Hormone Balance 120 Capsules

(Previously named: Menopause)

Hormone Balance 120 Capsules

R380.00 Incl. VAT

0.0/5

In stock

Our natural herbal supplement was crafted with women’s well-being in mind, offers support during the transitions of menopause, and addresses some discomfort associated with PMS.

This thoughtfully designed supplement aims to provide relief during these phases, emphasizing support for women’s overall health.

The Female Hormone System Timeline:

The female hormone system is a complex and delicately balanced network that regulates various physiological processes throughout a woman’s life. The key players in this system are the sex hormones: estrogen, progesterone, and testosterone.

  • Puberty: Puberty marks the beginning of hormonal changes. The hypothalamus, a part of the brain, signals the pituitary gland to release hormones that stimulate the ovaries. This triggers the production of estrogen and progesterone. These hormones drive the development of secondary sexual characteristics, such as breast development and menstruation.
  • Menstrual Cycle: The menstrual cycle typically lasts about 28 days, although it can vary. It consists of several phases, including menstruation, the follicular phase, ovulation, and the luteal phase. Estrogen and progesterone levels fluctuate during these phases, influencing the thickening and shedding of the uterine lining, egg release, and preparation for a potential pregnancy.
  • Reproductive Years: Throughout a woman’s reproductive years, the menstrual cycle repeats, with hormonal levels rising and falling in a predictable pattern. Estrogen promotes the growth and release of eggs, while progesterone prepares the uterus for pregnancy.
  • Perimenopause: As women approach their late 30s or early 40s, they may enter perimenopause, a transitional phase leading to menopause. Hormone levels become irregular, and the ovaries gradually produce less estrogen and progesterone. Menstrual cycles may become irregular, and symptoms like hot flashes and mood changes can occur.
  • Menopause: Menopause typically occurs around the age of 50 when a woman has not had a menstrual period for 12 consecutive months. During menopause, estrogen and progesterone levels remain consistently low. This phase marks the end of the reproductive years.
  • Postmenopause: Postmenopause refers to the years following menopause. Hormone levels stabilize at lower levels, and women may experience symptoms like vaginal dryness and bone density changes. Women must adapt to these hormonal shifts to maintain overall health.

Understanding this hormonal timeline is essential for comprehending the physiological changes women undergo at different life stages. It’s worth noting that individual experiences can vary, and some women may face unique challenges related to hormonal balance.

The Female Endocrine System:

The female endocrine system is a sophisticated network of hormones that intricately governs various aspects of a woman’s health. From reproductive processes to emotional well-being, these hormones play pivotal roles in maintaining balance and supporting overall vitality. Understanding the functions of key hormones sheds light on the complexities of menstrual cycles, fertility, and the intricate web of interactions that contribute to a woman’s overall physiological and emotional equilibrium.

  • Estrogen: A group of hormones that includes estradiol, estrone, and estriol, primarily produced in the ovaries. Estrogen plays a crucial role in regulating the female reproductive system and secondary sexual characteristics.
  • Progesterone: Produced in the ovaries, progesterone is essential for preparing and maintaining the uterine lining for pregnancy. Its levels fluctuate during the menstrual cycle.
  • Inhibin: Produced in the ovaries, inhibin regulates the secretion of follicle-stimulating hormone (FSH) and helps modulate the menstrual cycle.
  • Prolactin: Synthesized in the pituitary gland, prolactin stimulates breast milk production and plays a role in reproductive function.
  • Luteinizing Hormone (LH): Secreted by the pituitary gland, LH is crucial for the regulation of the menstrual cycle, ovulation, and the maintenance of the corpus luteum.
  • Follicle-Stimulating Hormone (FSH): Also produced in the pituitary gland, FSH stimulates the growth and maturation of ovarian follicles in the ovaries.
  • Estradiol: A type of estrogen and the most potent form, primarily produced in the ovaries. It plays a key role in the menstrual cycle, pregnancy, and overall reproductive health.

