CLINICAL & BASIC RESEARCH العدوى االنتهازية واملضاعفات عنداإلصابه بفريوس نقص املناعة البشرية-1 يف األطفال واالرتباط مع احلالة املناعية جيفندر ياداف، �شاجنيف ناندا، ديباك �شارما abstract: Objectives: The aim of this study was to ascertain the correlation between various opportunistic infections and complications in human immunodeficiency virus (HIV)-1-infected children and the immune status of these patients, evaluated by absolute cluster of differentiation 4 (CD4) count and CD4 percentage. Methods: This study was conducted from January 2009 to June 2010 at the Antiretroviral Treatment Centre of the Pt. B.D. Sharma Post Graduate Institute of Medical Sciences, a tertiary care hospital in Rohtak, Haryana, in northern India. A total of 20 HIV-1-infected children aged 4–57 months were studied. Demographic and baseline investigations were performed prior to the start of highly active antiretroviral therapy (HAART). A fixed-dose combination of HAART was given based on the patient’s weight. Baseline investigations were repeated after six months of HAART. Results: There was a significant increase in the patients’ haemoglobin, weight, height and CD4 count after six months of HAART. Significant improvements (P <0.05) were also noted in the patients’ immune status, graded according to the World Health Organization. Conclusion: This study observed that the severity and frequency of opportunistic complications in paediatric patients with HIV-1 increased with a fall in the CD4 count. The treatment of opportunistic infections, along with antiretroviral therapy, may lead to both clinical and immunological recovery as well as a decreased incidence of future opportunistic infections. The CD4 count may give treating physicians an initial idea about the immune status of each child and could also be used as a biological marker of HAART efficacy. Patient compliance must be ensured during HAART as this is a key factor in improving outcomes. Keywords: AIDS; Highly Active Antiretroviral Therapy; AIDS-Related Opportunistic Infections; CD4 Lymphocyte Count; India. امللخ�ص: الهدف: الهدف من الدرا�شة هو التاأكد من العالقه بني االأمرا�ض االنتهازية املختلفه وامل�شاعفات املر�شيه يف االطفال امل�شابني بفريو�ض نق�ض املناعة الب�رشية -1 واحلالة املناعية، عن طريق التقييم العددي ملجموعة التمايز )CD4( و ن�شبة خاليا CD4 الطريقه: اأجريت هذه الدرا�شة خالل الفرتة من يناير 2009 اإىل يونيو 2010 يف مركز العالج امل�شاد للفريو�شات يف معهد �شارما العايل للعلوم بني اأعمارهم ترتاوح HIV-1-ب م�شابا طفال 20 على الدرا�شه متت الهند. �شمال يف الثالثه للرعاية وهوم�شت�شفى )روتاك(، الطبية احلثيث العالج بدء قبل املر�شى لالأطفال االأ�شا�شيه الت�شخي�شية والقيا�شات الدميوغرافية املعلومات على احل�شول مت اأ�شهر. 4-157 بامل�شاد للفريو�شات )HAART(. اأعطيت جرعة ثابتة من HAART اعتمادا على وزن املري�ض و متت اعادة القيل�شات بعد �شتة اأ�شهر من عالج HAART. النتائج: كانت هناك زيادة كبرية يف م�شتوى خ�شاب الدم والوزن والطول وعدد خاليا CD4 بعد �شتة اأ�شهر من العالج بHAART ولوحظ حت�شن كبري ) P >0.05( يف احلالة املناعية للمر�شى وفقا ملنظمة ال�شحة العاملية اخلال�صة: هذه CD4 ارتفع مع االنخفا�ض يف تعداد HIV-1 الدرا�شة ت�شري اىل اأن �شدة وتواتر امل�شاعفات االنتهازية يف طب االأطفال املر�شى مع . ان عالج العدوى االنتهازية، جنبا اإىل جنب مع العالج امل�شاد للفريو�شات، قد يوؤدي اإىل االنتعا�ض ال�رشيري واملناعي وانخفا�ض معدل االإ�شابة بااللتهابات االنتهازية امل�شتقبليه. ان اأعداد CD4 قد تعطي فكرة اأولية للطبيب املعالج عن احلالة املناعية لكل طفل وميكن اأي�شا اأن ت�شتخدم كعالمة بيولوجية لفاعلية عالج HAART. يجب �شمان امتثال املري�ض خالل عالج HAART الأن هذا ي�شكل عامال رئي�شيا يف حت�شني النتائج. مفتاح الكلمات: االإيدز؛ العالج امل�شاد للفريو�شات الن�شط للغاية؛ العدوى االنتهازية املرتبطه باالإيدز؛ عدد اللمفاويات CD4؛ الهند. Opportunistic Infections and Complications in Human Immunodeficiency Virus-1-Infected Children Correlation with immune status Jaivinder Yadav, Sanjeev Nanda, *Deepak Sharma Sultan Qaboos University Med J, November 2014, Vol. 14, Iss. 4, pp. e513−521, Epub. 14TH Oct 14 Submitted 23RD Feb 14 Revision Req. 17TH Apr 14; Revision Recd. 6TH May 14 Accepted 28TH May 14 Department of Paediatrics, Pt. B. D. Sharma Post Graduate Institute of Medical Sciences, Rohtak, Haryana, India *Corresponding Author e-mail: dr.deepak.rohtak@gmail.com