|Year : 2014 | Volume
| Issue : 4 | Page : 289-293
Is total lymphocyte count a predictor for CD4 cell count in initiation antiretroviral therapy in HIV-infected patients?
Alireza Abdollahi1, Hana Saffar2, Saeed Shoar2, Siroos Jafari3
1 Department of Pathology; Division of Pathology, Imam Hospital Complex, Iranian Research Center for HIV/AIDS, Tehran University of Medical Sciences, Tehran, Iran
2 Division of Pathology, Imam Hospital Complex, Iranian Research Center for HIV/AIDS, Tehran University of Medical Sciences, Tehran, Iran
3 Division of Infectious Diseases, Imam Hospital Complex, Iranian Research Center for HIV/AIDS, Tehran University of Medical Sciences, Tehran, Iran
|Date of Web Publication||21-Jul-2014|
Associate Professor of Pathology, Department of Pathology, Imam Hospital Complex, Tehran University of Medical Sciences, Tehran
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Background: Since laboratory assessments of HIV-infected patients by flow cytometric methods are expensive and unavailable in resource-limited countries, total lymphocyte count by haematology cell counter is supposed to be a suitable surrogate marker to initiate and monitor course of the disease in these patients. The aim of this study was to evaluate the utility of total lymphocyte count as a surrogate marker for CD4 count in HIV-infected patients. Patients and Methods: In a prospective study 560 HIV-positive individuals evaluated for total and CD4 lymphocyte count. For correlation between CD4 count and total lymphocyte count, haemoglobin and haematocrit we defined cut-off values as 200 cell/μl, 1200 cell/μl, 12 gr/dl and 30%, respectively, and compared CD4 count with each parameter separately. Positive predictive value, negative predictive value, sensitivity and specificity of varying total lymphocyte count cutoffs were computed for CD4 count ≤ 200 cell/μl and ≤ 350 cell/μl. Results: Strong degree of correlation was noted between CD4 and total lymphocyte count (r: 0.610, P < 0.001). Mean and standard deviation of total lymphocyte count, haemoglobin and haematocrit in relation to CD4 count were calculated which indicated significant correlation between these variables. Kappa coefficient for agreement was also calculated which showed fair correlation between CD4 200 cell/μl and total lymphocyte count 1200 cell/μl ( 0.35). Conclusion: This study reveals that despite low sensitivity and specificity of total lymphocyte count as a surrogate marker for CD4, total lymphocyte count is of great importance and benefit in resource-limited settings.
Keywords: Antiretroviral therapy, CD4 cell, HIV, total lymphocyte count
|How to cite this article:|
Abdollahi A, Saffar H, Shoar S, Jafari S. Is total lymphocyte count a predictor for CD4 cell count in initiation antiretroviral therapy in HIV-infected patients?. Niger Med J 2014;55:289-93
|How to cite this URL:|
Abdollahi A, Saffar H, Shoar S, Jafari S. Is total lymphocyte count a predictor for CD4 cell count in initiation antiretroviral therapy in HIV-infected patients?. Niger Med J [serial online] 2014 [cited 2021 May 15];55:289-93. Available from: https://www.nigeriamedj.com/text.asp?2014/55/4/289/137187
| Introduction|| |
According to annual reports of UNAIDS 35.3 million (32.2-38.8 ) people were living with human immunodeficiency virus (HIV) infection at the end of 2012.  Although the prevalence of HIV infection is decreasing in a number of countries, the general trend is increasing all over the world. According to World Health Organization (WHO) report, the prevalence rate of HIV infection in Iran has risen from low to concentrate. Although the prevalence in overall population is below 1%, this rate is estimated to be 5% in some high-risk groups such as injection drug users. 
CD4 count is a standard method for measuring immunodeficiency in adults infected with HIV to initiate and monitor highly active antiretroviral therapy. However, the high cost and unavailability of CD4 count in resource-limited countries is a major challenge in monitoring of antiretroviral therapy. 
WHO guidelines for total lymphocyte count (TLC) acknowledge that total lymphocyte count is a useful marker of disease progression and in specific situations can be used as a surrogate marker for CD4 count to make treatment decision in resource poor settings. 
Although some of the previous studies have shown that there is a good correlation between CD4 cell count by flowcytometric methods and TLC by haematology cell counter, ,, opposite reports on the usefulness and validity of these tests are on record. ,
It has been also suggested that TLC <1200 cell/μl and haemoglobin <12 gr/dl have a positive correlation with CD4 count ≤200 cell/μl; , however, there are also some discrepancies in this context. , The aim of this study is to investigate the correlation between total lymphocyte count, haemoglobin and haematocrit with CD4 count in HIV/AIDS patients and also to evaluate positive predictive value (PPV), negative predictive value (NPV), sensitivity and specificity of varying TLC cutoffs for CD4 counts ≤200 cell/μl and ≤350 cell/μl.
| Patients and methods|| |
This prospective study was carried out in Imam Hospital complex (central laboratory), Tehran, Iran, affiliated to Tehran University of medical science.
