PrEP uptake and follow-up in three PrEP delivery programs in San Francisco.

<p>Data through September 2013.</p>a<p>Includes medical and behavioral eligibility and program eligibility based on health insurance coverage.</p

Core components of PrEP delivery programs in San Francisco.

<p>Ag/Ab, antigen/antibody; CrCl, creatinine clearance; FTC/TDF, emtricitabine/tenofovir; MSM, men who have sex with men; NAAT, nucleic-acid amplification test; PrEP, pre-exposure prophylaxis; STD, sexually transmitted disease.</p

Interrater agreement of anal cytology.

BackgroundThe majority of anal cancers are caused by persistent infections with carcinogenic human papillomaviruses (HPV). Similar to cervical carcinogenesis, the progression from HPV infection to anal cancer occurs through precancerous lesions that can be treated to prevent invasion. In analogy to cervical cytology, anal cytology has been proposed as a screening tool for anal cancer precursors in high-risk populations.MethodsThe authors analyzed the interobserver reproducibility of anal cytology in a population of 363 human immunodeficiency virus (HIV)-infected men who have sex with men (MSM). Liquid-based cytology (LBC) specimens were collected in the anal dysplasia clinic before the performance of high-resolution anoscopy on all patients. Papanicolaou-stained LBC slides were evaluated by 2 cytopathologists, each of whom was blinded to the clinical outcome and the other pathologist's results, using the revised Bethesda terminology.ResultsOverall agreement between the 2 observers was 66% (kappa, 0.54; linear-weighted kappa, 0.69). Using dichotomizing cytology results (atypical squamous cells of undetermined significance [ASC-US] or worse vs less than ASC-US), the agreement increased to 86% (kappa, 0.69). An increasing likelihood of testing positive for markers associated with HPV-related transformation, p16/Ki-67, and HPV oncogene messenger RNA was observed, with increasing severity of cytology results noted both for individual cytologists and for consensus cytology interpretation (P value for trend [p(trend)] &lt; .0001 for all).ConclusionsModerate to good agreement was observed between 2 cytopathologists evaluating anal cytology samples collected from HIV-positive MSM. A higher severity of anal cytology was associated with biomarkers of anal precancerous lesions. Anal cytology may be used for anal cancer screening in high-risk populations, and biomarkers of HPV-related transformation can serve as quality control for anal cytology

Interrater agreement of anal cytology.

BackgroundThe majority of anal cancers are caused by persistent infections with carcinogenic human papillomaviruses (HPV). Similar to cervical carcinogenesis, the progression from HPV infection to anal cancer occurs through precancerous lesions that can be treated to prevent invasion. In analogy to cervical cytology, anal cytology has been proposed as a screening tool for anal cancer precursors in high-risk populations.MethodsThe authors analyzed the interobserver reproducibility of anal cytology in a population of 363 human immunodeficiency virus (HIV)-infected men who have sex with men (MSM). Liquid-based cytology (LBC) specimens were collected in the anal dysplasia clinic before the performance of high-resolution anoscopy on all patients. Papanicolaou-stained LBC slides were evaluated by 2 cytopathologists, each of whom was blinded to the clinical outcome and the other pathologist's results, using the revised Bethesda terminology.ResultsOverall agreement between the 2 observers was 66% (kappa, 0.54; linear-weighted kappa, 0.69). Using dichotomizing cytology results (atypical squamous cells of undetermined significance [ASC-US] or worse vs less than ASC-US), the agreement increased to 86% (kappa, 0.69). An increasing likelihood of testing positive for markers associated with HPV-related transformation, p16/Ki-67, and HPV oncogene messenger RNA was observed, with increasing severity of cytology results noted both for individual cytologists and for consensus cytology interpretation (P value for trend [p(trend)] &lt; .0001 for all).ConclusionsModerate to good agreement was observed between 2 cytopathologists evaluating anal cytology samples collected from HIV-positive MSM. A higher severity of anal cytology was associated with biomarkers of anal precancerous lesions. Anal cytology may be used for anal cancer screening in high-risk populations, and biomarkers of HPV-related transformation can serve as quality control for anal cytology

Tolerance and Pharmacokinetic Interactions of Rifabutin and Clarithromycin in Human Immunodeficiency Virus-Infected Volunteers

This study evaluated the tolerance and potential pharmacokinetic interactions between clarithromycin (500 mg every 12 h) and rifabutin (300 mg daily) in clinically stable human immunodeficiency virus-infected volunteers with CD4 counts of <200 cells/mm(3). Thirty-four subjects were randomized equally to either regimen A or regimen B. On days 1 to 14, subjects assigned to regimen A received clarithromycin and subjects assigned to regimen B received rifabutin, and then both groups received both drugs on days 15 to 42. Of the 14 regimen A and the 15 regimen B subjects who started combination therapy, 1 subject in each group prematurely discontinued therapy due to toxicity, but 19 of 29 subjects reported nausea, vomiting, and/or diarrhea. Pharmacokinetic analysis included data for 11 regimen A and 14 regimen B subjects. Steady-state pharmacokinetic parameters for single-agent therapy (day 14) and combination therapy (day 42) were compared. Regimen A resulted in a mean decrease of 44% (P = 0.003) in the clarithromycin area under the plasma concentration-time curve (AUC), while there was a mean increase of 57% (P = 0.004) in the AUC of the clarithromycin metabolite 14-OH-clarithromycin. Regimen B resulted in a mean increase of 99% (P = 0.001) in the rifabutin AUC and a mean increase of 375% (P < 0.001) in the AUC of the rifabutin metabolite 25-O-desacetyl-rifabutin. The usefulness of this combination for prophylaxis of Mycobacterium avium infections is limited by frequent gastrointestinal adverse events. Coadministration of clarithromycin and rifabutin results in significant bidirectional pharmacokinetic interactions. The resulting increase in rifabutin levels may explain the increased frequency of uveitis observed with concomitant use of these drugs