Evaluation of Implementation of Extended-Infusion Piperacillin-Tazobactam at an Academic Medical Center

Radosevich, John, Brunelle, Adam, DiPede, Michael

January 2011

Class of 2011 Abstract / OBJECTIVES: The objective of this study was to compare patient clinical outcomes, vascular access line administration complications, and piperacillin-tazobactam costs before and after implementation of an extended infusion piperacillin-tazobactam protocol in adult patients at an academic medical center. METHODS: In this IRB-approved retrospective project, the effect of the implementation of a piperacillin- tazobactam extended infusion protocol at a tertiary care, academic medical center was accessed. The use of piperacillin-tazobactam was accessed during 3 one-month time periods in 2010: Time Period 1 (pre-education and implementation of protocol), Time Period 2 (post-education of pharmacists and infectious disease physicians), and Time Period 3 (post-education of healthcare professionals and implementation of extended-infusion piperacillin- tazobactam protocol). Patients were excluded if piperacillin-tazobactam therapy was prescribed for less than 72 hours. Data collected in each one-month period included demographic data, culture results, number of piperacillin-tazobactam grams prescribed per day, percentage of patients who received extended-infusion piperacillin-tazobactam, other antimicrobial therapy prescribed, medications prescribed with intravenous incompatibilities with piperacillin-tazobactam, number of intravenous line lumens before and after start of piperacillin-tazobactam therapy, length of stay, and all-cause 30 day mortality. RESULTS: During a three step process, the use of extended infusion piperacillin-tazobactam was implemented at an academic medical center after administration approval, education of healthcare professionals, and development of an electronic piperacillin-tazobactam order set. Use of extended-infusion piperacillin-tazobactam protocol significantly decreased the average daily piperacillin-tazobactam dose per patient. CONCLUSION: Implementation of extended-infusion piperacillin-tazobactam protocol for adult patients did significantly decrease the average daily dose of piperacillin-tazobactam per patient (reduced drug cost) but increased vascular access requirements.

Piperacillin-tazobactam

Patient Clinical Outcomes

Antimicrobial therapy in critically ill patients : improving clinical outcomes using a translational pharmacological approach

Felton, Timothy

January 2014

Pulmonary infections in critically ill patients are common, frequently lethal and treatment may be complicated by bacterial resistance. Piperacillin-tazobactam (PTZ) is a broad-spectrum β-lactam antibiotic, frequently used for pulmonary infections. Lung antibiotic concentration reflects target site concentrations in patients with pneumonia. Critically ill patient’s exhibit marked pharmacokinetic (PK) variability. PTZ exposures resulting in maximal bacterial killing and prevention of emergence of drug resistance are not known. Administration of PTZ by extended infusions (EI) or using Bayesian dosage optimisation, instead of a fixed bolus regimen, may improve clinical outcomes. Experimental work was conducted in an in vitro hollow fibre infection model (HFIM) using two densities of Pseudomonas aeruginosa. Experimental data was described by a mathematical model allowing identification of PTZ exposures associated with bacterial killing and suppression of the emergence of resistance. The population PK of PTZ in the plasma and lung of 17 critically ill patients was estimated. Monte Carlo simulation was used to explore the proportion of patients that achieve the plasma and lung PTZ exposures associated with bacterial killing and resistance suppression and to determine the effect of administration schedule. Finally, the population PK of PTZ in the plasma of 146 critically ill patients was estimated and used to construct computer software that can individualise PTZ dosing. Precision of the dosing software was assessed in 8 additional individuals. At low bacterial density a trough piperacillin:MIC ratio of 3.4 for bolus and 10.4 for EI regimens were able to suppress the emergence of resistance. At higher bacterial density all regimens were associated with growth of a resistant sub-population. Pulmonary piperacillin and tazobactam concentrations were unpredictable and negatively correlated to pulmonary permeability. Simulations revealed that EI, compared with bolus dosing, of PTZ is associated with a higher likelihood of bacteria killing. Similar probability of developing resistance was predicted with PTZ administration by EI and by bolus administration. Performance of the dose optimisation software was satisfactory. Current PTZ regimens are insufficient to treat pneumonia in approximately 14% of critically ill patients. Delivery of PTZ by EI may be a more effective method of administration for some patients with nosocomial infections. Individualised PTZ regimens, delivering a target piperacillin concentration, identified in a HFIM, are achievable and should improved clinical outcomes. Patients with a high bacterial burden may required alternative therapeutic strategies to maximize bacterial killing and prevent antimicrobial resistance.