Enzymes affecting the female reproductive system:

  • Aromatase: An enzyme responsible for converting androgens into estrogens, contributing to the production of estrogen in various tissues.
  • 5α-Reductase: An enzyme that converts testosterone to dihydrotestosterone (DHT), which plays a role in the development of male reproductive tissues.

Understanding the functions and interactions of these hormones and enzymes is crucial for comprehending the complexities of the female reproductive system and reproductive health.

Hormonal Changes in Menopause:

  • Estrogen: During menopause, estrogen levels fluctuate significantly. Initially, there may be an increase in estrogen, known as estrogen dominance, causing symptoms like hot flashes and mood swings. However, as menopause progresses, estrogen levels decline, leading to symptoms such as vaginal dryness and bone density loss.
  • Progesterone: Progesterone levels decrease during menopause, contributing to hormonal imbalances. This decline can affect the uterine lining and exacerbate symptoms like irregular periods.
  • Inhibin:  Inhibin production decreases with age, impacting its role in regulating FSH levels. This decline can influence fertility and the menstrual cycle.
  • Prolactin: Prolactin levels typically remain stable during menopause, as its primary role is in lactation, which is not a central concern during this life stage.
  • Luteinizing Hormone (LH) and Follicle-Stimulating Hormone (FSH):  Menopause is marked by elevated levels of LH and FSH as the body attempts to stimulate the ovaries to produce more estrogen. These elevated levels contribute to various menopausal symptoms.
  • Testosterone:  While testosterone is primarily associated with male reproductive health, women also produce small amounts. During menopause, testosterone levels may decrease, contributing to changes in libido, energy levels, and muscle mass.

Enzymes:

  • Aromatase: Aromatase activity may decrease during menopause due to declining ovarian function. This reduction contributes to lower estrogen levels.
  • 5α-Reductase: While 5α-reductase primarily affects the conversion of testosterone in men, its role in women during menopause is less studied. However, it’s plausible that changes in androgen levels may occur.

Understanding these hormonal and enzymatic changes is crucial for addressing the diverse symptoms and health considerations associated with menopause. Hormone replacement therapy and lifestyle interventions are common approaches to manage these changes and improve the quality of life during and after menopause.

Understanding Elevated Estrogen Levels and Testosterone Binding:

Hormonal Imbalance:
The delicate interplay of hormones, including estrogen, progesterone, and testosterone, can be disrupted, leading to estrogen dominance. Factors like chronic stress, obesity, or conditions like PCOS may upset the balance between these hormones.

  • Adrenal and Liver Impact: Chronic stress strains the adrenal glands, affecting hormone production. The liver, a crucial organ for hormone metabolism, can be compromised, hindering the efficient processing of estrogen and testosterone.
  • Dietary Factors: Diet plays a significant role in influencing estrogen levels. Consuming processed foods, sugars, and unhealthy fats may contribute to hormonal imbalances. Insulin resistance, often linked to poor dietary choices, can stimulate increased estrogen production.
  • Environmental Toxins: Exposure to environmental toxins, such as pesticides, can mimic estrogen, leading to an accumulation of estrogenic substances in the body. This can further contribute to hormonal disruptions.
  • Adrenals and Liver Role: Chronic stress, not only affects the adrenal glands but also diverts resources from hormone production. The liver’s optimal function is crucial for converting estrogen into less active forms for proper excretion.
  • Diet’s Influence: A diet rich in whole foods, fiber, antioxidants, and omega-3 fatty acids supports liver function and hormone metabolism. On the contrary, diets high in processed foods and unhealthy fats may contribute to hormonal disruptions.

Understanding these factors, along with the involvement of enzymes, chemicals, and other hormones, gives individuals an understanding to make lifestyle adjustments for hormonal balance. It’s advisable to consult healthcare professionals for personalized advice and interventions.