Advances in Knowledge - The results of this study show that while specific infections cannot be predicted based upon the cluster of differentiation 4 (CD4) count and percentage, the frequency and severity of opportunistic infections increase as the CD4 count falls. - This study demonstrated that highly active antiretroviral therapy (HAART) has significant positive effects on the health of patients with human immunodeficiency virus (HIV)-1, including their weight and immunological status. Opportunistic Infections and Complications in Human Immunodeficiency Virus-1-Infected Children Correlation with immune status e514 | SQU Medical Journal, November 2014, Volume 14, Issue 4 Acquired immune deficiency syndrome (AIDS) was first recognised in the USA in 1981 due to an unexplained Pneumocystis jiroveci infection in a previously healthy man. Ever since its appearance, the disease has progressed rapidly and is now being reported from every corner of the globe.1 AIDS is caused by the human immune deficiency virus (HIV) types 1 and 2. The disease is present worldwide, but mainly concentrated in sub- Saharan Africa and Asia. The number of HIV patients in India is growing fast, and the total number of infected people in this country is second only to that in Africa.1 There is an increasing number of paediatric HIV patients worldwide, with an estimated 2.5 million cases (7.5%) in 2007.2 In the developed world, paediatric patients constitute 2% of the HIV-infected population, whereas in developing countries, 15–20% of the total HIV-infected population are children.3 Ever since HIV was first registered in India in 1986, the country has reported a HIV seropositivity prevalence of 2.5%.4 In India, AIDS is rapidly increasing among the HIV population; with the current rate of increase, India will soon have the highest AIDS prevalence worldwide.4 HIV is most commonly contracted through vertical transmission, as observed by Rogers et al. when investigating an American paediatric population.5 Cluster of differentiation 4 (CD4) cells are the primary cellular target for HIV.1 A diagnosis of HIV can be made by detecting viral antibodies, ribonucleic acid or antigens, for example by using a protein 24 antigen assay. The HIV deoxyribonucleic acid (DNA) polymerase chain reaction (PCR) test is the preferred virology assay among developed countries.6 Opportunistic infections occur in HIV-positive individuals as their immune system weakens and the aetiology of the infectious organism is affected by the immunological status of the patient.7,8 In more economically developed countries, due to the extensive use of highly active antiretroviral therapy (HAART), infections like cytomegalovirus (CMV), cryptosporidiosis and toxoplasmosis predominate.4,9 However, in developing countries, infections due to Mycobacterium tuberculosis are more common.4,9 The present study aimed to find a correlation between various HIV-related complications, both infectious and non-infectious, and immune status, measured by CD4 count. The study also examined changes in growth and opportunistic infections among patients after they began treatment with HAART. Methods This prospective study was undertaken in clinical and laboratory settings for an 18-month period between January 2009 and June 2010. A total of 20 paediatric patients with HIV-1 infections were observed. The subjects were either inpatients or outpatients at the Antiretroviral Treatment Centre of the Pt. B.D. Sharma Post Graduate Institute of Medical Sciences, a tertiary care hospital in Rohtak, Haryana, in northern India. All patients tested positive for HIV- 1 infections confirmed by three positive enzyme- linked immunosorbent assay tests. To be included in the study, subjects also had to fulfil the World Health Organization (WHO) revised clinical staging system for HIV/AIDS in children,10 and have one or more opportunistic infections or complications. Children under 18 months of age were excluded from the study, unless the diagnosis of HIV-1 had been confirmed by DNA PCR assay and they were already being treated for an opportunistic infection. The patients’ clinical parameters prior to the beginning of the study were considered