Coinfection by HTLV-I/II is associated with an increased risk of strongyloidiasis and delay in starting antiretroviral therapy for AIDS patients | The Brazilian Journal of Infectious Diseases

Advanced Search

Share

January - February 2011 Coinfection by HTLV-I/II is associated with an increased risk of strongyloidiasis...

The Brazilian Journal of Infectious Diseases

ISSN: 1413-8670

The Brazilian Journal of Infectious Diseases is the official publication of the Brazilian Society of Infectious Diseases (SBI). It aims to publish relevant articles in the broadest sense on all aspects of microbiology, infectious diseases and immune response to infectious agents.
The BJID is a bimonthly publication and one of the most influential journals in its field in Brazil and Latin America with a high impact factor. Since its inception it has garnered a growing share of the publishing market.

See more

Indexed in:

CABI Publishing; Chemical Abstracts (CAS); China Education Publications Import and Export Corporation (CEPIEC); EBSCO Database (Premium Research); Elsevier Science - Bibliographic Databases Division; Embase/Excerpta Medica; Gale Cengage Learning; Index Copernicus International; ISI (Web of Science) - Science Citation Index Expanded (SCISEARCH); Journal Citation Reports (Science Edition); Kessler-Hancok Information Service; Latin America and Caribean Literature of Health Science (LILACS); LATINDEX; Medline/ Index Medicus/Pubmed; Qualis International (CAPES): B3 (International Quality); Redalyc (Network of Scientific Journals of Latin America, Caribbean, Spain and Portugal) SCIELO; SCIRUS (Elsevier); SCOPUS Index; Sociedad Iberoamericana de Información Cientifica (SIIC); Subis Database (SUBIS Bulletin); Swets Blackwell; Teldan Database Production; The US Library of Congress Office; Ulrich¿s Periodicals Directory.

See more

Follow us:

Impact factor

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years.

© Clarivate Analytics, Journal Citation Reports 2022

See more

Impact factor 2022

3.4

Citescore

CiteScore measures average citations received per document published.

See more

Citescore 2022

4.6

SJR

SRJ is a prestige metric based on the idea that not all citations are the same. SJR uses a similar algorithm as the Google page rank; it provides a quantitative and qualitative measure of the journal's impact.

See more

SJR 2022

0.682

SNIP

SNIP measures contextual citation impact by wighting citations based on the total number of citations in a subject field.

See more

SNIP 2022

0.773

View more metrics

Open Access Option

Journal Information

Previous article | Next article

Vol. 15. Issue 1.

Pages 6-11 (January - February 2011)

Export reference

Share

Share

More article options

Vol. 15. Issue 1.

Pages 6-11 (January - February 2011)

Original article

DOI: 10.1016/S1413-8670(11)70132-5

Open Access

Coinfection by HTLV-I/II is associated with an increased risk of strongyloidiasis and delay in starting antiretroviral therapy for AIDS patients

Visits

2544

Download PDF

C. Brites1,

Corresponding author

crbrites@ufba.br

Correspondence to: Laboratório de Pesquisa em Infectologia-Virologia Rua João das Botas, SN, Canela - Salvador, Bahia, Brazil CEP-40110-160 Phone: 55-71-32354901 Fax: 55-71-32472756.

, F. Goyanna1, L.G. França1, C. Pedroso1, E.M. Netto1, S. Adriano1, J. Sampaio1, W. Harrington Jr2

1 Universidade Federal da Bahia, Salvador, Bahia, Brazil

2 University of Miami School of Medicine, FL, USA

This item has received

Under a Creative Commons license

Article information

Abstract

Bibliography

Abstract

Objective

To compare the clinical characteristics and outcomes of HIV-1-HTLV-1 coinfected patients, in Bahia, Brazil.

Methods

Retrospective, comparative study.

Results

Among a total of 123 consecutive HIV infected patients, 20 men (20.6%) and 6 women (23.1%) had detectable antibodies against HTLV-I/II. The major risk factor associated with coinfection by HTLV was intravenous drug use (57.7% of coinfected patient versus 9.2% of HTLV seronegative patients, p < 0.0001). Coinfected patients had higher absolute lymphocyte counts (1,921 + 762 versus 1,587 + 951, p = 0.03). Both groups of patients had similar means of CD4+ and CD8+ cell counts. However, among patients with AIDS CD4+ cell counts were significantly higher among those coinfected with HTLV-I/II (292 ± 92 cells/mm3, versus 140 ± 177cells/mm3, p = 0.36). The frequency and type of opportunistic infections were similar for both groups, but strongyloidiasis and encephalopathy were more frequently diagnosed in coinfected patients (p < 0.05). On the other hand, patients coinfected with HTLV-I/II received significantly less antiretroviral therapy than singly infected by HIV-1

Conclusion

Coinfection by HTLV-I/II is associated with an increased risk of strongyloidiasis for HIV patients. Higher CD4 count may lead to underestimation of immunodeficiency, and delay to initiate antiretroviral therapy.

