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Vol. 19. Issue 3.
Pages 253-262 (May - June 2015)
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Vol. 19. Issue 3.
Pages 253-262 (May - June 2015)
Original article
Open Access
Evaluation of late presentation for HIV treatment in a reference center in Belo Horizonte, Southeastern Brazil, from 2008 to 2010
Visits
4670
Melissa Bianchetti Valentinia,c,
Corresponding author
melissabv@hotmail.com

Corresponding author.
, Maria Luíza Guerra de Toledod, Marise Oliveira Fonsecaa,b, Laura Maria Silva Thierschb, Ingrid Silva Bremer de Toledob, Flávia Cristina Jácome Machadob, Unaí Tupinambása,b
a Postgraduate Program on Health Science, Infectious Diseases and Tropical Medicine, Universidade Federal de Minas Gerais (UFMG), Belo Horizonte, MG, Brazil
b Medical School, Universidade Federal de Minas Gerais (UFMG), Belo Horizonte, MG, Brazil
c Voluntary Counseling and Testing Site/Specialized Center in HIV Outclinic Patients Care (CTA–SAE), Belo Horizonte, MG, Brazil
d National School of Statistical Science–Instituto Brasileiro de Geografia e Estatística (IBGE), Rio de Janeiro, RJ, Brazil
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Figures (1)
Tables (4)
Table 1. Characteristics of newly diagnosed HIV patients at initiation of treatment in CTA–SAE from 2008 to 2010.
Table 2. Comparison of new HIV patients at initiation of treatment in CTA–SAE from 2008–2010 according to their baseline CD4 cell count.
Table 3. Univariate analysis of factors associated with LP and LPAD of new HIV patients who initiate treatment in CTA–SAE 2008–2010.
Table 4. Final Model of Multivariate Regression of factors associates with LP an LPAD of new HIV patients who initiate treatment in CTA–SAE 2008–2010.
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Abstract
Introduction

Since 1996 Brazil has provided universal access to free antiretroviral therapy, and as a consequence, HIV/AIDS patients’ survival rate has improved dramatically. However, according to scientific reports, a significant number of patients are still late presenting for HIV treatment, which leads to consequences both for the individual and society. Clinical and immunological characteristics of HIV patients newly diagnosed were accessed and factors associated with late presentation for treatment were evaluated.

Methods

A cross-sectional study was carried out in an HIV/AIDS reference center in Belo Horizonte, Minas Gerais, in Southeastern Brazil from 2008 to 2010. Operationally, patients with late presentation (LP) for treatment were those whose first CD4 cell count was less than 350cells/mm3 or presented an AIDS defining opportunistic infection. Patients with late presentation with advanced disease (LPAD) were those whose first CD4 cell count was less than 200cells/mm3 or presented an AIDS defining opportunistic infection. LP and LPAD associated risk factors were evaluated using logistic regression methods.

Results

Five hundred and twenty patients were included in the analysis. The median CD4 cell count was 336cells/mm3 (IQR: 130–531). Two hundred and seventy-nine patients (53.7%) were classified as LP and 193 (37.1%) as LPAD. On average, 75% of the patients presented with a viral load (VL) >10,000copies/ml. In multivariate logistic regression analysis the factors associated with LP and LPAD were age, being symptomatic at first visit and VL. Race was a factor associated with LP but not with LPAD.

Conclusion

The proportion of patients who were late attending a clinic for HIV treatment is still high, and effective strategies to improve early HIV detection with a special focus on the vulnerable population are urgently needed.

Keywords:
AIDS
Late presentation
HIV infection
CD4 cell count
Full Text
Introduction

Since the early 1980s, after the first cases of infection by HIV were reported in Brazil, the Brazilian government response to the epidemic was forceful. It was based on early diagnosis, treatment and prevention, which were supported by participation from civil society and respect for human rights.1

In 1996 Brazil became the first developing country to ensure universal access to free antiretroviral therapy (ARV) guaranteed by the Federal Law 9313. Consequently, the survival rate among Brazilian AIDS patients has improved dramatically.2 In spite of preventive efforts and actions to early diagnose the infection, many patients are still late presenting for treatment.3–10,11

It is estimated that there has been a decrease in the proportion of patients who present late for treatment in Brazil over recent years. According to surveillance data reports 29% of patients presented with CD4 cell count less than 200cell/mm3 and at least half of patients presented with a CD4 cell count less than 350cell/mm3 in 2012.11

It is difficult to compare the proportion of late diagnosis of HIV infection in different countries and even the trends over the years in a given country, since there are more than 20 criteria for this definition.12,13,14 This seems to be a worldwide problem. A recent meta-analysis of 44 studies in developed countries showed that the average CD4 cell count in the first visit for treatment has not increased meaningfully in the past 20 years and the majority of people still present with CD4 cell count less than 350cells/mm3.15

