Oscar Len

Tuberculosis after Solid-Organ Transplant: Incidence, Risk Factors, and Clinical Characteristics in the RESITRA (Spanish Network of Infection in Transplantation) Cohort

BACKGROUND It is necessary to clarify the incidence of and risk factors for tuberculosis (TB) among solid-organ transplant (SOT) recipients as well as changes in the chronology, clinical presentation, and prognosis of the disease. METHODS A total of 4388 SOT recipients were monitored prospectively at 16 transplant centers included in the Spanish Network for Research in Infectious Diseases (REIPI). TB episodes were studied, and the incidence rate was calculated. Certain variables were analyzed, by Cox regression analysis, as potential risk factors for TB. RESULTS Among the 4388 SOT recipients, 21 cases of TB were reported (0.48%). The median duration of follow-up was 360 days (range, 0-720 days). The global incidence of TB was 512 cases per 10(5) patients per year (95% confidence interval [CI], 317-783), which was higher than that in the general population in Spain (18.9 cases per 10(5) inhabitants per year; relative risk [RR], 26.6). The highest incidence (2072 cases per 10(5) patients per year; 95% CI, 565-5306) was observed among lung transplant recipients (RR, 73.3). Of the TB cases, 95% occurred within the first year after transplant, and 76% were pulmonary forms. Crude mortality was 19.0%, and attributable mortality was 9.5%. Multivariate analysis identified recipient age (RR, 1.05; 95% CI, 1.0-1.1) and receipt of a lung transplant (RR, 5.6; 95%, 1.9-16.9) as independent risk factors. CONCLUSIONS TB incidence is increased among SOT recipients. The risk factors identified were age and receipt of a lung transplant. TB-attributable mortality (9.5%) is still high.

Invasive Pneumococcal Disease in Patients Infected with HIV: Still a Threat in the Era of Highly Active Antiretroviral Therapy

We studied all human immunodeficiency virus (HIV)-infected patients with invasive pneumococcal disease who received their diagnosis during 1996-2002 to investigate the incidence of this disease in the highly active antiretroviral therapy era and to study the influence of CD4 lymphocyte count on the clinical presentation and outcome of disease. The overall incidence of invasive pneumococcal disease was 11.3 cases per 100,000 person-years in adult patients without known HIV infection and 677 cases per 100,000 person-years in HIV-infected patients. This incidence remained stable over the study period. Clinical presentation, severity of illness, and number of recurrent episodes were similar in patients with CD4+ cell counts of >200 or < or =200 cells/ microL. Patients receiving trimethoprim-sulfamethoxazole (TMP-SMZ) were more likely to present with TMP-SMZ-resistant pneumococci than were those who were not receiving this agent (76.7% vs. 43.6%; P=.007). The mortality rate was high (21%).

Current and Potential Usefulness of Pneumococcal Urinary Antigen Detection in Hospitalized Patients With Community-Acquired Pneumonia to Guide Antimicrobial Therapy

BACKGROUND The role of pneumococcal urinary antigen detection in the treatment of adults with community-acquired pneumonia (CAP) is not well defined. We assessed the usefulness of pneumococcal urinary antigen detection in the diagnosis and antimicrobial guidance in patients hospitalized with CAP. METHODS A prospective study of all adults hospitalized with CAP was performed from February 2007 through January 2008. To evaluate the accuracy of the test, we calculated its sensitivity, specificity, positive and negative predictive values, and positive and negative likelihood ratios. The gold standard used for diagnosis of pneumococcal pneumonia was isolation in blood or pleural fluid (definite diagnosis) and isolation in sputum (probable diagnosis). Antibiotic modifications, complications, and mortality were analyzed. RESULTS A total of 474 episodes of CAP were included. Streptococcus pneumoniae was the causative pathogen in 171 cases (36.1%). It was detected exclusively by urinary antigen test in 75 cases (43.8%). Sixty-nine patients had CAP caused by a pathogen other than S pneumoniae. Specificity was 96%, positive predictive value ranged from 88.8% to 96.5%, and the positive likelihood ratio ranged from 14.6 to 19.9. The results of the test led the clinicians to reduce the spectrum of antibiotics in 41 patients. Pneumonia was cured in all of them. Potentially, this optimization would be possible in the 75 patients diagnosed exclusively by the test. CONCLUSION When its findings are positive, the pneumococcal urinary antigen test is a useful tool in the treatment of hospitalized adult patients with CAP because it may allow the clinician to optimize antimicrobial therapy with good clinical outcomes.

