Sybil A. Tasker

Comparisons of causes of death and mortality rates among HIV-infected persons : Analysis of the pre-, early, and late HAART (Highly active antiretroviral therapy) eras

Methods:Comparisons of death-related variables during the 3 eras were performed. Results:The number of deaths declined over the study period, with 987 deaths in the pre-HAART era, 159 deaths in the early HAART era (1997-1999), and 78 deaths in the late HAART era (2000-2003) (P < 0.01). The annual death rate peaked in 1995 (10.3 per 100 patients) and then declined to <2 deaths per 100 persons in the late HAART era (P < 0.01). The proportion of deaths attributable to infection decreased, but infection remained the leading cause of death in our cohort, followed by cancer. Of those who died, there was an increasing proportion of non-HIV-related deaths (32% vs. 9%; P < 0.01), including cardiac disease (22% vs. 8%; P < 0.01) and trauma (8% vs. 2%; P = 0.01) in the post-HAART versus pre-HAART era. Despite the absence of intravenous drug use and the low prevalence of hepatitis C coinfection in our cohort, an increasing proportion of deaths in the HAART era were attributable to liver disease, although the numbers are small. Conclusions:Despite increasing concerns regarding antiretroviral resistance, the death rate among HIV-infected persons in our cohort continues to decline. Our data show a lower death rate than that reported among many other US HIV-infected populations; this may be the result of open access to health care. A shift in the causes of death toward non-HIV-related causes suggests that a more comprehensive health care approach may be needed for optimal life expectancy; this may include enhanced screening for malignancy and heart disease as well as preventive measures for liver disease and accidents.

Trauma-related Infections in Battlefield Casualties From Iraq

Objective:To describe risks for, and microbiology and antimicrobial resistance patterns of, war trauma associated infections from Operation Iraqi Freedom. Background:The invasion of Iraq resulted in casualties from high-velocity gunshot, shrapnel, and blunt trauma injuries as well as burns. Infectious complications of these unique war trauma injuries have not been described since the 1970s. Methods:Retrospective record review of all trauma casualties 5 to 65 years of age evacuated from the Iraqi theatre to U.S. Navy hospital ship, USNS Comfort March to May 2003.War trauma-associated infection was defined by positive culture from a wound or sterile body fluid (ie, blood, cerebrospinal fluid) and at least two of the following infection-associated signs/symptoms: fever, dehiscence, foul smell, peri-wound erythema, hypotension, and leukocytosis. A comparison of mechanisms of injury, demographics, and clinical variables was done using multivariate analysis. Results:Of 211 patients, 56 met criteria for infection. Infections were more common in blast injuries, soft tissue injuries, >3 wound sites, loss of limb, abdominal trauma, and higher Injury Severity Score (ISS). Wound infections accounted for 84% of cases, followed by bloodstream infections (38%). Infected were more likely to have had fever prior to arrival, and had higher probability of ICU admission and more surgical procedures. Acinetobacter species (36%) were the predominant organisms followed by Escherichia coli and Pseudomonas species (14% each). Conclusions:Similar to the Vietnam War experience, gram-negative rods, particularly Acinetobacter species, accounted for the majority of wound infections cared for on USNS Comfort during Operation Iraqi Freedom. Multidrug resistance was common, with the exception of the carbapenem class, limiting antibiotic therapy options.

Prevalence of genotypic and phenotypic resistance to anti-retroviral drugs in a cohort of therapy-naïve HIV-1 infected US military personnel.