615.1

Bestimmung der in vitro Aktivität von Clindamycin, Imipenem, Metronidazol und Piperacillin/Tazobactam gegenüber sensiblen und resistenten Bacteroides fragilis Stämmen mittels Absterbekinetik

Funke, Matthias

23 December 2014

Obligat anaerob wachsende Bakterien sind an einer Vielzahl von Infektionen beteiligt. Dabei ist Bacteroides fragilis einer der wichtigsten opportunistischen Erreger unter den Anaerobiern. Bei Verdacht auf eine Infektion durch obligate Anaerobier muss nach Materialentnahme für die mikrobiologische Diagnostik unverzüglich eine kalkulierte Therapie eingeleitet werden. Oft ist eine chirurgische Therapie notwendig, die ebenso wie eine adäquate Antibiotikatherapie entscheidend für den Verlauf der Erkrankung ist. Wichtige Substanzen für eine Therapie bei Infektionen mit Beteiligung von B. fragilis sind Clindamycin, Imipenem, Metronidazol und Piperacillin/Tazobactam. Um Aussagen zur in vitro Wirksamkeit dieser Antibiotika gegenüber obligaten Anaerobiern treffen zu können, wurden in der vorliegenden Arbeit die Aktivitäten von verschiedenen Konzentrationen des jeweiligen Antibiotikums auf das Wachstum von sensiblen und resistenten B. fragilis Stämmen mittels Absterbekinetik untersucht. In Abhängigkeit von der zuvor ermittelten minimalen Hemmkonzentration des jeweiligen Antibiotikums wurden die Stämme in 2 Gruppen eingeteilt. Die erste Gruppe umfasst alle Stämme mit einer MHK ≤ 8 µg/ml. In der zweiten Gruppe sind die Stämme mit einer MHK > 8 µg/ml zusammengefasst. Die einzelnen Stämme wurden mit einem Vielfachen der minimalen Hemmkonzentration (MHK) beziehungsweise einem Vielfachen der im menschlichen Blutplasma maximal erreichbaren Konzentration (Cmax) des jeweiligen Antibiotikums inkubiert und die Bakterienkonzentration zu definierten Zeitpunkten ermittelt. Dadurch können sowohl die Wirksamkeit unterschiedlicher Antibiotikakonzentrationen als auch verschiedene Antibiotikaklassen miteinander verglichen und Aussagen zu Empfehlungen für kalkulierte Therapien getroffen werden.

Bacteroides fragilis

Clindamycin

Imipenem

Metronidazol

Piperacillin/Tazobactam

Absterbekinetik

Bacteroides fragilis

Clindamycin

Imipenem

Metronidazole

Piperacillin-Tazobactam

kill-kinetics

ddc:610

Optimisation des traitements pharmacologiques chez les enfants atteints de sepsis