to be the control values. All children enrolled in this study were followed- up monthly for six months. Clinical and nutritional examinations were done at each visit to identify any opportunistic infections. Each child underwent detailed general physical and systemic examinations at the time of their enrolment in the study. At this time, a record was made of their baseline data, including demographic details, nutritional status and malnutrition classification according to the Indian Academy of Pediatrics.11 The possible modes of HIV transmission were also recorded via a thorough patient history, focusing on the patients’ antenatal and perinatal history. Any suggestion of risk behaviours among the parents, the HIV status of the parents, if the patient had undergone previous blood transfusions and whether the patient had been breastfed were also documented. Laboratory investigations were Application to Patient Care - This study supports the benefits of HAART in improving the nutritional status of patients, leading to decreased hospitalisation and a reduction in the healthcare costs associated with this. However, HAART is known to have high dropout rates and patient complicance must be emphasised in order to achieve the best results. - As the results of this study demonstrate that specific infections cannot be predicted based upon the CD4 count alone, physicians should consistently test for opportunistic infections in HIV-1 patients. In resource-limited settings where CD4 count tests are not available, opportunistic infections may be used as a guide for the patient’s immunological status and to inform the prescription of HAART. Jaivinder Yadav, Sanjeev Nanda and Deepak Sharma Clinical and Basic Research | e515 subsequently performed to estimate haemoglobin (Hb) concentration, absolute lymphocyte count, serum glutamic oxaloacetic transaminase to pyruvic transaminase ratio, serum creatinine and cholesterol. Additionally, all of the children underwent chest radiography and ultrasound abdomen scans. The CD4 count was measured using a fully automated fluorescence-activated cell sorting cytometer (S3™ Cell Sorter, Bio-Rad Laboratories, Inc., Hercules, California, USA). The CD4 percentage was calculated as follows: CD4 percentage = (absolute CD4 T-lymphocyte count divided by total lymphocyte count) x 100. The CD4 and absolute lymphocyte counts were repeated six months after their first visit. Viral opportunistic infections like herpes simplex, herpes zoster and Molluscum contagiosum were identified clinically. Suspected bacterial and fungal infections were confirmed by culture, serology and Gram staining, or with special stains like Indian ink. The children were investigated for tuberculosis if they had any of the following symptoms: a fever and cough lasting more than one month; marked weight loss or marasmus; multiple lymphadenopathy; meningeal syndrome; a positive tuberculin skin test (with induration of more than 10 mm), or pulmonary infiltrates with or without lymph nodes as identified on a chest radiograph. Anthropometry and a detailed nutritional examination were performed to identify any signs of wasting. Smear testing and cultures were performed on samples obtained from the subjects by early gastric aspiration after overnight fasting for three consecutive days. Patients with a history of oral thrush or other fungal infections underwent fungal swab testing and cultures using axillary, inguinal, rectal, throat swabs, urine (for fungal hyphae) and blood samples. Patients with persistent diarrhoea underwent three stool examinations and cultures to identify the microbes responsible for this symptom. All of the patients enrolled in the study were graded according to the revised WHO clinical staging system for HIV/AIDS in children.10 Immunological staging was determined according to the WHO classifications of HIV-associated immunodeficiency in infants and children.8 Children who were in clinical stages 3 or 4 were candidates for HAART. Children who were in stages 1 and 2 were also candidates if they fulfilled the following criteria according to their age group: <11 months (if CD4 <1,500 cells/mm3 or <25%); 12– 35 months (if CD4 <750 cells/mm3 