Reducing peripherally inserted central catheters in the neonatal intensive care unit.

OBJECTIVE: Our objective was to safely reduce the number of peripherally inserted central catheters (PICCs) inserted in infants with umbilical venous catheter using quality improvement methods. STUDY DESIGN: In a tertiary neonatal intensive care unit, a questionnaire designed to prompt critical thinking around the decision to place a PICC, along with an updated standardized feeding guideline was introduced. PICC insertion in 86 infants with umbilical venous catheter (pre intervention) with birth weight 1000-1500 g were compared with 115 infants (post intervention) using Fisher's exact test. RESULTS: PICC lines inserted after the intervention decreased by 37.5% (67/86; 77.9% vs 56/115; 48.7%; P<0.001). The proportion of central line-associated blood stream infection were 2.49 vs 2.82/1000 umbilical venous catheter days; P=0.91 in the two epochs, respectively. CONCLUSION: Quality improvement methodology was successful in significantly reducing the number of PICCs inserted without an increase in central line-associated blood stream infection.

Transcription factor c-Rel plays a crucial role in driving anti-CD40-mediated innate colitis.

Genetic and environmental factors, including the commensal microbiota, have a crucial role in the development of inflammatory bowel disease. Aberrant activation of the transcription factor NF-κB is associated with chronic intestinal inflammation in mice and humans. Recently, an emerging family of innate lymphoid cells (ILCs) has been identified at mucosal sites contributing to the maintenance of gut homeostasis and intestinal immunopathology. Here, we show that the NF-κB protein c-Rel regulates the inflammatory potential of colonic IFN-γ(+)Thy1(+) ILCs to induce anti-CD40-mediated colitis in rag1(-/-) mice. Stimulation of dendritic cells (DCs) with anti-CD40 or CD40L led to translocation of c-Rel into the nucleus resulting in induction of expression of interleukin-12 (IL-12) and IL-23, key regulators of innate cell-induced colitis. While c-Rel deficiency completely abrogated anti-CD40-induced colitis, adoptively transferred wild-type DCs were able to induce pronounced colonic inflammation in rag1(-/-)rel(-/-) mice. In summary, these results suggest that the expression of c-Rel in DCs is essential for initiating anti-CD40-mediated intestinal pathogenesis.

Atrial fibrillation in patients undergoing liver transplantation-a single-center experience.

BACKGROUND: As the prevalence of atrial fibrillation rises with age and older patients increasingly receive transplants, the perioperative management of this common arrhythmia and its impact on outcomes in liver transplantation is of relevance. METHODS: Retrospective review of 757 recipients of liver transplantation from January 2002 through December 2011. RESULTS: Nineteen recipients (2.5%) had documented pre-transplantation atrial fibrillation. Sixteen patients underwent liver and 3 a combined liver-kidney transplantation. Three patients died within 30 days (84.2% 1-month survival) and another 3 within 1 year of transplantation (68.4% 1-year survival). Compared with patients without atrial fibrillation, the relative risk of death in the atrial fibrillation group was 5.29 at 1 month (P = .0034; 95% confidence interval [CI], 1.73-16.18) and 3.28 at 1 year (P = .0008; 95% CI, 1.63-6.59). Time to extubation and intensive care unit (ICU) and hospital readmissions were not different from the control cohort. Rapid ventricular response requiring treatment occurred in 4 patients during surgery and 7 after surgery, resulting in 3 ICU and 3 hospital readmissions. CONCLUSIONS: The results suggest that patients with atrial fibrillation may be at increased risk of mortality after liver transplantation. Optimization of medical therapy may decrease ICU and hospital readmission due to rapid ventricular response.

Hepatic venous outflow obstruction in pediatric liver transplantation: technical considerations in prevention, diagnosis, and management.