Thibault, Céline

10 1900

Le sepsis sévère est l’une des causes de mortalité les plus fréquentes à travers le monde. L’étiologie la plus fréquente étant des infections causées par des bactéries, le traitement repose sur l’administration rapide d’un traitement antibiotique adapté. Toutefois, la diminution de la sensibilité des bactéries observée au cours des dernières années nous pousse à repenser notre utilisation des antibiotiques. Parmi les options envisageables, on retrouve l’utilisation de nouveaux antibiotiques et l’optimisation des posologies d’antibiotiques couramment utilisés. Dans les deux cas, la modélisation pharmacocinétique est un outil indispensable pour caractériser la pharmacocinétique des agents antimicrobiens et ainsi guider les posologies. Les études pharmacocinétiques comportent toutefois de nombreux défis en pédiatrie. Afin de les contourner, nous avons utilisé des méthodes à risques minimaux pour étudier deux molécules chez les enfants : le linézolide, un nouvel antibiotique de la classe des oxazolidinones, qui a été administré chez des nouveau-nés prématurés, et la pipéracilline-tazobactam, une bêta-lactamine fréquemment utilisée en pédiatrie, qui a été administrée en utilisant une nouvelle posologie sous forme d’infusions prolongées. Premièrement, nous avons effectué une étude pharmacocinétique rétrospective du linézolide aux soins intensifs néonataux du CHU Sainte-Justine. Le linézolide est un antibiotique qui peut être utilisé pour traiter les infections causées par le staphylocoque à coagulase négative chez les nouveau-nés prématurés. Il s’agit d’une pratique relativement nouvelle et un programme de surveillance des concentrations plasmatiques avait été instauré il y a quelques années pour encadrer l’utilisation du linézolide dans cette population. Nous avons utilisé les données de ce programme et construit un modèle pharmacocinétique de population en utilisant des méthodes de modélisation non-linéaire à effets mixtes. Nous avons ainsi pu démontrer que les posologies utilisées chez les 26 nouveau-nés inclus dans notre étude atteignaient la cible préalablement déterminée (aire sous la courbe/concentration minimale inhibitrice [ASC/CMI 0-24] > 80), et qu’elles étaient donc probablement efficaces. De plus, nous avons observé que le linézolide semblait sécuritaire dans cette population. Nous nous sommes ensuite intéressés aux infusions prolongées de pipéracilline-tazobactam en pédiatrie. Déjà bien décrite dans la population adulte, l’utilisation d’infusions prolongées permet d’optimiser l’efficacité des bêta-lactamines puisque cette dernière dépend du temps où les concentrations plasmatiques sont supérieures à la concentration minimale inhibitrice (ƒt > CMI). Comme aucune posologie n’était établie en pédiatrie, nous avons d’abord effectué une étude de simulation où nous avons déterminé les posologies dites « optimales » en utilisant les paramètres pharmacocinétiques décrits en pédiatrie. Nous avons par la suite effectué une étude pharmacocinétique prospective où les posologies préalablement établies ont été administrées à 89 enfants de deux mois à six ans, duquel 79 ont eu des prélèvements sanguins pour déterminer les concentrations plasmatiques. Deux modèles pharmacocinétiques de population distincts (pipéracilline et tazobactam) ont été développés en utilisant la modélisation non-linéaire à effets mixtes. Des simulations ont par la suite été effectuées en utilisant le modèle final de la pipéracilline pour déterminer les posologies optimales selon l’âge. Pour des bactéries avec une CMI à 16 mg/L, nous avons observé que des infusions prolongées étaient nécessaires pour atteindre notre cible préalablement déterminée (ƒt > CMI > 50%) chez les enfants de six mois à six ans (130 mg/kg/dose toutes les 8 heures administré sur 4 heures), alors que des durées d’infusion standard de trente minutes étaient suffisantes chez les nourrissons de deux à six mois (75 mg/kg/dose toutes les 4 heures administré sur 30 minutes). Notre étude supporte également la faisabilité et l’innocuité des infusions prolongées en pédiatrie. / Severe sepsis remains one of the most important causes of pediatric mortality around the world. Bacterial infections represent the most common cause, and effective treatment depends on the prompt administration of antibiotics. However, we observe a concerning decrease in susceptibility to antibiotics over the last decades, prompting us to reevaluate our antibiotics use. New antibiotics or novel ways of administering currently available antibiotics more efficiently are the two main alternatives when facing increased antibiotic resistance. In both cases, pharmacokinetic (PK) modeling represents an invaluable tool to guide dosing. However, PK studies in children are challenging. We used minimal risk methods to study two different antibiotics in children: Linezolid, a new oxazolidinone antibiotic that was administered to premature neonates, and piperacillin-tazobactam, a frequently used beta-lactam that we administered in a novel way using extended infusions. First, we conducted a single-center retrospective PK study of linezolid in premature neonates in the neonatal intensive care unit of the CHU Sainte-Justine. We built a population PK model using nonlinear mixed-effects modeling with plasmatic concentrations collected for therapeutic drug monitoring per standard of care. We were able to demonstrate that the dosing regimens used in the 26 neonates included in our study reached our established target (area under the curve over the minimal inhibitory concentration [AUC/MIC 0-24] > 80), and, therefore, were deemed efficient. Moreover, we collected adverse events and found that linezolid administration appeared safe in this population. We then focused on piperacillin-tazobactam extended infusions in children. Beta-lactams efficacy depends on the fraction of time that concentrations are above the MIC (ƒt > MIC). Extended infusions are a simple way to achieve higher ƒt > MIC and are well studied in adults. Based on published piperacillin-tazobactam PK parameters in children, we first conducted a simulation PK study to establish optimal extended infusions dosing in children. We then conducted a single-center prospective PK study where the established dosing regimens were administered to 89 children from two months to six years old. Of those, 79 children contributed plasma PK samples. Two PK models (piperacillin and tazobactam) were developed using nonlinear mixed-effects modeling. Simulations were conducted using our final piperacillin model, allowing us to determine optimal dosing regimens according to age. For bacteria with MICs up to 16 mg/L, extended infusions (130 mg/kg/dose every 8 hours infused over 4 hours) were needed in children six months to six years old to reach our established target (ƒt > MIC > 50%), whereas standard 30 minutes infusion (75 mg/kg/dose every 4 hours infused over 30 minutes) were adequate in infants two months to six months old. Our study also supported the feasibility and safety of extended infusions in young children.

sepsis

pédiatrie

pharmacocinétique

antibiotique

pipéracilline-tazobactam

linézolide

pediatrics

pharmacokinetics

antibiotics

piperacillin-tazobactam

linezolid

Bestimmung der in vitro Aktivität von Clindamycin, Imipenem, Metronidazol und Piperacillin/Tazobactam gegenüber sensiblen und resistenten Bacteroides fragilis Stämmen mittels Absterbekinetik

