BACKGROUND: Dried blood spots (DBS) improve access to HIV viral load (VL) testing, but yield increased VL measurements compared to the plasma reference method because of cell-associated viral nucleic acid. In clinical settings, DBS methods may falsely categorize many patients as failing therapy. OBJECTIVES: Description of a simple method, free virus elution (FVE), to preferentially elute plasma-associated virus from DBS samples with phosphate-buffered saline, and an initial HIV VL performance comparison with standard DBS elution methods. STUDY DESIGN: The mechanism of action of FVE was studied with model DBS samples containing purified virus or washed HIV-containing cells, and with a DNA-specific HIV PCR. Using clinical samples, VL results from the new FVE method were compared to results from a dried fluid spot procedure (DFSP) protocol, which uses a guanidinium-based elution method, using plasma VL as the reference method. RESULTS: Model system experiments suggest that the method efficiently separates virus from cell-associated HIV, with a wide tolerance for incubation time and temperature. In 196 clinical samples, FVE reduced VL over-quantification from DBS, and improved DBS clinical concordance with plasma from 67% to 95%. CONCLUSIONS: A simple elution in PBS significantly reduced the over-quantification of HIV VL in DBS. Additional studies are needed to validate the method in fingerstick-collected specimens and to further understand the compartmentalization of HIV DNA and RNA in DBS specimens.
BACKGROUND: Dried blood spots (DBS) improve access to HIV viral load (VL) testing, but yield increased VL measurements compared to the plasma reference method because of cell-associated viral nucleic acid. In clinical settings, DBS methods may falsely categorize many patients as failing therapy. OBJECTIVES: Description of a simple method, free virus elution (FVE), to preferentially elute plasma-associated virus from DBS samples with phosphate-buffered saline, and an initial HIV VL performance comparison with standard DBS elution methods. STUDY DESIGN: The mechanism of action of FVE was studied with model DBS samples containing purified virus or washed HIV-containing cells, and with a DNA-specific HIV PCR. Using clinical samples, VL results from the new FVE method were compared to results from a dried fluid spot procedure (DFSP) protocol, which uses a guanidinium-based elution method, using plasma VL as the reference method. RESULTS: Model system experiments suggest that the method efficiently separates virus from cell-associated HIV, with a wide tolerance for incubation time and temperature. In 196 clinical samples, FVE reduced VL over-quantification from DBS, and improved DBSclinical concordance with plasma from 67% to 95%. CONCLUSIONS: A simple elution in PBS significantly reduced the over-quantification of HIV VL in DBS. Additional studies are needed to validate the method in fingerstick-collected specimens and to further understand the compartmentalization of HIV DNA and RNA in DBS specimens.
Authors: Bharat S Parekh; Chin-Yih Ou; Peter N Fonjungo; Mireille B Kalou; Erin Rottinghaus; Adrian Puren; Heather Alexander; Mackenzie Hurlston Cox; John N Nkengasong Journal: Clin Microbiol Rev Date: 2018-11-28 Impact factor: 26.132
Authors: Fabien Taieb; Tran Hong Tram; Hien Thi Ho; Van Anh Pham; Lan Nguyen; Ban Hien Pham; Linh An Tong; Edouard Tuaillon; Eric Delaporte; Anh Tuan Nguyen; Duc Duong Bui; NhanThi Do; Yoann Madec Journal: Open Forum Infect Dis Date: 2016-07-07 Impact factor: 3.835
Authors: A Tariro Makadzange; F Kathryn Boyd; Benjamin Chimukangara; Collen Masimirembwa; David Katzenstein; Chiratidzo E Ndhlovu Journal: J Clin Microbiol Date: 2017-05-03 Impact factor: 5.948
Authors: Charles Kiyaga; Youyi Fong; Christopher Okiira; Grace Esther Kushemererwa; Ismail Kayongo; Iga Tadeo; Christine Namulindwa; Victor Bigira; Isaac Ssewanyana; Trevor Peter; Meg Doherty; Jilian A Sacks; Lara Vojnov Journal: PLoS One Date: 2022-06-30 Impact factor: 3.752
Authors: Lara Vojnov; Sergio Carmona; Clement Zeh; Jessica Markby; Debrah Boeras; Marta R Prescott; Anthony L H Mayne; Souleymane Sawadogo; Christiane Adje-Toure; Guoqing Zhang; Mercedes Perez Gonzalez; Wendy S Stevens; Meg Doherty; Chunfu Yang; Heather Alexander; Trevor F Peter; John Nkengasong Journal: PLoS Med Date: 2022-08-22 Impact factor: 11.613