Abstract:
The intersection and syndemic interaction between the human immunodeficiency virus (HIV)
and tuberculosis (TB) epidemics have global prevalence with devastatingmorbidity andmassive
mortality. Using FDG-PET imaging it was shown that in HIV-infected individuals, involvement of
the head and neck precedes that of the chest and of the abdomen. The sequence of lymph node
involvement observed suggests the existence of a diffusible activation mediator that may be
targeted via therapeutic intervention strategies. Furthermore, the degree of FDG uptake proved
directly related to viral load and inversely related to CD4 cell count. Available data in acquired
immune deficiency syndrome (AIDS)-defining cancers further suggest that FDG-PET/CT
imaging may be useful for prognostication of cervical cancer and for identifying appropriate
sites for biopsy, staging, and monitoring lymphoproliferative activity owing to HIV-associated
Kaposi sarcoma and multicentric Castleman disease. Inversely, in HIV-associated lymphoma,
FDG uptake in HIV-involved lymphoid tissue was shown to reduce the specificity of FDG-PET
imaging findings, the effect ofwhich in clinical practicewarrants further investigation. In the latter
setting, knowledge of viremia appears to be essential for FDG-PET image interpretation. Early
HIV-associated neurocognitive disorder, formerly known as AIDS dementia complex, proved to
be characterized by striatal hypermetabolism and progressive HIV-associated neurocognitive
disorder or AIDS dementia complex by a decrease in subcortical and cortical metabolism. In
lipodystrophicHIV-infected individuals, lipodystrophy proved associated with increased glucose
uptake by adipose tissue, likely resulting fromthemetabolic stress of adipose tissue in response
to highly active antiretroviral therapy. Furthermore, ongoing chronic low-grade infection in
arteries of HIV-infected individuals could be depicted by FDG-PET/CT imaging. And there is
promising data that FDG-PET/CT in HIVmay serve as a newmarker for the evaluation of thymic
function in HIV-infected patients. In the setting of TB, FDG-PET has proven unable to differentiate
malignancy from TB in patients presenting with solitary pulmonary nodules, including those
suffering from HIV, and thus cannot be used as a tool to reduce futile biopsy or thoracotomy in
these patients. In patients presenting with extrapulmonary TB, FDG-PET imagingwas found to be
significantly more efficient when compared with CT for the identification of more sites of
involvement. Thus supporting that FDG-PET/CT can demonstrate lesion extent, serve as guide
for biopsywith aspiration for culture, assist surgery planning and contribute to follow-up. Limited
available data suggest that quantitative FDG-PET findings may allow for prediction or rapid
assessment, at 4 months following treatment instigation, of response to antituberculostatics in
TB-infectedHIV patients. These results and more recent findings suggest a role for FDG-PET/CT
imaging in the evaluation of therapeutic response in TB patients.