HVOO creates significant diagnostic and management dilemmas in pediatric liver transplant recipients, particularly with TVGs (split or reduced-size grafts). Numerous technical variations for the hepatic vein to IVC anastomosis have been described to minimize the incidence of this complication, but no consensus for an optimal anastomotic technique exists. One hundred and thirty-four liver transplants (70 TVGs) were performed in 124 patients between 1994 and 2011. These were divided into two cohorts. Group 1 (95 transplants, 41 TVGs) utilized a continuous running anastomosis. Group 2 (39 transplants, 29 TVGs) implemented a triangulated (three-stitch) anastomosis. All were reviewed for demographics, diagnostics, interventions, and outcome. The overall HVOO incidence was seven of 134 transplants (5.2%) and six of 70 transplants utilizing TVGs (8.6%). Group 1 incidence was five of 41 (12.2%) compared with one of 29 (3.4%; p = 0.20, OR 3.89) in Group 2. Liver Doppler was employed in all patients, and only three suggested HVOO. All patients with HVOO underwent venogram, at a median of 81 days post-transplant. All underwent percutaneous venoplasty and required 1-6 treatments, all resulting in HVOO resolution. Incidence of HVOO has improved since adopting the triangulated anastomosis, although not to a level of statistical significance. US is not adequately sensitive to exclude HVOO. Venogram is recommended in patients with prolonged ascites, and venoplasty has been highly successful in HVOO treatment.

A novel organ donor facility: a decade of experience with liver donors.

Transplant surgeons have historically traveled to donor hospitals, performing complex, time-sensitive procedures with unfamiliar personnel. This often involves air travel, significant delays, and frequently occurs overnight.In 2001, we established the nation's first organ recovery center. The goal was to increase efficiency,reduce costs and reduce surgeon travel. Liver donors and recipients, donor costs, surgeon hours and travel time, from April 1,2001 through December 31,2011 were analyzed. Nine hundred and fifteen liver transplants performed at our center were analyzed based on procurement location (living donors and donation after cardiac death donors were excluded). In year 1, 36% (9/25) of donor procurements occurred at the organ procurement organization (OPO) facility, rising to 93%(56/60) in the last year of analysis. Travel time was reduced from 8 to 2.7 h (p<0.0001), with a reduction of surgeon fly outs by 93% (14/15) in 2011. Liver organ donor charges generated by the donor were reduced by37% overall for donors recovered at the OPO facility versus acute care hospital. Organs recovered in this novel facility resulted in significantly reduced surgeon hours, air travel and cost. This practice has major implications for cost containment and OPO national policy and could become the standard of care.

Saxagliptin, a potent, selective inhibitor of DPP-4, does not alter the pharmacokinetics of three oral antidiabetic drugs (metformin, glyburide or pioglitazone) in healthy subjects.

AIM: To evaluate the pharmacokinetic interactions of the potent, selective, dipeptidyl peptidase-4 inhibitor, saxagliptin, in combination with metformin, glyburide or pioglitazone. METHODS: To assess the effect of co-administration of saxagliptin with oral antidiabetic drugs (OADs) on the pharmacokinetics and tolerability of saxagliptin, 5-hydroxy saxagliptin, metformin, glyburide, pioglitazone and hydroxy-pioglitazone, analyses of variance were performed on maximum (peak) plasma drug concentration (C(max)), area under the plasma concentration-time curve from time zero to infinity (AUC(∞)) [saxagliptin + metformin (study 1) and saxagliptin + glyburide (study 2)] and area under the concentration-time curve from time 0 to time t (AUC) [saxagliptin + pioglitazone (study 3)] for each analyte in the respective studies. Studies 1 and 2 were open-label, randomized, three-period, three-treatment, crossover studies, and study 3 was an open-label, non-randomized, sequential study in healthy subjects. RESULTS: Co-administration of saxagliptin with metformin, glyburide or pioglitazone did not result in clinically meaningful alterations in the pharmacokinetics of saxagliptin or its metabolite, 5-hydroxy saxagliptin. Following co-administration of saxagliptin, there were no clinically meaningful alterations in the pharmacokinetics of metformin, glyburide, pioglitazone or hydroxy-pioglitazone. Saxagliptin was generally safe and well tolerated when administered alone or in combination with metformin, glyburide or pioglitazone. CONCLUSIONS: Saxagliptin can be co-administered with metformin, glyburide or pioglitazone without a need for dose adjustment of either saxagliptin or these OADs.

Dapagliflozin, a novel SGLT2 inhibitor, induces dose-dependent glucosuria in healthy subjects.