Symptoms of Hormonal Imbalance in Menopausal Women:

Physical Symptoms:

  • Hot Flashes: Sudden, intense warmth, often accompanied by sweating and flushing of the face, neck, and chest.
  • Night Sweats: Excessive sweating during sleep, disrupting sleep patterns and causing discomfort.
  • Weight Gain: Changes in hormonal levels can contribute to increased fat storage, particularly around the abdomen.
  • Vaginal Dryness: Decreased estrogen levels may result in reduced lubrication, leading to discomfort during intercourse.
  • Bone Loss: Hormonal fluctuations can impact bone density, potentially leading to osteoporosis and an increased risk of fractures.
  • Fatigue: Hormonal imbalances may contribute to feelings of fatigue and low energy levels.

Emotional Symptoms:

  • Mood Swings: Fluctuations in hormone levels can contribute to irritability, mood swings, and heightened emotional sensitivity.
  • Anxiety and Depression: Hormonal changes may influence neurotransmitter activity, contributing to feelings of anxiety and depression.
  • Sleep Disturbances: Night sweats and other hormonal shifts can disrupt sleep patterns, leading to insomnia or restless sleep.
  • Memory Issues: Some women may have trouble concentrating and memory during hormonal changes.
  • Decreased Libido: Hormonal imbalances can impact sexual desire and arousal.
  • Irritability: Changes in hormonal levels may contribute to increased irritability and a lower tolerance for stress

Understanding these symptoms and their potential impact on both physical and emotional well-being is crucial for recognizing and addressing hormonal imbalances during menopause. Seeking guidance from healthcare professionals can help tailor interventions to manage these symptoms effectively.

 

Example Blood Test Results for Menopausal Women:

Estradiol:

  • Normal range for premenopausal women: 30 – 400 pg/mL
  • Menopausal level may show a decrease, e.g., 20 pg/mL.

Testosterone:

  • Normal range for females: 8 – 60 ng/dL
  • Menopausal level may show a decline, e.g., 25 ng/dL.

Progesterone:

  • Normal range during the menstrual cycle: Varies (e.g., 0.1 – 0.8 ng/mL)
  • Menopausal level may decrease, e.g., 0.3 ng/mL.

FSH (Follicle-Stimulating Hormone):

  • Normal range for premenopausal women: 4.7 – 21.5 mIU/mL
  • Menopausal level may increase, e.g., 45 mIU/mL.

LH (Luteinizing Hormone):

  • Normal range for premenopausal women: 5 – 20 mIU/mL
  • Menopausal level may increase, e.g., 30 mIU/mL.

TSH (Thyroid-Stimulating Hormone):

  • Normal range: 0.4 – 4.0 mIU/L
  • Stable levels within the normal range.

Note: These values are illustrative and may vary based on laboratory methods and individual health conditions. Consultation with a healthcare professional is essential for accurate interpretation.

What will determine that a practitioner would give additional Agnus Castus or Black Cohosh to different menopausal patients, and why?

Agnus Castus (Chaste Tree Berry):

  • Indications for Use: Often recommended for women with irregular menstrual cycles, PMS, and hormonal imbalances. It may be suggested for those experiencing mood swings, irritability, and breast tenderness during menopause.
  • Why it’s Prescribed: Agnus Castus acts on the pituitary gland, helping to balance hormones by influencing the secretion of various hormones, including prolactin. It may be recommended when there’s an imbalance in estrogen and progesterone levels.

Black Cohosh:

  • Indications for Use: Commonly used to alleviate symptoms like hot flashes, night sweats, and mood swings during menopause.
  • Why it’s Prescribed: Black Cohosh contains compounds that may have estrogen-like effects, helping to manage menopausal symptoms by balancing hormone levels. It’s often suggested for women dealing with specific menopausal discomforts.

Determining Factors for Prescription:

  • Symptom Profile: The choice between Agnus Castus and Black Cohosh may depend on the specific symptoms a woman is experiencing. For instance, Agnus Castus might be preferred for menstrual irregularities, while Black Cohosh may be chosen for hot flashes and mood swings.
  • Hormonal Balance: Agnus Castus is believed to influence pituitary function, aiding in hormonal balance, while Black Cohosh may interact with estrogen receptors. (The choice may be influenced by the individual’s hormonal profile).

