Jacobus P.J. Ungerer

Subtherapeutic initial β-lactam concentrations in select critically ill patients: association between augmented renal clearance and low trough drug concentrations.

BACKGROUND β-Lactams are routinely used as empirical therapy in critical illness, with extended concentrations above the minimum inhibitory concentration (MIC) of the infecting organism required for effective treatment. Changes in renal function in this setting can significantly impact the probability of achieving such targets. METHODS Analysis was made of trough plasma drug concentrations obtained via therapeutic drug monitoring, compared with renal function, in critically ill patients receiving empirical β-lactam therapy. Drug concentrations were measured by means of high-performance liquid chromatography and corrected for protein binding. Therapeutic levels were defined as greater than or equal to MIC and greater than or equal to four times MIC (maximum bacterial eradication), respectively. Renal function was assessed by means of an 8-h creatinine clearance (CLCR). RESULTS Fifty-two concurrent trough concentrations and CLCR measures were used in analysis. Piperacillin was the most frequent β-lactam prescribed (48%), whereas empirical cover and Staphylococcus species were the most common indications for therapy (62%). Most patients were mechanically ventilated on the day of study (85%), although only 25% were receiving vasopressors. In only 58% (n = 30) was the trough drug concentration greater than or equal to MIC, falling to 31% (n = 16) when using four times MIC as the target. CLCR values ≥ 130 mL/min/1.73 m2 were associated with trough concentrations less than MIC in 82% (P < .001) and less than four times MIC in 72% (P < .001). CLCR remained a significant predictor of subtherapeutic concentrations in multivariate analysis. CONCLUSION Elevated CLCR appears to be an important predictor of subtherapeutic β-lactam concentrations and suggests an important role in identifying such patients in the ICU.

Original ResearchCritical CareSubtherapeutic Initial β-Lactam Concentrations in Select Critically Ill Patients

BACKGROUND β-Lactams are routinely used as empirical therapy in critical illness, with extended concentrations above the minimum inhibitory concentration (MIC) of the infecting organism required for effective treatment. Changes in renal function in this setting can significantly impact the probability of achieving such targets. METHODS Analysis was made of trough plasma drug concentrations obtained via therapeutic drug monitoring, compared with renal function, in critically ill patients receiving empirical β-lactam therapy. Drug concentrations were measured by means of high-performance liquid chromatography and corrected for protein binding. Therapeutic levels were defined as greater than or equal to MIC and greater than or equal to four times MIC (maximum bacterial eradication), respectively. Renal function was assessed by means of an 8-h creatinine clearance (CLCR). RESULTS Fifty-two concurrent trough concentrations and CLCR measures were used in analysis. Piperacillin was the most frequent β-lactam prescribed (48%), whereas empirical cover and Staphylococcus species were the most common indications for therapy (62%). Most patients were mechanically ventilated on the day of study (85%), although only 25% were receiving vasopressors. In only 58% (n = 30) was the trough drug concentration greater than or equal to MIC, falling to 31% (n = 16) when using four times MIC as the target. CLCR values ≥ 130 mL/min/1.73 m2 were associated with trough concentrations less than MIC in 82% (P < .001) and less than four times MIC in 72% (P < .001). CLCR remained a significant predictor of subtherapeutic concentrations in multivariate analysis. CONCLUSION Elevated CLCR appears to be an important predictor of subtherapeutic β-lactam concentrations and suggests an important role in identifying such patients in the ICU.

Therapeutic drug monitoring of β-lactams in critically ill patients: proof of concept

The extreme pharmacokinetic behaviour of drugs sometimes observed in critically ill patients poses a significant threat to the achievement of optimal antibiotic treatment outcomes. Scant information on beta-lactam antibiotic therapeutic drug monitoring (TDM) is available. The objective of this prospective study was to evaluate the practicality and utility of a beta-lactam TDM programme in critically ill patients. TDM was performed twice weekly on all eligible patients at a 30-bed tertiary referral critical care unit. Blood concentrations were determined by fast-throughput high-performance liquid chromatography (HPLC) assays and were available within 12h of sampling. Dose adjustment was instituted if the trough or steady-state blood concentration was below 4-5x the minimum inhibitory concentration (MIC) or above 10x MIC. A total of 236 patients were subject to TDM over an 11-month period. The mean+/-standard deviation age was 53.5+/-18.3 years. Dose adjustment was required in 175 (74.2%) of the patients, with 119 of these patients (50.4%) requiring dose increases after the first TDM. For outcome of therapy, 206 (87.3%) courses resulted in a positive treatment outcome and there were 30 (12.7%) treatment failures observed including 14 deaths and 15 courses requiring escalation to broader-spectrum agents; 1 course was ceased due to an adverse drug reaction. Using binomial logistic regression, only an elevated Acute Physiology and Chronic Health Evaluation (APACHE) II score (P<0.01) and elevated plasma creatinine concentration (P=0.05) were found to be predictive of mortality. In conclusion, further research is required to determine definitively whether achievement of optimal beta-lactam pharmacodynamic targets improves clinical outcomes.