Dapagliflozin selectively inhibits renal glucose reabsorption by inhibiting sodium-glucose cotransporter-2 (SGLT2). It was developed as an insulin-independent treatment approach for type 2 diabetes mellitus (T2DM). The safety, tolerability, pharmacokinetics, and pharmacodynamics of the drug were evaluated in single-ascending-dose (SAD; 2.5-500 mg) and multiple-ascending-dose (MAD; 2.5-100 mg daily for 14 days) studies in healthy subjects. Dapagliflozin exhibited dose-proportional plasma concentrations with a half-life of approximately 17 h. The amount of glucosuria was also dose-dependent. Cumulative amounts of glucose excreted on day 1, relating to doses from 2.5-100 mg (MAD), ranged from 18 to 62 g; day 14 values were comparable to day 1 values, with no apparent changes in glycemic parameters. Doses of approximately 20-50 mg provided close-to-maximal SGLT2 inhibition for at least 24 h. Dapagliflozin demonstrates pharmacokinetic (PK) characteristics and dose-dependent glucosuria that are sustained over 24 h, which indicates that it is suitable for administration in once-daily doses and suggests that further investigation of its efficacy in T2DM patients is warranted.

Dapagliflozin, a novel, selective SGLT2 inhibitor, improved glycemic control over 2 weeks in patients with type 2 diabetes mellitus.

Dapagliflozin, administered to patients in once-daily oral doses, is a sodium-glucose cotransporter 2 (SGLT2) inhibitor that blocks the reabsorption of glucose from urine into the blood. This 14-day study randomized patients with type 2 diabetes mellitus (T2DM) to four treatment groups receiving daily oral doses of 5-, 25-, or 100-mg doses of dapagliflozin or placebo, in order to evaluate glucosuria and glycemic parameters. Significant reductions in fasting serum glucose (FSG) were observed on day 2 with 100 mg dapagliflozin (-9.3%, P < 0.001), and dose-dependent reductions were observed on day 13 with the 5-mg (-11.7%; P < 0.05), 25-mg (-13.3%; P < 0.05), and 100-mg (-21.8%; P < 0.0001) doses as compared with placebo. Significant improvements in oral glucose tolerance test (OGTT) were observed with all doses on days 2 and 13 (P < 0.001 as compared with placebo). On day 14, urine glucose values were 36.6, 70.1, and 69.9 g/day for the 5-, 25-, and 100-mg doses (as compared with no change for placebo), which were slightly lower than those on day 1. This was attributed to the decrease in filtered glucose load following improved glycemic control. Dapagliflozin produced dose-dependent increases in glucosuria and clinically meaningful changes in glycemic parameters in T2DM patients.

A pharmacokinetic interaction study between butorphanol and sumatriptan nasal sprays in healthy subjects: importance of the timing of butorphanol administration.

Sumatriptan and butorphanol nasal sprays are commonly used agents for the management of migraine headaches. Under certain circumstances, these two agents may be administered closely in time. However, the possibility of a pharmacokinetic interaction and the safety of this regime have not been examined. In this crossover design study, 24 healthy subjects received the following four treatments, each separated by at least 7 days: 1 mg butorphanol (Stadol NS7); 20 mg sumatriptan (Imitrex Nasal Spray); or both formulations together with butorphanol administered either 1 or 30 min after sumatriptan. Serial plasma samples were collected for 24 h post-dose and analysed for butorphanol and/or sumatriptan by HPLC-MS/MS. Butorphanol plasma concentrations were reduced when it was administered 1 min (mean 28.6% decrease in AUC(0-infinity)), but not 30 min, after sumatriptan. The pharmacokinetics of sumatriptan were not substantially altered by butorphanol. The combination of nasally administered sumatriptan and butorphanol appeared safe. However, if butorphanol nasal spray is administered <30 min after sumatriptan nasal spray, the analgesic effect of butorphanol may be diminished due to reduced nasal absorption resulting from probable transient vasoconstriction of nasal blood vessels by sumatriptan.

In vitro protein binding studies with BMS-204352: lack of protein binding displacement interaction in human serum.