Our natural herbal supplement was crafted with women’s well-being in mind, offers support during the transitions of menopause, and addresses some discomfort associated with PMS.

This thoughtfully designed supplement aims to provide relief during these phases, emphasizing support for women’s overall health.

The Female Hormone System Timeline:

The female hormone system is a complex and delicately balanced network that regulates various physiological processes throughout a woman’s life. The key players in this system are the sex hormones: estrogen, progesterone, and testosterone.

  • Puberty: Puberty marks the beginning of hormonal changes. The hypothalamus, a part of the brain, signals the pituitary gland to release hormones that stimulate the ovaries. This triggers the production of estrogen and progesterone. These hormones drive the development of secondary sexual characteristics, such as breast development and menstruation.
  • Menstrual Cycle: The menstrual cycle typically lasts about 28 days, although it can vary. It consists of several phases, including menstruation, the follicular phase, ovulation, and the luteal phase. Estrogen and progesterone levels fluctuate during these phases, influencing the thickening and shedding of the uterine lining, egg release, and preparation for a potential pregnancy.
  • Reproductive Years: Throughout a woman’s reproductive years, the menstrual cycle repeats, with hormonal levels rising and falling in a predictable pattern. Estrogen promotes the growth and release of eggs, while progesterone prepares the uterus for pregnancy.
  • Perimenopause: As women approach their late 30s or early 40s, they may enter perimenopause, a transitional phase leading to menopause. Hormone levels become irregular, and the ovaries gradually produce less estrogen and progesterone. Menstrual cycles may become irregular, and symptoms like hot flashes and mood changes can occur.
  • Menopause: Menopause typically occurs around the age of 50 when a woman has not had a menstrual period for 12 consecutive months. During menopause, estrogen and progesterone levels remain consistently low. This phase marks the end of the reproductive years.
  • Postmenopause: Postmenopause refers to the years following menopause. Hormone levels stabilize at lower levels, and women may experience symptoms like vaginal dryness and bone density changes. Women must adapt to these hormonal shifts to maintain overall health.

Understanding this hormonal timeline is essential for comprehending the physiological changes women undergo at different life stages. It’s worth noting that individual experiences can vary, and some women may face unique challenges related to hormonal balance.

The Female Endocrine System:

The female endocrine system is a sophisticated network of hormones that intricately governs various aspects of a woman’s health. From reproductive processes to emotional well-being, these hormones play pivotal roles in maintaining balance and supporting overall vitality. Understanding the functions of key hormones sheds light on the complexities of menstrual cycles, fertility, and the intricate web of interactions that contribute to a woman’s overall physiological and emotional equilibrium.

  • Estrogen: A group of hormones that includes estradiol, estrone, and estriol, primarily produced in the ovaries. Estrogen plays a crucial role in regulating the female reproductive system and secondary sexual characteristics.
  • Progesterone: Produced in the ovaries, progesterone is essential for preparing and maintaining the uterine lining for pregnancy. Its levels fluctuate during the menstrual cycle.
  • Inhibin: Produced in the ovaries, inhibin regulates the secretion of follicle-stimulating hormone (FSH) and helps modulate the menstrual cycle.
  • Prolactin: Synthesized in the pituitary gland, prolactin stimulates breast milk production and plays a role in reproductive function.
  • Luteinizing Hormone (LH): Secreted by the pituitary gland, LH is crucial for the regulation of the menstrual cycle, ovulation, and the maintenance of the corpus luteum.
  • Follicle-Stimulating Hormone (FSH): Also produced in the pituitary gland, FSH stimulates the growth and maturation of ovarian follicles in the ovaries.
  • Estradiol: A type of estrogen and the most potent form, primarily produced in the ovaries. It plays a key role in the menstrual cycle, pregnancy, and overall reproductive health.