Keywords:

HIV

HTLV-I/II

coinfection Strongyloidiasis

CD4/CD8

Full text is only aviable in PDF

References

V.S. Kalyanaraman, M.G. Sarngadharan, T. Nakao, et al.

Natural antibodies to the structural core protein (p24) of the human t-cell leukemia (lymphoma) retrovirus found in sera of leukemia patients.

Proc Natl Acad Sci. USA, 79 (1982), pp. 1653-1657

M. Robert-Guroff, R.C. Gallo.

Establishment of an etiologic relationship between the human T-cell leukemia/lymphoma virus (HTLV) and adult T-cell leukemia.

Blut, 47 (1983), pp. 1-12

A. Gessain, F. Barin, J.C. Vernanr, et al.

Antibodies to human T-lymphotropic virus type I in patients with tropical spastic paraparesis.

Lancet, 2 (1986), pp. 99-100

C. Bartholomew, F. Cleghorn, W. Charles, et al.

HTLV-I and tropical spastic paraparesis.

Lancet, 2 (1986), pp. 99-100

M. Osame, K. Usuku, S. Izumo, et al.

HTLV-I associated myelopathy, a new clinical entity.

Lancet, 1 (1986), pp. 1031-1032

K. Ocochi, H. Sato, Y. Hinuma.

A retrospective study on transmission of adult T cell leukemia virus by blood transfusion. Seroconversion in recipients.

Vox Sang, 46 (1984), pp. 245-253

Y. Ando, S. Nakano, K. Saito, et al.

Transmission of adult T cell leukemia retrovirus (HTLV-I) from mother to child: comparison of bottle-fed with breast-fed babies.

Jpn J Cancer Res, 78 (1987), pp. 322-324

C. Bartholomew, W.C. Saxiger, J.W. Clark, et al.

Transmission of HTVL-I and HIV among homosexual men in Trinidad.

JAMA, 257 (1987), pp. 2605-2608

W. Kajiyama, S. Kashiwagi, H. Ikematsu, et al.

Intrafamilial transmission of adult T cell leukemia virus.

J Infect Dis, 154 (1986), pp. 851-857

E. Delaporte, M. Peters, J.L. Bardy, et al.

Blood transfusion as a major risk factor for HTLV-I infection among hospitalized children in Gabon (Equatorial Africa).

J Acq Immune Def Syndr, 6 (1993), pp. 424-428

W.A. Blattner.

Epidemiology of HYLV-I and associated diseases.

Human Retrovirollogy: HTLV, pp. 251-265

C. Bartholomew, W. Blattner, F. Cleghorn.

Progression to AIDS in homosexual men coinfection with HIV and HTLV-I Trinidad.

Lancet, 2 (1987), pp. 1469-1987

T. Hattori, A. Koito, K. Takatsuli, S. Ikematsu, et al.

Frequent infection with human T-cell lymphotropic virus type I in patients with AIDS, but not in carriers of human immunodeficiency virus type 1.

J Acq Immune Def Synd, 2 (1989), pp. 272-276

E. Gotuzzo, J. Escamilla, I.A. Phillips, J. Sanchez, F.S. Wignall, J. Antigoni.

The impact of human T-lymphotropic virus type I/II infection on the prognosis of sexually acquired immunodeficiency syndrome.

Archives of Internal Medicine, 152 (1992), pp. 1429-1452

M. Schechter, L.H. Harrison, N.A. Halsey, G. Trade, M. Santino, C.H. Moulton, T.C. Quinn.

Coinfection with human T-cell lymphotropic virus type I and HIV in Brazil: impact on markers of HIV disease progression.

JAMA, 271 (1994), pp. 353-357

C. Brites, W. Harrington Jr, C. Pedroso, E.M. Netto, R. Badaró.

Epidemiological characteristics of HTLV-I and II coinfection in Brazilian subjects infected by HIV-1.

Braz J Infect Dis, (1997), pp. 43-48

J.A. Zack, A.J. Cann, J.P. Lugo, I.S.Y. Chen.

HIV-1 production from infected peripheral blood T cell after HTLV-I induced mitogenic stimulation.

Science, 240 (1988), pp. 1026-1029

De Rossi A, Saggioro D, Calabró ML, Cenzato R, Chieco-Bianchi. Reciprocal activation of human T-lymphotropic viruses in HTLV-I transformed cells superinfected with HIV-1. J Acq Immune Def Synd 191; 4:380-385.

P. Lusso, F. Lori, R.C. Gallo.

CD4-independent infection by human immunodeficiency virus type 1 after phenotypic mixing with human T-cell leukemia viruses.

J Virol, 64 (1990), pp. 6341-6344

I. Dourado, L.C. Alcantara, M.L. Barreto, M. da Gloria Teixeira, B. Galvão-Castro.

HTLV-I in the general population of Salvador, Brazil: a city with African ethnic and sociodemographic characteristics.

J Acquir Immune Defic Syndr, 34 (2003 15), pp. 527-531

Ministério da Saúde. AIDS - Boletim epidemiológico 2002, Ano XVI, N0 01. Semana epidemiológica 14 a 52.