Funke, Matthias

04 December 2014

Obligat anaerob wachsende Bakterien sind an einer Vielzahl von Infektionen beteiligt. Dabei ist Bacteroides fragilis einer der wichtigsten opportunistischen Erreger unter den Anaerobiern. Bei Verdacht auf eine Infektion durch obligate Anaerobier muss nach Materialentnahme für die mikrobiologische Diagnostik unverzüglich eine kalkulierte Therapie eingeleitet werden. Oft ist eine chirurgische Therapie notwendig, die ebenso wie eine adäquate Antibiotikatherapie entscheidend für den Verlauf der Erkrankung ist. Wichtige Substanzen für eine Therapie bei Infektionen mit Beteiligung von B. fragilis sind Clindamycin, Imipenem, Metronidazol und Piperacillin/Tazobactam. Um Aussagen zur in vitro Wirksamkeit dieser Antibiotika gegenüber obligaten Anaerobiern treffen zu können, wurden in der vorliegenden Arbeit die Aktivitäten von verschiedenen Konzentrationen des jeweiligen Antibiotikums auf das Wachstum von sensiblen und resistenten B. fragilis Stämmen mittels Absterbekinetik untersucht. In Abhängigkeit von der zuvor ermittelten minimalen Hemmkonzentration des jeweiligen Antibiotikums wurden die Stämme in 2 Gruppen eingeteilt. Die erste Gruppe umfasst alle Stämme mit einer MHK ≤ 8 µg/ml. In der zweiten Gruppe sind die Stämme mit einer MHK > 8 µg/ml zusammengefasst. Die einzelnen Stämme wurden mit einem Vielfachen der minimalen Hemmkonzentration (MHK) beziehungsweise einem Vielfachen der im menschlichen Blutplasma maximal erreichbaren Konzentration (Cmax) des jeweiligen Antibiotikums inkubiert und die Bakterienkonzentration zu definierten Zeitpunkten ermittelt. Dadurch können sowohl die Wirksamkeit unterschiedlicher Antibiotikakonzentrationen als auch verschiedene Antibiotikaklassen miteinander verglichen und Aussagen zu Empfehlungen für kalkulierte Therapien getroffen werden.

info:eu-repo/classification/ddc/610

ddc:610

ACUTE KIDNEY INJURY IN PATIENTS TREATED WITH VANCOMYCIN AND PIPERACILLIN-TAZOBACTAM: A RETROSPECTIVE COHORT ANALYSIS

Rutter, Wilbur Cliff

01 January 2016

Empiric antimicrobial therapy often consists of the combination of Gram-positive coverage with vancomycin (VAN) and Gram-negative coverage, specifically an anti-pseudomonal beta-lactam, such as piperacillin-tazobactam (PTZ). Nephrotoxicity is commonly associated with VAN therapy; however, recent reports demonstrate increasing nephrotoxicity rates among patients treated with the combination of VAN and PTZ. This study evaluated the effect of the VAN/PTZ combination on acute kidney injury (AKI), as defined by the RIFLE criteria, compared to VAN and PTZ monotherapies. Overall, 11,650 patients were analyzed, with 1,647 (14.1%) AKI cases occurring. AKI was significantly more frequent in the VAN/PTZ group (21%) compared to either monotherapy group (VAN 8.3%, PTZ 7.8%, p<0.001 for both). Combination therapy was independently associated with higher AKI odds compared to monotherapy with either agent (aOR=2.03; 95% CI 1.74-2.39; aOR=2.31; 95% CI 1.97-2.71, for VAN and PTZ, respectively). Receipt of concomitant nephrotoxic drugs were independently associated with increased AKI rates, as were increased duration of therapy, length of hospital stay, increasing severity of illness, and increasing baseline renal function. VAN combined with PTZ was associated with twice the odds of AKI development compared to either agent as monotherapy. This demonstrates the need for judicious use of combination empiric therapy.

Antimicrobial stewardship

Vancomycin

Piperacillin-tazobactam

Acute Kidney Injury

Electronic health record

Aplicações e limitações do método de detecção do antígeno galactomanana para o diagnóstico de aspergilose / Applications and limitations of a galactomannan detection method in the diagnostic of aspergillosis