or <20%); 36–59 months (if CD4 <350 cells/mm3 or <15%), or >5 years (if CD4 <200 cells/mm3). If applicable, patients were prescribed a dispersible fixed-dose combination of HAART, containing stavudine (30 mg or 40 mg), lamivudine (150 mg) and nevirapine (200 mg). These drugs were provided free of charge from the Antiretroviral Treatment Centre at the Pt. B.D. Sharma Post Graduate Institute of Medical Sciences. Patients with tuberculosis were started on HAART after the completion of antitubercular therapy (ATT); in severely immunosuppressed patients, HAART was prescribed only after 2–8 weeks of ATT. Opportunistic infections were treated according to guidelines issued by the National AIDS Control Organization for HIV care and treatment for infants and children in India.7 In this study, analysed variables included the child’s nutritional status, absolute lymphocyte count, CD4 percentage, CD4 count and any changes in this count, as well as the child’s immune status after undergoing specific therapy for various opportunistic infections and complications. All the data were inserted in patient proformas. The statistical analysis was carried out using the Statistical Package for the Social Sciences (SPSS), Version 16 (IBM, Corp., Chicago, Illinois, USA). The student’s t-test and Fisher’s exact test were applied to the data. Before each child was enrolled in the study, informed consent was obtained from their parents. In cases where the patient had lost both parents, consent was obtained from the child’s guardians. The study was approved by the Ethical & Scientific Committee of the Pt. B.D. Sharma Post Graduate Institute of Medical Sciences in December 2008. Results A total of 20 paediatric patients with HIV-1 infections ranging in age from 4 to 157 months were observed during the study period, with a mean age at presentation of 72.4 ± 46.18 months. None of the patients dropped out of the study during the study period. Among the children, the predominant mode of HIV transmission was vertical. A total of 50% of the patients had experienced the loss of one or both parents. This posed great difficulty in maintaining the care of these patients, especially as it was not always clear who was responsible for them. A total of 19 patients (95%) were prescribed HAART; of these, 95% were compliant with the treatment and did not miss any doses. One patient (5.3%) developed a skin rash following the commencement of HAART; however, the rash subsided without treatment and the patient was able to continue the therapy for the required duration. At the beginning of the study, the majority of the patients (75%) suffered from wasting, with a weight- for-age measurement in the <3rd percentile, as per the Opportunistic Infections and Complications in Human Immunodeficiency Virus-1-Infected Children Correlation with immune status e516 | SQU Medical Journal, November 2014, Volume 14, Issue 4 Centers for Disease Control and Prevention (CDC) growth charts.12 However, 45% of the patients had a length-for-age measurement that was between the 10th and 50th percentiles, which demonstrated that wasting was more prevalent in HIV patients than stunted growth [Table 1]. Fevers, anorexia and weakness were the most common symptoms noticed in the study (95%), followed by weight loss/failure to thrive (85%) [Table 2]. Following six months of HAART, a significant increase was noted in the mean Hb, height and weight measurements of the HIV-1-infected children. Upon admission to the study, the mean Hb was 7.78 ± 2.36 g %, mean weight was 13.95 ± 7.63 kg and mean height was 105.72 ± 27.06 cm. Following HAART, these values increased to 9.28 ± 1.13 g % (P <0.05), 18.8 ± 7.32 kg (P <0.01) and 110 ± 25.66 cm (P <0.01), respectively. These results suggest that the treatment for opportunistic infections and HAART significantly improved clinical outcomes among the patients [Table 3]. Additionally, the rate of hospital admissions decreased during the study period. A total of 16 patients (80%) were hospitalised at the beginning of the study, but only 3 (15%) were admitted to the hospital during the six-month follow-up period, demonstrating that combined therapy for opportunistic infections and