Applied Evidence

Thrombocytopenia and neutropenia: A structured approach to evaluation

J Fam Pract. 2018 July;67(7):E1-E8

Author(s):

These algorithms and tables will help you quickly assess the severity of the 2 blood abnormalities and delineate between life-threatening and benign causes.

PDF Download

PRACTICE RECOMMENDATIONS

› Employ a systematic approach to the diagnosis and treatment of thrombocytopenia and neutropenia. C

› Do not transfuse platelets in patients with platelet counts >10,000/mcL who are stable and are not undergoing an invasive procedure. C

› Monitor patients on heparin therapy for >4 days for heparin-induced thrombocytopenia. C

› Monitor (for life) patients with a history of gastric bypass for the development of nutritional neutropenias. C

Strength of recommendation (SOR)

A Good-quality patient-oriented evidence
B Inconsistent or limited-quality patient-oriented evidence
C Consensus, usual practice, opinion, disease-oriented evidence, case series

From The Journal of Family Practice | 2018;67(7):E1-E8.

References

1. Wong EY, Rose MG. Why does my patient have thrombocytopenia? Hematol Oncol Clin North Am. 2012;26:231-252.

2. Aster RH, Bougie DW. Drug-induced immune thrombocytopenia. N Engl J Med. 2007;357:580-587.

3. University of Oklahoma Health Sciences Center. Database for Drug–induced thrombocytopenia from group patient reports: an update. Available at: http://www.ouhsc.edu/platelets/InternetPostingGroupFrames2014.htm. Accessed May 7, 2018.

4. Sniecinski RM, Hursting MJ, Paidas MJ, et al. Etiology and assessment of hypercoagulability with lessons from heparin-induced thrombocytopenia. Anesth Analg. 2011;112:46-58.

5. Warkentin TE. Heparin-induced thrombocytopenia in critically ill patients. Crit Care Clin. 2011;27:805-823.

6. Connell NT, Sweeney JD. Does my patient have life- or limb-threatening thrombocytopenia? Hematol Oncol Clin North Am. 2012;26:369-382.

7. George JN, Nester CM. Syndromes of thrombotic microangiopathy. N Engl J Med. 2014;371:654-666.

8. Hanly JG. Antiphospholipid syndrome: an overview. CMAJ. 2003;168:1675-1682.

9. Sekhon SS, Roy V. Thrombocytopenia in adults: a practical approach to evaluation and management. South Med J. 2006;99:491-498.

10. Gauer RL, Braun MM. Thrombocytopenia. Am Fam Physician. 2012;85:612-622.

11. Bratton RL, Corey R. Tick-borne disease. Am Fam Physician. 2005;71:2323-2330.

12. Yeh JJ, Tsai S, Wu DC, et al. P-selectin-dependent platelet aggregation and apoptosis may explain the decrease in platelet count during Helicobacter pylori infection. Blood. 2010;115:4247-4253.

13. Stasi R, Sarpatwari A, Segal JB, et al. Effects of eradication of Helicobacter pylori infection in patients with immune thrombocytopenic purpura: a systemic review. Blood. 2009;113:1231-1240.

14. Weinzierl EP, Arber DA. The differential diagnosis and bone marrow evaluation of new-onset pancytopenia. Am J Clin Pathol. 2013;139:9-29.

15. Peck-Radosavljevic M. Hypersplenism. Eur J Gastroenterol Hepatol. 2001;13:317-323.

16. Neunert C, Lim W, Crowther M, et al. The American Society of Hematology 2011 evidence-based practice guideline for immune thrombocytopenia. Blood. 2011;117:4190-4207.

17. Kaufman RM, Djulbegovic B, Gernsheimer T, et al. Platelet transfusion: a clinical practice guideline from the AABB. Ann Int Med. 2015;162:205-213.

18. Palmblad J, Dufour C, Papadaki HA. How we diagnose neutropenia in the adult and elderly patient. Haematologica. 2014;99:1130-1133.

19. Hsieh MM, Everhart JE, Byrd-Holt DD, et al. Prevalence of neutropenia in the U.S. population: age, sex, smoking status, and ethnic differences. Ann Intern Med. 2007;146:486-492.

20. Gibson C, Berliner N. How we evaluate and treat neutropenia in adults. Blood. 2014;124:1251-1258.

21. Urabe A. Clinical features of the neutropenic host: definitions and initial evaluation. CID. 2004;39(suppl 1):S53-S55.

22. Dale DC, Hammond WP 4th. Cyclic neutropenia: a clinical review. Blood Rev. 1988;2:178-185.

23. Munshi HG, Montgomery RB. Severe neutropenia: a diagnostic approach. West J Med. 2000;172:248-252.

24. Pisciotta AV. Drug-induced agranulocytosis peripheral destruction of polymorphonuclear leukocytes and their marrow precursors. Blood Rev. 1990;4:226-237.