GESITRA-SEIMC/REIPI recommendations for the management of cytomegalovirus infection in solid-organ transplant patients

Cytomegalovirus infection remains a major complication of solid organ transplantation. In 2005 the Spanish Transplantation Infection Study Group (GESITRA) of the Spanish Society of Infectious Diseases and Clinical Microbiology (SEIMC) developed consensus guidelines for the prevention and treatment of CMV infection in solid organ transplant recipients. Since then, numerous publications have clarified or questioned the aspects covered in the previous document. These aspects include the situations and populations who must receive prophylaxis and its duration, the selection of the best diagnosis and monitoring technique and the best therapeutic strategy. For these reasons, we have developed new consensus guidelines to include the latest recommendations on post-transplant CMV management based on new evidence available.

Valganciclovir as Treatment for Cytomegalovirus Disease in Solid Organ Transplant Recipients

BACKGROUND Cytomegalovirus (CMV) infection causes morbidity in solid organ transplant (SOT) recipients, either by direct injury or in association with chronic allograft rejection or other opportunistic infections. Ganciclovir is the treatment of choice, but this agent requires intravenous administration, which affects its feasibility for long-term use. Valganciclovir, which has an oral bioavailability of 60%, has proven to be useful for prophylaxis of CMV infection in high-risk SOT recipients and for treating retinitis in persons with acquired immunodeficiency syndrome. OBJECTIVE To compare the efficacy of valganciclovir (alone or as sequential therapy after a regimen of intravenous ganciclovir) with intravenous ganciclovir alone for preemptive therapy or treatment of CMV disease (viral syndrome or focal disease) in SOT recipients and to determine the incidence of adverse effects and relapses. METHODS In this 2-year prospective, comparative cohort study, 376 episodes of preemptive therapy or treatment of CMV disease were recorded among 334 of 3467 SOT recipients included in the Spanish Network for Research on Infection in Transplantation (RESITRA) database. Intravenous ganciclovir was the first-line treatment in 170 episodes; valganciclovir followed by intravenous ganciclovir was administered in 82 episodes, and valganciclovir alone was administered in 112 episodes. RESULTS Valganciclovir was used as preemptive therapy or treatment for CMV disease in 84 and 28 episodes, respectively. Duration of treatment was longer in valganciclovir recipients than in ganciclovir recipients for both preemptive therapy (21 vs. 15 days; P < .001) or viral syndrome treatment (21 vs. 18 days; P < .01). In the valganciclovir arm, 94 (83.9%) of 112 episodes were treated successfully, with no statistical difference in the success rates versus the ganciclovir arm (85.8%) or ganciclovir-valganciclovir arm (95.1%). Eighteen episodes (16.1%) treated with valganciclovir were considered to have resulted in treatment failure (because of persistent antigenemia in 4 [3.6%], on the basis of clinical decision in 7 [6.2%], and because of recurrent disease in 7 [6.2%]). There were no incidents in which valganciclovir treatment was withdrawn because of toxicity. CONCLUSION Valganciclovir is safe and useful for preemptive therapy and treatment of CMV disease.

Donor-to-host transmission of bacterial and fungal infections in lung transplantation.

The purpose of this study was to evaluate the incidence and etiology of bacterial and fungal infection or contamination in lung allograft donors and to assess donor‐to‐host transmission of these infections. Recipients who survived more than 24 h and their respective donors were evaluated. The overall incidence of donor infection was 52% (103 out of 197 donors). Types of donor infection included isolated contamination of preservation fluids (n = 30, 29.1%), graft colonization (n = 65, 63.1%) and bacteremia (n = 8, 7.8%). Donor‐to‐host transmission of bacterial or fungal infection occurred in 15 lung allograft recipients, 7.6% of lung transplants performed. Among these cases, 2 were due to donor bacteremia and 13 to colonization of the graft. Twenty‐five percent of donors with bacteremia and 14.1% of colonized grafts were responsible for transmitting infection. Excluding the five cases without an effective prophylactic regimen, prophylaxis failure occurred in 11 out of 197 procedures (5.58%). Donor‐to‐host transmission of infection is a frequent event after lung transplantation. Fatal consequences can be avoided with an appropriate prophylactic antibiotic regimen that must be modified according to the microorganisms isolated from cultures of samples obtained from donors, grafts, preservation fluids and recipients.

Feasibility, tolerability, and outcomes of nebulized liposomal amphotericin B for Aspergillus infection prevention in lung transplantation.

