Association between lymphocyte and monocyte subsets and cognition in children with HIV

Association between lymphocyte and monocyte subsets and cognition in children with HIV

Background: This study assesses the relationships between lymphocyte and monocyte subsets and intelligence quotient (IQ) scores in antiretroviral therapy (ART)-naive, HIV-infected Thai children without advanced HIV disease.Findings: Sixty-seven ART-naive Thai children with CD4 between 15-24% underwe...

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Main Authors: Ananworanich,J., Bunupuradah,T., Apornpong,T., Kosalaraksa,P., Hansudewechakul,R., Kanjanavanit,S., Ngampiyaskul,C., Wongsawat,J., Luesomboon,W., Ngo-Giang-Huong,N., Jaimulwong,T., Kerr,S.J., Brouwers,P.Y., Shearer,W.T., Puthanakit,T., Phanuphak,P.P., Ruxrungtham,K., Vun,M.C., Saphonn,V., Kaldor,J., Cooper,D.A., Chokephaibulkit,K., Sirisanthana,V., Suntarattiwong,P., Cotton,M.F., Giaquinto,C., Lolekha,R., Fox,L.M., Ojumu,A., Bupp,J.E., Weatherall,N., Ussery,M.A., Mofenson,L.M., Petrakova,E., Valcour,V.G., Paul,R.H., Pattanapanyasat,K., Sakulploy,N., McNicholl,J.M., Gelman,R.S., Rattanadilok,K., Klangsinsirikul,P., Thanee,C., Klinklom,A., Pancharoen,C., Van Der Lugt,J., Chuenyam,T., Ubolyam,S., Mahanontharit,A., Suwanlerk,T., Intasan,J., Jupimai,T., Intakan,P., Hirunyanulux,T., Sriheara,C., Uanithirat,A., Boonrak,P., Rit-im,O., Phadungphon,C., Thongsee,W., Chaiya,O., Sattong,T., Nantapisan,K., Piromwong,A., Kuljarusiri,N., Aryukarn,S., Sripanom,S., Naknoi,N., Muangtokit,S., Kumkrung,S., Chaemsai,P., Sunthornkachit,R., Moolasart,V., Siripongpreeda,N., Thongyen,S., Chathaisong,P., Prommool,V., Suwannamass,D., Waradejwinyoo,S., Boonyarittipat,N., Chiewcharn,T., Likanonsakul,S., Athichathana,C., Eampokalap,B., Sanchiem,W., Lumbiganon,P., Engchanil,C., Tharnprisan,P., Sopharak,C., Lulitanond,V., Khahmahpahte,S., Kaewmart,R., Chaimanee,P., Sala,M., Udompanit,T., Wisai,R., Rattanamanee,S., Chantarasuk,Y., Sarvok,S., Changtrakun,Y., Kunhasura,S., Kamollert,S., Eiamapichart,P., Jadwattanakul,T., Limpet-ngam,I., Naraporn,D., Mathajittiphun,P., Sirimaskul,C., Klaihong,W., Sittisak,P., Wongwian,T., Charoenthammachoke,K., Yodpo,P., Ananthanavanich,M., Sornchai,P., Namwong,T., Chutima,D., Tangmankhongworakun,S., Yingyong,P., Kasinrerk,J., Raksasang,M., Kongdong,P., Khampangkome,S., Thong-Ngao,S., Paengta,S., Junsom,K., Khuankaew,R., Moolsombat,P., Khuttiwung,D., Chanrin,C., Jariyapongpaiboon,Y., Chanta,C., Khonponoi,A., Yodsuwan,C., Srisuk,W., Ussawawuthipong,P., Thaweesombat,Y., Tongsuk,P., Kumluang,C., Jinasen,R., Maneerat,N., Surapanichadul,K., Donkaew,P., Srisawat,N., Chamjamrat,W., Wattanayothin,S., Prasertphan,P., Wongcheeree,T., Greetanukroh,P., Imubumroong,C., Teirsonsern,P.