Late diagnosis and thus delayed treatment may impact on the individual as well as on the society. Patients who start ARV with low CD4 cell count present higher morbidity and mortality and have poorer treatment response.13

The impact for society is that the treatment for late diagnosis increases costs for the health system in the short and long runs.16 In addition, those who present for treatment with more advanced disease have higher probability of transmission since they do not know about their infection and cannot adopt risk reduction precautions or lower their viral load as a consequence of ARV therapy.17

A better understanding of local data and the factors associated with patients late presenting for treatment are important. These could help ensuring public surveillance programs and to provide targeted intervention, focusing on individuals who are particularly at risk.

The objective of this study was to describe the social, demographic, clinical and immunological characteristics of patients recently diagnosed with HIV infection in a reference center for HIV/AIDS – Voluntary Counseling and Testing Site/Specialized Center in HIV Outclinic Patient Care (CTA/SAE) – in Belo Horizonte, Minas Gerais state, Brazil, from 2008 to 2010, and to determine factors associated with patients presenting late for HIV treatment.

Materials and methodsSubjects and settings

All patients who presented for the first time at CTA–SAE with a recent HIV diagnosis between January 1, 2008 and December 31 2010 were included.

Belo Horizonte is one of the most populated metropolitan areas in the country and is the capital city of Minas Gerais, a state in southeast Brazil. The HIV detection rates in the city are decreasing: in June 2013 it was 27.2cases/100,000 inhabitants.11 Between 2002, when the service was implemented, and 2014, about 3300 patients have been registered at CTA–SAE, of which 2398 (72.7%) are currently using ARV. It is one of the three main clinics that provide HIV treatment in the Belo Horizonte metropolitan area, providing care for almost 20% of newly diagnosed HIV patients in the city.

Patients were eligible for the study if they were over 18 years old; had had a recent diagnosis of the HIV infection (defined as those who had been diagnosed in the previous 12 months); had initiated treatment at CTA–SAE between the 1 January 2008 and 31 December 2010, and had had at least one CD4 cell count or an AIDS defining opportunistic infection (CDC) registered between the diagnosis and one year thereafter.18 To include only patients newly diagnosed with HIV infection, several criteria were used to exclude patients who might have previously known about their HIV infection, or who had a routine screening, as during pregnancy.

Patients were excluded if registered at CTA–SAE for more than one year after the first positive HIV test; had no documented date for their HIV test; those tested through a pre-natal screening; and those who had attended another HIV/AIDS specialized center. Only patients with at least two visits to the center were included in the study. Ethical approval was obtained from local ethical committees.

Study design

A cross-sectional study of a historical cohort was carried out. All data was retrieved from clinical charts using standardized forms. Data abstracted from the charts were demographic information, clinical features, laboratory data (HIV viral load, CD4 cell counts, serology for syphilis, hepatitis B and C, and tuberculin skin test result) and time on ARV if it had been initiated after the first appointment at the clinic.

Definitions and variables of interest

Late presenters (LP) were those patients whose first CD4 cell count was less than 350cells/mm3 and had an AIDS defining opportunistic infection were defined as late presenters (LP). Subjects who presented with a CD4 cell count less than 200cells/mm3 or had an AIDS defining opportunistic infection were defined as late presenters with advanced disease (LPAD). Consequently, those patients whose first CD4 cell count was equal to or higher than 350cell/mm3 were classified as non late presenters (NLP). This definition is in accordance with a 2011 European Late Presenters Consensus Definition.19

The following exposure variables were considered: year of HIV diagnosis; age at the time of HIV diagnosis; date of the first attendance to the clinic; gender; race; level of education; occupation; place of residence; be part of a self-reported HIV risk group; HIV viral load (VL); clinical features; reasons to be tested for HIV; hepatitis B (HBsAg and HBc antibody) and C serology (HCV antibody); syphilis (VDRL) and tuberculin skin test (TST).

Patients were categorized by age of the patient at the time of HIV diagnosis using the median age, race as white and non-white, years of schooling no education (illiterate), fewer than eight years, eight to eleven years, and more than 11 years, occupation as housewife, retired, unemployed, employed, student and other, and place of residence as Belo Horizonte city, Belo Horizonte metropolitan area, or other cities.