ObjectiveWhile transmission of drug-resistant HIV-1 has been reported, estimates of prevalence of resistance in drug-naïve populations are incomplete. We investigated the prevalence of genotypic mutations and phenotypic antiretroviral resistance in a cohort of HIV-1 infected U.S. military personnel prior to the institution of antiretroviral therapy. DesignCross-sectional cohort study. MethodsPlasma was obtained from 114 recently HIV-1 infected subjects enrolled in an epidemiological study. Genotypic resistance was determined by consensus sequencing of a PCR product from the HIV-1 pol gene. Sequences were interpreted by a phenotypic–genotypic correlative database. Resistance phenotypes were determined by a recombinant virus cell culture assay. ResultsGenotypic mutations and phenotypic resistance were found at a higher than expected frequency. Resistance to non-nucleoside reverse transcriptase inhibitors was most common, with a prevalence of 15% of 95 subjects by genotype and 26% of 91 subjects by phenotype. Genotypic and phenotypic resistance respectively were found in 4% and 8% of subjects for nucleoside reverse transcriptase inhibitors and in 10% and 1% for protease inhibitors. One subject harbored virus with resistance to all three drug classes. ConclusionsA substantial frequency of resistance to antiretroviral drugs was identified in a therapy-naïve U.S. cohort. In most cases, the genotypic and phenotypic assays yielded similar results, although the genotypic assay could detect some protease inhibitor resistance-associated mutations in the absence of phenotypic resistance. These data suggest the need for optimization of treatment guidelines based on current estimates of the prevalence of drug resistance in HIV-1 seroconverters.

Drug Resistance Patterns, Genetic Subtypes, Clinical Features, and Risk Factors in Military Personnel with HIV-1 Seroconversion