Format: Article
Published: BioMed Central 2015
Subjects:
Molecular Medicine
Pharmacology (medical)
Virology
Online Access:http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84892633634&origin=inward
http://cmuir.cmu.ac.th/handle/6653943832/38116
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Institution: Chiang Mai University
id th-cmuir.6653943832-38116
record_format dspace
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Molecular Medicine
Pharmacology (medical)
Virology
spellingShingle Molecular Medicine
Pharmacology (medical)
Virology
Ananworanich,J.
Bunupuradah,T.
Apornpong,T.
Kosalaraksa,P.
Hansudewechakul,R.
Kanjanavanit,S.
Ngampiyaskul,C.
Wongsawat,J.
Luesomboon,W.
Ngo-Giang-Huong,N.
Jaimulwong,T.
Kerr,S.J.
Brouwers,P.Y.
Shearer,W.T.
Puthanakit,T.
Phanuphak,P.P.
Ruxrungtham,K.
Vun,M.C.
Saphonn,V.
Kaldor,J.
Cooper,D.A.
Chokephaibulkit,K.
Sirisanthana,V.
Suntarattiwong,P.
Cotton,M.F.
Giaquinto,C.
Lolekha,R.
Fox,L.M.
Ojumu,A.
Bupp,J.E.
Weatherall,N.
Ussery,M.A.
Mofenson,L.M.
Petrakova,E.
Valcour,V.G.
Paul,R.H.
Pattanapanyasat,K.
Sakulploy,N.
McNicholl,J.M.
Gelman,R.S.
Rattanadilok,K.
Klangsinsirikul,P.
Ruxrungtham,K.
Thanee,C.
Klinklom,A.
Pancharoen,C.
Van Der Lugt,J.
Chuenyam,T.
Ubolyam,S.
Mahanontharit,A.
Suwanlerk,T.
Intasan,J.
Jupimai,T.
Intakan,P.
Hirunyanulux,T.
Sriheara,C.
Uanithirat,A.
Boonrak,P.
Rit-im,O.
Phadungphon,C.
Thongsee,W.
Chaiya,O.
Sattong,T.
Nantapisan,K.
Piromwong,A.
Kuljarusiri,N.
Aryukarn,S.
Sripanom,S.
Naknoi,N.
Muangtokit,S.
Kumkrung,S.
Chaemsai,P.
Sunthornkachit,R.
Moolasart,V.
Siripongpreeda,N.
Thongyen,S.
Chathaisong,P.
Prommool,V.
Suwannamass,D.
Waradejwinyoo,S.
Boonyarittipat,N.
Chiewcharn,T.
Likanonsakul,S.
Athichathana,C.
Eampokalap,B.
Sanchiem,W.
Lumbiganon,P.
Engchanil,C.
Tharnprisan,P.
Sopharak,C.
Lulitanond,V.
Khahmahpahte,S.
Kaewmart,R.
Chaimanee,P.
Sala,M.
Udompanit,T.
Wisai,R.
Rattanamanee,S.
Chantarasuk,Y.
Sarvok,S.
Changtrakun,Y.
Kunhasura,S.
Kamollert,S.
Eiamapichart,P.
Jadwattanakul,T.
Limpet-ngam,I.
Naraporn,D.
Mathajittiphun,P.
Sirimaskul,C.
Klaihong,W.
Sittisak,P.
Wongwian,T.
Charoenthammachoke,K.
Yodpo,P.
Ananthanavanich,M.
Sornchai,P.
Namwong,T.
Chutima,D.
Tangmankhongworakun,S.
Yingyong,P.
Kasinrerk,J.
Raksasang,M.
Kongdong,P.
Khampangkome,S.
Thong-Ngao,S.
Paengta,S.
Junsom,K.
Khuankaew,R.
Moolsombat,P.
Khuttiwung,D.
Chanrin,C.
Jariyapongpaiboon,Y.
Chanta,C.
Khonponoi,A.
Yodsuwan,C.
Srisuk,W.
Ussawawuthipong,P.
Thaweesombat,Y.
Tongsuk,P.
Kumluang,C.
Jinasen,R.
Maneerat,N.
Surapanichadul,K.
Donkaew,P.