HAART were effective in decreasing the hospital admission rate for this group of HIV-positive children. Table 1: Weight-for-age and height-for-age percentiles of human immunodeficiency virus-1-infected children before and after six months of highly active antiretroviral therapy (N = 20) Percentile12 Weight-for-age* in kg Height-for-age* in cm Before therapy After therapy Before therapy After therapy <3rd 15 4 4 3 3–10th 4 3 5 1 10–50th 1 11 9 15 >50th 0 2 2 1 *Divided by the number of patients. Table 2: Clinical manifestations of opportunistic infections or complications among human immunodeficiency virus-1-infected children (N = 20) Manifestation n % Fever 19 95 Cough 11 55 Diarrhoea 8 40 Generalised weakness/anorexia 19 95 Weight loss/failure to thrive 17 85 Abdomen distension 5 25 Generalised lymphadenopathy 15 75 Hepatomegaly 14 70 Splenomegaly 6 30 Other Skin lesions 3 15 Otitis 3 15 Oral thrush 4 20 Chelosis/apthous ulcer/stomatitis 6 30 Seizures 5 25 Pleural effusion 1 5 Table 3: Comparison of clinical parameters, immunological markers, World Health Organization clinical stage and immunological stage for human immunodeficiency virus-1-infected children at diagnosis and following six months of highly active antiretroviral therapy and treatment for opportunistic infections (N = 20) At diagnosis* After therapy P value Clinical parameter Mean Hb in g % 7.78 ± 2.36 9.28 ± 1.13 <0.05 Mean weight in kg 13.95 ± 7.63 18.8 ± 7.32 <0.01 Mean height in cm 105.72 ± 27.06 110 ± 25.66 <0.01 Immunological marker Mean total lymphocyte count in mm3 3,061 ± 1,723 2,931 ± 1,169 >0.05 Mean CD4 count in cells/ mm3 391 ± 274 720 ± 356 <0.01 Mean CD4 percentage 12.86 ± 7.54 25.53 ± 15.03 <0.01 Clinical stage10 1 0 0 <0.05 2 1 17 3 12 1 4 7 2 Immunological stage8 Not significant 2 10 <0.05 Mild 1 6 Advanced 8 3 Severe 9 1 Hb = haemoglobin; CD4 = cluster of differentiation 4. *Upon diagnosis of an opportunistic infection. Jaivinder Yadav, Sanjeev Nanda and Deepak Sharma Clinical and Basic Research | e517 There was a significant increase in CD4 count and CD4 percentage among the patients after six months of HAART, as well as a statistically significant (P <0.05) change in clinical stage. The majority of patients initially categorised as stages 3 and 4 were subsequently reclassified to stage 2 following treatment. An improvement in immunological stage was also observed, with the majority of patients promoted to the ‘not significant’ group after six months of treatment [Table 3]. Furthermore, the results showed a statistically significant improvement in the mean weight, height, CD4 count and CD4 percentage of patients when the data was compared by age group (<60 versus >60 months). Additionally, there was a significant improvement in weight, height and Hb among tuberculosis patients following six months of HAART and a significant increase in Hb and height among patients with oral thrush [Table 4]. The most commonly observed opportunistic infections in this study were tuberculosis and thrush. Other opportunistic infections seen included persistent diarrhoea, bacteremia, meningitis, HIV encephalopathy, disseminated CMV and systemic thrush [Table 5]. At the time of presentation, eight (40%) patients had persistent diarrhoea and 11 (55%) patients had a cough. The distribution of various opportunistic infections were noted in relation to the patients’ immunological status. It was observed that six patients (30%) had CD4 counts <200 cells/mm3 and 14 (70%) had CD4 counts >200 cells/mm3. Similarly, eight patients (40%) had a CD4 percentage <20% and 12 (60%) had a CD4 percentage >20%. Infections occurring with CD4 counts <200 cells/mm3 included tuberculosis (33.3%), oral thrush (25%), persistent diarrhoea (25%), bacteremia (25%) and disseminated CMV [Table 6]. Discussion The global AIDS epidemic is one of the greatest challenges facing the current generation and the extent of this problem among children is growing rapidly. The aim of this study was to determine the correlation between opportunistic infections and complications among HIV-1-infected children and immune status, evaluated by CD4 count and percentage. Upon enrolment in the present study, the majority of the