Genetic variability is a central feature of HIV-1. The high frequency of mutations during HIV-1 replication leads to the development of viral quasi-species in vivo and contributes to genetic heterogeneity among HIV-1 isolates (1, 2). There is a growing appreciation that HIV-1 genetic diversity, including the existence of distinct genetic subtypes and the evolution of drug-resistant genotypes, can greatly affect the diagnosis and treatment of HIV-1 infection (1, 2). On the basis of DNA sequence analysis, HIV-1 has been classified into genetic subtypes, with subtypes A through I making up the major HIV-1 group (group M). The more genetically diverse groups, O and N, have also recently been described (1). For reasons that are not clear, HIV-1 subtypes are variably dispersed throughout the world. Some regions, such as central Africa and eastern Europe, have multiple circulating subtypes, whereas the distribution in other regions is more restricted (1, 3). Differences among HIV-1 subtypes can affect the sensitivity of some diagnostic assays of antibody (4) and plasma HIV-1 RNA (5, 6). Although non-subtype B infection has been reported in the United States, the prevalence in the U.S. population is unknown (7, 8). Widespread use of antiretroviral drugs has led to transmission of drug-resistant HIV-1, but the prevalence of resistant mutations in treatment-naive persons has not been thoroughly studied. Because all U.S. Navy and U.S. Marine Corps personnel are screened for HIV-1 infection at 1- to 3-year intervals, HIV-1 infection is often detected early and the seroconversion period can be estimated (9). This permits an investigation of the epidemiologic correlates and risk behaviors associated with the acquisition of non-subtype B and drug-resistant infections. Thus, we determined the prevalence of non-subtype B infection and genotypes associated with antiretroviral drug resistance in a well-characterized cohort of military personnel with recently acquired HIV-1 infection. Methods Study Design United States Navy or Marine Corps personnel with HIV-1 seroconversion who are assigned to military bases west of the Mississippi River in the United States or in the Pacific region overseas are referred to the Navy Medical Center San Diego for initial and follow-up HIV-1 evaluations. Between February 1997 and February 1998, 99 of 141 personnel referred were eligible on the basis of documented seroconversion within the past 3 years. Ninety-five of 99 patients enrolled and signed a consent form approved by the institutional review board of the Navy Medical Center San Diego. Thirty-two patients were being referred for their first HIV evaluation, and 63 were enrolled during a follow-up visit. Blood was obtained to determine genetic subtype and the presence of antiretroviral drug resistance. All patients completed a self-administered risk factor questionnaire labeled with a unique code number. Surveys were sealed in an envelope and placed in a locked drop box that was emptied weekly by off-site data entry personnel. Clinical research staff extracted clinical and laboratory information from the medical record and sent this information, identified by code number, to the data entry site. Laboratory Analysis Seroconversion was documented by a previous negative result on whole-virus HIV-1 enzyme immunoassay followed by a positive result on enzyme immunoassay and a confirmatory positive result on Western blot assay. Lymphocyte subset analysis was performed by flow cytometry, and plasma HIV-1 RNA (available after July 1996) was measured by quantitative reverse transcription polymerase chain reaction assay (Amplicor HIV-1 Monitor assay, Roche Molecular Systems, Branchburg, New Jersey). Genetic subtyping of HIV-1 was performed by using a two-step algorithm. Sera were screened by using a competitive binding enzyme immunoassay with peptides derived from the third variable loop of the HIV-1 envelope glycoprotein. For samples that were serologically reactive to non-subtype B peptides, DNA was extracted from corresponding peripheral blood mononuclear cells, and sequence analysis was performed over a 640-base pair segment of the HIV-1 envelope gene (10). Testing for viral drug resistance was successfully performed in 31 of the 32 therapy-naive patients. Plasma-derived viral RNA was reverse transcribed into complementary DNA, amplified by polymerase chain reaction, and directly sequenced by using an automated ABI Sequencer (Applied Biosystems, Foster City, California). Consensus DNA sequences for the protease and reverse transcriptase genes from each participant were examined for mutations associated with HIV-1 antiretroviral resistance (11). Statistical Analysis Descriptive analysis of demographics, risk behaviors, and laboratory results were performed. Duration of HIV infection was calculated starting from the time of onset, which we estimated as the midpoint between the last negative and first positive result on HIV enzyme immunoassay. Bivariate analyses using odds ratios and 95% CIs determined by the Fisher exact method were done to compare the treatment-naive patients with drug-resistant infection and those with drug-sensitive infection. Statistical analyses were done by using Epi-Info, version 6.02 (Centers for Disease Control and Prevention, Atlanta, Georgia). Results Patients Characteristics and risk exposures of the cohort are summarized in Table 1. Duration of infection and laboratory results are presented for the entire cohort on initial evaluation and for the treatment-naive cohort at the time of enrollment and antiretroviral testing. Risk behaviors known to be associated with acquisition of HIV-1 were reported during the period of seroconversion in all but two patients. Table 1. Characteristics and Risk Exposures of Military Personnel with HIV-1 Seroconversion Laboratory Analysis The CD4 cell counts, plasma HIV RNA levels, and results of syphilis and hepatitis serologic testing in study patients are summarized in Table 1. Combined serologic and genetic analysis revealed that 7 of 95 patients were infected with HIV-1 genetic subtype E (7.4%); the remaining patients were infected with subtype B. Eight of 31 treatment-naive patients (26% [95% CI, 12% to 46%]) had one or more primary mutations that have been associated with phenotypic drug resistance (11) (Table 2). All reverse transcriptase mutations were associated with resistance to zidovudine, lamivudine, or nevirapine-delavirdine. Of the 4 patients with reverse transcriptase mutations, 2 (patients 1 and 2) had mutations that could confer resistance to both nucleoside and non-nucleoside reverse transcriptase inhibitors. Table 2. Drug-Resistant Mutations in Eight Treatment-Naive Patients Characteristics of Patients with Subtype E Infection and Drug-Resistant Mutations Infection with HIV-1 subtype E was documented in 6 men and 1 woman; all 6 men reported sexual contact during short deployments in Thailand. The female patient reported having sex with a man on active duty in the United States. Compared with subtype B-infected patients, subtype E-infected patients were more likely to be heterosexual (100% and 38%), to have had overseas exposure (86% and 27%), and to report sex with commercial sex workers (86% and 15%). Comparisons between patients with wild-type (n=23) and treatment-resistant (n=8) genotypes are listed in Table 1. Discussion We found a high prevalence of non-B genetic subtypes and antiretroviral drug-resistant mutations among treatment-naive military personnel with recently acquired HIV-1 infection. Seven of 95 patients (7.4%) were infected with HIV-1 subtype E. Eight of 31 treatment-naive patients (26%) had primary drug-resistant mutations; of these 8 patients, 3 had mutations in the reverse transcriptase gene only, 4 had mutations in the protease gene only, and 1 had mutations in both the reverse transcriptase and protease genes. Although our study is limited to a single clinical referral center and the sample is small, the results are generally similar to those of other studies that focused on selected drug-resistant mutations. Among several recent studies, 6% to 13% of treatment-naive patients had mutations for zidovudine resistance (12-14). Although data on the prevalence of mutations in the protease gene have not yet been published, transmission of HIV-1 that is resistant to multiple reverse transcriptase and protease inhibitors has been reported (15). Our data suggest that patients infected with drug-resistant virus were more likely to have acquired HIV in the United States and to report sexual contact with a person who is known to be infected with HIV; they were also less likely to be heterosexual. Prospective studies of the treatment responses of drug-naive patients with resistant genotypes have not been performed, but some data suggest that baseline nucleoside analogue mutations can diminish the potency and duration of viral suppression by commonly used nucleoside analogue combinations (16). In addition, several reports suggest an inherent decrease in susceptibility to reverse transcriptase or protease inhibitors in some HIV-1 genetic subtypes (17). Thus, both the transmission of acquired mutations and the genetic subtype of HIV-1 may have important implications for treatment of HIV-1 disease. Although we (7) and others (8) have previously described the introduction of non-subtype B infections into the United States, the current study is the first use of a large cohort of recently infected persons to describe the prevalence and associated risk factors for non-subtype B infection. Six of the seven patients infected with HIV-1 subtype E reported sexual contact during short deployments to Thailand; in contrast, most cases of subtype B infection were acquired in the United States. The acquisition of sexually transmitted diseases and HIV during overseas travel is not unique to the military; 5% to 20% of travelers report having sex with a new partner while abroad (18).

