neurotransmitters. It enhances cognitive performance, improves attention, and has applications in OCD and schizophrenia adjunctive treatments.
Magnesium: Taurine, an amino acid in this compound, aids magnesium entry into the brain, providing neuroprotective and anti-inflammatory effects. This targeted approach enhances magnesium’s impact on mood
disorders. Magnesium’s psychological distress reduction, especially in PMS, is linked to its modulation of neurotransmitters and neuroinflammation. Its diverse impact on mental health adds to its significance.
MSM: Methylsulfonylmethane (MSM), known for its antioxidant properties, may contribute to stress and fatigue management by supporting cellular energetics and reducing oxidative stress.
Oat Straw: Oat Straw’s sedative effects can be linked to compounds like triterpenoid saponins, possibly interacting with GABA receptors and contributing to its antispasmodic properties.
Passionflower: Passionflower’s anxiolytic and sedative effects, attributed to compounds like flavonoids and alkaloids, interact with GABA receptors, and assist with anxiety, insomnia, and nervousness.
Psyllium: Psyllium’s impact on digestive health may intersect with stress-induced changes in the gut. Exploring its effects on the gut-brain axis adds a layer to its stress-modulating potential.
Rhodiola: Rhodiola’s adaptogenic properties, driven by compounds like salidroside, impact stress-related hormones and neurotransmitters. Its cellular resilience effects contribute to stress and fatigue reduction.
Rosemary: Rosemary’s cognitive-enhancing effects can be linked to compounds like rosmarinic acid, promoting better blood flow to the brain and eyes. Its muscle-relaxant properties contribute to stress and tension management.
Sceletium: Sceletium’s mood-enhancing effects are attributed to alkaloids like mesembrine, influencing serotonin reuptake. Its interactions with neural circuits provide insights into stress-related disorder management.
Selenium: Selenium’s antioxidant role, attributed to selenoproteins, mitigates oxidative stress. Understanding its impact on cellular defense mechanisms adds a biochemical perspective to its stress-modulating properties.
Skullcap: Skullcap’s nervine and neurotropho restorative effects are associated with flavonoids and polyphenols, addressing anxiety, stress, and muscle tension.
Taurine: Taurine’s modulation of neurotransmitters, including Glycine and GABA, positions it as a neuroprotective agent with anxiolytic effects. Exploring its role in mitigating glutamate-induced excitotoxicity enhances its neuropharmacological relevance.
Valerian root: Valerian’s anxiolytic and sedative effects are linked to compounds like valerenic acid. Its interaction with GABA receptors aligns with its use for anxiety and sleep disorders.
Vervain: Vervain’s multifaceted effects on stress, nervous diarrhea, and muscle relaxation are attributed to compounds like iridoids. Exploring its potential influence on neurotransmitters adds depth to its therapeutic spectrum.
Vitamin B12: Vitamin B12’s role in stress management is underlined by its involvement in neurological function. Exploring its impact on neurotransmitter synthesis and myelin sheath maintenance provides insights into its relevance.
Vitamin B6: Vitamin B6’s anti-stress properties, evidenced by its modulatory effects on neurotransmitters, connect with its impact on blood pressure and corticosteroid release.
Wood Betony: Wood Betony’s use for headaches, nervousness, and anxiety finds support in its nervine and calming properties. Exploring its impact on neural pathways enhances its clinical relevance in stress-related conditions.
For more technical advice, please contact one of our distributors in your area.
Description
Directions for Use
Ingredients
Warning
Our natural herbal supplement is a natural blend of adaptogenic herbs and calming compounds designed to promote relaxation and support the body’s response to stress.
Herbal tonic assists the body in building up its ability to combat stress, anxiety, restlessness, muscle aches, irritability, and insomnia.
What is stress:
Stress is a natural and adaptive response to challenges, demands, or perceived threats.
How People Experience Stress:
The average person experiences stress as a response to various demands or challenges in their life, whether physical, emotional, or psychological. Common stressors include work pressure, relationship issues, financial concerns, or major life changes. When the body encounters stress, it activates a complex physiological response known as the “fight or flight” response.