Enzymes affecting the female reproductive system:

  • Aromatase: An enzyme responsible for converting androgens into estrogens, contributing to the production of estrogen in various tissues.
  • 5α-Reductase: An enzyme that converts testosterone to dihydrotestosterone (DHT), which plays a role in the development of male reproductive tissues.

Understanding the functions and interactions of these hormones and enzymes is crucial for comprehending the complexities of the female reproductive system and reproductive health.

Hormonal Changes in Menopause:

  • Estrogen: During menopause, estrogen levels fluctuate significantly. Initially, there may be an increase in estrogen, known as estrogen dominance, causing symptoms like hot flashes and mood swings. However, as menopause progresses, estrogen levels decline, leading to symptoms such as vaginal dryness and bone density loss.
  • Progesterone: Progesterone levels decrease during menopause, contributing to hormonal imbalances. This decline can affect the uterine lining and exacerbate symptoms like irregular periods.
  • Inhibin:  Inhibin production decreases with age, impacting its role in regulating FSH levels. This decline can influence fertility and the menstrual cycle.
  • Prolactin: Prolactin levels typically remain stable during menopause, as its primary role is in lactation, which is not a central concern during this life stage.
  • Luteinizing Hormone (LH) and Follicle-Stimulating Hormone (FSH):  Menopause is marked by elevated levels of LH and FSH as the body attempts to stimulate the ovaries to produce more estrogen. These elevated levels contribute to various menopausal symptoms.
  • Testosterone:  While testosterone is primarily associated with male reproductive health, women also produce small amounts. During menopause, testosterone levels may decrease, contributing to changes in libido, energy levels, and muscle mass.

Enzymes:

  • Aromatase: Aromatase activity may decrease during menopause due to declining ovarian function. This reduction contributes to lower estrogen levels.
  • 5α-Reductase: While 5α-reductase primarily affects the conversion of testosterone in men, its role in women during menopause is less studied. However, it’s plausible that changes in androgen levels may occur.

Understanding these hormonal and enzymatic changes is crucial for addressing the diverse symptoms and health considerations associated with menopause. Hormone replacement therapy and lifestyle interventions are common approaches to manage these changes and improve the quality of life during and after menopause.

Understanding Elevated Estrogen Levels and Testosterone Binding:

Hormonal Imbalance:
The delicate interplay of hormones, including estrogen, progesterone, and testosterone, can be disrupted, leading to estrogen dominance. Factors like chronic stress, obesity, or conditions like PCOS may upset the balance between these hormones.

  • Adrenal and Liver Impact: Chronic stress strains the adrenal glands, affecting hormone production. The liver, a crucial organ for hormone metabolism, can be compromised, hindering the efficient processing of estrogen and testosterone.
  • Dietary Factors: Diet plays a significant role in influencing estrogen levels. Consuming processed foods, sugars, and unhealthy fats may contribute to hormonal imbalances. Insulin resistance, often linked to poor dietary choices, can stimulate increased estrogen production.
  • Environmental Toxins: Exposure to environmental toxins, such as pesticides, can mimic estrogen, leading to an accumulation of estrogenic substances in the body. This can further contribute to hormonal disruptions.
  • Adrenals and Liver Role: Chronic stress, not only affects the adrenal glands but also diverts resources from hormone production. The liver’s optimal function is crucial for converting estrogen into less active forms for proper excretion.
  • Diet’s Influence: A diet rich in whole foods, fiber, antioxidants, and omega-3 fatty acids supports liver function and hormone metabolism. On the contrary, diets high in processed foods and unhealthy fats may contribute to hormonal disruptions.

Understanding these factors, along with the involvement of enzymes, chemicals, and other hormones, gives individuals an understanding to make lifestyle adjustments for hormonal balance. It’s advisable to consult healthcare professionals for personalized advice and interventions.

