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1.
Proactive Monitoring of Adalimumab Trough Concentration Associated With Increased Clinical Remission in Children With Crohn's Disease Compared With Reactive Monitoring.
Assa, A, Matar, M, Turner, D, Broide, E, Weiss, B, Ledder, O, Guz-Mark, A, Rinawi, F, Cohen, S, Topf-Olivestone, C, et al
Gastroenterology. 2019;(4):985-996.e2
Abstract
BACKGROUND & AIMS Proactive monitoring of drug trough concentrations and antibodies against drugs might help determine whether patients are likely to respond to treatment and increase efficacy. We investigated whether proactive drug monitoring is associated with higher rates of clinical remission in pediatric patients with Crohn's disease (CD). METHODS We performed a nonblinded, randomized controlled trial of 78 children with CD (6-18 years old; 29% female; mean age, 14.3 ± 2.6 years) who had not received prior treatment with a biologic agent but had responded to adalimumab induction therapy, under scheduled monitoring of clinical and biologic measures (based on clinical factors and levels of C-reactive protein and fecal calprotectin), at pediatric gastroenterology units in Israel from July 2015 through December 2018. The patients were randomly assigned to groups that received proactive monitoring (trough concentrations measured at weeks 4 and 8 and then every 8 weeks until week 72, n = 38) or reactive monitoring (physicians were informed of trough concentrations after loss of response, n = 40). In both groups, doses and intervals of adalimumab were adjusted to achieve trough concentrations of 5 μg/mL. The primary endpoint was sustained corticosteroid-free clinical remission at all visits (week 8 through week 72). RESULTS The primary endpoint was achieved by 31 children (82%) in the proactive group and 19 children (48%) in the reactive group (P = .002). Sixteen patients in the proactive monitoring group (42%) achieved a composite outcome of sustained corticosteroid-free remission, C-reactive protein ≤0.5 mg/dL, and level of fecal calprotectin ≤150 μg/g compared with 5 patients in the reactive monitoring group (12%) (P = .003). By week 72 of treatment, 33 patients in the proactive monitoring group had received adalimumab intensification (87%) compared with 24 patients in the reactive monitoring group (60%) (P = .001). CONCLUSIONS In a randomized controlled trial of pediatric patients with CD, we found that proactive monitoring of adalimumab trough concentrations and adjustment of doses and intervals resulted in significantly higher rates corticosteroid-free clinical remission than reactive monitoring (measuring trough concentration after loss of response). Clinicaltrials.gov no.: NCT02256462.
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2.
Total Thrombus-Formation Analysis System (T-TAS) Can Predict Periprocedural Bleeding Events in Patients Undergoing Catheter Ablation for Atrial Fibrillation.
Ito, M, Kaikita, K, Sueta, D, Ishii, M, Oimatsu, Y, Arima, Y, Iwashita, S, Takahashi, A, Hoshiyama, T, Kanazawa, H, et al
Journal of the American Heart Association. 2016;(1)
Abstract
BACKGROUND Non-vitamin K antagonist oral anticoagulants are used to prevent thromboembolism in patients with atrial fibrillation. The T-TAS "Total Thrombus-formation Analysis System" (Fujimori Kogyo Co Ltd) was developed for quantitative analysis of thrombus formation using microchips with thrombogenic surfaces (collagen, platelet chip [PL] ; collagen plus tissue factor, atheroma chip [AR]). We evaluated the utility of T-TAS in predicting periprocedural bleeding in atrial fibrillation patients undergoing catheter ablation (CA). METHODS AND RESULTS After exclusion of 20 from 148 consecutive patients undergoing CA, the remaining 128 patients were divided into 2 treatment groups: the warfarin group (n=30) and the non-vitamin K antagonist oral anticoagulants group (n=98). Blood samples obtained on the day of CA (anticoagulant-free point) and at 3 and 30 days after CA were used in T-TAS to compute the thrombus formation area under the curve (AUC; AUC for the first 10 minutes for PL tested at flow rate of 24 μL/min [PL24-AUC10]; AUC for the first 30 minutes for AR tested at flow rate of 10 μL/min [AR10-AUC30]). AR10-AUC30 and PL24-AUC10 levels were similar in the 2 groups on the day of CA. Levels of AR10-AUC30, but not PL24-AUC10, were significantly lower in the 2 groups at days 3 and 30 after CA. Multiple logistic regression analyses identified the AR10-AUC30 level on the day of CA as a significant predictor of periprocedural bleeding events (odds ratio 5.7; 95% CI 1.54-21.1; P=0.009). Receiver operating characteristic analysis showed that the AR10-AUC30 level on the day of CA significantly predicted periprocedural bleeding events (AUC 0.859, 95% CI 0.766-0.951; P<0.001). The cutoff AR10-AUC30 level was 1648 for identification of periprocedural bleeding events. CONCLUSIONS These results suggested that the AR10-AUC30 level determined by T-TAS is a potentially useful marker for prediction of bleeding events in atrial fibrillation patients undergoing CA.
