Aerobic capacity and health-related quality of life in adults HIV-infected patients with and without lipodystrophy

Gomes Neto, Mansueto; Conceição, Cristiano Sena; Ogalha, Cecília; Brites, Carlos

doi:10.1016/j.bjid.2015.11.001

Abstract

Introduction

HIV infection and its therapy which can affect their aerobic capacity and health-related quality of life of patients.

Objective

We conducted a cross-sectional study to determine if aerobic capacity and health related quality of life was decreased in HIV-infected patients receiving highly active antiretroviral therapy and comparing patients with and without lipodystrophy.

Research design and methods

HIV-infected patients older than 18 years, and in current use of highly active antiretroviral therapy drugs, were evaluated for blood count, fasting total cholesterol, high density lipoprotein, triglycerides, glucose, HIV viral load and CD4/CD8 counts, body composition, peak oxygen consumption (peak VO₂) and metabolic equivalent. Health related quality of life was assessed by using Short Form-36 (SF-36). Statistical analysis was carried out using SPSS version 20.0.

Results

A total of 63 patients with mean age of 43.1 ± 6.4 years were evaluated, of these 34 (54%) had lipodystrophy. The average peak VO₂ (31.4 ± 7.6 mL kg⁻¹ min⁻¹) was significantly lower (p < 0.01) than expected values (37.9 ± 5.6 mL kg⁻¹ min⁻¹) according to the characteristics of the patients. The lipodystrophy group presented with a significant difference in muscle mass, body fat, peak VO₂ and metabolic equivalent and in functional capacity domains of SF-36.

Conclusion

Aerobic capacity values were reduced in HIV-infected patients under highly active antiretroviral therapy when compared to predicted values. Lipodystrophy was associated with reduced aerobic capacity and higher frequency of metabolic syndrome. Lifestyle modification should be a priority in the management of chronic HIV disease.

Keywords
Antiretroviral therapy; HIV infection; Quality of life; Disability

Introduction

HIV-infected individuals are living longer in the era of highly active antiretroviral therapy (HAART). However, recent reports suggest increased rates of cardiovascular risk,¹1 P.Y. Hsue, K. Squires, A.F. Bolger. Screening and assessment of coronary heart disease in HIV-infected patients. Circulation. 2008; 118:e41p ²2 M. Gomes-Neto, R. Zwirtes, C. Brites. A literature review on cardiovascular risk in human immunodeficiency virus-infected patients: implications for clinical management. Braz J Infect Dis. 2013; 17:691p body fat changes (lipodystrophy),³3 R. Singhania, D.P. Kotler. Lipodystrophy in HIV patients: its challenges and management approaches. HIV AIDS (Auckl). 2011; 3:135p and long-term adverse effects such as changes in physical functioning, disabilities and health-related quality of life (HRQOL) are common findings in this population.⁴4 M.W. O’Dell, H.B. Hubert, D.P. Lubeck, P. O’Driscoll. Physical disability in a cohort of persons with AIDS: data from the AIDS Time-Oriented Health Outcome Study. AIDS. 1996; 10:667p

Functional impairment is common among HIV-infected persons. HIV-related disability has been associated with decrease in exercise capacity and patient's daily activities.⁵5 M.B. Zonta, S.M. Almeida, M.T.M. Carvalho, L.C. Werneck. Functional assessment of patients with AIDS disease. Braz J Infect Dis. 2003; 7:301p ⁶6 S. Crystal, J.A. Fleishman, R.D. Hays. Physical and role functioning among persons with HIV: results from a nationally representative survey. Med Care. 2000; 38:1210p Reduced aerobic capacity or cardiovascular fitness may contribute to further physical impairment and activity limitations, placing HIV-infected patients at risk for poor health outcomes.⁷7 W.B. Scott, K.K. Oursler, L.I. Katzel, A.S. Ryan, D.W. Russ. Central activation, muscle performance, and physical function in men infected with human immunodeficiency virus. Muscle Nerve. 2007; 36:374p ⁸8 J.E. Johnson, G.T. Anders, H.M. Blanton. Exercise dysfunction in patients seropositive for the human immunodeficiency virus. Am Rev Respir Dis. 1990; 141:618p ⁹9 G. Pothoff, K. Wassermann, H. Ostmann. Impairment of exercise capacity in various groups of HIV-infected patients. Respiration. 1994; 61:80p Some studies have shown an association between cardiovascular fitness and cardiovascular mortality, as well as all-cause mortality in men and women of all ages.¹⁰10 S.N. Blair, H.W. Kohl, R.S. Paffenbarger Jr.. Physical fitness and all-cause mortality: a prospective study of healthy men and women. JAMA. 1989; 262:2395p ¹¹11 Center for Disease Control and Prevention. State indicator report on physical activity, 2010. Atlanta, GA: U.S. Department of Health and Human Services; 2010.

