BACKGROUND: Body composition changes complicate antiretroviral therapy. Improvements in lipoatrophy after a switch in nucleoside reverse-transcriptase inhibitors (NRTIs) have been demonstrated. We investigated 60 patients switching from failed NRTIs to ritonavir-boosted indinavir and efavirenz. METHODS: Body composition (assessed by dual-energy x-ray absorptiometry scan and by single-slice computed tomography of the abdomen through the level of the fourth lumbar vertebra [L4] and the mid-right thigh) and fasted metabolics were measured at the baseline time-point at switch and at weeks 48 and 96 thereafter. Mitochondrial DNA and RNA were extracted from right-thigh subcutaneous fat and peripheral-blood mononuclear cells (PBMCs) at weeks 0 and 48. The primary end point was the change in mean limb fat over 48 weeks. RESULTS: At week 96, we observed increases in mean (standard deviation [SD]) limb fat (+620 [974] g; P=.003), L4 subcutaneous adipose tissue (+20 [35] cm(2); P<.001), mid-thigh subcutaneous adipose tissue (+5 [10] cm(2); P<.001), and L4 visceral adipose tissue (+11 [34] cm(2); P=.01), but we also observed reduced lean limb mass (-831 [1,100] g; P=.3). Mean (SD) mtDNA content in subcutaneous fat and in PBMCs increased (+109 [274] and +45 [100] copies/cell, respectively). Improved virological control or immune recovery did not explain the results. Triglyceride, total cholesterol, estimated low-density lipoprotein cholesterol, ratio of total cholesterol to high-density lipoprotein cholesterol, and blood glucose levels deteriorated (i.e., had increased by 206%, 67%, 58%, 19%, and 6%, respectively, at week 96). CONCLUSIONS: This regimen was associated with statistically significant but clinically modest increases in peripheral fat, visceral fat, and mitochondrial nucleic acid content. A predominantly adverse metabolic profile developed.
BACKGROUND: Body composition changes complicate antiretroviral therapy. Improvements in lipoatrophy after a switch in nucleoside reverse-transcriptase inhibitors (NRTIs) have been demonstrated. We investigated 60 patients switching from failed NRTIs to ritonavir-boosted indinavir and efavirenz. METHODS: Body composition (assessed by dual-energy x-ray absorptiometry scan and by single-slice computed tomography of the abdomen through the level of the fourth lumbar vertebra [L4] and the mid-right thigh) and fasted metabolics were measured at the baseline time-point at switch and at weeks 48 and 96 thereafter. Mitochondrial DNA and RNA were extracted from right-thigh subcutaneous fat and peripheral-blood mononuclear cells (PBMCs) at weeks 0 and 48. The primary end point was the change in mean limb fat over 48 weeks. RESULTS: At week 96, we observed increases in mean (standard deviation [SD]) limb fat (+620 [974] g; P=.003), L4 subcutaneous adipose tissue (+20 [35] cm(2); P<.001), mid-thigh subcutaneous adipose tissue (+5 [10] cm(2); P<.001), and L4 visceral adipose tissue (+11 [34] cm(2); P=.01), but we also observed reduced lean limb mass (-831 [1,100] g; P=.3). Mean (SD) mtDNA content in subcutaneous fat and in PBMCs increased (+109 [274] and +45 [100] copies/cell, respectively). Improved virological control or immune recovery did not explain the results. Triglyceride, total cholesterol, estimated low-density lipoprotein cholesterol, ratio of total cholesterol to high-density lipoprotein cholesterol, and blood glucose levels deteriorated (i.e., had increased by 206%, 67%, 58%, 19%, and 6%, respectively, at week 96). CONCLUSIONS: This regimen was associated with statistically significant but clinically modest increases in peripheral fat, visceral fat, and mitochondrial nucleic acid content. A predominantly adverse metabolic profile developed.
Authors: Marilyn J Crain; Miriam C Chernoff; James M Oleske; Susan B Brogly; Kathleen M Malee; Peggy R Borum; William A Meyer; Wendy G Mitchell; John H Moye; Heather M Ford-Chatterton; Russell B Van Dyke; George R Seage Iii Journal: J Infect Dis Date: 2010-07-15 Impact factor: 5.226
Authors: Kristine M Erlandson; Douglas Kitch; Camlin Tierney; Paul E Sax; Eric S Daar; Pablo Tebas; Kathleen Melbourne; Belinda Ha; Nasreen C Jahed; Grace A McComsey Journal: AIDS Date: 2013-08-24 Impact factor: 4.177
Authors: P Tebas; J Zhang; R Hafner; K Tashima; A Shevitz; K Yarasheski; B Berzins; S Owens; J Forand; S Evans; R Murphy Journal: J Antimicrob Chemother Date: 2009-03-19 Impact factor: 5.790
Authors: Allison Martin; Cecilia L Moore; Patrick W G Mallon; Jennifer F Hoy; Sean Emery; Waldo H Belloso; Praphan Phanuphak; Samuel Ferret; David A Cooper; Mark A Boyd Journal: PLoS One Date: 2013-10-30 Impact factor: 3.240