In response to stressors, the body releases stress hormones such as cortisol and adrenaline. These hormones prepare the body to cope with the perceived threat. The heart rate increases, breathing becomes faster and shallower, and blood is redirected to essential muscles, enabling a quick physical response. This heightened state of alertness is part of the sympathetic nervous system’s activation, which is responsible for the immediate stress reaction.
Additionally, the stress response influences other bodily functions. Digestion may be temporarily suppressed, and energy resources are mobilized to deal with the stressor. Chronic exposure to stress without adequate recovery can lead to imbalances in hormone levels, impacting overall health.
Emotionally, stress can manifest as feelings of anxiety, irritability, or being overwhelmed. Cognitive functions may be affected, leading to difficulty concentrating or making decisions. Sleep patterns can be disrupted, contributing to fatigue and a sense of exhaustion.
While the stress response is a natural and adaptive mechanism, prolonged or chronic stress can have negative consequences on physical and mental well-being. Therefore, understanding and implementing effective stress management strategies are essential for maintaining a balanced and healthy lifestyle.
What happens in the body when we experience stress?
When the body experiences stress and trauma, it initiates a coordinated physiological response that involves several key systems. The process unfolds as follows:
- Perception of Stress or Trauma: The journey begins with the brain’s perception of a stressor or traumatic event. The amygdala associated with emotion and memory, plays a crucial role in recognizing potential threats.
- Hypothalamus Activation: The amygdala signals the hypothalamus, a vital control center in the brain. The hypothalamus activates the body’s stress response by releasing corticotropin-releasing hormone (CRH).
- Pituitary Gland Response: CRH signals the pituitary gland to release adrenocorticotropic hormone (ACTH) into the bloodstream.
- Adrenal Gland Activation: ACTH stimulates the adrenal glands, located atop the kidneys, to release stress hormones—cortisol and adrenaline.
- Cortisol Release: Cortisol, often referred to as the “stress hormone,” is released to increase blood sugar levels and temporarily suppress non-essential functions, such as the immune system. This is part of the body’s preparation for a quick and decisive response to the perceived threat.
- Adrenaline Release: Simultaneously, adrenaline (epinephrine) is released, preparing the body for immediate action. This includes increasing heart rate, dilating airways, and redirecting blood flow to essential muscles.
- Nervous System Activation: The sympathetic nervous system is engaged, triggering the “fight or flight” response. This activation enhances alertness and physical readiness to confront or escape the stressor.
- Enzyme Activity and Digestive Changes: The stress response can influence enzyme activity, potentially impacting processes like digestion. Digestive functions are temporarily suppressed as the body prioritizes resources for immediate survival.
- Pineal Gland Involvement: The pineal gland, responsible for melatonin production, may be influenced, potentially disrupting normal sleep patterns.
- Psychological and Emotional Impact: Emotionally, stress and trauma can manifest as feelings of anxiety, fear, or helplessness. Cognitive functions may be affected, leading to difficulty concentrating or making decisions.
- Long-Term Effects: While the stress response is adaptive in the short term, chronic exposure to stress or trauma without adequate recovery can contribute to long-term health issues. This includes conditions such as chronic inflammation, immune system suppression, and an increased risk of mental health disorders.
Understanding this intricate path in the body provides insights into the complex interplay between the brain, hormones, and the nervous system during stress and trauma. Effective stress management and coping strategies are crucial for mitigating the potential negative consequences on overall well-being.
The role of the Adrenal Glands during stress:
Adrenal Processing of Stress: When you encounter stress, the adrenal glands, situated atop your kidneys, play a pivotal role in the body’s response.
The process begins with the brain’s recognition of the stressor, signaling the hypothalamus to release corticotropin-releasing hormone (CRH). This hormone prompts the pituitary gland to release adrenocorticotropic hormone (ACTH), which then signals the adrenal glands to produce and release stress hormones, primarily cortisol and adrenaline (epinephrine).
Cortisol’s Role:
- Release: Cortisol is released in response to stress, playing a central role in the body’s “fight or flight” response.
- Functions: It increases blood sugar levels, providing quick energy for the body’s immediate needs. Simultaneously, it suppresses non-essential functions like the immune system and digestive processes to redirect resources for the stress response.
