Unit Converter
Lymphocytes (Absolute Lymphocyte Count)
(Core Immune Cell Count — Key Marker in Viral Infections, Immunodeficiency, Autoimmunity & Hematologic Disorders)
Synonyms
- Absolute lymphocyte count (ALC)
- Lymphocyte count
- Lymphs
- Lymphocyte number
- Total lymphocytes
Units of Measurement
- 10⁹/L
- G/L
- Gpt/L
- cells/L
- 10³/µL
- 1000/µL
- 10³/mm³
- 1000/mm³
- K/µL
- K/mm³
- cells/µL
- cells/mm³
Key Unit Equivalences
All the following are identical:
1 × 10⁹/L = 1 G/L = 1 Gpt/L = 1000 cells/µL = 1 K/µL = 1 × 10³/µL = 1000/mm³
Conversions
- 1 × 10⁹/L = 1000 cells/µL
- 1 K/µL = 1 × 10⁹/L
Description
Lymphocytes are a major class of white blood cells involved in adaptive and innate immunity.
Types include:
- T lymphocytes (T cells) → cellular immunity
- B lymphocytes (B cells) → antibody production
- NK cells → innate cytotoxic immunity
Absolute lymphocyte count (ALC) measures the true number of lymphocytes in blood, offering crucial insight into immune system status.
Physiological Role
1. T Lymphocytes
- CD4⁺ helper T cells → coordinate immune responses
- CD8⁺ cytotoxic T cells → kill infected/tumor cells
2. B Lymphocytes
- Produce immunoglobulins (IgG, IgA, IgM, etc.)
- Memory B cells maintain long-term immunity
3. Natural Killer (NK) Cells
- Kill virus-infected cells & cancer cells
4. Immune Memory
- Vaccine responsiveness
- Long-term protection
Clinical Significance
HIGH Lymphocytes
1. Viral Infections
- EBV / infectious mononucleosis
- CMV
- Viral hepatitis
- HIV (early)
- Influenza
- Adenovirus
2. Chronic Lymphocytic Leukemia
- Marked persistent lymphocytosis
- Often ALC > 5.0 × 10⁹/L
3. Post-infection Rebound
Common in recovering children.
4. Smoking
Mild persistent lymphocytosis.
5. Thyrotoxicosis
6. Autoimmune Conditions
- ITP
- RA
- Sjögren syndrome
7. Drug Effects
- Some antipsychotics
- Corticosteroid withdrawal
LOW Lymphocytes
(Clinically critical)
1. Acute Infections
Especially:
- Sepsis
- Severe viral infections
- COVID-19 (hallmark finding)
2. HIV Infection
CD4 depletion causes profound lymphopenia.
3. Primary Immunodeficiencies
- SCID
- DiGeorge syndrome
- Wiskott–Aldrich syndrome
4. Autoimmune Diseases
- SLE
- Sarcoidosis
5. Bone Marrow Disorders
- Aplastic anemia
- Chemotherapy / radiation
- Leukemia / lymphoma
6. Corticosteroids
Cause significant lymphocyte redistribution & suppression.
7. Protein-Energy Malnutrition
8. Stress Response
Acute stress → transient lymphopenia.
Reference Intervals
(Tietz 8E + Mayo + ARUP + WHO)
Adults
- 1.0 – 3.5 × 10⁹/L
(= 1000 – 3500 cells/µL)
Children
Higher due to active immune development:
| Age | Normal ALC |
| Newborn | 2.0 – 11.0 ×10⁹/L |
| 1–2 years | 3.0 – 9.5 ×10⁹/L |
| 2–6 years | 2.0 – 8.0 ×10⁹/L |
| >6 years | 1.0 – 5.0 ×10⁹/L |
Critical Levels
- ALC < 0.5 × 10⁹/L → high infection risk
- ALC > 5.0 × 10⁹/L → consider CLL or chronic viral infection
Diagnostic Uses
1. Evaluate Infection
- Viral infections → lymphocytosis
- Severe bacterial infection → lymphopenia
2. Screen for Immunodeficiency
Persistently low ALC suggests:
- HIV
- SCID
- Other T/B cell defects
3. Hematologic Malignancies
CLL, lymphoma → high persistent ALC.
4. Autoimmune Disorders
ALC helps track activity (e.g., SLE).
5. Treatment Monitoring
Chemotherapy and immunosuppressants suppress lymphocytes.
6. COVID-19 Severity Marker
Low ALC strongly predicts:
- ICU admission
- Mortality
Analytical Notes
- Derived from automated CBC analyzers
- Verified with peripheral smear if abnormal
- Pseudolymphocytosis may occur with platelet clumping
- EDTA samples required
- Stress, exercise, and diurnal variation can alter counts
Clinical Pearls
- In CLL, ALC >5 ×10⁹/L for >3 months is diagnostic (with smear/immunophenotype).
- ALC < 0.5 ×10⁹/L → serious infection risk.
- ALC is a simple but powerful marker in sepsis and COVID-19.
- Children naturally have higher lymphocyte counts than adults.
- Corticosteroids cause lymphocyte redistribution, not destruction.
Interesting Fact
In infants, lymphocytes are the predominant white cell type, unlike in adults where neutrophils dominate - this shift is part of the “leukocyte differential crossover” that occurs around age 5.
References
- Tietz Clinical Chemistry & Molecular Diagnostics, 8th Edition - Hematology
- WHO Hematology Reference Ranges
- Mayo Clinic Laboratories - Lymphocytes
- ARUP Consult - CBC Interpretation
- MedlinePlus / NIH - Lymphocyte Count