Dependence on assistance with activities of daily living and/or reduced recreational activities participation may be associated with a lower HRQOL and higher risk of mortality.¹²12 W.T. Cade, L. Peralta, R.E. Keyser. Aerobic capacity in late adolescents infected with HIV and controls. Pediatr Rehabil. 2002; 5:161p However, conflicting results have been reported in regard to aerobic capacity. Some authors have reported reduced aerobic capacity in HIV patients in HAART use,⁵5 M.B. Zonta, S.M. Almeida, M.T.M. Carvalho, L.C. Werneck. Functional assessment of patients with AIDS disease. Braz J Infect Dis. 2003; 7:301p ⁶6 S. Crystal, J.A. Fleishman, R.D. Hays. Physical and role functioning among persons with HIV: results from a nationally representative survey. Med Care. 2000; 38:1210p ¹²12 W.T. Cade, L. Peralta, R.E. Keyser. Aerobic capacity in late adolescents infected with HIV and controls. Pediatr Rehabil. 2002; 5:161p ¹³13 R. Roubenoff. Acquired immunodeficiency syndrome wasting, functional performance, and quality of life. Am J Manag Care. 2000; 6:1003p whereas others have detected no adverse long-term effect.¹⁴14 V. Raso, R.J. Shephard, J.S. Casseb, A.J. Duarte, J.M. Greve. Aerobic power and muscle strength of individuals living with HIV/AIDS. J Sports Med Phys Fitness. 2014; 54:100p ¹⁵15 V. Raso, R.J. Shephard, J. Casseb, A.J. Duarte, P.R. Silva, J.M. Greve. Association between muscle strength and the cardiopulmonary status of individuals living with HIV/AIDS. Clinics (Sao Paulo). 2013; 68:359p

The measure of peak oxygen consumption (peak VO₂) has been utilized to assess aerobic capacity as well as for the prescription of exercise programs in this population.¹⁶16 American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription. 7th ed.. Baltimore: Lippincott Williams & Wilkins; 2006. HRQOL is one of the most utilized subjective aspects in evaluating the impact of chronic diseases and both its definition and assessment are contentious.¹⁷17 L. Geocze, S. Mucci, M.A. De Marco, L.A. Nogueira-Martins, V.A. Citero. Quality of life and adherence to HAART in HIV-infected patients. Rev Saúde Pública. 2010; 44:743p ¹⁸18 M. Préau, T. Apostolidis, C. Francois, F. Raffi, B. Spire. Time perspective and quality of life among HIV-infected patients in the context of HAART. AIDS Care. 2007; 19:449p The combination of negative effects on physical and mental function in HIV-infected patients with lipodystrophy may have a further adverse impact on HRQOL, but its impact on aerobic capacity and quality of life has not been properly studied. The objective of this study was to determine if aerobic capacity and quality of life was diminished in HIV-infected patients receiving HAART and if lipodystrophy was related to these outcomes.

Methods

Patients and settings. The study was conducted at the AIDS Clinics of Federal University of Bahia Hospital (HUPES), a public HIV referral service in Salvador, Brazil. The project was approved by the Institutional Ethics Research Committee.

Study design: We conducted an observational cross-sectional study. Patients were consecutively invited to enter the protocol following the signature of an informed consent. The inclusion criteria were: current use of ARV drugs, age equal or higher than 18 years, and availability to attend the study activities. Exclusion criteria included pregnancy, active opportunistic infections and history of regular exercising before entering the study.

Measures

Laboratory measurements consisted of total cholesterol, HDL, triglycerides, glucose, HIV viral load and CD4/CD8 counts. Metabolic syndrome was defined following National Cholesterol Education Program Adult Treatment Panel III definition.¹⁹19 S.M. Grundy, J.I. Cleeman, S.R. Daniels. Diagnosis and management of the metabolic syndrome: an American Heart Association/National Heart, Lung, and Blood Institute Scientific Statement. Circulation. 2005; 112:2735p Based on that definition, three or more of the following criteria need to be met for defining metabolic syndrome: (1) fasting serum triglycerides ≥150 mg/dL; (2) abnormal waist circumference: waist perimeter ≥102 cm in man, or ≥88 cm in women; (3) fasting blood glucose ≥100 mg/dL; (4) hypertension: systolic blood pressure ≥130 mmHg and/or diastolic blood pressure ≥85 mmHg, and/or use of an antihypertensive drug; (5) low HDL-cholesterol: ≤40 mg/dL for men, or ≤50 mg/dL for women.