Symptoms of Hormonal Imbalance in Menopausal Women:

Physical Symptoms:

  • Hot Flashes: Sudden, intense warmth, often accompanied by sweating and flushing of the face, neck, and chest.
  • Night Sweats: Excessive sweating during sleep, disrupting sleep patterns and causing discomfort.
  • Weight Gain: Changes in hormonal levels can contribute to increased fat storage, particularly around the abdomen.
  • Vaginal Dryness: Decreased estrogen levels may result in reduced lubrication, leading to discomfort during intercourse.
  • Bone Loss: Hormonal fluctuations can impact bone density, potentially leading to osteoporosis and an increased risk of fractures.
  • Fatigue: Hormonal imbalances may contribute to feelings of fatigue and low energy levels.

Emotional Symptoms:

  • Mood Swings: Fluctuations in hormone levels can contribute to irritability, mood swings, and heightened emotional sensitivity.
  • Anxiety and Depression: Hormonal changes may influence neurotransmitter activity, contributing to feelings of anxiety and depression.
  • Sleep Disturbances: Night sweats and other hormonal shifts can disrupt sleep patterns, leading to insomnia or restless sleep.
  • Memory Issues: Some women may have trouble concentrating and memory during hormonal changes.
  • Decreased Libido: Hormonal imbalances can impact sexual desire and arousal.
  • Irritability: Changes in hormonal levels may contribute to increased irritability and a lower tolerance for stress

Understanding these symptoms and their potential impact on both physical and emotional well-being is crucial for recognizing and addressing hormonal imbalances during menopause. Seeking guidance from healthcare professionals can help tailor interventions to manage these symptoms effectively.

 

Example Blood Test Results for Menopausal Women:

Estradiol:

  • Normal range for premenopausal women: 30 – 400 pg/mL
  • Menopausal level may show a decrease, e.g., 20 pg/mL.

Testosterone:

  • Normal range for females: 8 – 60 ng/dL
  • Menopausal level may show a decline, e.g., 25 ng/dL.

Progesterone:

  • Normal range during the menstrual cycle: Varies (e.g., 0.1 – 0.8 ng/mL)
  • Menopausal level may decrease, e.g., 0.3 ng/mL.

FSH (Follicle-Stimulating Hormone):

  • Normal range for premenopausal women: 4.7 – 21.5 mIU/mL
  • Menopausal level may increase, e.g., 45 mIU/mL.

LH (Luteinizing Hormone):

  • Normal range for premenopausal women: 5 – 20 mIU/mL
  • Menopausal level may increase, e.g., 30 mIU/mL.

TSH (Thyroid-Stimulating Hormone):

  • Normal range: 0.4 – 4.0 mIU/L
  • Stable levels within the normal range.

Note: These values are illustrative and may vary based on laboratory methods and individual health conditions. Consultation with a healthcare professional is essential for accurate interpretation.

What will determine that a practitioner would give additional Agnus Castus or Black Cohosh to different menopausal patients, and why?

Agnus Castus (Chaste Tree Berry):

  • Indications for Use: Often recommended for women with irregular menstrual cycles, PMS, and hormonal imbalances. It may be suggested for those experiencing mood swings, irritability, and breast tenderness during menopause.
  • Why it’s Prescribed: Agnus Castus acts on the pituitary gland, helping to balance hormones by influencing the secretion of various hormones, including prolactin. It may be recommended when there’s an imbalance in estrogen and progesterone levels.

Black Cohosh:

  • Indications for Use: Commonly used to alleviate symptoms like hot flashes, night sweats, and mood swings during menopause.
  • Why it’s Prescribed: Black Cohosh contains compounds that may have estrogen-like effects, helping to manage menopausal symptoms by balancing hormone levels. It’s often suggested for women dealing with specific menopausal discomforts.

Determining Factors for Prescription:

  • Symptom Profile: The choice between Agnus Castus and Black Cohosh may depend on the specific symptoms a woman is experiencing. For instance, Agnus Castus might be preferred for menstrual irregularities, while Black Cohosh may be chosen for hot flashes and mood swings.
  • Hormonal Balance: Agnus Castus is believed to influence pituitary function, aiding in hormonal balance, while Black Cohosh may interact with estrogen receptors. (The choice may be influenced by the individual’s hormonal profile).

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