Analysis of 12 beta-lactam antibiotics in human plasma by HPLC with ultraviolet detection

A simple and economical high performance liquid chromatography method was developed and validated for routine analysis of 12 Penicillin, Cephalosporin and Carbapenem antibiotics in 200 microL of human plasma. Antibiotics determined were Ceftazidime, Meropenem, Ceftriaxone, Ampicillin, Cefazolin, Ertapenem, Cephalothin, Benzylpenicillin, Flucloxacillin, Dicloxacillin, Piperacillin and Ticarcillin. There was a common sample preparation approach involving precipitation of proteins with acetonitrile and removal of lipid-soluble components by a chloroform wash. Separations were performed on a Waters X-bridge C18 column with, depending on analytes, one of three acetonitrile-phosphate buffer mobile phases. Detection was by UV at 210, 260 and 304 nm. Validation has demonstrated the method to be linear, accurate and precise. The method has been used in a pathology laboratory for therapeutic drug monitoring (TDM) of beta-lactams in critically ill patients.

An international, multicentre survey of β-lactam antibiotic therapeutic drug monitoring practice in intensive care units

OBJECTIVES Emerging evidence supports the use of therapeutic drug monitoring (TDM) of β-lactams for intensive care unit (ICU) patients to optimize drug exposure, although limited detail is available on how sites run this service in practice. This multicentre survey study was performed to describe the various approaches used for β-lactam TDM in ICUs. METHODS A questionnaire survey was developed to describe various aspects relating to the conduct of β-lactam TDM in an ICU setting. Data sought included: β-lactams chosen for TDM, inclusion criteria for selecting patients, blood sampling strategy, analytical methods, pharmacokinetic (PK)/pharmacodynamic (PD) targets and dose adjustment strategies. RESULTS Nine ICUs were included in this survey. Respondents were either ICU or infectious disease physicians, pharmacists or clinical pharmacologists. Piperacillin (co-formulated with tazobactam) and meropenem (100% of units surveyed) were the β-lactams most commonly subject to TDM, followed by ceftazidime (78%), ceftriaxone (43%) and cefazolin (43%). Different chromatographic and microbiological methods were used for assay of β-lactam concentrations in blood and other biological fluids (e.g. CSF). There was significant variation in the PK/PD targets (100% fT>MIC up to 100% fT>4×MIC) and dose adjustment strategies used by each of the sites. CONCLUSIONS Large variations were found in the type of β-lactams tested, the patients selected for TDM and drug assay methods. Significant variation observed in the PK/PD targets and dose adjustment strategies used supports the need for further studies that robustly define PK/PD targets for ICU patients to ensure a greater consistency of practice for dose adjustment strategies for optimizing β-lactam dosing with TDM.

Synbiotics Easing Renal Failure by Improving Gut Microbiology (SYNERGY): A Randomized Trial