Srisawat,N.
Chamjamrat,W.
Wattanayothin,S.
Prasertphan,P.
Wongcheeree,T.
Greetanukroh,P.
Imubumroong,C.
Teirsonsern,P.
Association between lymphocyte and monocyte subsets and cognition in children with HIV
description Background: This study assesses the relationships between lymphocyte and monocyte subsets and intelligence quotient (IQ) scores in antiretroviral therapy (ART)-naive, HIV-infected Thai children without advanced HIV disease.Findings: Sixty-seven ART-naive Thai children with CD4 between 15-24% underwent cognitive testing by Weschler intelligence scale and had 13 cell subsets performed by flow cytometry including naive, memory and activated subsets of CD4+ and CD8+ T cells, activated and perivascular monocytes and B cells. Regression modelling with log10 cell count and cell percentage transformation was performed.Median age (IQR) was 9 (7-10) years, 33% were male, CDC stages N:A:B were 1:67:31%, median CD4% and count (IQR) were 21 (18-24)%, 597 (424-801) cells/mm3 and HIV RNA (IQR) was 4.6 (4.1-4.9) log10 copies/ml. Most (82%) lived at home, 45% had a biological parent as their primary caregiver, and 26 (49%) had low family income. The mean (SD) scores were 75 (13) for full scale IQ (FIQ), 73 (12) for verbal IQ (VIQ) and 80 (14) for performance IQ (PIQ). Adjusted multivariate regression analysis showed significant negative associations between B cell counts and FIQ, VIQ and PIQ (p < 0.01 for all); similar associations were found for B cell percentages (p < 0.05 for all).Conclusions: High B cell counts and percentages were strongly associated with poorer FIQ, VIQ and PIQ scores. Prospective, long-term assessment of cell subsets and determination of relevant B cell subpopulations could help further elucidate associations between lymphocyte subsets and neurocognitive development. © 2014 Ananworanich et al.; licensee BioMed Central Ltd.
format Article
author Ananworanich,J.
Bunupuradah,T.
Apornpong,T.
Kosalaraksa,P.
Hansudewechakul,R.
Kanjanavanit,S.
Ngampiyaskul,C.
Wongsawat,J.
Luesomboon,W.
Ngo-Giang-Huong,N.
Jaimulwong,T.
Kerr,S.J.
Brouwers,P.Y.
Shearer,W.T.
Puthanakit,T.
Phanuphak,P.P.
Ruxrungtham,K.
Vun,M.C.
Saphonn,V.
Kaldor,J.
Cooper,D.A.
Chokephaibulkit,K.
Sirisanthana,V.
Suntarattiwong,P.
Cotton,M.F.
Giaquinto,C.
Lolekha,R.
Fox,L.M.
Ojumu,A.
Bupp,J.E.
Weatherall,N.
Ussery,M.A.
Mofenson,L.M.
Petrakova,E.
Valcour,V.G.
Paul,R.H.
Pattanapanyasat,K.
Sakulploy,N.
McNicholl,J.M.
Gelman,R.S.
Rattanadilok,K.
Klangsinsirikul,P.
Ruxrungtham,K.
Thanee,C.
Klinklom,A.
Pancharoen,C.
Van Der Lugt,J.
Chuenyam,T.
Ubolyam,S.
Mahanontharit,A.
Suwanlerk,T.
Intasan,J.
Jupimai,T.
Intakan,P.
Hirunyanulux,T.
Sriheara,C.
Uanithirat,A.
Boonrak,P.
Rit-im,O.
Phadungphon,C.
Thongsee,W.
Chaiya,O.
Sattong,T.
Nantapisan,K.
Piromwong,A.
Kuljarusiri,N.
Aryukarn,S.
Sripanom,S.
Naknoi,N.
Muangtokit,S.
Kumkrung,S.
Chaemsai,P.
Sunthornkachit,R.
Moolasart,V.
Siripongpreeda,N.
Thongyen,S.
Chathaisong,P.
Prommool,V.
Suwannamass,D.
Waradejwinyoo,S.
Boonyarittipat,N.