We measured weight, height, body mass index (BMI) and skin fold. Body weight was measured using a balance accurate to 100 g. Height was measured by a stadiometer with subjects barefoot. BMI was calculated by dividing body weight (kg) by height squared (m²). We used the digital caliper to evaluate the percentage of lean body mass, fat mass, and muscle mass. The calculation was based on Faulkner's skinfold protocol.²⁰20 E.H. De Rose, E. Pigatto, R.C.F. De Rose. Cineantropometry, physical education and sports training. London: SAF; 1984. 80p In addition, we measured the circumference of chest, waist, waist-hip ratio, abdomen, hips, forearms, arms, thighs and calves (0 and 6 months). The measurement was performed with the patient standing upright, using a flexible tape measure and extendable to one decimal place.²¹21 M.L. Pollock, J.H. Wilmore. Exercise in health and disease. Assessment and prescription for prevention and rehabilitation. 2nd ed.. Rio de Janeiro: MEDSI; 1993. ²²22 A.S. Jackson, M.L. Pollock. Predicting generalized equations for body density of men. Br J Nutr. 1978; 40:497p

Lipodystrophy was defined clinically by physical examination and by patient report of fat wasting in the face, arms or legs with or without central obesity. Patients were initially asked a general question about any changes in body appearance, followed by questions with specific reference to the regions mentioned above, time of onset of changes in each region, and whether the changes had resolved. Patients with weight change but without peripheral fat loss were not defined as having lipodystrophy.²³23 A. Carr, K. Samaras, S. Burton, M. Law, J. Freund, D.J. Chisholm. A syndrome of peripheral lipodystrophy, hyperlipidaemia and insulin resistance in patients receiving HIV protease inhibitors. AIDS. 1998; 12:F51p

The exercise testing was performed to evaluate the clinical response, the hemodynamic, electrocardiographic and metabolic stress, and to customized exercise prescription and subsequent evaluation of therapeutic intervention, under the supervision of a cardiologist. We used the ergometer treadmill. We chose ramp protocol for the study. Subjects were exercised on a motor-driven treadmill with an initial speed of 3 km h⁻¹ and a 2% incline. We used continuous increments in speed and incline, following a ramp protocol adjusted to the subjects’ predicted functional capacity, to reach volitional fatigue in approximately 8–12 min. Blood pressure was measured every 3 min using a standard arm sphygmomanometer, while 12-lead ECG was continuously monitored.²⁴24 S. Novitsky, K.R. Segal, B. Chatr-Aryamontri. Validity of a new portable indirect calorimeter: the AeroSport Team 100. Eur J Appl Physiol. 1995; 70:462p ¹⁶16 American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription. 7th ed.. Baltimore: Lippincott Williams & Wilkins; 2006. The values of the test performed were compared with the predicted values in accordance with Jones equation for the treadmill test (VO₂ predicted for male subjects = [60.0 − (0.55 × age)] × 1.11; and VO₂ predicted for female subjects = [48.0 − (0.37 age)] × 1.11).¹⁶16 American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription. 7th ed.. Baltimore: Lippincott Williams & Wilkins; 2006.

Assessment of quality of life was performed by applying the SF-36 (Medical Outcomes Study 36-Item Short-Form Health Survey). The SF-36 questionnaire contains 36 questions that are grouped into eight domains: functional capacity, limitations related to emotions, and perceptions of mental health, whose scores range from 0 to 100, where zero corresponds to the worst general state of health and 100 to the best state, meaning that the higher the total score, the better the perception of quality of life. This tool was already validated for use in Brazilian patients.²⁵25 R.M. Ciconelli, M.B. Ferraz, W. Santos. Translation into Portuguese and validation of the generic questionnaire for assessing quality of life SF-36 (Brazil-SF36). Rev Bras Reumatol. 1999; 39:143p

Statistical analysis

Data of continuous variables were analyzed by using measures of central tendency and dispersion, and expressed as mean and standard deviation. Categorical or dichotomous variables were analyzed by using measures of frequency. We performed statistical tests Shapiro–Wilk to evaluate normality for all variables. Student's t test or Mann–Whitney test were used to compare the mean differences of variables between the liposdystrophy occurrences. Chi-square test was used to compare proportions. All p values were 2-tailed, and statistical significance was set at .05. All calculations were performed with Statistical Package for Social Sciences – SPSS version 20.0.