BACKGROUND AND OBJECTIVES The generation of key uremic nephrovascular toxins, indoxyl sulfate (IS), and p-cresyl sulfate (PCS), is attributed to the dysbiotic gut microbiota in CKD. The aim of our study was to evaluate whether synbiotic (pre- and probiotic) therapy alters the gut microbiota and reduces serum concentrations of microbiome-generated uremic toxins, IS and PCS, in patients with CKD. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS Predialysis adult participants with CKD (eGFR=10-30 ml/min per 1.73 m(2)) were recruited between January 5, 2013 and November 12, 2013 to a randomized, double-blind, placebo-controlled, crossover trial of synbiotic therapy over 6 weeks (4-week washout). The primary outcome was serum IS. Secondary outcomes included serum PCS, stool microbiota profile, eGFR, proteinuria-albuminuria, urinary kidney injury molecule-1, serum inflammatory biomarkers (IL-1β, IL-6, IL-10, and TNF-α), serum oxidative stress biomarkers (F2-isoprostanes and glutathione peroxidase), serum LPS, patient-reported health, Gastrointestinal Symptom Score, and dietary intake. A prespecified subgroup analysis explored the effect of antibiotic use on treatment effect. RESULTS Of 37 individuals randomized (age =69±10 years old; 57% men; eGFR=24±8 ml/min per 1.73 m(2)), 31 completed the study. Synbiotic therapy did not significantly reduce serum IS (-2 μmol/L; 95% confidence interval [95% CI], -5 to 1 μmol/L) but did significantly reduce serum PCS (-14 μmol/L; 95% CI, -27 to -2 μmol/L). Decreases in both PCS and IS concentrations were more pronounced in patients who did not receive antibiotics during the study (n=21; serum PCS, -25 μmol/L; 95% CI, -38 to -12 μmol/L; serum IS, -5 μmol/L; 95% CI, -8 to -1 μmol/L). Synbiotics also altered the stool microbiome, particularly with enrichment of Bifidobacterium and depletion of Ruminococcaceae. Except for an increase in albuminuria of 38 mg/24 h (P=0.03) in the synbiotic arm, no changes were observed in the other secondary outcomes. CONCLUSION In patients with CKD, synbiotics did not significantly reduce serum IS but did decrease serum PCS and favorably modified the stool microbiome. Large-scale clinical trials are justified.

Protein Binding of β-Lactam Antibiotics in Critically Ill Patients: Can We Successfully Predict Unbound Concentrations?

ABSTRACT The use of therapeutic drug monitoring (TDM) to optimize beta-lactam dosing in critically ill patients is growing in popularity, although there are limited data describing the potential impact of altered protein binding on achievement of target concentrations. The aim of this study was to compare the measured unbound concentration to the unbound concentration predicted from published protein binding values for seven beta-lactams using data from blood samples obtained from critically ill patients. From 161 eligible patients, we obtained 228 and 220 plasma samples at the midpoint of the dosing interval and trough, respectively, for ceftriaxone, cefazolin, meropenem, piperacillin, ampicillin, benzylpenicillin, and flucloxacillin. The total and unbound beta-lactam concentrations were measured using validated methods. Variabilities in both unbound and total concentrations were marked for all antibiotics, with significant differences being present between measured and predicted unbound concentrations for ceftriaxone and for flucloxacillin at the mid-dosing interval (P < 0.05). The predictive performance for calculating unbound concentrations using published protein binding values was poor, with bias for overprediction of unbound concentrations for ceftriaxone (83.3%), flucloxacillin (56.8%), and benzylpenicillin (25%) and underprediction for meropenem (12.1%). Linear correlations between the measured total and unbound concentrations were observed for all beta-lactams (R2 = 0.81 to 1.00; P < 0.05) except ceftriaxone and flucloxacillin. The percent protein binding of flucloxacillin and the plasma albumin concentration were also found to be linearly correlated (R2 = 0.776; P < 0.01). In conclusion, significant differences between measured and predicted unbound drug concentrations were found only for the highly protein-bound beta-lactams ceftriaxone and flucloxacillin. However, direct measurement of unbound drug in research and clinical practice is suggested for selected beta-lactams.

Measurement of cortisol, cortisone, prednisolone, dexamethasone and 11-deoxycortisol with ultra high performance liquid chromatography–tandem mass spectrometry: Application for plasma, plasma ultrafiltrate, urine and saliva in a routine laboratory

We describe an ultra high performance liquid chromatography-tandem mass spectrometry (UHPLC MS/MS) method suitable for a routine laboratory to determine endogenous and exogenous glucocorticoids in plasma, plasma ultrafiltrate, urine and saliva in a single analytical run. After addition of a multi-analyte internal standard, a standardised sample preparation procedure with solid phase extraction followed, before injecting into a tandem mass spectrometer with positive mode electron spray ionisation and multiple reactant monitoring acquisition. The chromatography time was 3min. The limit of quantitation for cortisol and cortisone in plasma was 3.75nmol/L and linearity extended to 2000nmol/L. The limit of quantitation for cortisol in plasma ultrafiltrate and saliva was 0.6nmol/L. The limit of quantitation for 11-deoxycortisol and prednisolone was 5nmol/L and for dexamethasone 1nmol/L. The intra-assay CV was <5% and the inter-assay CV <10% for all analytes in all matrices. Comparison with an immuno-assay (IA) plasma cortisol method resulted in a regression equation of UHPLC=0.79×IA+31.12 with R(2)=0.960 (p<0.0001). Comparison with a high performance liquid chromatography (HPLC) cortisol method yielded a regression equation of UHPLC=1.06×HPLC+9.82, R(2)=0.992 (p<0.0001). The simultaneous measurement of endogenous and exogenous glucocorticoids contributed to patient care in cases with dexamethasone and metyrapone dynamic tests and unsuspected therapeutic glucocorticoid use.