- Long-Term Effects: Prolonged elevation of cortisol, as seen in chronic stress, can lead to issues like adrenal fatigue, metabolic imbalances, and a weakened immune system.
Adrenaline’s Role:
- Release: Adrenaline is rapidly released by the adrenal glands, intensifying the body’s immediate physical response to stress.
- Functions: It increases heart rate, opens airways, and redirects blood flow to muscles, preparing the body for quick action.
- Short-Term Impact: While useful for immediate stress response, chronic exposure to adrenaline can contribute to elevated blood pressure and cardiovascular problems.
Enzymes Secreted by Adrenals: The adrenal glands also secrete various enzymes as part of the stress response:
- Catecholamines: These include dopamine, norepinephrine, and epinephrine (adrenaline). They play a crucial role in the sympathetic nervous system’s activation during stress.
- Aldosterone: This hormone helps regulate salt and water balance in the body, influencing blood pressure. Its release can be influenced by stress and impact fluid balance.
Effect on the Body:
- Metabolic Impact:The adrenal response to stress influences metabolic processes, affecting blood sugar levels and insulin sensitivity.
- Immune System-Chronic stress and elevated cortisol levels can suppress the immune system, increasing susceptibility to infections.
- Cardiovascular Health: Long-term exposure to stress hormones may contribute to elevated blood pressure and cardiovascular issues.
- Digestive Suppression: Stress hormones can inhibit digestive processes, potentially leading to gastrointestinal problems.
- Mental Health: The impact on neurotransmitters and brain function can contribute to mental health concerns like anxiety and depression.
Understanding how the adrenals process stress and the subsequent effects on the body emphasizes the importance of stress management for overall health and well-being. Implementing strategies to mitigate chronic stress is crucial in maintaining a balanced and healthy physiological response.
Drink capsules 20 minutes before meals. For those with a sensitive stomach, drink capsules half an hour to an hour, after a meal, for optimal absorption.
Adults: 2-4 Capsules, 3 times daily.
Children between 6-12 years: 1 Capsule, daily.
Children between 13-16 years: 1 Capsules, twice daily. (Start with one capsule and gradually increase to 2 capsules)
Primary Ingredients
Ashwagandha: Ashwagandha, containing active compounds like withanolides, acts as an adaptogen, modulating the body’s stress response. Withanolides influence cortisol levels, mitigating stress-induced hormonal imbalances and contributing to its anxiolytic effects.
Basil: Basil’s anxiolytic and mood-stabilizing effects can be attributed to compounds like linalool and eugenol. These constituents interact with neurotransmitter systems, addressing symptoms of anxiety, depression, and muscle spasms.
Borage: Rich in Gamma Linoleic Acid (GLA), Borage contributes to stress management by improving zinc absorption. GLA’s anti-inflammatory properties and impact on cellular health add depth to its stress-related benefits.
Boswellia: Boswellia’s active components, boswellic acids, exhibit anti-inflammatory properties. By rebalancing stress hormones such as cortisol, boswellic acids may contribute to its calming and relaxing effects on the brain.
Catnip: Catnip’s nervine and calming properties stem from compounds like nepetalactone, influencing neurotransmitters to reduce anxiety and tone the nervous system.
Chamomile: Chamomile’s sedative effects are attributed to compounds like apigenin. Apigenin interacts with GABA receptors, providing relief from restlessness, anxiety, and muscle tension.
GABA: Gamma-aminobutyric acid (GABA), the active ingredient itself, acts as a neurotransmitter with calming effects. By binding to GABA receptors, it produces anxiolytic and antiseizure effects, aiding in stress and anxiety management.
Ginseng: Ginseng’s adaptogenic properties, attributed to ginsenosides, impact stress response and cortisol regulation. Its vaso-relaxation effects, potentially mediated by nitric oxide, contribute to its stress-alleviating benefits.
Gymnema Sylvestre: Gymnema’s sugar-blocking properties arise from gymnemic acids. By inhibiting sugar receptors in taste buds, it addresses sugar cravings, linking its effects to stress-related dietary patterns.
Hops: The calming effects of Hops can be associated with compounds like humulone. These constituents, possibly interacting with GABA receptors, contribute to its use as a relaxant.
