Name: Fertility Test
Rating: 0.0 (0 reviews)

Collection Method

Blood SpotSaliva

What we measure

Reproductive HormonesThyroid HormonesAdrenal Hormones

You should take this test if you

Plan to get pregnant someday
Are trying to conceive
Have irregular or no periods
Experience persistent stress
Want to understand your hormones
Have family thyroid issues

What you'll discover

Measures

Your personal biomarker values are displayed on an easy-to-read dashboard with descriptions of what each biomarker value means for you.

Analysis

Using your biomarkers, we provide detailed insights to help identify potential health risks or specific areas of improvement. Insights are generated using Thorne's Health Intelligence platform.

Improvement Plan

Based on your unique results, a comprehensive improvement plan with diet, activity, and supplement recommendations is generated.

What we measure

Reproductive Hormones • Blood Spot

The reproductive hormones – estradiol, progesterone, testosterone, follicle-stimulating hormone (FSH), and luteinizing hormone (LH) – work synergistically to promote fertility and support a healthy pregnancy. When their levels are out of balance, fertility can be impeded.

Estradiol Progesterone Testosterone FSH LH

Thyroid Hormones • Blood Spot

During pregnancy, a woman’s need is higher for thyroid hormones than when she is not pregnant, so healthy levels are important for a healthy pregnancy. An underactive thyroid gland can be one cause of menstrual cycle irregularities, while an overactive thyroid gland can interfere with normal levels of reproductive hormones.

TSH Free T3 Free T4 TPOAbs

Adrenal Hormones • Blood Spot, Saliva

The two adrenal hormones – DHEA and cortisol – are in direct competition with one another, because the body makes DHEA and cortisol using the same hormone substrate – pregnenolone. Typically, stressors of any kind can result in imbalances. Too much or too little of either DHEA or cortisol can have a negative impact on fertility.

Cortisol (4) DHEA

Reproductive Hormones • Blood Spot

The reproductive hormones – estradiol, progesterone, testosterone, follicle-stimulating hormone (FSH), and luteinizing hormone (LH) – work synergistically to promote fertility and support a healthy pregnancy. When their levels are out of balance, fertility can be impeded.

Estradiol Progesterone Testosterone FSH LH

Thyroid Hormones • Blood Spot

During pregnancy, a woman’s need is higher for thyroid hormones than when she is not pregnant, so healthy levels are important for a healthy pregnancy. An underactive thyroid gland can be one cause of menstrual cycle irregularities, while an overactive thyroid gland can interfere with normal levels of reproductive hormones.

TSH Free T3 Free T4 TPOAbs

Adrenal Hormones • Blood Spot, Saliva

The two adrenal hormones – DHEA and cortisol – are in direct competition with one another, because the body makes DHEA and cortisol using the same hormone substrate – pregnenolone. Typically, stressors of any kind can result in imbalances. Too much or too little of either DHEA or cortisol can have a negative impact on fertility.

Cortisol (4) DHEA

How it works

1 • Order and activate

After your purchase is complete, everything you need for your at-home test is delivered to your door. Use the activation code located on the back of the test kit to activate your test on thorne.com and complete your health profile.

2 • Collect samples and send

Referencing the directions booklet included in your test kit, complete your sample collection from the comfort of your home. Use the prepaid shipper to mail your samples directly to the laboratory.

3 • Receive results and recommendations

Your results will be reviewed by an independent, board-certified physician. Once you’ve sent your samples to the lab, after 8-10 business days you will receive your results with meaningful insights and personalized recommendations to promote your health and wellness.