Results

A total of 70 patients were invited, however seven patients did not attend the evaluations. Sixty-three evaluated patients had mean age of 43.1 ± 6.4 years. Table 1 shows the demographic and clinics characteristics of patients in the study.

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Table 1
Demographic and clinics characteristics of the HIV infected patients included in study.

Treadmill testing results showed a mean peak VO₂ ± SD of 31.4 ± 7.6 mL kg⁻¹ min⁻¹. The average peak VO₂ was significantly lower (p < 0.01) than expected values (37.9 ± 5.6 mL kg⁻¹ min⁻¹) according to the Jones equation.¹⁶16 American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription. 7th ed.. Baltimore: Lippincott Williams & Wilkins; 2006.

Patients were stratified by elapsed time since HIV diagnosis (±5 years). No differences were found for demographic characteristics and age (p > 0.05). The time since HIV diagnosis was also a factor that influenced the aerobic capacity of the patients. Patients with more than 5 years since diagnosis of HIV infection showed lower aerobic capacity than patients with less than 5 years of HIV (30.3 ± 7.5 versus 34.7 ± 7.02 mL kg⁻¹ min⁻¹, p = 0.04).

54% of the patients had lipodystrophy. Demographic variables were comparable between groups with and without lipodystrophy.

Lipodystrophy group presented with a significant difference in muscle mass, body fat, peak VO₂ and MET compared with patients without fat changes. This indicates that patients with lipodystrophy have less muscle mass and aerobic capacity in addition to a higher percentage of body fat. Table 2 displays demographic characteristics of patients according to the occurrence of lipodystrophy.

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Table 2
Demographic and clinics characteristics of patients with lipodystrophy compared with no lipodystrophy.

In lipodystrophy group, 56% of patients had a previous diagnosis of metabolic syndrome (56%) versus only 27% in the group without lipodystrophy (p < 0.05).

Table 3 shows the results of HRQOL of patients according to the presence of lipodystrophy. The domains of SF-36 that had lower values were pain, vitality, general health and mental health. Considering the HRQOL among patients with and without lipodystrophy only the domain functional capacity presented reduction in the group with lipodystrophy compared with no lipodystrophy.

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Table 3
Quality of life of HIV-infected patients included in study and with lipodystrophy compared with no lipodystrophy.

Discussion

Our results demonstrate that aerobic capacity values were reduced in HIV-infected patients under HAART when compared to predicted values. The prevalence of lipodystrophy in this study was 54%. Patients with lipodystrophy exhibited a significant reduction in muscle mass and aerobic capacity compared to those without such fat changes.

In a systematic review of Brazilian studies on lipodystrophy, the weighted average of the prevalence of lipodystrophy in people living with HIV was 53.5%²⁶26 L.B.D. Justina, M.C. Luiz, R. Maurici, F. Schuelter-Trevisol. Prevalence factors associated with lipodystrophy in AIDS patients. Rev Soc Bras Med Trop. 2014; 47:30p and physical activity was considered an independent protective factor against the onset of HIV-associated lipodystrophy.

Several possible mechanisms for decline in aerobic capacity and activity limitation in people with HIV have been reported. Comorbidities that may be associated with the use of HAART such as congestive heart failure, coronary artery disease, peripheral vascular disease, and stroke may lead to a loss of physical function.²⁷27 K.K. Oursler, J.L. Goulet, S. Crystal. Association of age and comorbidity with physical function in HIV-infected and uninfected patients: results from the Veterans Aging Cohort Study. AIDS Patient Care STDS. 2011; 25:13p As a result of associated comorbidities and related phenomena (such as loss of lean muscle mass and pain), individuals often reduce their physical activities, which may further decrease tolerance to exercise and quality of life.²⁸28 G. Somarriba, D. Neri, N. Schaefer, T.L. Miller. The effect of aging, nutrition, and exercise during HIV infection. HIV AIDS (Auckl). 2010; 2:191p

