CD4 Count

The normal CD4 count range is between 500 and 1400 cells/microliters., taking into consideration laboratory variations.

There is significant intraindividual variability in CD4 count measurement. In a pre-ART (antiretroviral therapy) study, researchers found the intraindividual coefficient variation in 1020 untreated HIV patients to be at 25% on average. This variability was found even in healthy adult subjects. Several factors contribute to this variability. Any factors that lead to an increase or decrease in WBC count may cause changes to the measured absolute CD4 count. These factors include infection, medications, or other chronic conditions. Leukocytosis may increase the absolute CD4 count, while leukopenia may result in a decreased count. Patients with a history of splenectomy tend to have higher absolute CD4 cell counts, while patients with advanced liver disease and splenomegaly tend to have lower counts, which may be related to splenic sequestration. In these cases, the CD4 percentage usually has less variation. Therefore, any discordant changes between the absolute CD4 count and CD4 cell percentage should lead the clinician to investigate for possible factors that may be causing the changes, and caution should be used in CD4 count interpretation since it may not truly reflect the patient’s immunologic status.

Certain viral and bacterial infections have correlations with a mild decrease in CD4 cell count. These have been documented in viral infections such as Ebstein Barr Virus (EBV), cytomegalovirus (CMV), and HTLV-1 and bacterial infections such as tuberculosis. Patients with Hepatitis C virus (HCV) cirrhosis tend to have lower CD4 cell counts, and HIV patients with HCV co-infection seem to have reduced immune recovery upon initiation of antiretroviral therapy.[9][10] Medications such as corticosteroids may also affect WBC counts, which in turn lead to changes in CD4 cell counts.[11] Alcohol misuse also correlates with a drop in the absolute CD4 count.[12] A rare syndrome called idiopathic CD4 lymphocytopenia has been described, defined as a low CD4 count in the absence of HIV infection or any other medical conditions that may explain the disease.[13][14]

CD4 count depletion is a consequence of HIV infection and leads to devastating opportunistic infections when left untreated. It affects both CD4 helper T cells in the lymphoid tissue as well as T cells circulating in the peripheral blood. In the natural history of HIV infection, there is an abrupt decline in the CD4 count during acute HIV infection that is usually followed by a rebound as a result of CD8 lymphocyte response to viral replication. Without antiretroviral treatment, the CD4 count will then decline over the next several years.[15]

CD4 cell counts are used to monitor the immunologic response to ART. With effective viral suppression, CD4 count should increase by at least 50 cells/microliter after 4 to 8 weeks of treatment and by approximately 100 to 150 cells/microliters increase from baseline at one year. This phase is then followed by an expected increase of 50 to 100 cells/microliter per year. Several factors, such as older age, lower CD4 baseline, and severe immunocompromised status, have been associated with a less than expected improvement in the CD4 count while on treatment.[16][17]

CD4 count is not a reliable indicator of virologic suppression and medication adherence. In patients who develop virologic resistance while on ART, it may take months for the CD4 count to decline, and it may even initially increase. Several factors may falsely increase or decrease CD4 cell counts that may not necessarily reflect a patient’s actual immunologic status. Inter-laboratory variability must also merit consideration. Thus, any significant but unexpected difference between two CD4 count measurements, defined as a 30% change in absolute CD4 count or 3% change in CD4 percentage, must be confirmed with repeat testing.