Only sexual exposure was considered as exposure risk category (heterosexual men, heterosexual women, and men who have sex with men – MSM) since there were only three patients (0.6%) of injecting drug users (IDU). The date of the first HIV test was considered as the date of HIV diagnosis. Patients were considered symptomatic if there were any symptom described by the doctor in the clinical chart. Patients who were symptomatic at first visit, without a defining opportunistic infection, pneumonia or chronic nonspecific diarrhea, were classified as patients with non-specific symptoms. The reasons to be tested for HIV were categorized as: doctor request, self request, testing in Voluntary Counseling and Testing sites (VCT), and other.

Statistical analyses

The categorical variables were expressed in terms of absolute and relative frequencies, and numerical variables were expressed as medians and interquartile ranges (IQR). Univariate and multivariate analyses for factors associated to LP and LPAD were performed. In univariate analysis, categorical data was compared using contingency tables and a Chi-Square test; numerical variables were compared using the Mann–Whitney U test. Multivariate analysis was conducted using logistic regression models with backward manual elimination of variables.

Candidate variables for multivariate analysis were those that showed an association with LP and LPAD with a p-value0.20 in the univariate analysis. To estimate the magnitude of the association between response variables and LP/LPAD, odds ratio (OR) with 95% confidence intervals (95% CI) was used. All p-values less than 0.05 were considered statistically significant. Goodness of fit testing of logistic regression was assessed by Hosmer–Lemeshow test. Statistical analyses were performed with SPSS software version 21 (SPSS Inc., Chicago, IL, USA).

Results

A total of 811 HIV infected patients were admitted to the clinic between January 1 2008 and December 31 2010. Five-hundred and twenty patients were eligible for the analysis (Fig. 1).

Fig. 1.

Diagram of the eligibility of patients for analysis in CTA–SAE. from 1 January 2008 to 31 December 2010.

(0.22MB).

The majority of patients included were men (77. 3%) with a median age of 35.1 years (IQR 28.1–44.6). The overall median CD4 cell count was 336cells/mm3 (IQR: 130–531). It was greater among MSM (390cells/mm3 IQR: 209–563) than in heterosexual women (338cells/mm3 IQR: 130–531) and heterosexual men (225cell/mm3 IQR: 58–444). Almost 70% of the patients had had at least eight years of education (n=356–68.4%). At least 75% of them lived in Belo Horizonte city. Three-hundred and ninety seven patients (76. 3%) were employed. Two-hundred and forty-three patients (46.7%) self-reported as MSM and 159 (30.6%) self-reported as heterosexual. From 483 patients who provided information about their racial status, 51% declared themselves as white and 49% as non-white. CD4 cell count was available for 519 patients (99.8%). Those who did not have a CD4 count measurement, presented with an AIDS defining opportunist infection. Viral load measurements at first visit were available for 97% of the patients. The median VL for the whole cohort was 30,597copies/ml (IQR: 9673–108,901). HBsAg, anti-HbC and anti-HCV were positive in 13 (2.5%), 123 (23.7%) and 15 (2.9%) patients, respectively.

Two-hundred and seventy-nine patients (53.7%) were classified as LP and 193 (37.1%) classified as LPAD. Despite having a CD4 thresholds higher than 350cell/mm3 and 200cells/mm3, eight and twenty patients met the LP and LPAD criteria, respectively, due to the diagnosis of an AIDS defining opportunistic infection. The characteristics of the cohort are shown in Table 1.

Table 1.

Characteristics of newly diagnosed HIV patients at initiation of treatment in CTA–SAE from 2008 to 2010.

Characteristics  N=520 
Male n (%)  402 (77.3) 
Age (y), median (IQR)  35.1 (28.1–44.6) 
CD4 cell count, median (IQR)  336 (130–531) 
LP, n (%)  279 (53.7) 
LPAD, n (%)  193 (37.1) 
Level of education, n (%)a
Illiterate  13 (2.5) 
<8 y  147 (28.3) 
8–11 y  230 (44.2) 
>11 y  126 (24.2) 
HIV Risk Exposure, n (%)
Heterosexual women  118 (22.7) 
Heterosexual men  159 (30.6) 
MSM  243 (46.7) 
Occupation, n (%)b
Housewife  21 (4.0) 
Retired  27 (5.2) 
Unemployed  32 (6.2) 
Employed  397 (76.3) 
Student  30 (5.8) 
Race, n (%)c
White  247 (47.5) 
Non-white  236 (45.4) 
Place of residence, n (%)
Belo Horizonte  404 (77.7) 
Metropolitan area  93 (17.9) 
Other  23 (4.4) 
Reasons for the HIV test, n (%)
Doctor request  260 (50.0) 
Patient request  84 (16.2) 
Voluntary Counseling and Testing sites  67 (12.9) 
Other  109 (21.0) 
Time between the diagnosis and first attendance (days), median (IQR)  47 (28 –76.7) 
Viral Load (copies/mL), median (IQR)  30,597 (9672.5–108,901) 
HBsAg positive, n (%)d  13 (2.5) 
Anti-HBc positive, n (%)e  123 (23.7) 
Anti-HCV positive, n (%)f  15 (2.9) 
VDRL positive, n (%)g  81 (15.6) 
Tuberculin skin test, n (%)h
Negative (<5mm)  352 (67.7) 
Positive (≥5mm)  39 (7.5) 
Attending with symptoms, n (%)  238 (45.8) 
Non-specific symptoms  184 (35.4) 
Candida esophagitis  48 (9.2) 
Chronic nonspecific diarrhea  44 (8.5) 
Pneumonia  30 (5.8) 
Tuberculosis  20 (3.8) 
Pneumocystis jiroveci pneumonia  17 (3.3) 
Toxoplasma gondii encephalitis  14 (2.7) 
Interval in days between first attendance and ARV initiation, median (IQR)  57.5 (27.8–430) 
Year of first attendance, n (%)
2008  190 (36.5) 
2009  183 (35.2) 
2010  147 (28.3) 

