Key Benefits

• Show how well your brain signals ovaries or testes to make sex hormones.
• Spot ovulation problems and irregular cycles by clarifying LH surges and timing.
• Guide fertility planning by timing intercourse or insemination around your LH surge.
• Clarify causes of missed periods, like PCOS versus stress‑related suppression, using LH.
• Flag menopause transition or ovarian insufficiency when LH stays high with low estrogen.
• In men, explain low testosterone by distinguishing testicular failure from pituitary causes using LH.
• Assess puberty concerns by identifying early or delayed activation of the reproductive axis.
• Best interpreted with FSH, estradiol or testosterone, prolactin, and your symptoms.

What is a Luteinizing Hormone (LH) blood test?

Luteinizing hormone (LH) is a chemical messenger made in the front part of the pituitary gland in the brain (anterior pituitary). Its release is prompted by signals from the hypothalamus (gonadotropin-releasing hormone, GnRH). LH is a glycoprotein produced by specialized pituitary cells (gonadotrophs). An LH blood test measures how much of this messenger is circulating at the moment of the draw, offering a snapshot of the brain’s signal to the ovaries or testes.

LH’s core job is to drive sex hormone production and key steps in reproduction. In people with ovaries, a sharp rise in LH triggers ovulation and transforms the follicle into the corpus luteum, which makes progesterone; LH also stimulates theca cells to make androgens used to build estrogen. In people with testes, LH stimulates Leydig cells to produce testosterone. Working alongside follicle-stimulating hormone (FSH), LH reflects the activity of the hypothalamic–pituitary–gonadal axis (HPG), linking brain signals to hormone output and the maturation of eggs or sperm.

Why is a Luteinizing Hormone (LH) blood test important?

Luteinizing hormone (LH) is the pituitary signal that tells the ovaries or testes when to make sex hormones and, in women, when to release an egg. Because it sits at the top of the reproductive axis, LH links brain signaling with fertility, menstrual function, testosterone/estrogen balance, bone health, mood, and metabolism.

Reference ranges are lab- and age-specific. In men, values are usually steady within a narrow low-to-mid range. In premenopausal women, LH is low in the follicular phase, peaks sharply at mid‑cycle to trigger ovulation, then falls in the luteal phase; after menopause it stays higher. Outside the ovulatory surge, “optimal” tends to sit in the mid‑range for one’s sex, age, and cycle phase.

When LH is low for context, it often reflects reduced hypothalamic or pituitary drive (secondary hypogonadism). Men may notice low libido, fatigue, infertility, reduced muscle and bone. Women may see absent or irregular periods and anovulation. Teens can have delayed puberty. Pregnancy naturally suppresses LH. Chronic stress, high prolactin, severe illness, and certain hormones or opioids can lower it.

When LH is high, it often signals that the gonads aren’t responding (primary ovarian or testicular failure), so the pituitary pushes harder. Men may have low testosterone with infertility and hot flashes; women may have irregular cycles, menopausal symptoms, or anovulation; LH is characteristically high at menopause and can be elevated in PCOS. In children, high LH may indicate central precocious puberty.

Big picture: LH is a window into the hypothalamic‑pituitary‑gonadal axis. Interpreting it alongside FSH, estradiol or testosterone, prolactin, and thyroid tests clarifies causes of infertility, cycle symptoms, sexual health concerns, and bone risks, and it informs long‑term metabolic and cardiovascular health planning.

What insights will I get?

What a Luteinizing Hormone (LH) blood test tells you.

LH is a pituitary hormone that drives the gonads: it triggers ovulation and progesterone production in ovaries and stimulates testosterone production in testes. Through its control of sex steroids, LH influences fertility, bone and muscle maintenance, metabolic rate, cardiovascular risk factors, mood, and cognition. It reflects the health of the hypothalamic–pituitary–gonadal (HPG) axis and is naturally pulsatile; in menstruating women it varies by cycle phase.

Low values usually reflect reduced pituitary drive or strong negative feedback from high sex-steroid exposure. This occurs with hypothalamic or pituitary suppression (stress, low energy availability, hyperprolactinemia) or with pregnancy and estrogen/progestin contraception. In women it associates with missed or irregular periods and low estradiol; in men with low testosterone, low sperm output, fatigue, and reduced muscle. In youth, low-for-age can signal delayed puberty.

Being in range suggests intact HPG-axis signaling and appropriate feedback. In men, LH is relatively stable and mid-range typically aligns with normal testosterone production. In premenopausal women, values vary by cycle, with a brief mid-cycle surge; outside the surge, mid-range values usually indicate regular ovulation and balanced estrogen/progesterone support for bone, body composition, and mood.

High values usually reflect reduced gonadal feedback from primary gonadal dysfunction. In women this includes primary ovarian insufficiency and menopause; polycystic ovary syndrome can show a higher LH-to-FSH pattern in some, though not all. In men, elevated LH with low testosterone suggests primary testicular failure. High-for-age in children can indicate early puberty.

Notes: Interpretation depends on age, sex, menstrual cycle day, and pregnancy. LH is pulsatile; single measurements can vary. Estrogens, progestins, GnRH analogs, anabolic steroids, and opioids lower LH; menopause raises it. Pairing LH with FSH and estradiol or testosterone improves context.