BACKGROUND Nebulized amphotericin B deoxycholate (n-ABD) is used to prevent Aspergillus infection in lung transplantation. Nebulized liposomal amphotericin B (n-LAB) is another option; however, no clinical data are available on the results of n-LAB for this purpose. METHODS In an observational study performed in 2 centers to assess the feasibility, tolerability, and outcomes of n-LAB prophylaxis, 104 consecutive patients undergoing prophylaxis with n-LAB were compared with 49 historical controls who received n-ABD. Patient follow-up lasted 12 months. The n-LAB prophylaxis regimen was 25 mg thrice weekly starting on the first post-operative day and continuing to 60 days, 25 mg once weekly from 60 to 180 days, and the same dose once every 2 weeks thereafter. RESULTS Aspergillus infection developed in 8 of 104 patients (7.7%) with n-LAB prophylaxis (5 colonization, 1 simple tracheobronchitis, 1 ulcerative tracheobronchitis, and 1 invasive pulmonary infection). Ulcerative tracheobronchitis and invasive pulmonary aspergillosis were regarded as invasive disease; hence, the rate of invasive disease was 1.9% (2 patients). The control group had similar rates of Aspergillus infection (10.2%; p = 0.6) and invasive disease (4.1%; p = 0.43). In 3 patients (2.9%), n-LAB was withdrawn due to bronchospasm in 2 and nausea in 1. In the control group, prophylaxis was stopped in 2 patients (4.1%) because of bronchospasm (p = 0.7). CONCLUSIONS At the dose and frequency described, n-LAB seems effective, safe, and convenient for the prevention of Aspergillus infection in lung transplant patients.

A review of critical periods for opportunistic infection in the new transplantation era.

Background. The risk of opportunistic infection (OI) is considered to be maximum during the first six months after solid organ transplantation. The aim of this study was to know the incidence and risk factors for OI in the late period (>6 months) compared with the early period (<6 months) after solid organ transplantation. Methods. We used the online database of the Spanish Network of Infection in Transplantation (RESITRA), which prospectively analyzed 2,702 solid organ transplantation recipients from August 2003 to February 2005. Univariate and multivariate analyses were performed to calculate the risk factors associated with the development of late OI. Results. A total of 131 patients (6%) developed 176 infectious episodes in the late period. Although the incidence of infection and cytomegalovirus disease (0.4 per 1000 transplant days and 0.05 per 1000 transplant days, respectively) was lower than in the early period (3.5 per 1000 transplant days and 0.8 per 1000 transplant days; P<0.0001), the incidence of other OIs was similar in both periods (0.05 per 1000 transplant days versus 0.03 per 1000 transplant-days, P=0.5). Patients with the higher risk for developing late OI were those receiving early cytomegalovirus prophylaxis, patients who developed two or more episodes of acute rejection during the early period, patients with recurrent bacterial infection during the early period, patients with renal failure requiring dialysis, and patients with chronic graft malfunction. Conclusions. Our data suggest that in some high-risk patients, the critical period of risk for OI must be expanded beyond the first six months after transplant.

Efficacy of Nebulized Liposomal Amphotericin B in Treatment of Experimental Pulmonary Aspergillosis

ABSTRACT The efficacy of therapeutic aerosolized amphotericin B (AMB) was studied in a steroid-immunosuppressed murine model of invasive pulmonary aspergillosis. Nebulized liposomal AMB can be a valid approach to the treatment of this infection, with subjects showing significantly improved survival relative to that of subjects given intravenous deoxycholate AMB, as well as lower lung weights and pulmonary glucosamine levels.

Pandemic influenza A(H1N1) virus infection in solid organ transplant recipients: impact of viral and non-viral co-infection

Abstract Solid organ transplant recipients (SOTR) are at risk of serious influenza-related complications. The impact of respiratory co-infection in SOTR with 2009 pandemic influenza A(H1N1) is unknown. A multicentre prospective study of consecutive cases of pandemic influenza A(H1N1) in SOTR was carried out to assess the clinical characteristics and outcome and the risk factors for co-infection. Overall, 51 patients were included. Median time from transplant was 3.7 years, 5.9% of the cases occurred perioperatively and 7.8% were hospitalacquired. Pneumonia was diagnosed in 15 (29.4%) patients. Ten cases were severe (19.6%): 13.7% were admitted to intensive care units, 5.9% suffered septic shock, 5.9% developed acute graft rejection and 7.8% died. Co-infection was detected in 15 patients (29.4%): eight viral, six bacterial and one fungal. Viral co-infection did not affect the outcome. Patients with non-viral co-infection had a worse outcome: longer hospital stay (26.2 ± 20.7 vs. 5.5 ± 10.2) and higher rate of severe diseases (85.7% vs. 2.3%) and mortality (42.8% vs. 2.3%). Independent risk factors for non-viral co-infection were: diabetes mellitus and septic shock. Other factors associated with severe influenza were: delayed antiviral therapy, diabetes mellitus, time since transplantation <90 days and pneumonia. In conclusion, pandemic influenza A can cause significant direct and indirect effects in SOTR, especially in the early post-transplant period, and should be treated early. Clinicians should be aware of the possibility of non-viral co-infection, mainly in diabetic patients and severe cases. An effort should be made to prevent influenza with immunization of the patient and the environment.