patients had a weight-for-age below the 3rd percentile and 20% had a height-for-age below the 3rd percentile. Another 20% and 25% of the patients were between the 3rd and 10th percentiles, for weight- and height-for-age, respectively. Only two patients had a Table 4: Comparison of the clinical parameters of human immunodeficiency virus-1-infected children at diagnosis and following six months of highly active antiretroviral therapy by age group and the two most common opportunistic infections (N = 20) Clinical parameter Age group <60 months >60 months Before therapy After therapy P value Before therapy After therapy P value Mean weight in kg 8.05 ± 3.30 13.1 ± 2.56 <0.01 20.05 ± 5.55 25.5 ± 5.88 <0.01 Mean height in cm 83.55 ± 16.83 88.85 ± 15.06 <0.01 127.9 ± 12.5 131.25 ± 12.81 <0.01 Mean CD4 count in cells/mm3 544 ± 286 910 ± 348 <0.05 238 ± 158 550 ± 293 <0.05 Mean CD4 percentage 16.84 ± 7.99 28.25 ± 8.23 <0.05 11.5 ± 9.06 23.94 ± 11.58 <0.05 Tuberculosis patients At diagnosis After therapy P value Mean Hb in g/dL 8.08 ± 1.88 9.83 ± 1.50 <0.05 Mean weight in kg 16.5 ± 9.54 21.08 ± 10.18 <0.01 Mean height in cm 112.67 ± 22.21 116.33 ± 21.79 <0.01 Oral thrush patients At diagnosis After therapy P value Mean Hb in g/dL 5.9 ± 0.93 8.45 ± 0.70 <0.05 Mean weight in kg 11 ± 6.48 16.3 ± 6.54 >0.05 Mean height in cm 102 ± 25.39 106 ± 23.51 <0.05 CD4 = cluster of differentiation 4; Hb = haemoglobin. Opportunistic Infections and Complications in Human Immunodeficiency Virus-1-Infected Children Correlation with immune status e518 | SQU Medical Journal, November 2014, Volume 14, Issue 4 height-for-age above the 50th percentile, while none of the patients had a weight-for-age above the 50th percentile. These results are similar to those found among other studies based in India, with Lodha et al. describing growth failure among all of the observed paediatric HIV-infected patients (n = 27) in their study and Shah reporting weight loss and failure to thrive in 35.6% out of 317 children with HIV infections.13,14 In this study, fever, anorexia and weakness were the most commonly observed symptoms, followed by weight loss/failure to thrive. Furthermore, a sizeable percentage of the patients had persistent diarrhoea and a cough at the time of presentation. Similar manifestations of HIV infection have also been reported elsewhere in India. Verghese et al. studied the clinical manifestations of HIV infection among 88 children and reported hepatomegaly in 72%, lymphadenopathy in 60%, splenomegaly in 43%, failure to thrive in 58%, recurrent diarrhoea in 36%, M. contagiosum in 4% and pulmonary tuberculosis in 14%.15 Dhurat et al. noted non-specific presenting symptoms in 41 children with perinatally transmitted Table 5: Distribution of opportunistic infections or complications observed among human immunodeficiency virus- 1-infected children by mean age at presentation and immunological indicators (N = 20) Opportunistic infection/complication n Mean age in months Mean total lymphocyte count in mm3 Mean CD4 count in mm3 (range) Mean CD4 percentage (range) Tuberculosis 6 78 ± 42.76 3,391 ± 2,535 333 ± 302 (21–839) 9.2 ± 6.88 (2.9–21.4) Oral thrush 4 60.2 ± 48.91 3,041 ± 1,680 541 ± 296 (98–716) 17.46 ± 3.82 (14.1–21.78) Persistent diarrhoea 3 88.33 ± 66.6 3,765 ± 880 521 ± 406 (171–967) 15.76 ± 15.71 (4.4–33.7) Bacteremia 3 72 ± 54.99 2,481 ± 2,002 356 ± 280 (98–654) 14.4 ± 0.30 (14.1–14.7 Meningitis 2 66 ± 42.42 2,171 ± 612 295 ± 9.19 (289–302) 14.10 ± 3.53 (11.6–16.6) HIV encephalopathy 2 91 ± 76.36 3,605 ± 1,391 3,322 ± 178 (206–458) 11.24 ± 1.78 (9.98–12.5) Disseminated CMV 1 4 467 19 4 Systemic thrush 1 96 3,268 510 15.6 CD4 = cluster of differentiation 4; CMV = cytomegalovirus. Table 6: Distribution of various opportunistic infections or complications among human immunodeficiency virus-1- infected children in relation to clinical markers of immune status (N = 20) Opportunistic infection/ complication CD4 count <200 cells/mm3 CD4 count >200 cells/mm3 CD4 percentage <20% CD4 percentage >20% Tuberculosis Yes 2 4 4 2 No 4 10 4 10 Thrush Yes - 1 1 - No 6 13 7 12 Oral thrush Yes 1 3 2 2 No 5 11 6 10 Persistent diarrhoea Yes 1 2 2 1 No 5 12 6 11 Bacteremia Yes 1 2 