Lavender: Lavender’s active compounds, such as linalool and linalyl acetate, exert neuroprotective, hormone-balancing, and calming effects. Interactions with neurotransmitters and hormonal regulation add to its stress-relieving properties.
Lemon Balm: Lemon Balm’s anxiolytic effects, attributed to compounds like rosmarinic acid, stimulate the central nervous system, providing relief from anxiety and muscle cramps.
L-Lysine: L-Lysine’s modulation of serotonin receptors and cortisol levels contributes to its stress-reducing effects. Its connection with Vitamin B6 highlights its role in neurotransmitter synthesis.
L-Theanine: L-Theanine, an amino acid present in tea leaves, induces relaxation by influencing neurotransmitters. It enhances cognitive performance, improves attention, and has applications in OCD and schizophrenia adjunctive treatments.
Magnesium: Taurine, an amino acid in this compound, aids magnesium entry into the brain, providing neuroprotective and anti-inflammatory effects. This targeted approach enhances magnesium’s impact on mood
disorders. Magnesium’s psychological distress reduction, especially in PMS, is linked to its modulation of neurotransmitters and neuroinflammation. Its diverse impact on mental health adds to its significance.
MSM: Methylsulfonylmethane (MSM), known for its antioxidant properties, may contribute to stress and fatigue management by supporting cellular energetics and reducing oxidative stress.
Oat Straw: Oat Straw’s sedative effects can be linked to compounds like triterpenoid saponins, possibly interacting with GABA receptors and contributing to its antispasmodic properties.
Passionflower: Passionflower’s anxiolytic and sedative effects, attributed to compounds like flavonoids and alkaloids, interact with GABA receptors, and assist with anxiety, insomnia, and nervousness.
Psyllium: Psyllium’s impact on digestive health may intersect with stress-induced changes in the gut. Exploring its effects on the gut-brain axis adds a layer to its stress-modulating potential.
Rhodiola: Rhodiola’s adaptogenic properties, driven by compounds like salidroside, impact stress-related hormones and neurotransmitters. Its cellular resilience effects contribute to stress and fatigue reduction.
Rosemary: Rosemary’s cognitive-enhancing effects can be linked to compounds like rosmarinic acid, promoting better blood flow to the brain and eyes. Its muscle-relaxant properties contribute to stress and tension management.
Sceletium: Sceletium’s mood-enhancing effects are attributed to alkaloids like mesembrine, influencing serotonin reuptake. Its interactions with neural circuits provide insights into stress-related disorder management.
Selenium: Selenium’s antioxidant role, attributed to selenoproteins, mitigates oxidative stress. Understanding its impact on cellular defense mechanisms adds a biochemical perspective to its stress-modulating properties.
Skullcap: Skullcap’s nervine and neurotropho restorative effects are associated with flavonoids and polyphenols, addressing anxiety, stress, and muscle tension.
Taurine: Taurine’s modulation of neurotransmitters, including Glycine and GABA, positions it as a neuroprotective agent with anxiolytic effects. Exploring its role in mitigating glutamate-induced excitotoxicity enhances its neuropharmacological relevance.
Valerian root: Valerian’s anxiolytic and sedative effects are linked to compounds like valerenic acid. Its interaction with GABA receptors aligns with its use for anxiety and sleep disorders.
Vervain: Vervain’s multifaceted effects on stress, nervous diarrhea, and muscle relaxation are attributed to compounds like iridoids. Exploring its potential influence on neurotransmitters adds depth to its therapeutic spectrum.
Vitamin B12: Vitamin B12’s role in stress management is underlined by its involvement in neurological function. Exploring its impact on neurotransmitter synthesis and myelin sheath maintenance provides insights into its relevance.
Vitamin B6: Vitamin B6’s anti-stress properties, evidenced by its modulatory effects on neurotransmitters, connect with its impact on blood pressure and corticosteroid release.
Wood Betony: Wood Betony’s use for headaches, nervousness, and anxiety finds support in its nervine and calming properties. Exploring its impact on neural pathways enhances its clinical relevance in stress-related conditions.
Not suitable for pregnant, or breastfeeding women.
Protect from sunlight and store below 25°c.