Platelets are a component of blood produced in the bone marrow that plays a vital role in the blood clotting process. The normal platelet count in adults and children is 150,000/microL to 450,000/microL (150 to 450 x 10/L), but the normal range may vary in different clinical laboratories. Thrombocytosis is a condition where the platelet count exceeds 450,000/μl.[1] It is also referred to as thrombocythemia. Thrombocytosis can be divided into two groups:  primary thrombocytosis and secondary (or reactive) thrombocytosis.[2] 

This distinction between primary and secondary thrombocytosis is important as it carries implications for evaluation, prognosis, and treatment. Primary thrombocytosis is due to the unregulated abnormality of platelet production of bone marrow progenitor cells.[3] They are usually associated with the myeloproliferative neoplasms group. Primary thrombocytosis, especially essential thrombocythemia and polycythemia vera, have an increased risk of thrombosis and bleeding compared to secondary thrombocytosis.[4]

Secondary thrombocytosis, also known as reactive thrombocytosis defined as an abnormally high platelet count due to underlying events, disease, or the use of certain medications. Secondary thrombocytosis is the more common type and is usually identified in routine laboratory results. Among individuals with thrombocytosis, 80% to 90% are known to have secondary thrombocytosis.[5] Reactive causes of thrombocytosis include transient processes such as acute blood loss, acute infection, or sustained forms of reactive thrombocytosis include iron deficiency, asplenia, cancer, chronic inflammatory, or infectious diseases. Secondary thrombocytosis (reactive thrombocytosis) is a laboratory anomaly that resolves when the underlying causative condition is addressed.

In most cases, the symptoms are due to an underlying disorder and not the thrombocytosis itself. Extreme thrombocytosis may rarely result in thrombotic events such as acute myocardial infarction, mesenteric vein thrombosis, and pulmonary embolism.[6] Even though secondary thrombocytosis is benign, the underlying etiology of thrombocytosis (e.g., malignancy, connective tissue disorders, chronic infections) can be associated with an increased risk of adverse outcomes.

Common causes of secondary thrombocytosis 

• Infections (acute bacterial and viral infections/chronic infections like tuberculosis)
• Inflammation
• Functional and surgical asplenia
• Hemorrhage/ iron deficiency
• Drugs- aztreonam, ceftazidime, ibuprofen, epinephrine, glucocorticoids
• Rheumatoid arthritis, IBD (Inflammatory bowel disease), sarcoidosis
• Hemolysis
• Metastatic cancer/lymphoma
• Allergic reactions
• Exercise[7]

Secondary thrombocytosis (reactive thrombocytosis) is a common condition compared to primary thrombocytosis. Around 75% of individuals without any prior myeloproliferative disorders developed thrombocytosis after splenectomy.[6] The prevalence of reactive thrombocytosis in iron deficiency anemia was around 30%. According to a Chinese study around (25.9%), children developed platelet ≥500 × 10/L  with respiratory tract infections.[8] In an Italian study of children 1 to 24 months old who were hospitalized for community-acquired infections, 50% of them developed thrombocytosis.[9] 

Race, sex, and Age-related demographics: No race, sex, or age predilection exists for secondary thrombocytosis (reactive thrombocytosis).

In the bone marrow, stem cells transform into very large cells known as megakaryocytes. Megakaryocyte forms cell fragments known as platelets and each megakaryocyte can produce anywhere between 5,000 to 10,000 platelets. The pathophysiology of secondary thrombocytosis may differ, depending on the cause of thrombocytosis. Thrombocytosis is driven by overproduction of thrombopoietin, interleukin-6, other cytokines, or catecholamines in inflammatory, infectious, or neoplastic conditions or in situations of stress.[10][11]  Megakaryocyte proliferation is the reason for elevated platelet count in iron deficiency anemia. While in asplenia, decreased platelet sequestration is the reason for thrombocytosis.