Protein-bound uremic toxins, inflammation and oxidative stress: A cross-sectional study in stage 3-4 chronic kidney disease

BACKGROUND AND AIMS Indoxyl sulfate (IS) and p-cresyl sulfate (PCS) are nephro- and cardiovascular toxins, produced solely by the gut microbiota, which have pro-inflammatory and pro-oxidative properties in vitro. We undertook this study to investigate the associations between IS and PCS and both inflammation and oxidative stress in the chronic kidney disease (CKD) population. METHODS In this cross-sectional observational cohort study, participants with stage 3-4 CKD who enrolled in a randomized controlled trial of cardiovascular risk modification underwent baseline measurements of serum total and free IS and PCS (measured by ultraperformance liquid chromotography), inflammatory markers (interferon gamma [IFN-γ], interleukin-6 [IL-6] and tumor necrosis factor-alpha [TNF-α]), antioxidant and oxidative stress markers (plasma glutathione peroxidase [GPx] activity, total antioxidant capacity [TAC] and F2-isoprostanes) and pulse wave velocity (PWV), a marker of arterial stiffness. RESULTS There were 149 CKD patients (59% male; age 60 ± 10 years; 44% diabetic) with a mean eGFR of 40 ± 9 mL/min/1.73 m(2) (range 25-59). Serum free and total IS were independently associated with serum IL-6, TNF-α and IFN-γ, whereas serum free and total PCS were independently associated with serum IL-6 and PWV. Free IS and PCS were additionally independently associated with serum GPx but not with TAC or F2-isoprostanes. CONCLUSIONS IS and PCS were associated with elevated levels of selected inflammatory markers and an antioxidant in CKD patients. PCS was also associated with increased arterial stiffness. Inflammation and oxidative stress may contribute to the nephro- and cardiovascular toxicities of IS and PCS. Intervention studies targeting production of IS and PCS by dietary manipulation and the subsequent effect on cardiovascular-related outcomes are warranted in the CKD population.

Neonatal complete generalized glucocorticoid resistance and growth hormone deficiency caused by a novel homozygous mutation in Helix 12 of the ligand binding domain of the glucocorticoid receptor gene (NR3C1).

CONTEXT Glucocorticoid resistance is a rare genetic condition characterized by reduced sensitivity to cortisol signaling and subsequent hyperactivation of the hypothalamic-pituitary-adrenal axis. OBJECTIVE The objective was to confirm the diagnosis of glucocorticoid resistance in the patient, to determine the degree of suppression of cortisol and ACTH levels in response to dexamethasone, and to determine the underlying genetic abnormality and functional consequences of the mutation. PATIENT AND METHODS The patient presented on the first day of life with profound hypoglycemia. Initial cortisol levels were appropriately elevated; however, the patient was found to have persistently elevated levels of both cortisol and ACTH. The baby developed a tanned appearance and severe hypertension and fatigued easily with feeding. Serial oral dexamethasone suppression tests were performed with doses escalating from 0.125 mg to 12 mg dexamethasone given at 2300 h. Sequencing of the glucocorticoid receptor gene was performed along with functional studies of the glucocorticoid receptor. GH secretion was assessed with an arginine glucagon stimulation test. RESULTS Cortisol and ACTH levels did not suppress with doses of up to 12 mg dexamethasone. A 2-bp deletion was found at amino acid position 773 of the glucocorticoid receptor ligand binding domain. A complete lack of dexamethasone binding and in vitro biological effect was demonstrated. GH stimulation testing was consistent with GH deficiency. CONCLUSION The homozygous mutation in the ligand-binding domain of the glucocorticoid receptor gene resulted in a functionally inactive glucocorticoid receptor and apparent complete glucocorticoid resistance with biochemical GH deficiency.