BMS-204352, a maxi-K channel opener, is currently under development for the treatment of stroke. Protein binding of BMS-204352 was determined in sera from several species, namely, rat, monkey, dog, and human. Data indicated that the compound was shown to be highly protein bound in serum from all species (ca. 99.6%). In order to test for the potential for drug-drug interactions and competitive displacement of BMS-204352 by diazepam, phenytoin, propranolol, and warfarin, in vitro experiments were performed using spiked human serum and ex vivo human plasma samples. Protein binding was determined using equilibrium dialysis for 4 h at maximal therapeutic concentrations for each drug alone or in appropriate combination in spiked serum samples. Ex vivo samples from a clinical BMS-204352 study (0, 1, and 24 h) were dialyzed separately after addition of diazepam, phenytoin, propranolol, or warfarin. Drug content in biological matrices was measured for radioactivity using liquid scintillation counting. Results indicated that (1) addition of diazepam, phenytoin, propranolol, or warfarin did not alter the free fraction of BMS-204352; (2) BMS-204352 did not displace diazepam, phenytoin, propranolol, or warfarin from their protein binding sites, and (3) comparison of ex vivo plasma samples after BMS-204352 dosing indicated no impact of BMS-204352 and/or its metabolites on the free fraction of diazepam, phenytoin, propranolol, or warfarin. In conclusion, the potential for a drug-drug interaction due to alterations in protein binding with BMS-204352 is unlikely.

The pharmacokinetics and pharmacodynamics of irbesartan in heart failure.

Alterations in the pharmacokinetic parameters of a number of medications have been observed in patients with heart failure. Because the angiotensin II receptor antagonist irbesartan has beneficial effects in patients with heart failure, the pharmacokinetics and pharmacodynamics of irbesartan in 10 patients with New York Heart Association (NYHA) class II or III heart failure compared with 10 control subjects matched with respect to race, age, weight, and sex were studied. In a crossover study, participants were randomized to receive open-label irbesartan 75 mg as either an oral capsule or an intravenous (i.v.) infusion in the first treatment period. After a 7- to 10-day washout period, participants were crossed over to the other treatment arm. Single-dose noncompartmental pharmacokinetic parameters, angiotensin II levels, and plasma renin activity (PRA) of irbesartan were determined for each participant. Following oral and i.v. administration, the pharmacokinetics of irbesartan in patients with heart failure was not significantly different from those of matched controls, indicating that there is little influence of potential changes in organ/tissue perfusion and gut edema on the absorption, distribution, and elimination of irbesartan. After dosing with irbesartan, mean increases in angiotensin II and PRA concentrations were higher in patients with heart failure than in the matched controls, but there was more interpatient variability in the patients with heart failure. Given the variability of the data, no definitive conclusions can be made with regard to these pharmacodynamic parameters. The results of this study indicate that the pharmacokinetics of irbesartan following oral and i.v. administration is not altered in patients with heart failure. Therefore, this indicates that no dosage adjustment is needed when prescribing irbesartan in heart failure patients.

Drug interactions with irbesartan.

Irbesartan is an angiotensin II receptor antagonist indicated for the treatment of patients with hypertension. Although irbesartan does not require biotransformation for its pharmacological activity, it does undergo metabolism via the cytochrome P450 (CYP) 2C9 isoenzyme and negligible metabolism by the CYP3A4 isoenzyme. The long term treatment of patients with hypertension is generally required for effective management of the disease, and the use of concurrent medications is usually inevitable. This paper reviews the drug and food interaction trials involving irbesartan that have been conducted to date. Based on the available literature, no significant interactions have been identified between irbesartan and hydrochlorothiazide, nifedipine, simvastatin, tolbutamide, warfarin, magnesium and aluminum hydroxides, digoxin or food. Fluconazole did increase the steady-state peak plasma concentration (by 19%) and area under the concentration-time curve (by 63%) of irbesartan, but these increases are not likely to be clinically significant. In summary, irbesartan has demonstrated minimal potential for drug or food interactions in trials conducted to date.

The pharmacokinetics of irbesartan in hypertensive children and adolescents.

An open-label study was conducted to characterize the pharmacokinetics and antihypertensive response to irbesartan in children (1-12 years) and adolescents (13-16 years) with hypertension. Patients received single once-daily oral doses of irbesartan 2 mg/kg (maximum of 150 mg once daily) for 2 to 4 weeks (+/- nifedipine or hydrochlorothiazide). Plasma irbesartan concentrations were determined by a validated high-performance liquid chromatography/fluorescence method from blood samples taken predose, up to 24 hours after dosing on Day 1, and up to 48 hours after the final dose. The plasma concentration-time profiles were similar between the 6- to 12-year and the 13- to 16-year age groups and to that previously determined from a study of adult subjects receiving approximately 2 mg/kg (i.e., 150 mg) oral irbesartan once daily. Mean reductions in systolic/diastolic blood pressure were 16/10 mmHg at Day 28 with irbesartan monotherapy (n = 8). Irbesartan was well tolerated and may be a treatment option for pediatric hypertensive patients.