Chiewcharn,T.
Likanonsakul,S.
Athichathana,C.
Eampokalap,B.
Sanchiem,W.
Lumbiganon,P.
Engchanil,C.
Tharnprisan,P.
Sopharak,C.
Lulitanond,V.
Khahmahpahte,S.
Kaewmart,R.
Chaimanee,P.
Sala,M.
Udompanit,T.
Wisai,R.
Rattanamanee,S.
Chantarasuk,Y.
Sarvok,S.
Changtrakun,Y.
Kunhasura,S.
Kamollert,S.
Eiamapichart,P.
Jadwattanakul,T.
Limpet-ngam,I.
Naraporn,D.
Mathajittiphun,P.
Sirimaskul,C.
Klaihong,W.
Sittisak,P.
Wongwian,T.
Charoenthammachoke,K.
Yodpo,P.
Ananthanavanich,M.
Sornchai,P.
Namwong,T.
Chutima,D.
Tangmankhongworakun,S.
Yingyong,P.
Kasinrerk,J.
Raksasang,M.
Kongdong,P.
Khampangkome,S.
Thong-Ngao,S.
Paengta,S.
Junsom,K.
Khuankaew,R.
Moolsombat,P.
Khuttiwung,D.
Chanrin,C.
Jariyapongpaiboon,Y.
Chanta,C.
Khonponoi,A.
Yodsuwan,C.
Srisuk,W.
Ussawawuthipong,P.
Thaweesombat,Y.
Tongsuk,P.
Kumluang,C.
Jinasen,R.
Maneerat,N.
Surapanichadul,K.
Donkaew,P.
Srisawat,N.
Chamjamrat,W.
Wattanayothin,S.
Prasertphan,P.
Wongcheeree,T.
Greetanukroh,P.
Imubumroong,C.
Teirsonsern,P.
author_facet Ananworanich,J.
Bunupuradah,T.
Apornpong,T.
Kosalaraksa,P.
Hansudewechakul,R.
Kanjanavanit,S.
Ngampiyaskul,C.
Wongsawat,J.
Luesomboon,W.
Ngo-Giang-Huong,N.
Jaimulwong,T.
Kerr,S.J.
Brouwers,P.Y.
Shearer,W.T.
Puthanakit,T.
Phanuphak,P.P.
Ruxrungtham,K.
Vun,M.C.
Saphonn,V.
Kaldor,J.
Cooper,D.A.
Chokephaibulkit,K.
Sirisanthana,V.
Suntarattiwong,P.
Cotton,M.F.
Giaquinto,C.
Lolekha,R.
Fox,L.M.
Ojumu,A.
Bupp,J.E.
Weatherall,N.
Ussery,M.A.
Mofenson,L.M.
Petrakova,E.
Valcour,V.G.
Paul,R.H.
Pattanapanyasat,K.
Sakulploy,N.
McNicholl,J.M.
Gelman,R.S.
Rattanadilok,K.
Klangsinsirikul,P.
Ruxrungtham,K.
Thanee,C.
Klinklom,A.
Pancharoen,C.
Van Der Lugt,J.
Chuenyam,T.
Ubolyam,S.
Mahanontharit,A.
Suwanlerk,T.
Intasan,J.
Jupimai,T.
Intakan,P.
Hirunyanulux,T.
Sriheara,C.
Uanithirat,A.
Boonrak,P.
Rit-im,O.
Phadungphon,C.
Thongsee,W.
Chaiya,O.
Sattong,T.
Nantapisan,K.
Piromwong,A.
Kuljarusiri,N.
Aryukarn,S.
Sripanom,S.
Naknoi,N.
Muangtokit,S.
Kumkrung,S.
Chaemsai,P.
Sunthornkachit,R.
Moolasart,V.
Siripongpreeda,N.
Thongyen,S.
Chathaisong,P.
Prommool,V.
Suwannamass,D.
Waradejwinyoo,S.
Boonyarittipat,N.
Chiewcharn,T.
Likanonsakul,S.
Athichathana,C.
Eampokalap,B.
Sanchiem,W.
Lumbiganon,P.