Abbreviation: IQR, interquartile range; LA, late presentation to care.

a

Missing data: n=4 (0.8%).

b

Missing data: n=13 (2.5%).

c

Missing data: n=37 (7.1%).

d

Missing data:n=19 (3.7%).

e

Missing data:n=65 (12.5%).

f

Missing data:n=16 (3.1%).

g

Missing data:n=11 (2.1%).

h

Missing data:n=129 (24.8%).

Table 2 shows the characteristics of the patients according to their baseline CD4 cell count measurement. LP and LPAD patients were significantly older than NLP patients, had a median age of 39.7 (IQR: 30.8–46.4), 41.2 (IQR: 33.9–47) and 31.8 (IQR: 25.8–41.5), respectively (p<0.001). The proportion of MSM among LP and LPAD was 38.4% and 34.2%, respectively, whereas almost half of patients of the overall cohort and 56.4% of NLP were MSM. On the other hand, the proportion of heterosexual men was higher among LP and LPAD. The proportion of patients with more than 11 years of schooling in the NLP group was twice the proportion among LP and LPAD groups.

Table 2.

Comparison of new HIV patients at initiation of treatment in CTA–SAE from 2008–2010 according to their baseline CD4 cell count.

Characteristics  NLP (n=241; 46.3.1%)  LP (n=279; 53.7%)  p-value  LPAD (n=193; 37.1%)  p-value§ 
Male, n (%)  186 (77.2)  216 (77.4)  0.948  149 (77.2)  0.916 
Female, n %  55 (22.8)  63 (22.6)    43 (22.8)   
Age (y), median (IQR)  31.8 (25.8–41.5)  39.7 (30.8–46.4)  <0.001  41.2 (33.9–47.0)  < 0.001 
Age ≤35, n (%)  154 (63.9)  104 (37.3)  <0.001  54 (28.0)  < 0.001 
Level of education, n (%)a      <0.001    < 0.001 
Illiterate  2 (0.8)  11 (4)    8 (4.1)   
<8 y  49 (20.3)  98 (35.1)    79 (40.9)   
8–11 y  108 (44.8)  122 (43.7)    75 (38.9)   
>11 y  79 (32.8)  47 (16.8)    31 (16.1)   
HIV risk exposure, n (%)      <0.001    < 0.001 
Heterosexual women  55 (22.8)  63 (22.6)    44 (22.8)   
Heterosexual men  50 (20.8)  109 (39.1)    83 (43.0)   
MSM  136 (56.4)  107 (38.4)    66 (34.2)   
Occupation, n (%)b      0.047    0.012 
Housewife  9 (3.7)  12 (4.3)    9 (4.7)   
Retired  10 (4.1)  17 (6.1)    13 (6.7)   
Unemployed  11 (4.6)  21 (7.5)    14 (7.3)   
Employed  183 (75.9)  214 (76.7)    152 (78.8)   
Student  21 (8.7)  9 (3.2)    3 (1.6)   
Race, n (%)c      0.005    0.004 
White  132 (54.8)  115 (41.2)    76 (39.4)   
Non-white  96 (39.8)  140 (50.2)    99 (51.3)   
Place of residence, n (%)      0.179    0.170 
Belo Horizonte  192 (79.7)  212 (76.0)    153 (79.3)   
Metropolitan area  43 (17.8)  50 (17.9)    28 (14.5)   
Others  6 (2.5)  16 (5.7)    11 (5.7)   
Reasons for HIV test, n (%)      <0.001    <0.001 
Doctor request  76 (31.5)  184 (66.0)    142 (73.6)   
Patient request  56 (23.2)  28 (10.0)    19 (9.8)   
Voluntary Counseling and Testing sites  44 (18.3)  23 (8.2)    11 (5.7)   
Others  64 (26.1)  44 (15.8)    21 (10.9)   
Time between the diagnosis and first attendance (days), median (IQR)  54 (29.5–91.5)  41 (27–65)  0.005  40 (26–63.5)  0.004 
Viral Load (copies/mL) median (IQR)  15,600 (5314–29536)  81,742 (26799–271788)  <0.001  116,180 (45463–353826)  <0.001 
HBsAg positive, n (%)d  3 (1.2)  10 (3.6)  0.099  8 (4.1)  0.069 
Anti-HBc positive, n (%)e  48 (19.9)  75 (26.9)  0.060  58 (30.1)  0.018 
Anti-HCV positive, n (%)f  3 (1.2)  12 (4.3)  0.062  9 (4.7)  0.039 
VDRL positive, n (%)g  48 (19.9)  33 (11.8)  0.015  21 (10.9)  0.012 
Tuberculin skin test, n (%)h      0.831    0.976 
Negative (<5mm)  162 (67.2)  190 (68.1)    130 (67.4)   
Positive (≥5mm)  23 (9.5)  16 (5.7)    10 (5.2)   
Attend with symptoms, n (%)  48 (19.9)  190 (68.1)  <0.001  160 (82.9)  <0.001 
Interval in days between first attendance and ARV initiation, median (IQR)  584 (306–848)  35 (17–57)  <0.001  28 (12–43)  <0.001 
Year of first attendance, n (%)      0.127    0.055 
2008  77 (31.9)  113 (40.5)    83 (43.0)   
2009  92 (38.2)  91 (32.6)    59 (30.6)   
2010  72 (29.9)  75 (26.9)    51 (26.4)   

