A Systematic Review on Antimicrobial Pharmacokinetic Differences between Asian and Non-Asian Adult Populations

While the relevance of inter-ethnic differences to the pharmacokinetic variabilities of an- timicrobials has been reported in studies recruiting healthy subjects, differences in antimicrobial pharmacokinetics between Asian and non-Asian patients with severe pathologic conditions require further investigation. For the purpose of describing the potential differences in antimicrobial phar- macokinetics between Asian and non-Asian populations, a systematic review was performed using six journal databases and six theses/dissertation databases (PROSPERO record CRD42018090054). The pharmacokinetic data of healthy volunteers and non-critically ill and critically ill patients were reviewed. Thirty studies on meropenem, imipenem, doripenem, linezolid, and vancomycin were included in the final descriptive summaries. In studies recruiting hospitalised patients, inconsistent differences in the volume of distribution (Vd) and drug clearance (CL) of the studied antimicrobials between Asian and non-Asian patients were observed. Additionally, factors other than ethnicity, such as demographic (e.g., age) or clinical (e.g., sepsis) factors, were suggested to better charac- terise these pharmacokinetic differences. Inconsistent differences in pharmacokinetic parameters between Asian and non-Asian subjects/patients may suggest that ethnicity is not an important pre- dictor to characterise interindividual pharmacokinetic differences between meropenem, imipenem, doripenem, linezolid, and vancomycin. Therefore, the dosing regimens of these antimicrobials should be adjusted according to patients’ demographic or clinical characteristics that can better describe pharmacokinetic differences

Narrative Study on Pharmacokinetics of Antibiotics among Critically Ill Patients: the Implication on the Pharmacokinetics-Pharmacodynamics Target Attainment

The severity of diseases, the complexity of treatment, and the use of medical devices in the intensive care unit (ICU) may change the pharmacokinetics (PK) profile of antibiotics among critically ill patients. This narrative review aims to explain the PK profile of critically ill patients compared to other group of patients and to describe the pharmacokinetic-pharmacidynamic (PK-PD) target attainment among this group of patients. Only articles published less than 10 years ago were included in this narrative review. Evidences have indicated that critically ill patients have relatively larger volume distribution (Vd) of hydrophilic antibiotics compared to patients with stable conditions. The fluid shifting to interstitial space, hypoalbuminemia, and aggressive fluid treatment may contribute to the increase value of Vd in critically ill patients. The clearance (CL) of hydrophilic antibiotics in critically ill patients is highly determined by dynamic changing of renal function compared to patients in other wards. The phenomenon of augmented renal clearance and the use of high intensity of renal replacement therapy can increase the CL of hydrophilic antibiotics. The different PK profile of antibiotics may lead to the failure of attaining the PK-PD target if the dose of antibiotics is not adjusted according to such difference

Optimising Treatment Outcomes for Children and Adults Through Rapid Genome Sequencing of Sepsis Pathogens. A Study Protocol for a Prospective, Multi-Centre Trial (DIRECT)

BackgroundSepsis contributes significantly to morbidity and mortality globally. In Australia, 20,000 develop sepsis every year, resulting in 5,000 deaths, and more than AUD$846 million in expenditure. Prompt, appropriate antibiotic therapy is effective in improving outcomes in sepsis. Conventional culture-based methods to identify appropriate therapy have limited yield and take days to complete. Recently, nanopore technology has enabled rapid sequencing with real-time analysis of pathogen DNA. We set out to demonstrate the feasibility and diagnostic accuracy of pathogen sequencing direct from clinical samples, and estimate the impact of this approach on time to effective therapy when integrated with personalised software-guided antimicrobial dosing in children and adults on ICU with sepsis.MethodsThe DIRECT study is a pilot prospective, non-randomized multicentre trial of an integrated diagnostic and therapeutic algorithm combining rapid direct pathogen sequencing and software-guided, personalised antibiotic dosing in children and adults with sepsis on ICU.Participants and interventionsDIRECT will collect microbiological and pharmacokinetic samples from approximately 200 children and adults with sepsis admitted to one of four ICUs in Brisbane. In Phase 1, we will evaluate Oxford Nanopore Technologies MinION sequencing direct from blood in 50 blood culture-proven sepsis patients recruited from consecutive patients with suspected sepsis. In Phase 2, a further 50 consecutive patients with suspected sepsis will be recruited in whom MinION sequencing will be combined with Bayesian software-guided (ID-ODS) personalised antimicrobial dosing.Outcome measuresThe primary outcome is time to effective antimicrobial therapy, defined as trough drug concentrations above the MIC of the pathogen. Secondary outcomes are diagnostic accuracy of MinION sequencing from whole blood, time to pathogen identification and susceptibility testing using sequencing direct from whole blood and from positive blood culture broth.DiscussionRapid pathogen sequencing coupled with antimicrobial dosing software has great potential to overcome the limitations of conventional diagnostics which often result in prolonged inappropriate antimicrobial therapy. Reduced time to optimal antimicrobial therapy may reduce sepsis mortality and ICU length of stay. This pilot study will yield key feasibility data to inform further, urgently needed sepsis studies. Phase 2 of the trial protocol is registered with the ANZCTR (ACTRN12620001122943).Trial registrationRegistered with the Australia New Zealand Clinical Trials Registry Number ACTRN1262000112294

Pharmacokinetics/Pharmacodynamics of β-Lactams and therapeutic drug monitoring: from theory to practical issues in the intensive care unit