Irbesartan does not affect the pharmacokinetics of simvastatin in healthy subjects.

This open-label, single-dose, crossover study was conducted to assess the effect of irbesartan on the pharmacokinetics of total simvastatin acid in 14 healthy subjects. Subjects were randomized to receive one simvastatin 40 mg tablet or one simvastatin 40 mg tablet + one irbesartan 300 mg tablet. Subjects were crossed over to the other treatment after a 7- to 10-day washout period. Serum samples were collected at specified times before and over a 24-hour period after dosing. Safety was assessed by monitoring vital signs, laboratory tests, and adverse events. Irbesartan did not exhibit a clinically significant effect on the peak serum concentration and area under the concentration versus time curve to infinity (AUC0-infinity) of total simvastatin acid. The mean AUC0-infinity of total simvastatin acid was 74.55 ng x h/mL when simvastatin was given alone and 67.55 ng x h/mL when simvastatin and irbesartan were given concomitantly. The time to peak serum concentration for both treatments was 3 hours. No serious adverse events occurred during the study, and both agents were well tolerated. In summary, irbesartan had no significant effect on the single-dose pharmacokinetics of total simvastatin acid.

Validation of an ELISA for the quantitation of lanoteplase, a novel plasminogen activator.

An ELISA was developed and validated for the quantitation of lanoteplase in human citrated plasma. The ELISA employed a monoclonal anti-lanoteplase antibody absorbed onto 96-well microtiter plates to capture lanoteplase in citrated human plasma samples containing PPACK, a protease inhibitor. The captured lanoteplase was detected using a biotinylated rabbit anti-lanoteplase polyclonal antibody. The standard curve range in human plasma for the ELISA was 7-100 ng/ml. Assessment of individual standard curve variability indicated reproducible responses with r2 values of > or = 0.985. The accuracy (% DEV) and precision (%RSD) estimates for the ELISA based on the predicted values from quality control (QC) samples were within 7.3% and 11%, respectively. Cross-reactivity with t-PA was determined to be less than 11% by ELISA. The stability of lanoteplase was established in human citrated PPACK plasma for 24 hours at 4 degrees C, for 2 months at -20 degrees C, for 22 months at -70 degrees C, three weeks at room temperature, and through four freeze/thaw cycles. To quantify lanoteplase plasminogen activator (PA) activity, a commercially available chromogenic activity assay was also validated. This method and its application is described briefly here. The lanoteplase ELISA as well as the commercial activity method were successfully employed to evaluate the pharmacokinetic parameters of lanoteplase in support of clinical Phase II/III studies.

The effects of age and gender on the pharmacokinetics of irbesartan.

AIMS: Single dose pharmacokinetics and safety of irbesartan, an angiotensin II receptor antagonist, were evaluated in healthy young and elderly male and female subjects. METHODS: Irbesartan was administered as two 25 mg capsules after a 10 h fast to 12 young men, 12 young women, 12 elderly men and 12 elderly women. Serial blood and urine sample were collected up to 96 h after the dose. Plasma and urine samples were analysed for irbesartan by h.p.l.c./fluorescence methods. RESULTS: No statistically significant gender effects were observed in peak plasma concentration (Cmax), area under the curve (AUC), and terminal elimination half-life (t1/2) of irbesartan. The geometric mean AUC and Cmax increased by about 43% and 49%, respectively, in the elderly subjects. Also the time to peak was significantly shorter in the elderly subjects compared with that observed in the young subjects. Renal clearance ofirbesartan was significantly reduced in the elderly females but this reduction is not likely to be of any clinical relevance since less than 3% of the administered dose of irbesartan is excreted unchanged in the urine. CONCLUSIONS: Although there was an effect of age on the pharmacokinetics of irbesartan, based on the safety and efficacy profile, no adjustment in irbesartan dosage is necessary with respect to age or gender.