Abbreviations: NLP, not late presentation; LP, late presentation to care; LPAD late presentation with advanced disease; IQR, interquartile range; MSM, men who have sex with men; VCT, Voluntary Counseling and Testing sites.

a

Missing data: n=3 (1.2%) – NLP; n=1 (0.4%) – LP; n=0 – LPAD.

b

Missing data: n=7 (2.9%) – NLP; n=6 (2.2%) – LP; N=2 (1.0%) – LPAD.

c

Missing data: n=13 (5.4%) – NLP; n=24 (8.6%) – LA; N=18 (9.3%) – LPAD.

d

Missing data: n=11 (4.6%) – NLP; n=8 (2.9) – LP; N=4 (2.1) – LPAD.

e

Missing data:n=24 (9.9%) – NLP; n=41 (14.7) – LP; N=29 (15.0) – LPAD.

f

Missing data:n=10 (4.1%) – NLP; n=6 (2.2) – LP; N=5 (2.6) – LPAD.

g

Missing data: n=7 (2.9%) – NLP; n=4 (1.4) – LP; N=4 (2.1) – LPAD.

h

Missing data: n=56 (23.2%) – NLP; n=73 (26.2) – LP; N=53 (27.5) – LPAD.

p-value comparing NLP to LP.

§

p-value comparing NLP to LPAD.

Half of the patients in the cohort were tested for HIV because a doctor advised them to do so and this proportion increased in LP (66.0%) and LPAD (73.6%) groups and decreased among NLP (31.5%).

The median VL was almost six and eight fold higher among LP and LPAD, respectively, when compared to NLP. Co-infection with hepatitis B was higher in LP and LPAD groups than among NLP but without statistical significance (p=0.099 for LP and p=0.069 for LPAD). The proportion of positive HCV-antibody was higher in LP and LPAD groups but without statistical significance for LP (p=0.06).

The median time between the diagnosis and the first visit to the treatment center was shorter in LP and LPAD groups than among NLP. The proportion of symptomatic patients at first visit was higher in LP (68.1%) and LPAD (82.9%) groups than in NLP (19.9%) group. The most reported AIDS defining opportunistic infections in LP and LPAD groups were Candida esophagitis (n=48), Pneumocystis jiroveci pneumonia (n=17), Toxoplasma gondii encephalitis (n=14) and tuberculosis (n=20). Non-AIDS defining conditions included chronic nonspecific diarrhea (n=44), bacterial pneumonia (n=24) and nonspecific symptoms (n=142). In NLP group 48 patients reported symptoms at first visit; six had had a bacterial pneumonia and 42 nonspecific symptoms.

The results of univariate analysis using binary logistic regression to identify factors associated to LP and LPAD are shown in Table 3. Age over 35 years compared to those under 35; non-white compared to white; heterosexual men compared to HSH; high VL and being symptomatic at first visit compared to non-symptomatic patients were all associated with LP or LPAD.