Xavier, Melissa Orzechowski

January 2008

O Platelia® Aspergillus EIA é um teste de ELISA sanduíche para diagnóstico precoce de aspergilose em pacientes neutropênicos que se baseia na detecção de um antígeno (galactomanana) da parede celular de Aspergillus spp. O trabalho objetivou avaliar a eficácia deste teste em outros hospedeiros suscetíveis à aspergilose e ainda, avaliar a interferência de potenciais falso-positivos no Platelia® Aspergillus EIA, como outras micoses sistêmicas e um antimicrobiano produzido a partir de fungos (piperacilina-tazobactam). Quatro experimentos foram realizados para contemplar os objetivos propostos. Amostras de lavado broncoalveolar de 60 pacientes transplantados de pulmão provenientes da Santa-Casa Complexo Hospitalar de Porto Alegre foram colhidas durante um período de aproximadamente 2 anos e testadas para detecção de galactomanana. Os pacientes foram classificados em aspergilose comprovada, provável e possível, colonização ou exame de vigilância de acordo com critérios do EORTC. Utilizando os casos comprovados (5) e prováveis (6) como positivos, foi calculada a curva ROC que demonstrou valores de sensibilidade de 90,9% e especificidade de 90,6% em um ponto de corte de 1,5. A eficácia do Platelia® Aspergillus EIA foi avaliada também em pingüins em cativeiro. Soros de 35 animais foram incluídos no estudo, 9 com aspergilose, 3 com malária, 2 com caquexia e 21 saudáveis. Os soros foram testados por imunodifusão dupla e ELISA sanduíche, resultando em valores de sensibilidade de 33% e 100% e especificidade de 96% e 0, respectivamente. A reação cruzada de outras micoses sistêmicas no Platelia® Aspergillus EIA foi avaliada a partir de 120 amostras de soro de pacientes com paracoccidioidomicose, histoplasmose, criptococose por Cryptococcus neoformans e criptococose por C. gattii. Todas as micoses foram responsáveis por resultados falso-positivos no ELISA sanduíche, sendo de 50%, 67%, 66% e 36,6% a taxa de positividade de cada micose, respectivamente. Em adição, 5 lotes de piperacilina-tazobactam foram testados em concentração de uso clínico (45mg/ml) para avaliação de interferência no Platelia® Aspergillus EIA. Destas, apenas uma resultou em valores maiores do que o ponto de corte (0,5), sendo submetida a sucessivas diluições até mimetizar concentrações plasmáticas do fármaco alcançáveis no soro humano, as quais resultaram em valores menores que 0,5, sendo consideradas negativas. Concluindo, utilizando um ponto de corte maior do que indicado pelo fabricante para uso em neutropênicos, a eficácia do teste foi comprovada para utilização em amostras de lavado broncoalveolar de pacientes transplantados de pulmão. Por outro lado, no hospedeiro animal testado, pingüins, o teste apresentou especificidade nula, não possuindo aplicabilidade como ferramenta diagnóstica para aspergilose neste grupo. Quanto aos fatores de interferência no Platelia® Aspergillus EIA avaliados, a alta taxa de resultados falso-positivos referentes à infecção por outras micoses sistêmicas reflete na necessidade de interpretar um teste positivo dentro do contexto epidemiológico do paciente. Por outro lado, as piperacilinas-tazobactam disponíveis no mercado brasileiro não interferiram no resultado do Platelia® Aspergillus EIA. No entanto como a variabilidade de galactomanana existe entre lotes, ainda é aconselhável que as amostras para realização do ELISA sanduíche sejam colhidas antes da próxima administração do fármaco. / Platelia® Aspergillus EIA is a sandwich ELISA to the diagnostic of aspergillosis in neutropenic patients. It detects an antigen (galactomannan) from Aspergillus cell wall. Here it was evaluated the performance of this test in other susceptible hosts and the interference of potentials false-positives factors in Platelia® Aspergillus EIA. Systemic mycosis and an antimicrobial produced from molds (piperacillin-tazobactam) were tested. Four experiments were executed to study conduce. Bronchoalveolar samples from 60 lung transplant recipients from Santa Casa-Complexo Hospitalar de Porto Alegre were collected during almost two years and tested for galactomannan detection. Patients were classified in proven, probable or possible aspergillosis according to EORTC criteria, or in colonization or surveillance. Considering proven (5) and probable (6) as true positive cases, ROC curve was calculated and showed 90.9% of sensitivity and 90.6% of specificity with 1.5 as optimal cutoff. Platelia® Aspergillus EIA efficacy was also tested in captive penguins. Sera from 35 animals were included in the study, 9 with aspergillosis, 3 with malaria, 2 with cachexia and 21 healthy. Samples were tested by double immunodiffusion and sandwich ELISA, resulting in sensitivity values of 33% and 100% and specificity of 96% and 0, respectively. Cross reaction in Platelia® Aspergillus EIA was evaluated with 120 serum samples of patients with paracocciddioidomicosis, histoplasmosis, criptococosis due to Cryptococcus neoformans and criptococosis due to C. gattii. False-positive results were observed in all mycosis, with rates of 50%, 67%, 66% and 36,6%, respectively. In addition, 5 piperacillin-tazobactam batches were tested, in a concentration of clinical use (45mg/ml), to evaluate it interference in Platelia® Aspergillus EIA. Those, only one showed positive value, and had been retest after serial dilutions until plasmatic concentration, resulting in value lower than 0.5, negative. In conclusion, with a higher cut-off than the indicated from the manufacturer, the efficacy of bronchoalveolar samples tested in Platelia® Aspergillus EIA for the diagnostic of aspergillosis in lung transplant recipients was proved. Controversially, in penguins, the test specificity was zero, showing non applicability as a diagnostic method for aspergillosis in this group of risk. Interference in Platelia® Aspergillus EIA due to other systemic mycoses shows the necessity to interpret a positive result after the evaluation of patient epidemiologic context. Finally, piperacillin-tazobactam available in the Brazilian market did not correspond to false-positive results in Platelia® Aspergillus EIA. However, given that variability occurs between distinct batches, still is indicating to collect samples for galactomannan detection before the next administration of the drug.