3 0 No 5 12 5 12 HIV encephalopathy Yes 0 2 2 0 No 6 12 6 12 Meningitis Yes 0 2 2 0 No 6 12 6 12 Disseminated CMV Yes 1 - 1 - CD4 = cluster of differentiation 4; CMV = cytomegalovirus. Jaivinder Yadav, Sanjeev Nanda and Deepak Sharma Clinical and Basic Research | e519 HIV, such as tuberculosis (67.5%), failure to thrive (48.6%), hepatomegaly (51.9%), splenomegaly (48.6%), lymphadenopathy (35%), recurrent fever (29.3%) and diarrhoea (27.2%).16 Among 58 HIV-infected children, Madhivanan et al. reported the following manifestations: oral thrush (43%), tuberculosis (43%), hepatosplenomegaly (14%), lymphadenopathy (14%), papulopruritic dermatitis (10%) and chronic diarrhoea (7%).17 These manifestations and infections have a very high incidence in AIDS patients and it is advisable that paediatric patients presenting with one or more of these conditions be evaluated for the syndrome. Among the patient population of the current study, significant increases in mean Hb, weight and height were noted by the end of the study, following treatment with HAART. Consequently, it can be inferred that the combined treatment of opportunistic infections and HAART significantly improved the patients’ clinical outcomes. Similar results were reported in studies conducted by Puthanakit et al. in Thailand and Wamalwa et al. in Kenya.18,19 Additionally, there was a significant increase in the mean total lymphocyte count, CD4 count and CD4 percentage after the six- month follow-up and treatment period of the current study. Puthanakit et al. identified that mean CD4 percentage increased to 21%, from a baseline of 3%, while CD4 count increased from 126 to 532 cells/mm3 after 72 weeks of HAART.18 Wamalwa et al. and Pensi also recorded significant increases in CD4 count after their patients underwent antiretroviral therapy.19,20 The HIV-infected children in the present study were categorised into four clinical stages using the WHO criteria.10 There was a statistically significant (P <0.05) change in clinical stage after six months of therapy. Several studies have reported comparable improvements in clinical stage after antiretroviral therapy.20,21 The change in immunological classifications for the current patient population after six months of therapy was also found to be statistically significant. This indicates that an immunological improvement is seen in HIV-infected children after treatment with HAART. Similar results were reported by Natu et al. while studying the effectiveness of HAART in relation to CDC immunological classifications.21 In the present study, the predominant opportunistic infections were tuberculosis and oral thrush. Van Dyke reported that the most common opportunistic infections among children with HIV included serious bacterial infections (pneumonia and bacteremia), pneumocystis pneumonia, tuberculosis, non-tuberculous mycobacterial infections and CMV.22 Tuberculosis was the most commonly occurring opportunistic infection in Indian children in two separate studies.14,17 Balkhair et al. found that Pneumocystis jiroveci pneumonia was the most frequently observed opportunistic infection among their study population, followed by cryptococcal meningitis, CMV retinitis, disseminated tuberculosis and cerebral toxoplasmosis.23 Among the studied HIV-infected paediatric population, 30% had a CD4 count <200 cells/mm3 and 40% had a CD4 percentage <20% upon diagnosis of an opportunistic infection. The Swiss HIV Cohort Study reported that the risk of developing opportunistic infections is increased by 2.5 if the CD4 count is between 51–200 cells/mm3; this risk increases to 5.8 for counts <50 cells/mm3 in comparison to those >200 cells/mm3.24 Various studies have demonstrated that lower CD4 counts are associated with an increased prevalence of opportunistic infections.13,25,26 While these infections can occur at any CD4 count, the severity and frequency of opportunistic infections increases when the count falls below 200 cells/mm3. The organisms responsible for causing opportunistic infections also differ with changes in immune status. A hierarchy of severity can therefore be proposed for opportunistic infections in relation to CD4 values as follows: oral thrush