Table 3.

Univariate analysis of factors associated with LP and LPAD of new HIV patients who initiate treatment in CTA–SAE 2008–2010.

Variables  LPLPAD
  Odds ratio  95%IC  p-value  Odds ratio  95%IC  p-value 
Sex
Male  1.00      1.00     
Female  0.99  0.65–1.49  0.948  1.01  0.66–1.54  0.965 
Age (years)
<35  1.00      1.00     
≥35  2.98  2.08–4.26  <0.001  4.27  2.90–6.28  <0.001 
HIV risk exposure
Heterosexual women  1.46  0.94–2.26  0.095  1.59  1.00–2.55  0.051 
Heterosexual men  2.77  1.82–4.22  <0.001  2.93  1.92–4.46  0.000 
MSM  1.00      1.00     
Level of education (years)
Illiterate  2.75  0.59–12.89  0.415  1.38  0.43–4.41  0.590 
<8  1.00      1.00     
8–11  0.56  0.37–0.87  0.009  0.42  0.27–0.64  <0.001 
>11  0.30  0.18–0.49  <0.001  0.28  0.17–0.47  <0.001 
Occupation
Housewife  3.11  0.97–9.97  0.056  6.75  1.55–29.45  0.011 
Retired  3.97  1.31–11.97  0.014  8.36  2.04–34.29  0.003 
Unemployed  4.45  1.53–12.97  0.006  7.00  1.76–27.89  0.006 
Employed  2.73  1.22–6.11  0.015  5.58  1.67–18.72  0.005 
Students  1.00      1.00     
Race
White  1.00           
Non-white  1.67  1.17–2.40  0.005  1.63  1.12–2.36  0.011 
Place of residence
Belo Horizonte  1.00           
Metropolitan area  1.05  0.67–1.65  0.823  0.71  0.42–1.15  0.162 
Other cities  2.42  0.93–6.30  0.071  1.64  0.69–3.88  0.259 
Reason for the HIV test
Doctor requirement  1.00      1.00     
Patient requirement  0.21  0.12–0.35  <0.001  0.24  0.14–0.43  <0.001 
VCT  0.22  0.12–0.38  <0.001  0.16  0.08–0.33  <0.001 
Other  0.28  0.18–0.45  <0.001  0.20  0.12–0.34  <0.001 
Time between the diagnosis and the first attendance (in 10 days)  0.97  0.94–1.00  0.040  0.97  0.94–1.01  0.117 
VL (in 10,000units/ml)  1.21  1.15–1.27  <0.001  1.10  1.07–1.12  <0.001 
Symptoms at first attendance
No  1.00           
Yes  8.53  5.73–12.86  <0.001  15.48  9.84–24.34  <0.001 
Time between the diagnosis and the first attendance and ARV initiation (in 10 days)  0.96  0.95–0.97  <0.001  0.96  0.95–0.97  <0.001 
Year of first attendance
2008  1.00           
2009  0.68  0.46–1.02  0.061  0.62  0.41–0.93  0.021 
2010  0.70  0.45–1.10  0.122  0.69  0.44–1.09  0.112 
VDRL
Negative  1.00      1.00     
Positive  0.53  0.33–0.86  0.010  0.54  0.32–0.92  0.024 
HbsAg
Negative  1.00      1.00     
Positive  0.53  0.33–0.86  0.109  2.76  0.89–8.57  0.079 
Anti-HCV
Negative  1.00      1.00     
Positive  3.49  0.97–12.54  0.055  2.62  0.92–7.48  0.072 

Abbreviations: LP, late presentation to care; LPAD, late presentation with advanced disease; IQR, interquartile range; MSM, men who have sex with men; VCT, Voluntary Counseling and Testing sites; VL, viral load; ARV, antiretroviral therapy; IC, interval of confidence.

Being retired, unemployed, or employed were all associated with LP and LPAD when compared to students. Being a housewife was associated to LPAD but not with LP. Protective factors were having completed more than eight years of schooling compared to less than eight years, not having done the HIV test because a doctor had requested and having a positive VDRL. Starting care in 2009 compared to starting care in 2008 was associated with less chance to be LPAD.

The factors associated with LP in the final multivariate logistic regression model were age, race, reasons to be tested for HIV, VL, symptoms at first visit, time between HIV diagnosis and the first visit, and VDRL (Table 4). Similarly, the predictive factors for LPAD were the same as for LP except race and reason to be tested for HIV. Factors associated with less LP were self request for being tested for HIV compared to doctor's request, and having a positive VDRL. Factors associated with less LPAD were living in the metropolitan area compared to living in Belo Horizonte, and having a positive VDRL. For A shorter interval between the first visit and ARV initiation were associated with both LP and LPAD.

