"Alopecia" complete Package
The “Alopecia. Complete” package is a comprehensive laboratory assessment that includes the evaluation of deficiency states, hormonal profile, thyroid function, and metabolic disturbances. This investigation allows for the most thorough assessment of internal causes of hair loss in both men and women, including endocrine, metabolic, and stress-associated factors.
The package includes:
General clinical and deficiency-related parameters
- Complete Blood Count (CBC + ESR)
Assesses the overall condition of the body and helps identify inflammatory processes, anemia, and other systemic changes. - Iron (Fe)
Measures serum iron levels, which are essential for normal blood formation and adequate nourishment of hair follicles. - Ferritin
The primary marker of iron stores in the body. Reduced ferritin levels are frequently associated with diffuse hair loss, even when hemoglobin levels are normal. - 25-OH Vitamin D
Participates in the regulation of immune processes and the hair growth cycle. - Vitamin B12
Essential for blood formation and normal cellular metabolism. Deficiency may be accompanied by hair loss and reduced energy levels. - Zinc (Zn) in blood (chromatography)
A trace element involved in keratin synthesis and the division of hair follicle cells. - Sex Hormones
Hormonal balance plays a key role in regulating hair growth. Changes in androgen levels may lead to hair thinning, increased hair shedding, and the development of androgenetic alopecia. - Testosterone
The primary androgen involved in hormonal balance. Its level influences susceptibility to hormone-dependent hair loss. - Dihydrotestosterone (DHT)
The active form of testosterone and a key factor in androgenetic alopecia, affecting the sensitivity of hair follicles. - Sex Hormone-Binding Globulin (SHBG)
Regulates the level of biologically active testosterone and its availability to body tissues. - Free Testosterone Index
Reflects the proportion of active testosterone that may influence the condition of the hair and skin. - Prolactin
Elevated levels may disrupt hormonal balance and contribute to diffuse hair loss. - Thyroid Hormones
Thyroid function directly affects metabolism, energy balance, and the hair growth cycle. Thyroid disorders are often accompanied by hair loss and thinning. - Ultrasensitive TSH (Thyroid-Stimulating Hormone)
The primary marker of thyroid function. Abnormal levels may be associated with hair loss and changes in hair structure. - Free T4 (Thyroxine)
An active hormone that influences metabolism and hair growth at the cellular level. - Carbohydrate Metabolism and Stress Metabolism
Disorders of carbohydrate metabolism and chronic stress may negatively affect the hair growth cycle, increase hair shedding, and impair hair quality through hormonal and metabolic alterations. - Glucose (Blood Sugar)
Elevated or unstable glucose levels may be associated with metabolic disturbances that impair hair follicle nutrition and slow hair growth. - Insulin
A marker of insulin resistance. Elevated insulin levels may enhance the effects of androgens and contribute to the progression of androgen-dependent hair loss. - Cortisol
The primary stress hormone. Chronically elevated cortisol levels disrupt the hair growth phase (anagen), may cause diffuse telogen hair loss, and impair the recovery of hair follicles. - Reproductive Hormones
Reproductive hormones participate in regulating endocrine balance and may indirectly affect hair condition through their interaction with sex hormones and follicular sensitivity. - LH (Luteinizing Hormone) and FSH (Follicle-Stimulating Hormone)
These hormones are involved in the regulation of sex hormone production. Changes in LH and FSH levels may reflect hormonal disturbances affecting androgen balance and the hair growth cycle.