Effects of influenza vaccination in HIV-infected adults: a double-blind, placebo-controlled trial.

Annual influenza vaccine is recommended for persons with HIV infection. Recent reports indicate that immunizations may increase HIV replication in infected individuals. Forty-seven HIV-infected patients were randomized to influenza vaccine or saline placebo using a double blind study design. One month after vaccination, plasma HIV-1 RNA increased in the vaccinated but not placebo group (p = 0.029). At 3 months, CD4% dropped an average of 1.6 points in the vaccinated group compared to an increase of 0.1 points in the placebo group (p = 0.039). Patients on stable antiretroviral regimens had CD4% drop an average of 2.3 points in the vaccinated group at 3 months versus 0.1 points in the placebo group (p = 0.015). It is concluded that HIV-infected patients are at risk for increased HIV replication and decreases in CD4% following influenza vaccination. Since influenza has not been associated with significant morbidity in this population, further study of routine influenza vaccination for HIV-infected patients is warranted.

Safety and Immunogenicity of an Inactivated Hepatitis A Vaccine among HIV-Infected Subjects

BACKGROUND Hepatitis A is a major health risk for many human immunodeficiency virus (HIV)-infected individuals. Vaccination is a potentially attractive measure to reduce the incidence of hepatitis A among this population, but data on its safety and immunogenicity are incomplete. METHODS Ninety HIV-uninfected adults received an inactivated hepatitis A vaccine (VAQTA; Merck), and 90 HIV-infected subjects were randomized, in double-blind fashion, to receive either the vaccine or placebo. The HIV-infected subjects were stratified by CD4 cell count, with 45 subjects having CD4 cell counts of > or =300 cells/mm3 and 45 subjects having CD4 cell counts of <300 cells/mm3. Vaccine was given at weeks 0 and 24 of the study.Results. Seroconversion rates at week 28 of the study were 94% among the HIV-infected subjects and 100% among the HIV-uninfected control subjects. HIV-infected subjects with CD4 cell counts of <300 cells/mm3 had a seroconversion rate of 87%, and HIV-infected subjects with CD4 cell counts of > or =300 cells/mm3 had a seroconversion rate of 100%. The vaccine was generally well tolerated, and no adverse effect on either HIV load or CD4 cell count was found. CONCLUSION Hepatitis A vaccine was both immunogenic and safe among HIV-infected subjects.