Micoses

Aspergilose

Transplante de pulmão

Piperacilina

Galactomannan

Aspergillosis

Lung transplantation

Penguins

Cross-reaction

Piperacillin-tazobactam

USING MACHINE LEARNING TO PREDICT ACUTE KIDNEY INJURIES AMONG PATIENTS TREATED WITH EMPIRIC ANTIBIOTICS

Rutter, Wilbur Cliff, IV

01 January 2018

Acute kidney injury (AKI) is a significant adverse effect of many medications that leads to increased morbidity, cost, and mortality among hospitalized patients. Recent literature supports a strong link between empiric combination antimicrobial therapy and increased AKI risk. As briefly summarized below, the following chapters describe my research conducted in this area. Chapter 1 presents and summarizes the published literature connecting combination antimicrobial therapy with increased AKI incidence. This chapter sets the specific aims I aim to achieve during my dissertation project. Chapter 2 describes a study in which patients receiving vancomycin (VAN) in combination with piperacillin-tazobactam (TZP) or cefepime (CFP). I matched over 1,600 patients receiving both combinations and found a significantly lower incidence of AKI among patient receiving the CFP+VAN combination when controlling for confounders. The conclusion of this study is that VAN+TZP has significantly increased risk of AKI compared to CFP+VAN, confirming the results of previous literature. Chapter 3 presents a study of patients receiving VAN in combination with meropenem (MEM) or TZP. This study included over 10,000 patients and used inverse probability of treatment weighting to conserve data for this population. After controlling for confounders, VAN+TZP was associated with significantly more AKI than VAN+MEM. This study demonstrates that MEM is clinically viable alternative to TZP in empiric antimicrobial therapy. Chapter 4 describes a study in which patients receiving TZP or ampicillin-sulbactam (SAM) with or without VAN were analyzed for AKI incidence. The purpose of this study was to identify whether the addition of a beta-lactamase inhibitor to a beta-lactam increased the risk of AKI. This study included more than 2,400 patients receiving either agent and found that there were no differences in AKI among patients receiving SAM or TZP; however, AKI was significantly more common in the TZP group when stratified by VAN exposure. This study shows that comparisons of TZP to other beta-lactams without beta-lactamase inhibitors are valid. Chapter 5 presents a study of almost 30,000 patients who received combination antimicrobial therapy over an 8-year period. This study demonstrates similar AKI incidence to previous literature and the studies presented in the previous chapters. Additionally, the results of the predictive models suggest that further work in this research area is needed. The studies conducted present a clear message that patients receiving VAN+TZP are at significantly greater risk of AKI than alternative regimens for empiric coverage of infection.

Vancomycin

piperacillin-tazobactam

nephrotoxicty

supervised learning

Health Information Technology

Pharmacy and Pharmaceutical Sciences

Aplicações e limitações do método de detecção do antígeno galactomanana para o diagnóstico de aspergilose / Applications and limitations of a galactomannan detection method in the diagnostic of aspergillosis