Potential Indicators

Symptoms attributable to an imbalance of fertility-related hormones can include the following:

Skin changes, including acne
Dark hair growth on the lips, chest, and chin
Loss or thinning of hair
Unexplained weight gain
Breast tenderness
Hot flashes
Night sweats
Changes in sex drive and desire, including reduced libido
Mood changes
Irregular or no periods
Sleep difficulty
Fatigue
Infertility

Symptoms attributable to an imbalance of fertility-related hormones can include the following:

Skin changes, including acne
Dark hair growth on the lips, chest, and chin
Loss or thinning of hair
Unexplained weight gain
Breast tenderness
Hot flashes
Night sweats
Changes in sex drive and desire, including reduced libido
Mood changes
Irregular or no periods
Sleep difficulty
Fatigue
Infertility

Fertility Test 101

Aspects of fertility

Human fertility is measured by being able to successfully conceive. Infertility is the inability of a woman to conceive after one year of trying to do so. Although infertility is relatively common, those struggling with it are nevertheless confronted with medical, psychological, and financial uncertainty, which can be highly frustrating. But there are actions that can be taken to improve fertility. The Thorne Fertility Test provides an assessment that reflects the convergence of biological, psychological, and social elements. This assessment, when combined with proven methods to improve your diet, nutrition, stress, sleep, activity level, and other factors, can empower you and promote healthy fertility.

Human fertility is a complex process that is affected by a wide variety of factors. Alterations in the biological status of these factors can contribute to infertility. Factors that have been shown to affect fertility include:

Age
Diseases or disorders
Genetics
Hormones
Sleep patterns
Stress
Nutrition
Environmental toxins
Exercise and activity level
Weight and level of body fat

How the biomarkers we measure impact your health

Fortunately, there are evidence-based steps that can be taken to improve your chances to conceive. The Thorne Fertility Test analyzes three groups of hormones that have been shown to impact fertility ‐ reproductive hormones, thyroid hormones, and adrenal hormones. These hormones work synergistically in the body to promote or impede fertility. And certain biological markers, when they are out of normal range, can contribute to infertility more than others.

The test panels in the Thorne Fertility Test are not intended to be used as diagnostic measures relative to determining your fertility. Instead, this test is intended to be a screening tool, that is within your control, that will reveal patterns in your hormones that might be influencing your fertility. With a knowledge of these patterns, you can then take basic supportive steps and more precisely communicate with your health-care practitioner.

Reproductive Hormones

Estradiol

Estradiol, the most powerful and active form of estrogen, plays a critical role in fertility. Estrogen stimulates maturation of an egg and, after ovulation, causes the uterine lining to thicken in preparation for implantation of a fertilized egg.

Progesterone

Progesterone is released by the ovaries in response to ovulation. After ovulation, progesterone levels rise to prepare the uterine lining to accept and nourish a possible fertilized egg. A low progesterone level can make it difficult to sustain a pregnancy.

Testosterone

Testosterone, typically thought of as the "male hormone," is also needed in a small quantity for good reproductive health in women. Too little or too much testosterone can disrupt fertility. In fact, a high testosterone level is most associated with infertility related to Polycystic Ovarian Syndrome.

Follicle-stimulating hormone (FSH)

FSH is secreted by the pituitary gland in the brain and stimulates the growth of ovarian follicles, the maturation of an egg within the follicle, and the secretion of estrogen and progesterone. It is instrumental in helping maintain the menstrual cycle.

Luteinizing hormone (LH)

LH is the trigger hormone for ovulation. When an ovarian follicle secretes enough estrogen, a surge of LH stimulates the release of an egg and development of the corpus luteum (what the ovarian follicle turns into after ovulation).

Thyroid Hormones

Thyroid-stimulating hormone (TSH)

TSH is produced in the pituitary gland in the brain and moves to the thyroid gland just above the collarbone. In the thyroid gland, TSH activates the production of the thyroid hormones, T4, and to a lesser extent, T3. Abnormal levels of TSH are often the first sign of thyroid dysfunction and can contribute to fertility problems.

Triiodothyronine (T3)

T3 is one of two thyroid hormones. Although the thyroid gland produces some T3, the majority of T3 is made from the conversion of T4 to T3 outside the thyroid gland (referred to as peripheral conversion). T3 is more potent than T4 ‐ meaning it has a stronger action on tissues that have thyroid hormone receptors. T3 influences reproduction ‐ too much or too little of it can interfere with the menstrual cycle and prevent normal ovulation.