Structural and inflammatory muscle abnormalities which may impair the muscle's ability to extract or utilize oxygen during exercise also can also be associated with the physical limitation. Raso et al.¹⁵15 V. Raso, R.J. Shephard, J. Casseb, A.J. Duarte, P.R. Silva, J.M. Greve. Association between muscle strength and the cardiopulmonary status of individuals living with HIV/AIDS. Clinics (Sao Paulo). 2013; 68:359p observed that poor muscle strength is observed in some HIV/AIDS patients, which is associated with lower anaerobic power and peak oxygen uptake (peak VO₂). However, the peak VO₂ of physically active HIV patients does not differ from that observed in controls of similar age and with similar physical activity patterns.¹⁵15 V. Raso, R.J. Shephard, J. Casseb, A.J. Duarte, P.R. Silva, J.M. Greve. Association between muscle strength and the cardiopulmonary status of individuals living with HIV/AIDS. Clinics (Sao Paulo). 2013; 68:359p

Røge et al.²⁹29 B.T. Røge, J.A. Calbet, K. Møller. Skeletal muscle mitochondrial function and exercise capacity in HIV-infected patients with lipodystrophy and elevated p-lactate levels. AIDS. 2002; 16:973p have identified that the significantly lower working capacity and the trend toward reduced peak VO₂ in HIV-infected patients with lipodystrophy could be caused by mitochondrial dysfunction, but may also be caused by impaired physical fitness caused by underlying chronic disease.

In study performed for Zonta et al.,³⁰30 M.B. Zonta, S.M. Almeida, M.T.M. Carvalho, L.C. Werneck. Evaluation of AIDS-related disability in a general hospital in southern, Brazil. Braz J Infect Dis. 2005; 9:479p among the 120 HIV-infected patients, 85% reported impaired physical activity, 70% of the patients complained about various degrees of weakness, 50% stated that they performed all of their regular activities, although at a slower pace, with pauses for resting; 42% admitted that they had problems in making larger efforts and 8% felt like lying in bed. Functional status and the disability evaluations were associated with alterations in muscular strength.

Physiological deconditioning also may play a role in activity intolerance in HIV-infected patients, but this fact alone could not have fully accounted for the severity of the limitation or the fatigue-mediated functional limitations associated with HIV infection.³¹31 W.W. Stringer. Mechanisms of exercise limitation in HIV+ individuals. Med Sci Sports Exerc. 2000; 32:S412p Cade et al.³²32 W.T. Cade, L. Peralta, R.E. Keyser. Aerobic exercise dysfunction in human immunodeficiency virus: a potential link to physical disability. Phys Ther. 2004; 84:655p report that the musculature's ability to extract and utilize oxygen accounts for peak aerobic exercise dysfunction in individuals with asymptomatic HIV infection and that HAART, rather than deconditioning alone, appears to limit peak aerobic capacity.

The assessment of the quality of life is an essential outcome in rehabilitation process, and it is of utmost importance to understand how HIV-infected patients live. It is known that HRQOL is related to mental and physical status.³³33 J. Silva, K. Bunn, R.F. Bertoni, O.A. Neves, J. Traebert. Quality of life of people living with HIV. AIDS Care. 2013; 25:71p Erlandson et al.³⁴34 K.M. Erlandson, A.A. Allshouse, C.M. Jankowski, S. Mawhinney, W.M. Kohrt, T.B. Campbell. Relationship of physical function and quality of life among persons aging with HIV infection. AIDS. 2014; 2p evaluated the impact of physical function impairments on quality of life in 359 HIV-infected patients and it was observed that the faster gait speed, chair rise time, and greater physical activity were associated with greater quality of life.³⁴34 K.M. Erlandson, A.A. Allshouse, C.M. Jankowski, S. Mawhinney, W.M. Kohrt, T.B. Campbell. Relationship of physical function and quality of life among persons aging with HIV infection. AIDS. 2014; 2p

Blanch et al.³⁵35 J. Blanch, A. Rousaud, E. Martínez. Impact of lipodystrophy on the quality of life of HIV-1-infected patients. J Acquir Immune Defic Syndr. 2002; 31:404p evaluated 84 HIV-infected patients with lipodystrophy and reported a poorer physical status in comparison with those without lipodystrophy. However, the lipodystrophy itself was not found to influence overall quality of life. This result is in agreement with the present study that also found no significant difference in the domains of quality of life between patients with and without lipodystrophy, with the exception of functional capacity domain that was most impacted on lipodystrophy group. Blanch et al. conclude that the impact of HIV-related lipodystrophy on quality of life depends on certain patient characteristics, rather than on the presence of lipodystrophy itself.³⁵35 J. Blanch, A. Rousaud, E. Martínez. Impact of lipodystrophy on the quality of life of HIV-1-infected patients. J Acquir Immune Defic Syndr. 2002; 31:404p