Table 4.

Final Model of Multivariate Regression of factors associates with LP an LPAD of new HIV patients who initiate treatment in CTA–SAE 2008–2010.

Variables  LPaLPADb
  Odds ratio  95%IC  p-value  Odds ratio  95%IC  p-value 
Age (years)
<35  1.00      1.00     
≥35  1.81  1.05–3.12  0.033  2.61  1.49–4.58  <0.001 
Race
White  1.00           
Non-white  1.75  1.03–2.97  0.037       
Reasons for HIV test
Doctor request  1.00           
Self request  0.44  0.20–0.97  0.043       
VCT  0.47  0.22–1.02  0.057       
Others  1.08  0.54–2.15  0.828       
Place of residence
Belo Horizonte        1.00     
Metropolitan area        0.35  0.17–0.72  0.005 
Other cities        0.79  0.22–2.87  0.717 
VL (in 10,000units/ml)  1.18  1.11–1.25  <0.001  1.06  1.04–1.09  <0.001 
Symptoms at first attendance
No  1.00      1.00     
Yes  4.23  2.32–7.69  <0.001  7.75  4.15–14.45  <0.001 
Time between the diagnoses and the first attendance and ARV initiation (in 10 days)  0.96  0.95–0.97  <0.001  0.97  0.96–0.98  <0.001 
VDRL
Negative  1.00      1.00     
Positive  0.42  0.19–0.90  0.03  0.42  0.19–0.93  0.03 

Abbreviations: VCT, Voluntary Counseling and Testing sites; VL, viral load; ARV, antiretroviral therapy; IC, interval of confidence.

a

Hosmer–Lemeshow χ2=9.97, DF=8, p value 0.267.

b

Hosmer–Lemeshow χ2=7.47, DF=8, p value 0.487.

Discussion

The proportion of LP (53.7%) and LPAD (37.1%) found in this study was significantly elevated. These rates are high, especially in Brazil, where a well recognized public health AIDS program is available for over 30 years.

These findings were higher than those reported by the Brazilian Health Ministry in recent years.11 Similar to other studies in Belo Horizonte city, 70% of the LP started care with CD4 cell count less than 200cells/mm3.4,9 The LPAD in this study was less frequent than reported previously in other Brazilian studies which ranged from 40.8% to 61%.3,6

Compared to surveillance data for the whole HIV/AIDS Brazilian population, there was a higher proportion of male subjects as well as MSM in this cohort. Patients included in this cohort had higher educational levels than reported for the overall Brazilian population10,11 and for Belo Horizonte in particular.4,9 The proportion of each race did not differ from the national data.

In other limited-resource regions such as in African countries, the proportion of LP and LPAD are higher than that observed in this study with 70–80% presenting with advanced disease and 50–60% with CD4 count less than 350cells/mm3.20–22 In Mexico as well as in Africa the proportion of LPAD was estimated to be 61%.23 The proportion of LP was similar to data from 35 countries in Europe,24 the United States of America (USA) and Canada.25

LP and LPAD patients were older and this is in accordance with the literature.3,6,13,24–26 This population might have lower risk perception and be less educated that the younger generations. Being over 35 years was associated with LP (OR: 1.81 95%IC 1.05–3.12, p=0. 033) and LPAD (OR: 2.61 95%IC 1.49–4.58, p=0. 001).

The proportion of positive TST in the entire cohort was 7.5%. Although the proportion of positive TST was higher in the NLP group than in LP and LPAD groups there were no statistical difference (p=0.831 and p=0.976, respectively). This could be explained by the high proportion of missing TST results (24.8%).

As shown in the Brazilian surveillance data, sexual transmission is the main route of transmission as the IDU group was minimal.11

Gender was not associated with LP and LPAD. However, among patients self-reported as heterosexual, women presented earlier than men. Sixty-eight percent of heterosexual men were LP versus 53% of heterosexual women. This could be explained by the fact that Brazilian women take better care of their health than men, and seek health services for preventive exams more frequently.27 Heterosexual exposure, particularly among males, is widely correlated with late presentation and this could be explained by fewer opportunities to be tested, as they are not the main target of campaigns launched by the government as well as their own low risk perception.12,13

Compared to students, being retired, unemployed or employed was associated with LP and LPAD in univariate analysis. Being a housewife was associated to LPAD but not with LP. These associations did hold in multivariate analysis. A possible explanation is the lower median age of the students (23 years IQR: 22–29) as compared to the median age of the other groups. Furthermore, the proportion of MSM among the students were expressive (83.3%).