R.B. Lal, S. Brodine, J. Kazura, E. Mbidde Katonga, R. Yanagihara, C. Roberts.

Sensitivity and specificity of a recombinant transmembrane glycoprotein (rgp 21) - spiked Western immunoblot for serological confirmation of human T-cell lymphotropic virus type I and II infections.

J Clin Microbiol, 30 (1992), pp. 296-299

J.J. Lipka, P. Santiago, L. Chan, G.R. Reyes, K.P. Samuel, W.A. Blattner, G.M. Shaw, C.V. Hanson, J.J. Sninsky, S.K.H. Foung.

Modified Western blot assay for confirmation and differentiation of human T-cell lymphotropic virus type I and II.

J Infect Dis, 164 (1991), pp. 400-403

J.J. Lipka, I. Miyoshi, K.G. Hadlol, G.R. Reyes, T.P. Chow, W.A. Blattner, G.M. Shaw, C.V. Hanson, D. Gallo, L. Chan, S.K.H. Foung.

Segregation of human T-cell lymphotropic virus type I and II infections by antibody reactivity to unique viral epitopes.

J Infect Dis, 165 (1992), pp. 268-272

S.L. Welles, N. Tachibana, A. Okayama, et al.

Decreased reactivity to PPD among HTLV-I carriers in relation to virus and hematologic status.

Intl J Cancer, 56 (1994), pp. 337-340

C. Brites, W. Harrington Jr, C. Pedroso, R. Badaró.

HTLV-I/II infection among HIV-1 infected individuals in Brazil.

The First National Conference on Human Retroviruses and Related Infections,

K. Nakada, M. Kokagura, H. Komoda, Y. Hinuma.

High incidence of HTLV antibody in carriers of Strongyloides stercoralis [letter].

Lancet, 1 (1984), pp. 633

A.C. Dixon, E.T. Yanagihara, D.W. Kwock, J.M. Nakamura.

Strongyloidiasis associated with human T-cell lymphotropic virus type I infection in a nonendemic area.

West Indian J Med, 151 (1989), pp. 410-413

R.D. Robinson, J.F. Lindo, F.A. Neva, et al.

Immunoepidemiologic studies of Strongyloides stercoralis and human T lymphotropic virus type I infections in Jamaica.

West Indian Med J, 169 (1990), pp. 692-696

Y. Sato, H. Toma, M. Takara, S. Kiyuna, Y. Shiroma.

Seroespidemiological studies on the concomitance of strongyloidiasis with T-cell leukemia viral infection in Okinawa, Japan.

Japanese Journal of Parasitology, 39 (1990), pp. 376-383

G. Feitosa, A.C. Bandeira, D.P. Sampaio, R. Badaró, C. Brites.

High prevalence of giardiasis and strongyloidiasis among HIV-infected patients in Bahia, Brazil.

Braz J Infect Dis, 6 (2001), pp. 339-344

M.R. Newton, P. Rudge, K. Cruickshank.

Magnetic resonance imaging in HTLV-I antibody positive patients.

Lancet, ii (1987),

E. Tournier-Lasserve, D. Gout, A. Gessain, et al.

HTLV-I, brain abnormalities on magnetic resonance imaging, and relation with multiple sclerosis.

Lancet, ii (1987), pp. 49-50

H. Shibasaki, C. Endo, Y. Kuroda, R. Kakigi, K. Oda, S. Komine.

Clinical picture of HTLV-I associated myelopathy.

J Neurol Sci, 87 (1988), pp. 15-24

M. Puccione-Söhler, L. Chimelli, M. Merçon, et al.

Pathological and virological assessment of acute HTLV-I-associated myelopathy complicated with encephalopathy and systemic inflamation.

J Neurol Sci, 207 (2003), pp. 87-93

C. Brites, M. Weyll, C. Pedroso, R. Badaró.

Severe and Norwegian scabies are strongly associated with retroviral (HIV-1/HTLV-I) infection in Bahia, Brazil.

AIDS, 16 (2002), pp. 1292-1293

M. Sobesky, P. Couppie, R. Pradinaud, et al.

Coinfection with HIV and HTLV-I infection and survival in AIDS stage. French Guiana Study. GECVIG (Clinical HIV Study Group in Guiana).

Presse Med, 29 (2000 Mar 4), pp. 413-416

C. Brites, R. Alencar, R. Gusmão, et al.

Coinfection by HTLV-I is associated with a shorter survival among HIV-infected patients, in Bahia, Brazil.

AIDS, 15 (2001 Oct 19), pp. 2053-2055

M. Schechter, L. Moulton, L. Harrison.

HIV viral load and CD4+ lymphocyte counts in subjects coinfected by HIV and HTLV-1.

J Acquir Immune Defic Syndrom Hum Retrovirol, 15 (1997), pp. 308-311

Copyright © 2011. Elsevier Editora Ltda.. All rights reserved

The Brazilian Journal of Infectious Diseases

Home
All contents
Publish your article
About the journal
- Aims and scope
- Editorial Board
Metrics

Article options

Tools