There are a number of limitations to our data. Unfortunately, we were unable to measure the level of activity of our patients. The reduction in the level of activity may be a factor associated with the reduction of aerobic capacity. However, since patients were included if they were not engaged in regular exercising before the beginning of the research, they supposedly had similar level of prior activity. It should also be emphasized that our patient sample was deliberately selected in terms of a number of criteria for good health such as be aware, be independent, and be able to walk to hospital. We used digital caliper to evaluate the percentage of lean body mass, fat mass, and muscle mass, which is less precise than more sophisticated methods like, dual energy X-ray absorptiometry. Although we did not use imaging resources to quantify fat tissue, clinical evaluation by physical examination is also considered a reliable method to diagnosis lipodystrophy.²³23 A. Carr, K. Samaras, S. Burton, M. Law, J. Freund, D.J. Chisholm. A syndrome of peripheral lipodystrophy, hyperlipidaemia and insulin resistance in patients receiving HIV protease inhibitors. AIDS. 1998; 12:F51p ³⁵35 J. Blanch, A. Rousaud, E. Martínez. Impact of lipodystrophy on the quality of life of HIV-1-infected patients. J Acquir Immune Defic Syndr. 2002; 31:404p The lack of a control group with HIV negative is also a limitation, because it does not allow us to assess the magnitude of the impact of HIV on quality of life.

Conclusion

HIV reduces the aerobic capacity. The presence of lipodystrophy was associated with reduced aerobic capacity, muscle mass and higher frequency of metabolic syndrome. Lipodystrophy does not seem to influence overall HRQOL. Lifestyle modification should become a greater priority in the management of chronic HIV disease.

Conflicts of interest

The authors declare no conflicts of interest.