Tetraiodothyronine; Thyroxine (T4)

T4 is the primary thyroid hormone produced in the thyroid gland. Of the two thyroid hormones, T4 is made in the greatest quantity in the thyroid gland. Although T4 has the same actions as T3, it is not as potent as T3. T4 can be converted to T3.

Thyroid peroxidase antibodies (TPOAbs)

TPOAbs are proteins that can attack thyroid peroxidase (TPO), an important enzyme for thyroid hormone production. The presence of TPOAbs can (but not definitively) indicate an autoimmune-related thyroid dysfunction. TPOAbs are an independent risk factor for having an increased difficulty in becoming pregnant and for loss of pregnancy.

Adrenal Hormones

Cortisol

Cortisol, often referred to as the "stress hormone," normally has a daily rhythm that peaks 30-60 minutes after waking up and then gradually falls throughout the day. When you have a healthy cortisol level, it helps wake you up in the morning, regulates your energy and hunger, and modulates your normal response to physical and emotional stress throughout the day. The level of cortisol naturally increases during pregnancy and is important for maintaining a normal pregnancy because it helps regulate immune functions that are important for the fertilized egg to implant in the uterine wall. On the other hand, a persistently elevated cortisol level can alter levels of reproductive hormones and inhibit normal ovulation.

Dehydroepiandrosterone (DHEA)

DHEA is a hormone made in the adrenal glands ‐ and in small amounts in the ovaries and testes. Because DHEA is a precursor to both testosterone and estrogen, either too high or too low a level can significantly impact fertility. In a woman, her DHEA level tends to peak during late adolescence and begins declining naturally around age 30. A low level of DHEA can make it difficult to become pregnant because DHEA promotes healthy eggs and embryos. In fact, studies show that a healthy level of DHEA improves fertility in women with diminished ovarian reserves. On the other hand, because DHEA is easily metabolized to testosterone, a high level can be associated with PCOS-related infertility.

The Science

Collins G, Rossi B. The impact of lifestyle modifications, diet, and vitamin supplementation on natural fertility. Fertil Res Pract 2015;1:11.
Lan L, Harrison C, Misso M, et al. Systematic review and meta-analysis of the impact of preconception lifestyle interventions on fertility, obstetric, fetal, anthropometric and metabolic outcomes in men and women. Hum Reprod 2017;32(9):1925-1940.
Toledo E, Lopez-del Burgo C, Ruiz-Zambrana A, et al. Dietary patterns and difficulty conceiving: a nested case-control study. Fertil Steril 2011;96(5):1149-1153.
Vujkovic M, de Vries J, Lindemans J, et al. The preconception Mediterranean dietary pattern in couples undergoing in vitro fertilization/intracytoplasmic sperm injection treatment increases the chance of pregnancy. Fertil Steril 2010;94(6):2096-2101.
Faghfoori Z, Fazelian S, Shadnoush M, Goodarzi R. Nutritional management in women with polycystic ovary syndrome: A review study. Diabetes Metab Syndr 2017;11 Suppl 1:S429-S432.
Andrews M, Schliep K, Wactawski-Wende J, et al. Dietary factors and luteal phase deficiency in healthy eumenorrheic women. Hum Reprod 2015;30(8):1942-1951.
Orouji-Jokar T, Fourman L, Lee H, et al. Higher TSH levels within the normal range are associated with unexplained infertility. J Clin Endocrinol Metab 2017 Dec 19. doi: 10.1210/jc.2017-02120.
Azziz R, Black V, Hines G, et al. Adrenal androgen excess in the polycystic ovary syndrome: sensitivity and responsivity of the hypothalamic-pituitary-adrenal axis. J Clin Endocrinol Metab 1998;83(7):2317-2323.
Li T, Spuijbroek M, Tuckerman E, et al. Endocrinological and endometrial factors in recurrent miscarriage. BJOG 2000;107(12):1471-1479.
Mastromarino P, Hemalatha R, Barbonetti A, et al. Biological control of vaginosis to improve reproductive health. Indian J Med Res 2014;140 Suppl:S91-S97.
Fan D, Liu L, Xia Q, et al. Female alcohol consumption and fecundability: a systematic review and dose-response meta-analysis. Sci Rep 2017;23;7(1):13815.