Xavier, Melissa Orzechowski

January 2008

O Platelia® Aspergillus EIA é um teste de ELISA sanduíche para diagnóstico precoce de aspergilose em pacientes neutropênicos que se baseia na detecção de um antígeno (galactomanana) da parede celular de Aspergillus spp. O trabalho objetivou avaliar a eficácia deste teste em outros hospedeiros suscetíveis à aspergilose e ainda, avaliar a interferência de potenciais falso-positivos no Platelia® Aspergillus EIA, como outras micoses sistêmicas e um antimicrobiano produzido a partir de fungos (piperacilina-tazobactam). Quatro experimentos foram realizados para contemplar os objetivos propostos. Amostras de lavado broncoalveolar de 60 pacientes transplantados de pulmão provenientes da Santa-Casa Complexo Hospitalar de Porto Alegre foram colhidas durante um período de aproximadamente 2 anos e testadas para detecção de galactomanana. Os pacientes foram classificados em aspergilose comprovada, provável e possível, colonização ou exame de vigilância de acordo com critérios do EORTC. Utilizando os casos comprovados (5) e prováveis (6) como positivos, foi calculada a curva ROC que demonstrou valores de sensibilidade de 90,9% e especificidade de 90,6% em um ponto de corte de 1,5. A eficácia do Platelia® Aspergillus EIA foi avaliada também em pingüins em cativeiro. Soros de 35 animais foram incluídos no estudo, 9 com aspergilose, 3 com malária, 2 com caquexia e 21 saudáveis. Os soros foram testados por imunodifusão dupla e ELISA sanduíche, resultando em valores de sensibilidade de 33% e 100% e especificidade de 96% e 0, respectivamente. A reação cruzada de outras micoses sistêmicas no Platelia® Aspergillus EIA foi avaliada a partir de 120 amostras de soro de pacientes com paracoccidioidomicose, histoplasmose, criptococose por Cryptococcus neoformans e criptococose por C. gattii. Todas as micoses foram responsáveis por resultados falso-positivos no ELISA sanduíche, sendo de 50%, 67%, 66% e 36,6% a taxa de positividade de cada micose, respectivamente. Em adição, 5 lotes de piperacilina-tazobactam foram testados em concentração de uso clínico (45mg/ml) para avaliação de interferência no Platelia® Aspergillus EIA. Destas, apenas uma resultou em valores maiores do que o ponto de corte (0,5), sendo submetida a sucessivas diluições até mimetizar concentrações plasmáticas do fármaco alcançáveis no soro humano, as quais resultaram em valores menores que 0,5, sendo consideradas negativas. Concluindo, utilizando um ponto de corte maior do que indicado pelo fabricante para uso em neutropênicos, a eficácia do teste foi comprovada para utilização em amostras de lavado broncoalveolar de pacientes transplantados de pulmão. Por outro lado, no hospedeiro animal testado, pingüins, o teste apresentou especificidade nula, não possuindo aplicabilidade como ferramenta diagnóstica para aspergilose neste grupo. Quanto aos fatores de interferência no Platelia® Aspergillus EIA avaliados, a alta taxa de resultados falso-positivos referentes à infecção por outras micoses sistêmicas reflete na necessidade de interpretar um teste positivo dentro do contexto epidemiológico do paciente. Por outro lado, as piperacilinas-tazobactam disponíveis no mercado brasileiro não interferiram no resultado do Platelia® Aspergillus EIA. No entanto como a variabilidade de galactomanana existe entre lotes, ainda é aconselhável que as amostras para realização do ELISA sanduíche sejam colhidas antes da próxima administração do fármaco. / Platelia® Aspergillus EIA is a sandwich ELISA to the diagnostic of aspergillosis in neutropenic patients. It detects an antigen (galactomannan) from Aspergillus cell wall. Here it was evaluated the performance of this test in other susceptible hosts and the interference of potentials false-positives factors in Platelia® Aspergillus EIA. Systemic mycosis and an antimicrobial produced from molds (piperacillin-tazobactam) were tested. Four experiments were executed to study conduce. Bronchoalveolar samples from 60 lung transplant recipients from Santa Casa-Complexo Hospitalar de Porto Alegre were collected during almost two years and tested for galactomannan detection. Patients were classified in proven, probable or possible aspergillosis according to EORTC criteria, or in colonization or surveillance. Considering proven (5) and probable (6) as true positive cases, ROC curve was calculated and showed 90.9% of sensitivity and 90.6% of specificity with 1.5 as optimal cutoff. Platelia® Aspergillus EIA efficacy was also tested in captive penguins. Sera from 35 animals were included in the study, 9 with aspergillosis, 3 with malaria, 2 with cachexia and 21 healthy. Samples were tested by double immunodiffusion and sandwich ELISA, resulting in sensitivity values of 33% and 100% and specificity of 96% and 0, respectively. Cross reaction in Platelia® Aspergillus EIA was evaluated with 120 serum samples of patients with paracocciddioidomicosis, histoplasmosis, criptococosis due to Cryptococcus neoformans and criptococosis due to C. gattii. False-positive results were observed in all mycosis, with rates of 50%, 67%, 66% and 36,6%, respectively. In addition, 5 piperacillin-tazobactam batches were tested, in a concentration of clinical use (45mg/ml), to evaluate it interference in Platelia® Aspergillus EIA. Those, only one showed positive value, and had been retest after serial dilutions until plasmatic concentration, resulting in value lower than 0.5, negative. In conclusion, with a higher cut-off than the indicated from the manufacturer, the efficacy of bronchoalveolar samples tested in Platelia® Aspergillus EIA for the diagnostic of aspergillosis in lung transplant recipients was proved. Controversially, in penguins, the test specificity was zero, showing non applicability as a diagnostic method for aspergillosis in this group of risk. Interference in Platelia® Aspergillus EIA due to other systemic mycoses shows the necessity to interpret a positive result after the evaluation of patient epidemiologic context. Finally, piperacillin-tazobactam available in the Brazilian market did not correspond to false-positive results in Platelia® Aspergillus EIA. However, given that variability occurs between distinct batches, still is indicating to collect samples for galactomannan detection before the next administration of the drug.

Micoses

Aspergilose

Transplante de pulmão

Piperacilina

Galactomannan

Aspergillosis

Lung transplantation

Penguins

Cross-reaction

Piperacillin-tazobactam

Aplicações e limitações do método de detecção do antígeno galactomanana para o diagnóstico de aspergilose / Applications and limitations of a galactomannan detection method in the diagnostic of aspergillosis