References

¹
P.Y. Hsue, K. Squires, A.F. Bolger. Screening and assessment of coronary heart disease in HIV-infected patients. Circulation. 2008; 118:e41p
²
M. Gomes-Neto, R. Zwirtes, C. Brites. A literature review on cardiovascular risk in human immunodeficiency virus-infected patients: implications for clinical management. Braz J Infect Dis. 2013; 17:691p
³
R. Singhania, D.P. Kotler. Lipodystrophy in HIV patients: its challenges and management approaches. HIV AIDS (Auckl). 2011; 3:135p
⁴
M.W. O’Dell, H.B. Hubert, D.P. Lubeck, P. O’Driscoll. Physical disability in a cohort of persons with AIDS: data from the AIDS Time-Oriented Health Outcome Study. AIDS. 1996; 10:667p
⁵
M.B. Zonta, S.M. Almeida, M.T.M. Carvalho, L.C. Werneck. Functional assessment of patients with AIDS disease. Braz J Infect Dis. 2003; 7:301p
⁶
S. Crystal, J.A. Fleishman, R.D. Hays. Physical and role functioning among persons with HIV: results from a nationally representative survey. Med Care. 2000; 38:1210p
⁷
W.B. Scott, K.K. Oursler, L.I. Katzel, A.S. Ryan, D.W. Russ. Central activation, muscle performance, and physical function in men infected with human immunodeficiency virus. Muscle Nerve. 2007; 36:374p
⁸
J.E. Johnson, G.T. Anders, H.M. Blanton. Exercise dysfunction in patients seropositive for the human immunodeficiency virus. Am Rev Respir Dis. 1990; 141:618p
⁹
G. Pothoff, K. Wassermann, H. Ostmann. Impairment of exercise capacity in various groups of HIV-infected patients. Respiration. 1994; 61:80p
¹⁰
S.N. Blair, H.W. Kohl, R.S. Paffenbarger Jr.. Physical fitness and all-cause mortality: a prospective study of healthy men and women. JAMA. 1989; 262:2395p
¹¹
Center for Disease Control and Prevention. State indicator report on physical activity, 2010. Atlanta, GA: U.S. Department of Health and Human Services; 2010.
¹²
W.T. Cade, L. Peralta, R.E. Keyser. Aerobic capacity in late adolescents infected with HIV and controls. Pediatr Rehabil. 2002; 5:161p
¹³
R. Roubenoff. Acquired immunodeficiency syndrome wasting, functional performance, and quality of life. Am J Manag Care. 2000; 6:1003p
¹⁴
V. Raso, R.J. Shephard, J.S. Casseb, A.J. Duarte, J.M. Greve. Aerobic power and muscle strength of individuals living with HIV/AIDS. J Sports Med Phys Fitness. 2014; 54:100p
¹⁵
V. Raso, R.J. Shephard, J. Casseb, A.J. Duarte, P.R. Silva, J.M. Greve. Association between muscle strength and the cardiopulmonary status of individuals living with HIV/AIDS. Clinics (Sao Paulo). 2013; 68:359p
¹⁶
American College of Sports Medicine. ACSM's Guidelines for Exercise Testing and Prescription. 7th ed.. Baltimore: Lippincott Williams & Wilkins; 2006.
¹⁷
L. Geocze, S. Mucci, M.A. De Marco, L.A. Nogueira-Martins, V.A. Citero. Quality of life and adherence to HAART in HIV-infected patients. Rev Saúde Pública. 2010; 44:743p
¹⁸
M. Préau, T. Apostolidis, C. Francois, F. Raffi, B. Spire. Time perspective and quality of life among HIV-infected patients in the context of HAART. AIDS Care. 2007; 19:449p
¹⁹
S.M. Grundy, J.I. Cleeman, S.R. Daniels. Diagnosis and management of the metabolic syndrome: an American Heart Association/National Heart, Lung, and Blood Institute Scientific Statement. Circulation. 2005; 112:2735p
²⁰
E.H. De Rose, E. Pigatto, R.C.F. De Rose. Cineantropometry, physical education and sports training. London: SAF; 1984. 80p
²¹
M.L. Pollock, J.H. Wilmore. Exercise in health and disease. Assessment and prescription for prevention and rehabilitation. 2nd ed.. Rio de Janeiro: MEDSI; 1993.
²²
A.S. Jackson, M.L. Pollock. Predicting generalized equations for body density of men. Br J Nutr. 1978; 40:497p
²³
A. Carr, K. Samaras, S. Burton, M. Law, J. Freund, D.J. Chisholm. A syndrome of peripheral lipodystrophy, hyperlipidaemia and insulin resistance in patients receiving HIV protease inhibitors. AIDS. 1998; 12:F51p
²⁴
S. Novitsky, K.R. Segal, B. Chatr-Aryamontri. Validity of a new portable indirect calorimeter: the AeroSport Team 100. Eur J Appl Physiol. 1995; 70:462p
²⁵
R.M. Ciconelli, M.B. Ferraz, W. Santos. Translation into Portuguese and validation of the generic questionnaire for assessing quality of life SF-36 (Brazil-SF36). Rev Bras Reumatol. 1999; 39:143p
²⁶
L.B.D. Justina, M.C. Luiz, R. Maurici, F. Schuelter-Trevisol. Prevalence factors associated with lipodystrophy in AIDS patients. Rev Soc Bras Med Trop. 2014; 47:30p
²⁷
K.K. Oursler, J.L. Goulet, S. Crystal. Association of age and comorbidity with physical function in HIV-infected and uninfected patients: results from the Veterans Aging Cohort Study. AIDS Patient Care STDS. 2011; 25:13p
²⁸
G. Somarriba, D. Neri, N. Schaefer, T.L. Miller. The effect of aging, nutrition, and exercise during HIV infection. HIV AIDS (Auckl). 2010; 2:191p
²⁹
B.T. Røge, J.A. Calbet, K. Møller. Skeletal muscle mitochondrial function and exercise capacity in HIV-infected patients with lipodystrophy and elevated p-lactate levels. AIDS. 2002; 16:973p
³⁰
M.B. Zonta, S.M. Almeida, M.T.M. Carvalho, L.C. Werneck. Evaluation of AIDS-related disability in a general hospital in southern, Brazil. Braz J Infect Dis. 2005; 9:479p
³¹
W.W. Stringer. Mechanisms of exercise limitation in HIV+ individuals. Med Sci Sports Exerc. 2000; 32:S412p
³²
W.T. Cade, L. Peralta, R.E. Keyser. Aerobic exercise dysfunction in human immunodeficiency virus: a potential link to physical disability. Phys Ther. 2004; 84:655p
³³
J. Silva, K. Bunn, R.F. Bertoni, O.A. Neves, J. Traebert. Quality of life of people living with HIV. AIDS Care. 2013; 25:71p
³⁴
K.M. Erlandson, A.A. Allshouse, C.M. Jankowski, S. Mawhinney, W.M. Kohrt, T.B. Campbell. Relationship of physical function and quality of life among persons aging with HIV infection. AIDS. 2014; 2p
³⁵
J. Blanch, A. Rousaud, E. Martínez. Impact of lipodystrophy on the quality of life of HIV-1-infected patients. J Acquir Immune Defic Syndr. 2002; 31:404p