Aspects of fertility

Human fertility is measured by being able to successfully conceive. Infertility is the inability of a woman to conceive after one year of trying to do so. Although infertility is relatively common, those struggling with it are nevertheless confronted with medical, psychological, and financial uncertainty, which can be highly frustrating. But there are actions that can be taken to improve fertility. The Thorne Fertility Test provides an assessment that reflects the convergence of biological, psychological, and social elements. This assessment, when combined with proven methods to improve your diet, nutrition, stress, sleep, activity level, and other factors, can empower you and promote healthy fertility.

Human fertility is a complex process that is affected by a wide variety of factors. Alterations in the biological status of these factors can contribute to infertility. Factors that have been shown to affect fertility include:

Age
Diseases or disorders
Genetics
Hormones
Sleep patterns
Stress
Nutrition
Environmental toxins
Exercise and activity level
Weight and level of body fat

How the biomarkers we measure impact your health

Fortunately, there are evidence-based steps that can be taken to improve your chances to conceive. The Thorne Fertility Test analyzes three groups of hormones that have been shown to impact fertility ‐ reproductive hormones, thyroid hormones, and adrenal hormones. These hormones work synergistically in the body to promote or impede fertility. And certain biological markers, when they are out of normal range, can contribute to infertility more than others.

The test panels in the Thorne Fertility Test are not intended to be used as diagnostic measures relative to determining your fertility. Instead, this test is intended to be a screening tool, that is within your control, that will reveal patterns in your hormones that might be influencing your fertility. With a knowledge of these patterns, you can then take basic supportive steps and more precisely communicate with your health-care practitioner.

Reproductive Hormones

Estradiol

Estradiol, the most powerful and active form of estrogen, plays a critical role in fertility. Estrogen stimulates maturation of an egg and, after ovulation, causes the uterine lining to thicken in preparation for implantation of a fertilized egg.

Progesterone

Progesterone is released by the ovaries in response to ovulation. After ovulation, progesterone levels rise to prepare the uterine lining to accept and nourish a possible fertilized egg. A low progesterone level can make it difficult to sustain a pregnancy.

Testosterone

Testosterone, typically thought of as the "male hormone," is also needed in a small quantity for good reproductive health in women. Too little or too much testosterone can disrupt fertility. In fact, a high testosterone level is most associated with infertility related to Polycystic Ovarian Syndrome.

Follicle-stimulating hormone (FSH)

FSH is secreted by the pituitary gland in the brain and stimulates the growth of ovarian follicles, the maturation of an egg within the follicle, and the secretion of estrogen and progesterone. It is instrumental in helping maintain the menstrual cycle.

Luteinizing hormone (LH)

LH is the trigger hormone for ovulation. When an ovarian follicle secretes enough estrogen, a surge of LH stimulates the release of an egg and development of the corpus luteum (what the ovarian follicle turns into after ovulation).

Thyroid Hormones

Thyroid-stimulating hormone (TSH)

TSH is produced in the pituitary gland in the brain and moves to the thyroid gland just above the collarbone. In the thyroid gland, TSH activates the production of the thyroid hormones, T4, and to a lesser extent, T3. Abnormal levels of TSH are often the first sign of thyroid dysfunction and can contribute to fertility problems.

Triiodothyronine (T3)

T3 is one of two thyroid hormones. Although the thyroid gland produces some T3, the majority of T3 is made from the conversion of T4 to T3 outside the thyroid gland (referred to as peripheral conversion). T3 is more potent than T4 ‐ meaning it has a stronger action on tissues that have thyroid hormone receptors. T3 influences reproduction ‐ too much or too little of it can interfere with the menstrual cycle and prevent normal ovulation.

Tetraiodothyronine; Thyroxine (T4)

T4 is the primary thyroid hormone produced in the thyroid gland. Of the two thyroid hormones, T4 is made in the greatest quantity in the thyroid gland. Although T4 has the same actions as T3, it is not as potent as T3. T4 can be converted to T3.