Xavier, Melissa Orzechowski

January 2008

O Platelia® Aspergillus EIA é um teste de ELISA sanduíche para diagnóstico precoce de aspergilose em pacientes neutropênicos que se baseia na detecção de um antígeno (galactomanana) da parede celular de Aspergillus spp. O trabalho objetivou avaliar a eficácia deste teste em outros hospedeiros suscetíveis à aspergilose e ainda, avaliar a interferência de potenciais falso-positivos no Platelia® Aspergillus EIA, como outras micoses sistêmicas e um antimicrobiano produzido a partir de fungos (piperacilina-tazobactam). Quatro experimentos foram realizados para contemplar os objetivos propostos. Amostras de lavado broncoalveolar de 60 pacientes transplantados de pulmão provenientes da Santa-Casa Complexo Hospitalar de Porto Alegre foram colhidas durante um período de aproximadamente 2 anos e testadas para detecção de galactomanana. Os pacientes foram classificados em aspergilose comprovada, provável e possível, colonização ou exame de vigilância de acordo com critérios do EORTC. Utilizando os casos comprovados (5) e prováveis (6) como positivos, foi calculada a curva ROC que demonstrou valores de sensibilidade de 90,9% e especificidade de 90,6% em um ponto de corte de 1,5. A eficácia do Platelia® Aspergillus EIA foi avaliada também em pingüins em cativeiro. Soros de 35 animais foram incluídos no estudo, 9 com aspergilose, 3 com malária, 2 com caquexia e 21 saudáveis. Os soros foram testados por imunodifusão dupla e ELISA sanduíche, resultando em valores de sensibilidade de 33% e 100% e especificidade de 96% e 0, respectivamente. A reação cruzada de outras micoses sistêmicas no Platelia® Aspergillus EIA foi avaliada a partir de 120 amostras de soro de pacientes com paracoccidioidomicose, histoplasmose, criptococose por Cryptococcus neoformans e criptococose por C. gattii. Todas as micoses foram responsáveis por resultados falso-positivos no ELISA sanduíche, sendo de 50%, 67%, 66% e 36,6% a taxa de positividade de cada micose, respectivamente. Em adição, 5 lotes de piperacilina-tazobactam foram testados em concentração de uso clínico (45mg/ml) para avaliação de interferência no Platelia® Aspergillus EIA. Destas, apenas uma resultou em valores maiores do que o ponto de corte (0,5), sendo submetida a sucessivas diluições até mimetizar concentrações plasmáticas do fármaco alcançáveis no soro humano, as quais resultaram em valores menores que 0,5, sendo consideradas negativas. Concluindo, utilizando um ponto de corte maior do que indicado pelo fabricante para uso em neutropênicos, a eficácia do teste foi comprovada para utilização em amostras de lavado broncoalveolar de pacientes transplantados de pulmão. Por outro lado, no hospedeiro animal testado, pingüins, o teste apresentou especificidade nula, não possuindo aplicabilidade como ferramenta diagnóstica para aspergilose neste grupo. Quanto aos fatores de interferência no Platelia® Aspergillus EIA avaliados, a alta taxa de resultados falso-positivos referentes à infecção por outras micoses sistêmicas reflete na necessidade de interpretar um teste positivo dentro do contexto epidemiológico do paciente. Por outro lado, as piperacilinas-tazobactam disponíveis no mercado brasileiro não interferiram no resultado do Platelia® Aspergillus EIA. No entanto como a variabilidade de galactomanana existe entre lotes, ainda é aconselhável que as amostras para realização do ELISA sanduíche sejam colhidas antes da próxima administração do fármaco. / Platelia® Aspergillus EIA is a sandwich ELISA to the diagnostic of aspergillosis in neutropenic patients. It detects an antigen (galactomannan) from Aspergillus cell wall. Here it was evaluated the performance of this test in other susceptible hosts and the interference of potentials false-positives factors in Platelia® Aspergillus EIA. Systemic mycosis and an antimicrobial produced from molds (piperacillin-tazobactam) were tested. Four experiments were executed to study conduce. Bronchoalveolar samples from 60 lung transplant recipients from Santa Casa-Complexo Hospitalar de Porto Alegre were collected during almost two years and tested for galactomannan detection. Patients were classified in proven, probable or possible aspergillosis according to EORTC criteria, or in colonization or surveillance. Considering proven (5) and probable (6) as true positive cases, ROC curve was calculated and showed 90.9% of sensitivity and 90.6% of specificity with 1.5 as optimal cutoff. Platelia® Aspergillus EIA efficacy was also tested in captive penguins. Sera from 35 animals were included in the study, 9 with aspergillosis, 3 with malaria, 2 with cachexia and 21 healthy. Samples were tested by double immunodiffusion and sandwich ELISA, resulting in sensitivity values of 33% and 100% and specificity of 96% and 0, respectively. Cross reaction in Platelia® Aspergillus EIA was evaluated with 120 serum samples of patients with paracocciddioidomicosis, histoplasmosis, criptococosis due to Cryptococcus neoformans and criptococosis due to C. gattii. False-positive results were observed in all mycosis, with rates of 50%, 67%, 66% and 36,6%, respectively. In addition, 5 piperacillin-tazobactam batches were tested, in a concentration of clinical use (45mg/ml), to evaluate it interference in Platelia® Aspergillus EIA. Those, only one showed positive value, and had been retest after serial dilutions until plasmatic concentration, resulting in value lower than 0.5, negative. In conclusion, with a higher cut-off than the indicated from the manufacturer, the efficacy of bronchoalveolar samples tested in Platelia® Aspergillus EIA for the diagnostic of aspergillosis in lung transplant recipients was proved. Controversially, in penguins, the test specificity was zero, showing non applicability as a diagnostic method for aspergillosis in this group of risk. Interference in Platelia® Aspergillus EIA due to other systemic mycoses shows the necessity to interpret a positive result after the evaluation of patient epidemiologic context. Finally, piperacillin-tazobactam available in the Brazilian market did not correspond to false-positive results in Platelia® Aspergillus EIA. However, given that variability occurs between distinct batches, still is indicating to collect samples for galactomannan detection before the next administration of the drug.

Micoses

Aspergilose

Transplante de pulmão

Piperacilina

Galactomannan

Aspergillosis

Lung transplantation

Penguins

Cross-reaction

Piperacillin-tazobactam