Long-Term Efficacy of Routine Access to Antiretroviral-Resistance Testing in HIV Type 1–Infected Patients: Results of the Clinical Efficacy of Resistance Testing Trial

The long-term efficacy of making resistance testing routinely available to clinicians has not been established. We conducted a clinical trial at 6 US military hospitals in which volunteers infected with human immunodeficiency virus type-1 were randomized to have routine access to phenotype resistance testing (PT arm), access to genotype resistance testing (GT arm), or no access to either test (VB arm). The primary outcome measure was time to persistent treatment failure despite change(s) in antiretroviral therapy (ART) regimen. Overall, routine access to resistance testing did not significantly increase the time to end point. Time to end point was significantly prolonged in the PT arm for subjects with a history of treatment with > or =4 different ART regimens or a history of treatment with nonnucleoside reverse-transcriptase inhibitors before the study, compared with that in the VB arm. These results suggest that routine access to resistance testing can improve long-term virologic outcomes in HIV-infected patients who are treatment experienced but may not impact outcome in patients who are naive to or have had limited experience with ART.

Reimmunization with 23-Valent Pneumococcal Vaccine for Patients Infected with Human Immunodeficiency Virus Type 1: Clinical, Immunologic, and Virologic Responses

We determined the immunogenicity and safety of reimmunization with the 23-valent polysaccharide pneumococcal vaccine in patients infected with human immunodeficiency virus type 1 (HIV-1). Patients immunized >5 years earlier (initially within 1 year of HIV-1 seroconversion) were randomized to receive vaccine (n=57) or placebo (n=30). Persons with recent HIV-1 seroconversion (n=14) were immunized for the first time. Preimmunization levels of capsule-specific immunoglobulin G were similar in all groups. Reimmunized patients showed a significantly lower frequency and magnitude of antibody responses compared with persons with recent HIV-1 seroconversion. Reimmunized patients did not show adverse virologic or immunologic changes, but some reported local discomfort (15%) or fever (8%). Thus, the limited responses after reimmunization of HIV-1-infected patients with the current 23-valent vaccine mandates the need for a more effective reimmunization schedule, more immunogenic vaccines, or other behavioral and therapeutic interventions.

Meningococcal Pneumonia: Characterization and Review of Cases Seen Over the Past 25 Years

Fifty-eight cases of meningococcal pneumonia were included in this review. Fifty cases previously described in the literature from 1974 through 1998 and 8 new cases were included in this series. The median age of patients was 57.5 years, and pleuritic chest pain was described in 21 (53.9%) of 39 cases. Blood cultures were positive in 42 (79.3%) of 53 cases for which results were mentioned. Despite the presence of bacteremia, patients did not develop the syndrome of meningococcemia with its associated complications. Serogroup Y meningococci were most commonly recovered and accounted for 44.2% of identified isolates. Therapy has dramatically changed over the past 25 years; prior to 1991, penicillin antibiotics were most often used. Since 1991, 12 (80%) of 15 patients received cephalosporin antibiotics. Only 5 (8.62%) of 58 patients died. Secondary cases of meningococcal infections following exposure to patients with meningococcal pneumonia were noted in 2 instances.

HIV Type 1 Strains from East and West Africa Are Intermixed in Sudan

The genetic subtypes of HIV-1 in the Sudan epidemic have not been characterized. Here we report the partial sequencing and analysis of 30 strains collected from HIV-1-positive patients and blood donors in Khartoum in 1998 and 1999. From analysis of partial pol and env sequences, it was determined that 50% were subtype D and 30% were subtype C. Of interest, some subtype D clustered with those from East Africa whereas others joined subtype D from West Africa. Subtype A, subtype B, and three unique recombinants were also found, some partially unclassifiable. One unclassified strain matched another reported previously from the Democratic Republic of Congo. Sudan borders nine other African countries, and has suffered more than 20 years of civil strife with large population displacements. The intermixing of HIV-1 subtypes previously separated in Africa may be occurring there, with the potential to generate novel new strains by recombination.