Oral bioavailability and disposition characteristics of irbesartan, an angiotensin antagonist, in healthy volunteers.

Absolute oral bioavailability and disposition characteristics of irbesartan, an angiotensin II receptor antagonist, were investigated in 18 healthy young male volunteers. Subjects received [14C] irbesartan as a 30-minute intravenous infusion (50 mg), [14C] irbesartan orally as a solution (50 mg or 150 mg), or irbesartan capsule (50 mg). Irbesartan was rapidly and almost completely absorbed after oral administration, and exhibited a mean absolute oral bioavailability of 60% to 80%. Mean total body clearance was approximately 157 mL/min, and renal clearance was 3.0 mL/min. Volume of distribution at steady state was 53 L to 93 L, and terminal elimination half-life was approximately 13 to 16 hours. Hepatic extraction ratio was low (0.2). There were no major circulating metabolites, and approximately 80% of total plasma radioactivity was attributable to unchanged irbesartan. Regardless of route of administration, approximately 20% of dose was recovered in urine and the remainder in feces.

Biotransformation of irbesartan in man.

The metabolism of irbesartan, a highly selective and potent nonpeptide angiotensin II receptor antagonist, has been investigated in humans. An aliquot of pooled urine from healthy subjects given a 50-mg oral dose of [14C]irbesartan was added as a tracer to urine from healthy subjects that received multiple, 900-mg nonradiolabeled doses of irbesartan. Urinary metabolites were isolated, and structures were elucidated by mass spectroscopy, proton NMR, and high-performance liquid chromatography (HPLC) retention times. Irbesartan and the following eight metabolites were identified in human urine: (1) a tetrazole N2-beta-glucuronide conjugate of irbesartan, (2) a monohydroxylated metabolite resulting from omega-1 oxidation of the butyl side chain, (3, 4) two different monohydroxylated metabolites resulting from oxidation of the spirocyclopentane ring, (5) a diol resulting from omega-1 oxidation of the butyl side chain and oxidation of the spirocyclopentane ring, (6) a keto metabolite resulting from further oxidation of the omega-1 monohydroxy metabolite, (7) a keto-alcohol resulting from further oxidation of the omega-1 hydroxyl of the diol, and (8) a carboxylic acid metabolite resulting from oxidation of the terminal methyl group of the butyl side chain. Biotransformation profiles of pooled urine, feces, and plasma samples from healthy male volunteers given doses of [14C]irbesartan were determined by HPLC. The predominant drug-related component in plasma was irbesartan (76-88% of the plasma radioactivity). None of the metabolites exceeded 9% of the plasma radioactivity. Radioactivity in urine accounted for about 20% of the radiolabeled dose. In urine, irbesartan and its glucuronide each accounted for about 5 to 10% of the urinary radioactivity. The predominant metabolite in urine was the omega-1 hydroxylated metabolite, which constituted about 25% of the urinary radioactivity. In feces, irbesartan was the predominant drug-related component (about 30% of the radioactivity), and the primary metabolites were monohydroxylated metabolites and the carboxylic acid metabolite. Irbesartan and these identified metabolites constituted 90% of the recovered urinary and fecal radioactivity from human subjects given oral doses of [14C]irbesartan.

Lack of effect of food on the oral bioavailability of irbesartan in healthy male volunteers.

This study was conducted to evaluate the effects of a high-fat meal on the oral bioavailability of an 300-mg irbesartan tablet in healthy male volunteers. Sixteen healthy young male volunteers participated in this single-center, open-label, single-dose, crossover study. Each volunteer received a single 300-mg irbesartan tablet under fasted conditions and 5 minutes after a high-fat breakfast, with administrations separated by a 7-day washout period. Serial blood samples were collected over a 72-hour period, and plasma samples were analyzed for irbesartan using a validated high-performance liquid chromatography/fluorescence procedure. Food had no statistically significant effects on the peak concentration (Cmax) and area under the concentration-time curve (AUC) of irbesartan. The presence of food was associated with a slightly prolonged time to maximum concentration (tmax) and half-life (t1/2), but the differences were not statistically significant. The results of this study indicate that food does not affect the bioavailability of irbesartan. Thus, irbesartan can be administered without regard to meals.