Despite therapeutic advances over recent decades, the mortality rate for sepsis and septic shock is still approximately 25% worldwide. Early administration of appropriate intravenous antibiotics in the right dose is one of the cornerstones of treatment of sepsis. β-Lactam antibiotics are the most commonly prescribed in critically ill patients, and dosages that do not achieve specific pharmacokinetic/pharmacodynamic targets may increase the likelihood of treatment failure and even emergence of antibiotic resistance. Fluctuations in physiological parameters are often observed in critically ill patients, leading to altered pharmacokinetics and increased risk of suboptimal exposures, especially if standard dosing according to the product information is prescribed. Contemporary evidence illustrates that therapeutic β-lactam concentrations are inconsistently achieved at steady state. This review will investigate alternative β-lactam dose optimization strategies including prolonged infusions, guideline-based dosing, therapeutic drug monitoring (TDM), and the use of dose optimization software, all of which aim to increase the likelihood of achieving therapeutic drug concentrations and improve clinical outcomes as compared with the standard dosing approach. These dose optimization strategies have been the subject of a growing body of evidence; however, further investigation into the outcome benefits and validity of both non-TDM and TDM dosing strategies is required. For the clinician, it is important to select a feasible dosing strategy tailored for the individual patient, which will maximize the likelihood of achieving therapeutic concentrations at steady state and maintain these exposures throughout the course of therapy

Antimicrobial dosing in critical care: a pragmatic adult dosing nomogram

Standard dosing of antimicrobials derived from product information is considered to have limited application in critically ill patients given the pharmacokinetic and pharmacodynamic changes often seen in these patients relative to other groups in the hospital. Dosing nomograms that account for the altered needs of critically ill patients are needed to minimise the likelihood of antimicrobial underdosing (risk of treatment failure) and overdosing (risk of toxicity) in these patients. The aim of this paper is to present a pragmatic, evidence-based, adult dosing nomogram for a selection of antimicrobials frequently prescribed to treat infections in critically ill patients

Antibiotic distribution into cerebrospinal fluid: can dosing safely account for drug and disease factors in the treatment of ventriculostomy-associated infections?

Ventriculostomy-associated infections, or ventriculitis, in critically ill patients are associated with considerable morbidity. Efficacious antibiotic dosing for the treatment of these infections may be complicated by altered antibiotic concentrations in the cerebrospinal fluid due to variable meningeal inflammation and antibiotic properties. Therefore, doses used to treat infections with a higher degree of meningeal inflammation (such as meningitis) may often fail to achieve equivalent exposures in patients with ventriculostomy-associated infections such as ventriculitis. This paper aims to review the disease burden, infection rates, and common pathogens associated with ventriculostomy-associated infections. This review also seeks to describe the disease- and drug-related factors that influence antibiotic distribution into cerebrospinal fluid and provide a critical appraisal of current dosing of antibiotics commonly used to treat these types of infections. A Medline search of relevant articles was conducted and used to support a review of cerebrospinal fluid penetration of vancomycin, including critical appraisal of the recent paper by Beach et al. recently published in this journal. We found that in the intensive care unit, ventriculostomy-associated infections are the most common and serious complication of external ventricular drain insertion and often result in prolonged patient stay and increased healthcare costs. Reported infection rates are extremely variable (between 0 and 45%), hindered by the inherent diagnostic difficulty. Both Gram-positive and Gram-negative organisms are associated with such infections and the rise of multi-drug-resistant pathogens means that effective treatment is an ongoing challenge. Disease factors that may need to be considered are reduced meningeal inflammation and the presence of critical illness; drug factors include physiochemical properties, degree of plasma–protein binding, and affinity to active transporter proteins present in the blood–cerebrospinal fluid barrier. The relationship between cerebrospinal fluid antibiotic exposures in the setting of ventriculostomy-associated infection and clinical response has not been fully elucidated for many of the antibiotics commonly used in its treatment. More thorough and clinically relevant investigations are needed to better define blood pharmacokinetic/pharmacodynamics targets and optimal therapeutic exposures for treatment of ventriculostomy-associated infections. It is hoped that this future research will be able to provide clearer recommendations for clinicians frequently faced with dosing-related dilemmas when treating patients with these challenging infections

Hospital-Based Antimicrobial Stewardship Programs Used in Low and Middle-Income Countries: A Scoping Review

The burden of antimicrobial resistance (AMR) is considerable in many low- and middle-income countries (LMICs), and it is important to describe the antimicrobial stewardship program (ASP) activities found in these countries and report their impact. Importantly, as these programs target prescribing behavior, the factors influencing prescription of antimicrobials must also be taken into account. This scoping review aimed to (1) describe hospital-based ASP activities, (2) report methods used to measure the impact of ASPs, and (3) explore factors influencing antimicrobial prescribing behavior in LMICs. PubMed was searched from database incep- tion until April 2021. Factors influencing antimicrobial prescribing behavior were canvassed using the Capability- Opportunity-Motivation and Behavior framework. Most of ASP studies in LMICs were predominantly conducted in tertiary care and university-based hospitals. Audit of antimicrobial prescriptions with feedback and restrictive- based strategies was the main reported activity. Total antimicrobial consumption was the main method used to measure the impact of ASPs. Positive outcomes were observed for both clinical and microbiological outcomes; however, these were measured from nonrandomized controlled trials. Dominant factors identified through the behavioral framework were a limited awareness of AMR as a local problem, a perception that overprescription of antimicrobials had limited consequences and was mainly driven by a motivation to help improve patient outcomes. In addition, antimicrobial prescribing practices were largely influenced by existing hierarchy among prescribers. Our scoping review suggests that LMICs need to evaluate antimicrobial appropriateness as an added measure to assess impact. Furthermore, improvements in the access of microbiology and diagnostic facilities and ensuring ASP champions are recruited from senior prescribers will positively influence antimi- crobial prescribing behavior, helping improve stewardship of antimicrobials in these countries