Thyroid peroxidase antibodies (TPOAbs)

TPOAbs are proteins that can attack thyroid peroxidase (TPO), an important enzyme for thyroid hormone production. The presence of TPOAbs can (but not definitively) indicate an autoimmune-related thyroid dysfunction. TPOAbs are an independent risk factor for having an increased difficulty in becoming pregnant and for loss of pregnancy.

Adrenal Hormones

Cortisol

Cortisol, often referred to as the "stress hormone," normally has a daily rhythm that peaks 30-60 minutes after waking up and then gradually falls throughout the day. When you have a healthy cortisol level, it helps wake you up in the morning, regulates your energy and hunger, and modulates your normal response to physical and emotional stress throughout the day. The level of cortisol naturally increases during pregnancy and is important for maintaining a normal pregnancy because it helps regulate immune functions that are important for the fertilized egg to implant in the uterine wall. On the other hand, a persistently elevated cortisol level can alter levels of reproductive hormones and inhibit normal ovulation.

Dehydroepiandrosterone (DHEA)

DHEA is a hormone made in the adrenal glands ‐ and in small amounts in the ovaries and testes. Because DHEA is a precursor to both testosterone and estrogen, either too high or too low a level can significantly impact fertility. In a woman, her DHEA level tends to peak during late adolescence and begins declining naturally around age 30. A low level of DHEA can make it difficult to become pregnant because DHEA promotes healthy eggs and embryos. In fact, studies show that a healthy level of DHEA improves fertility in women with diminished ovarian reserves. On the other hand, because DHEA is easily metabolized to testosterone, a high level can be associated with PCOS-related infertility.

The Science

Collins G, Rossi B. The impact of lifestyle modifications, diet, and vitamin supplementation on natural fertility. Fertil Res Pract 2015;1:11.
Lan L, Harrison C, Misso M, et al. Systematic review and meta-analysis of the impact of preconception lifestyle interventions on fertility, obstetric, fetal, anthropometric and metabolic outcomes in men and women. Hum Reprod 2017;32(9):1925-1940.
Toledo E, Lopez-del Burgo C, Ruiz-Zambrana A, et al. Dietary patterns and difficulty conceiving: a nested case-control study. Fertil Steril 2011;96(5):1149-1153.
Vujkovic M, de Vries J, Lindemans J, et al. The preconception Mediterranean dietary pattern in couples undergoing in vitro fertilization/intracytoplasmic sperm injection treatment increases the chance of pregnancy. Fertil Steril 2010;94(6):2096-2101.
Faghfoori Z, Fazelian S, Shadnoush M, Goodarzi R. Nutritional management in women with polycystic ovary syndrome: A review study. Diabetes Metab Syndr 2017;11 Suppl 1:S429-S432.
Andrews M, Schliep K, Wactawski-Wende J, et al. Dietary factors and luteal phase deficiency in healthy eumenorrheic women. Hum Reprod 2015;30(8):1942-1951.
Orouji-Jokar T, Fourman L, Lee H, et al. Higher TSH levels within the normal range are associated with unexplained infertility. J Clin Endocrinol Metab 2017 Dec 19. doi: 10.1210/jc.2017-02120.
Azziz R, Black V, Hines G, et al. Adrenal androgen excess in the polycystic ovary syndrome: sensitivity and responsivity of the hypothalamic-pituitary-adrenal axis. J Clin Endocrinol Metab 1998;83(7):2317-2323.
Li T, Spuijbroek M, Tuckerman E, et al. Endocrinological and endometrial factors in recurrent miscarriage. BJOG 2000;107(12):1471-1479.
Mastromarino P, Hemalatha R, Barbonetti A, et al. Biological control of vaginosis to improve reproductive health. Indian J Med Res 2014;140 Suppl:S91-S97.
Fan D, Liu L, Xia Q, et al. Female alcohol consumption and fecundability: a systematic review and dose-response meta-analysis. Sci Rep 2017;23;7(1):13815.