Publication Dates

Publication in this collection
Jan-Feb 2016

History

Received
15 June 2015
Accepted
02 Nov 2015

This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
P.Y. Hsue, K. Squires, A.F. Bolger. Screening and assessment of coronary heart disease in HIV-infected patients. Circulation. 2008; 118:e41p

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	Study group (n = 63)
Age (yr)	43.1 ± 6.4
Gender (male:female)	34:29
Ethnicity (white:nonwhite)	27:36
Lyposdistrophy (yes:no)	34:29
Metabolic syndrome	24:39
Body weight (kg)	63.3 ± 11.2
Muscle mass	55.2 ± 10.5
Body mass index (kg m⁻²)	23.1 ± 3.45
Hip	95.6 ± 7.1
Waist-to-hip ratio	0.8 ± 0.1
Body fat (%)	21.3 ± 8.6
CD4+ (cell mm⁻³)	539.7 ± 291.8
Triglycerides (mg dL⁻¹)	185.6 ± 102.1
Total cholesterol (mg dL⁻¹)	207.3 ± 64.1
HDL cholesterol (mg dL⁻¹)	48.9 ± 19.8
Glucose (mg dL⁻¹)	90.2 ± 15.3
Hemoglobin (g dL⁻¹)	13.4 ± 1.3
Peak VO₂ (mL kg⁻¹ min⁻¹)	31.4 ± 7.6
MET	8.7 ± 2.1

	Lipodystrophy groupn = 34	No lipodystrophy groupn = 29
Age	44.9 ± 8.9	40.8 ± 9.6
Gender (male:female)	18:15	16:14
Body mass index (kg m⁻²)	23.0 ± 4.5	23.1 ± 2.0
Muscle mass	49.2 ± 10.2	55.6 ± 11.8^* * p<0.05.
Body fat (%)	27.6 ± 11.8	19.9 ± 7.3^* * p<0.05.
Waist	81.4 ± 11.7	80.9 ± 6.9
Hip	95.82 ± 9.17	95.53 ± 4.74
CD4+ (cell mm⁻³)	490.4 ± 25.,6	597.6 ± 320.3
Triglycerides (mg dL⁻¹)	197.3 ± 88.1	172.4 ± 118.2
Total cholesterol (mg dL⁻¹)	217.8 ± 79.9	194.6± 35.2
HDL cholesterol (mg dL⁻¹)	52.4 ± 22.8	44.2± 14.6
Glucose (mg dL⁻¹)	90.2± 18.4	90.3± 10.5
Metabolic syndrome (yes:no)	19:15	8:21^* * p<0.05.
Peak VO₂ (mL kg⁻¹ min⁻¹)	31.4 ± 6.1	30.4 ± 7.6^* * p<0.05.
MET	9.3 ± 1.8	8.7 ± 2.2^* * p<0.05.

Domains SF-36	HIV-infected patients	Lipodystrophy group	No lipodystrophy group
Functional capacity	71.1 ± 25.4	61.76 ± 24.02^* * p<0.01 versus no lipodystrophy group.	77.76 ± 24.03
Physical limitation	81.4 ± 20.8	80.15 ± 33.58	82.76 ± 27.63
Pain	42.3 ± 9.5	43.18 ± 8.58	41.24 ± 10.56
General health	61.0 ± 20.6	62.35 ± 18.97	59.41 ± 22.64
Vitality	58.0 ± 15.6	58.97 ± 14.86	56.90 ± 16.71
Social aspects	80.6 ± 21.2	81.31 ± 19.82	79.36 ± 22.72
Emotional limitation	78.2 ± 33.8	78.04 ± 34.10	78.30 ± 34.07
Mental health	60.2 ± 12.9	62.47 ± 11.22	57.52 ± 14.47

Brasil

Brasil

Aerobic capacity and health-related quality of life in adults HIV-infected patients with and without lipodystrophy

Abstract

Introduction

Objective

Research design and methods

Results

Conclusion

Introduction

Methods

Measures

Statistical analysis

Results

Discussion

Conclusion

Conflicts of interest

References

Publication Dates

History