Engchanil,C.
Tharnprisan,P.
Sopharak,C.
Lulitanond,V.
Khahmahpahte,S.
Kaewmart,R.
Chaimanee,P.
Sala,M.
Udompanit,T.
Wisai,R.
Rattanamanee,S.
Chantarasuk,Y.
Sarvok,S.
Changtrakun,Y.
Kunhasura,S.
Kamollert,S.
Eiamapichart,P.
Jadwattanakul,T.
Limpet-ngam,I.
Naraporn,D.
Mathajittiphun,P.
Sirimaskul,C.
Klaihong,W.
Sittisak,P.
Wongwian,T.
Charoenthammachoke,K.
Yodpo,P.
Ananthanavanich,M.
Sornchai,P.
Namwong,T.
Chutima,D.
Tangmankhongworakun,S.
Yingyong,P.
Kasinrerk,J.
Raksasang,M.
Kongdong,P.
Khampangkome,S.
Thong-Ngao,S.
Paengta,S.
Junsom,K.
Khuankaew,R.
Moolsombat,P.
Khuttiwung,D.
Chanrin,C.
Jariyapongpaiboon,Y.
Chanta,C.
Khonponoi,A.
Yodsuwan,C.
Srisuk,W.
Ussawawuthipong,P.
Thaweesombat,Y.
Tongsuk,P.
Kumluang,C.
Jinasen,R.
Maneerat,N.
Surapanichadul,K.
Donkaew,P.
Srisawat,N.
Chamjamrat,W.
Wattanayothin,S.
Prasertphan,P.
Wongcheeree,T.
Greetanukroh,P.
Imubumroong,C.
Teirsonsern,P.
author_sort Ananworanich,J.
title Association between lymphocyte and monocyte subsets and cognition in children with HIV
title_short Association between lymphocyte and monocyte subsets and cognition in children with HIV
title_full Association between lymphocyte and monocyte subsets and cognition in children with HIV
title_fullStr Association between lymphocyte and monocyte subsets and cognition in children with HIV
title_full_unstemmed Association between lymphocyte and monocyte subsets and cognition in children with HIV
title_sort association between lymphocyte and monocyte subsets and cognition in children with hiv
publisher BioMed Central
publishDate 2015
url http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84892633634&origin=inward
http://cmuir.cmu.ac.th/handle/6653943832/38116
_version_ 1681421414832275456
spelling th-cmuir.6653943832-381162015-06-16T07:38:26Z Association between lymphocyte and monocyte subsets and cognition in children with HIV Ananworanich,J. Bunupuradah,T. Apornpong,T. Kosalaraksa,P. Hansudewechakul,R. Kanjanavanit,S. Ngampiyaskul,C. Wongsawat,J. Luesomboon,W. Ngo-Giang-Huong,N. Jaimulwong,T. Kerr,S.J. Brouwers,P.Y. Shearer,W.T. Puthanakit,T. Phanuphak,P.P. Ruxrungtham,K. Vun,M.C. Saphonn,V. Kaldor,J. Cooper,D.A. Chokephaibulkit,K. Sirisanthana,V. Suntarattiwong,P. Cotton,M.F. Giaquinto,C. Lolekha,R. Fox,L.M. Ojumu,A. Bupp,J.E. Weatherall,N. Ussery,M.A. Mofenson,L.M. Petrakova,E. Valcour,V.G. Paul,R.H. Pattanapanyasat,K. Sakulploy,N. McNicholl,J.M. Gelman,R.S. Rattanadilok,K. Klangsinsirikul,P. Ruxrungtham,K. Thanee,C. Klinklom,A. Pancharoen,C. Van Der Lugt,J. Chuenyam,T. Ubolyam,S. Mahanontharit,A. Suwanlerk,T. Intasan,J. Jupimai,T. Intakan,P. Hirunyanulux,T. Sriheara,C. Uanithirat,A. Boonrak,P. Rit-im,O. Phadungphon,C. Thongsee,W. Chaiya,O. Sattong,T. Nantapisan,K. Piromwong,A. Kuljarusiri,N. Aryukarn,S. Sripanom,S. Naknoi,N. Muangtokit,S. Kumkrung,S. Chaemsai,P. Sunthornkachit,R. Moolasart,V. Siripongpreeda,N. Thongyen,S. Chathaisong,P. Prommool,V. Suwannamass,D. Waradejwinyoo,S. Boonyarittipat,N. Chiewcharn,T. Likanonsakul,S. Athichathana,C. Eampokalap,B. Sanchiem,W. Lumbiganon,P. Engchanil,C. Tharnprisan,P. Sopharak,C. Lulitanond,V. Khahmahpahte,S. Kaewmart,R. Chaimanee,P. Sala,M. Udompanit,T. Wisai,R. Rattanamanee,S. Chantarasuk,Y. Sarvok,S. Changtrakun,Y. Kunhasura,S. Kamollert,S. Eiamapichart,P. Jadwattanakul,T. Limpet-ngam,I. Naraporn,D. Mathajittiphun,P. Sirimaskul,C. Klaihong,W. Sittisak,P. Wongwian,T. Charoenthammachoke,K. Yodpo,P. Ananthanavanich,M. Sornchai,P. Namwong,T. Chutima,D. Tangmankhongworakun,S. Yingyong,P. Kasinrerk,J. Raksasang,M. Kongdong,P. Khampangkome,S. Thong-Ngao,S. Paengta,S. Junsom,K. Khuankaew,R. Moolsombat,P. Khuttiwung,D. Chanrin,C. Jariyapongpaiboon,Y. Chanta,C. Khonponoi,A. Yodsuwan,C. Srisuk,W. Ussawawuthipong,P. Thaweesombat,Y. Tongsuk,P. Kumluang,C. Jinasen,R. Maneerat,N. Surapanichadul,K. Donkaew,P. Srisawat,N. Chamjamrat,W. Wattanayothin,S. Prasertphan,P. Wongcheeree,T. Greetanukroh,P. Imubumroong,C. Teirsonsern,P. Molecular Medicine Pharmacology (medical) Virology Background: This study assesses the relationships between lymphocyte and monocyte subsets and intelligence quotient (IQ) scores in antiretroviral therapy (ART)-naive, HIV-infected Thai children without advanced HIV disease.Findings: Sixty-seven ART-naive Thai children with CD4 between 15-24% underwent cognitive testing by Weschler intelligence scale and had 13 cell subsets performed by flow cytometry including naive, memory and activated subsets of CD4+ and CD8+ T cells, activated and perivascular monocytes and B cells. Regression modelling with log10 cell count and cell percentage transformation was performed.Median age (IQR) was 9 (7-10) years, 33% were male, CDC stages N:A:B were 1:67:31%, median CD4% and count (IQR) were 21 (18-24)%, 597 (424-801) cells/mm3 and HIV RNA (IQR) was 4.6 (4.1-4.9) log10 copies/ml. Most (82%) lived at home, 45% had a biological parent as their primary caregiver, and 26 (49%) had low family income. The mean (SD) scores were 75 (13) for full scale IQ (FIQ), 73 (12) for verbal IQ (VIQ) and 80 (14) for performance IQ (PIQ). Adjusted multivariate regression analysis showed significant negative associations between B cell counts and FIQ, VIQ and PIQ (p < 0.01 for all); similar associations were found for B cell percentages (p < 0.05 for all).Conclusions: High B cell counts and percentages were strongly associated with poorer FIQ, VIQ and PIQ scores. Prospective, long-term assessment of cell subsets and determination of relevant B cell subpopulations could help further elucidate associations between lymphocyte subsets and neurocognitive development. © 2014 Ananworanich et al.; licensee BioMed Central Ltd. 2015-06-16T07:38:26Z 2015-06-16T07:38:26Z 2014-01-22 Article 17426405 2-s2.0-84892633634 10.1186/1742-6405-11-7 http://www.scopus.com/inward/record.url?partnerID=HzOxMe3b&scp=84892633634&origin=inward http://cmuir.cmu.ac.th/handle/6653943832/38116 BioMed Central

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