Five hundred sixty HIV positive individuals (diagnosis based on serology, PCR or western-blot test) were recruited for this study [We followed the national AIDS control organisation recommendation (NACO 2007) for diagnosis of HIV infection]. All patients who have referred to hospital while the study was under way have been included. Exclusion criteria were children, pregnant woman and other medical conditions such as tuberculosis, endocarditis and other viral and bacterial infections which could affect WBC. In order to prevent bias, the patients who had received anti-retroviral drugs were excluded from the study.
Complete blood count was done with Sysmex-K21, Japan instrument on blood samples anticoagulated with EDTA. CD4 + and CD8 + T lymphocytes were counted by flowcytometry device (PARTEC, Japan).
For correlation between CD4 count and TLC, haemoglobin and haematocrit we defined cut off values as 200 cell/μl, 1200 cell/μl, 12 gr/dl and 30%, respectively, and compared CD4 count with each parameter separately. PPV, NPV, sensitivity and specificity of varying TLC cutoffs were computed for CD4 count ≤200 cell/μl and ≤350 cell/μl.
Patients gave an informed consent before entering to the study and the institutional review board of Tehran University of Medical Sciences approved the study protocol. Data were analysed with statistical package for social science (SPSS, version 16, Chicago, Inc.) and a P-value of <0.05 was considered statistically significant. T-test was also used to analyze the relationship between haematologic parameters and CD4 cell count.
| Results|| |
Five hundred and sixty HIV-positive patients enrolled in this study. Frequency distribution of the study population according to different age groups is shown in [Table 1]. As we see more than half of the populations were between 28 and 37 years, which implies that prevalence of HIV infection is more common in young population. The mean and standard deviation of CD4, haemoglobin, haematocrit and TLC are seen in [Table 2].
|Table 1: Frequency distribution of study population according to age groups and gender|
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|Table 2: Mean and standard deviation of CD4, haemoglobin, haematocrit and TLC*|
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After statistical analysis, high degree of correlation was found between CD4 and TLC (r: 0.61, P-value <0.001).
Frequency distribution of various CD4 cutoffs is present in [Table 3]. CD4 ≤200 cell/μl (36.4%) and CD4 ≥ 500 cell/μl (16.4%) have the maximum and minimum number of the patients, respectively.
[Table 4] and [Table 5] show the calculated PPV, NPV, sensitivity and specificity of varying TLC cutoffs to predict CD4 count ≤200 cell/μl and CD4 ≤350 cell/μl.
|Table 4: Calculated PPV*, NPV**, sensitivity and specificity of varying TLC ***cutoffs to predict CD4 count ª 200 cell/ìl|
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|Table 5: Calculated PPV*, NPV**, sensitivity and specificity of varying TLC***cutoffs to predict CD4 count ª 350 cell/ìl|
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Mean and standard deviation of TLC, haemoglobin and haematocrit in correlation to CD4 count was calculated. Mean and standard deviation for TLC <1200 cell/μl in patients with CD4 ≤200cell/μl were 790 cell/μ and 275, respectively, while mean and standard deviation of TLC <1200 cell/μl in patients with CD4 > 200 cell/μl was 1020 cell/μl and 235. This indicates that there is statistically significant correlation between mean and standard deviation of TLC <1200 cell/μl with CD4 ≤ and > 200 cell/μl (P-value <0.001). This was also evident for haemoglobin <12 g/dl and haematocrit <30% with CD4 ≤ and > 200 cell/μl with P-values of 0.016 and 0.021, respectively.
Degree of agreement between CD4 count and TLC, haemoglobin and haematocrit is shown in [Table 6]. Calculating of K-coefficient for agreement indicates that there is a fair correlation (K: 0.35) between TLC and CD4. Degree of agreement for haemoglobin and haematocrit was 0.12 and 0.08, respectively, which reveals slight correlation to CD4.
|Table 6: Degree of agreement between CD4 count and TLC*, haemoglobin and haematocrit|
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In this study we calculated PPV, NPV, specificity and sensitivity for both cutoffs of CD4 ≤200 cell/μl and CD4 ≤350 cell/μl.
As we see in [Table 4], increasing in sensitivity is associated with reduction in specificity, but considering the best cut-off values of the TLC with the most acceptable PPV, NPV, sensitivity and specificity, TLC <1600 cell/μl was found to be the strongest predictor of CD4 count ≤200 cell/μl with sensitivity of 71.1%, specificity 73.5%, PPV 61.4% and NPV of 81.2%
Sensitivity and specificity of TLC <1200 cell/μl to predict CD4 ≤200 cell/μl were 40.7% and 91.3%, respectively.
For CD4 ≤350 cell/μl, TLC <2100 cell/μl was found to have the most acceptable prediction power with sensitivity 82.1%, specificity 57.8%, PPV 79.3% and NPV 62.2%.
| Discussion|| |
According to the WHO guidelines for decision making in HIV-infected patients, the scarcity of flow cytometry should not be a cause to delay antiretroviral therapy while there is access to TLC and clinical staging of the patient. 