25. Andersohn F, Konzen C, Garbe E. Systematic review: agranulocytosis induced by nonchemotherapy drugs. Ann Intern Med. 2007;146:657-665.

26. Bhatt V, Saleem A. Review: drug-induced neutropenia – pathophysiology, clinical features, and management. Ann Clin Lab Sci. 2004;34:131-137.

27. Newburger PE, Dale DC. Evaluation and management of patients with isolated neutropenia. Semin Hematol. 2013;50:198-206.

28. Bakken JS, Krueth J, Wilson-Nordskog C, et al. Clinical and laboratory characteristics of human granulcytic ehrlichiosis. JAMA. 1996;275:199-205.

29. Hall GW, Schwartz RP. White blood cell count and differential in Rocky Mountain spotted fever. NC Med J. 1979;40:212-214.

30. Nishimura K, Sugiyama D, Kogata Y, et al. Meta-analysis: diagnostic accuracy of anti-cyclic citrullinated peptide antibody and rheumatoid factor for rheumatoid arthritis. Ann Intern Med. 2007;146:797-808.

31. Petri M, Orbai AM, Alarcón GS, et al. Derivation and validation of the Systemic Lupus International Collaborating Clinics classification criteria for systemic lupus erythematosus. Arthritis Rheum. 2012; 64:2677-2686.

Thrombocytopenia and neutropenia are commonly encountered laboratory abnormalities. The presence of either requires that you promptly evaluate for life-threatening causes and identify the appropriate etiology. This article identifies key questions to ask. It also includes algorithms and tables that will facilitate your evaluation of patients with isolated thrombocytopenia or isolated neutropenia and speed the way toward appropriate treatment.

Thrombocytopenia: A look at the numbers

Thrombocytopenia is defined as a platelet count <150,000/mcL.¹ The blood abnormality is either suspected based on the patient’s signs or symptoms, such as ecchymoses, petechiae, purpura, epistaxis, gingival bleeding, or melena, or it is incidentally discovered during review of a complete blood count (CBC).

The development of clinical symptoms is closely related to the severity of the thrombocytopenia, with platelet counts <30,000/mcL more likely to result in clinical symptoms with minor trauma and counts <5,000/mcL potentially resulting in spontaneous bleeding. While most patients will have asymptomatic, incidentally-found thrombocytopenia, and likely a benign etiology, those with the signs/symptoms just described, evidence of infection, or thrombosis are more likely to have a serious etiology and require an expedited work-up. Although pregnancy may be associated with thrombocytopenia, this review confines itself to the causes of thrombocytopenia in non-pregnant adults.

Rule out pseudothrombocytopenia

When isolated thrombocytopenia is discovered incidentally in an asymptomatic person, the first step is to perform a repeat CBC with a peripheral smear to confirm the presence of thrombocytopenia, rule out laboratory error, and assess for platelet clumping. If thrombocytopenia is confirmed and platelet clumping is present, it may be due to the calcium chelator in the ethylenediaminetetraacetic anticoagulant contained within the laboratory transport tube; this cause of pseudothrombocytopenia occurs in up to 0.29% of the population.¹ Obtaining a platelet count from a citrated or heparinized tube avoids this phenomenon.

Is the patient’s thrombocytopenia drug induced?

Once true thrombocytopenia is confirmed, the next step is to review the patient’s prescribed medications, as well as any illicit drugs used, for potential causes of drug-induced thrombocytopenia. DITP can be either immune-mediated or nonimmune-mediated.

Immune-mediated drug-induced thrombocytopenia typically occurs within 1 to 2 weeks of medication exposure and begins to improve within 1 to 2 days of stopping the offending drug.

Immune-mediated DITP typically occurs within 1 to 2 weeks of medication exposure and begins to improve within 1 to 2 days of stopping the offending drug.² (See TABLE 1³ for a list of medications that can induce thrombocytopenia.) It should be noted that most patients who take the medications listed in TABLE 1 do not experience thrombocytopenia; nonetheless, it is a potential risk associated with their use.

Heparin-induced thrombocytopenia (HIT) is a unique form of immune-mediated DITP in that it is caused by antibody complexes, resulting in platelet activation, clumping, and thrombotic events.⁴ HIT occurs <1% of patients in intensive care units, but can occur in any patient on long-term heparin therapy. It manifests as a >50% drop in platelet count within 5 to 14 days of the introduction of heparin; however, in those previously exposed to heparin, it can occur within 24 hours.^4,5

Continue to: Non-immune-mediated DITP