MSM presented earlier to care than heterosexual men, according to univariate but not multivariate analyses, possibly because on average heterosexual patients were older than the MSM group. The median age of heterosexual women was 42 years (IQR: 33–49), 39 (IQR: 33–47) for heterosexual men, and 30 (IQR: 25–38) for MSM (p<0.001). Even though MSM make up half the HIV infected population, they are infected at a lower age, perceive themselves at risk and get tested at an earlier stage, HIV prevention for this group remains a challenge.

In this study, the rates of HBsAg, anti-HBc and anti-HCV positive were lower than those reported for HIV/AIDS patients in Africa.20 However, these rates are four, six and two fold greater than the rates reported for the general Brazilian population.28 The fact that the hepatitis B virus has the same infection routes as HIV could explain this increased proportion. Therefore, it is important to reinforce hepatitis B vaccination in the population.

Non-whites was shown be at higher risk for LP in multivariate analysis. However, it should be pointed out that the mean educational level of non-whites was lower than in the white group. The proportion of non-whites with less than eight years of education was 60.2% versus 24% in the white group (p<0.001). This fact is possibly related to disparities in access to health care, social economic conditions and access to education.

Living in the Belo Horizonte metropolitan area was a factor that reduced LPAD in multivariate analysis possibly because 60% of this population had their HIV test done for other reasons including blood donation. To be accepted, donors be healthy since they are screened by a doctor before the donation takes place.

It is difficult to compare the interval between diagnosis and treatment, since in many studies, the first CD4 cell measurement is considered as the start of care. In this study a median interval of 47 days (IQR: 28–77) was found for the overall population, which was lower among LP (41 days) and LPAD (40 days) than in NLP group (54 days) and correlates with the severity of the disease and the need to start ARV treatment immediately.

The proportion of patients who presented with clinical symptoms was high and it was associated with increased risk of LP and LPAD in multivariate regression. It is important to stress that 32% of LP and 18% of LPAD were asymptomatic at presentation in spite of having a high level of immune depletion. Therefore, it is important to reinforce CD4 cell measurement after diagnosis, whether the patient is symptomatic or not. Furthermore, a high proportion of patients had their HIV test done because of a doctor's referral in LP and LPAD groups. This must be analyzed with caution and could represent a low perception of risk and a low knowledge of the HIV disease.

Similar results were found in a study from Rio de Janeiro and Baltimore,5 where 75% of the studied population started treatment with VL>10.000copies/ml, which indicates a high potential for HIV transmission. As the impact of ARV and the decrease in VL are convincingly demonstrated and its impact in transmission is widely accepted29 the results of this study show the high risk of transmission by those subjects before they are diagnosed. In this way, enthusiasm for HIV treatment as a prevention measure to reduce transmission is unlikely to be accomplished unless early diagnosis is improved.

These findings are also relevant in clinical settings. Many guidelines30,31 have recommended ARV initiation at higher CD4 cell counts, but this discussion is not applicable for the majority of new HIV patients since they present for treatment with CD4 thresholds below the recommended number.

A positive VDRL was associated with a lower chance of presenting late for treatment. In fact a person with an active symptomatic sexually transmitted disease (STD) might request a health service where early HIV testing is offered. It is noteworthy that 65% of the patients with positive VDRL were in the group of MSM, which reinforces the importance of prevention in this group. In this study only positive VDRL was considered and syphilis was not classified in clinical stages.

Although a lower risk of LP was noted in 2009 in univariate analysis, this did not hold true in the multivariate analysis. In fact, an increase in the median levels of CD4 cells was found in 2009 (377cell/mm3 – IQR: 151–572) and 2010 (371cells/mm3 – IQR: 164–530) compared to 2008 (272cell/mm3 – IQR: 91–489). Nevertheless, the proportion of heterosexual males in 2008 was higher (36.8%) than in 2009 (29%) and 2010 (24.5%) and this could be considered as a confounding factor. This difference in the proportion of heterosexual men in these years could not be explained by the study.

This study has limitations. As a historical study from a single HIV cohort, they may not be representative of other national or international sites, though our analysis may provide insights applicable to such settings. Medical records with complete information were an important point of this study. The quality of data collected has led to a very few missing values.

In summary the results show that despite the availability of ARV free of charge in Brazil for more than 15 years and massive media campaigns encouraging HIV testing in the country, the proportion of patients starting treatment late is still high. These results suggest that recommendation for earlier treatment will have little impact in prevention unless effective strategies to increase universal HIV testing are implemented. Special focus should be placed on those who are not perceived to be or do not perceive themselves to be at risk for HIV infection, such as elderly people, non-whites, less educated people, and heterosexual men.

Conflicts of interest

The authors declare no conflicts of interest.

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