In trying to substitute a suitable model in resource-limited settings, this study examined the correlation between TLC and CD4.
There are several studies which indicate that TLC is a reliable surrogate marker for CD4 count to initiate and monitor course of the disease in HIV-infected individuals; ,,, however, studies with discordant results are also on record. 
As previously mentioned the analysis of results of this study has found strong correlation between CD4 cell count and TLC (r: 0.61, P<0.001).
In parts of the developing world with higher incidence of bacterial and parasitic infection that tend to occur in earlier stage of immunodeficiency, the WHO have recommended initiation of antiretroviral therapy at higher counts of CD4 (350 cell/μl) and/or earlier clinical stage.  In this study we calculated PPV, NPV, specificity and sensitivity for both cutoffs of CD4 ≤200 cell/μl and CD4 ≤350 cell/μl.
As we see in [Table 4], increasing in sensitivity is associated with reduction in specificity, but considering the best cut-off values of the TLC with the most acceptable PPV, NPV, sensitivity and specificity, TLC <1600 cell/μl was found to be the strongest predictor of CD4 count <200 cell/μl with sensitivity of 71.1%, specificity: 73.5%, PPV: 61.4% and NPV of 81.2%. This optimal cut-off was between obtained cutoffs of two other studies; one, performed by F. I. Buseri in Nijeria  that found TLC 1400 cell/μl with the strongest prediction power and 90%PPV, 87%NPV, 86%sensitivity and 90% specificity and another study performed by D. Daka in Ethiopia  which indicated TLC 1780 cell/μl had maximum sensitivity of 61% and specificity of 62%.
Sensitivity and specificity of TLC <1200 cell/μl to predict CD4 ≤200 cell/μl were 40.7% and 91.3%, respectively, which was rather concordant to results obtained by D. Daka  with sensitivity and specificity of 41% and 83.5% and lower than reported results of an Indian study  with 59.9% and 94% sensitivity and specificity.
For CD4 ≤350 cell/μl, TLC <2100 cell/μl was found to have the most acceptable prediction power with sensitivity: 82.1%, specificity: 57.8%, PPV: 79.3% and NPV: 62.2%. This cutoff was lower than TLC <2300 cell/μl which was obtained by F. I. Buseri in Nijeria. 
These differences in results and various cutoffs could be due to different racial, ethnic, socioeconomic and epidemiologic factors and also differences in the most common causes of HIV infection in study populations. 
Despite low sensitivity and specificity of TLC as a surrogate marker for CD4, TLC is an important tool in the absence of flow cytometry to measure CD4.
Among 113 patients who had TLC <1200 cell/μl, 83 patients found to have CD4 ≤200 cell/μl and 30 patients were found to have CD4 >200 cell/μl and among 435 patients with TLC>1200 cell/μl, 121 were found to have CD4 ≤200 cell/μl and 314 had CD4>200 cell/μl.
After measuring K-coefficient for agreement, fair degree of correlation was found between these markers (k: 0.352) that was lower than degree of agreement which was found in study performed by Alavi et al (k: 0.448). 
As previously mentioned, there are also studies on record that suggest the use of TLC combined with haemoglobin <12 g/dl as a simple laboratory surrogate marker for initiation of antiretroviral therapy. , We also calculated the degree of agreement for haemoglobin and haematocrit in correlation with CD4 which indicated slight degree of agreement with kappa of 0.128 and 0.087 respectively. This result was similar to degree of agreement calculated by Alavi et al with kappa of 0.202 and 0.160. However, some of the previous studies like studies performed by Spacek and Lau , found strong degree of correlation between CD4 and haemoglobin. These discordant results may be due to socioeconomic factors and predominance of injection drug users in our country which could lead to chronic anaemia and affect the level of haemoglobin in this group.
The results of this study could be limited due to some factors. We were not aware of the cause of HIV-infection in this population; as some individuals like injection drug users were more prone to bacterial infections and chronic anaemias which both intervene in the results, also racial and socio-economic differences may also contradict this conclusion.
Finally we believe that as long as CD4 cell count differ from one locality to other and among different ethnic groups, one TLC cutoff may not necessarily apply to other populations. So, results of studies are better to be analyzed for specific groups in one country or even different parts of one country in order to discern any regional differences.
| Conclusions|| |
Strong degree of correlation was found between CD4 count and TLC, but we did not find considerable sensitivity and specificity for TLC<1200 cell/μl to predict CD4 ≤200 cell/μl.
It should be mentioned that even with low reliability of TLC as a surrogate marker for CD4, TLC is an important tool in the absence of flow cytometry in resource-limited settings.
| Acknowledgement|| |
Authors are thankful to Miss Akram Sarbiaee and Nafiseh Miraliakbari for their kind assistance in statistical analysis.
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[Table 1], [Table 2], [Table 3], [Table 4], [Table 5], [Table 6]
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