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3.
Alternative calculations of individual patient time in therapeutic range while taking warfarin: results from the ROCKET AF trial.
Singer, DE, Hellkamp, AS, Yuan, Z, Lokhnygina, Y, Patel, MR, Piccini, JP, Hankey, GJ, Breithardt, G, Halperin, JL, Becker, RC, et al
Journal of the American Heart Association. 2015;(3):e001349
Abstract
BACKGROUND In the ROCKET AF (Rivaroxaban-Once-daily, oral, direct Factor Xa inhibition Compared with vitamin K antagonism for prevention of stroke and Embolism Trial in Atrial Fibrillation) trial, marked regional differences in control of warfarin anticoagulation, measured as the average individual patient time in the therapeutic range (iTTR) of the international normalized ratio (INR), were associated with longer inter-INR test intervals. The standard Rosendaal approach can produce biased low estimates of TTR after an appropriate dose change if the follow-up INR test interval is prolonged. We explored the effect of alternative calculations of TTR that more immediately account for dose changes on regional differences in mean iTTR in the ROCKET AF trial. METHODS AND RESULTS We used an INR imputation method that accounts for dose change. We compared group mean iTTR values between our dose change-based method with the standard Rosendaal method and determined that the differences between approaches depended on the balance of dose changes that produced in-range INRs ("corrections") versus INRs that were out of range in the opposite direction ("overshoots"). In ROCKET AF, the overall mean iTTR of 55.2% (Rosendaal) increased up to 3.1% by using the dose change-based approach, depending on assumptions. However, large inter-regional differences in anticoagulation control persisted. CONCLUSIONS TTR, the standard measure of control of warfarin anticoagulation, depends on imputing daily INR values for the vast majority of follow-up days. Our TTR calculation method may better reflect the impact of warfarin dose changes than the Rosendaal approach. In the ROCKET AF trial, this dose change-based approach led to a modest increase in overall mean iTTR but did not materially affect the large inter-regional differences previously reported. CLINICAL TRIAL REGISTRATION URL: ClinicalTrials.gov. Unique identifier: NCT00403767.
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4.
Impact of global geographic region on time in therapeutic range on warfarin anticoagulant therapy: data from the ROCKET AF clinical trial.
Singer, DE, Hellkamp, AS, Piccini, JP, Mahaffey, KW, Lokhnygina, Y, Pan, G, Halperin, JL, Becker, RC, Breithardt, G, Hankey, GJ, et al
Journal of the American Heart Association. 2013;(1):e000067
Abstract
BACKGROUND Vitamin K antagonist (VKA) therapy remains the most common method of stroke prevention in patients with atrial fibrillation. Time in therapeutic range (TTR) is a widely cited measure of the quality of VKA therapy. We sought to identify factors associated with TTR in a large, international clinical trial. METHODS AND RESULTS TTR (international normalized ratio [INR] 2.0 to 3.0) was determined using standard linear interpolation in patients randomized to warfarin in the ROCKET AF trial. Factors associated with TTR at the individual patient level (i-TTR) were determined via multivariable linear regression. Among 6983 patients taking warfarin, recruited from 45 countries grouped into 7 regions, the mean i-TTR was 55.2% (SD 21.3%) and the median i-TTR was 57.9% (interquartile range 43.0% to 70.6%). The mean time with INR <2 was 29.1% and the mean time with an INR >3 was 15.7%. While multiple clinical features were associated with i-TTR, dominant determinants were previous warfarin use (mean i-TTR of 61.1% for warfarin-experienced versus 47.4% in VKA-naïve patients) and geographic region where patients were managed (mean i-TTR varied from 64.1% to 35.9%). These effects persisted in multivariable analysis. Regions with the lowest i-TTRs had INR distributions shifted toward lower INR values and had longer inter-INR test intervals. CONCLUSIONS Independent of patient clinical features, the regional location of medical care is a dominant determinant of variation in i-TTR in global studies of warfarin. Regional differences in mean i-TTR are heavily influenced by subtherapeutic INR values and are associated with reduced frequency of INR testing. CLINICAL TRIAL REGISTRATION URL: ClinicalTrials.gov. Unique identifier: NCT00403767.
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5.
Tracking of serum 25-hydroxyvitamin D levels during 14 years in a population-based study and during 12 months in an intervention study.
Jorde, R, Sneve, M, Hutchinson, M, Emaus, N, Figenschau, Y, Grimnes, G
American journal of epidemiology. 2010;(8):903-8
Abstract
Low serum 25-hydroxyvitamin D (25(OH)D) levels are associated with risk factors for cardiovascular disease, and they also appear to predict later development of type 2 diabetes, cancer, and an increased mortality rate. These predictions are all based on a single 25(OH)D measurement, but so far there are no known reports on tracking of serum 25(OH)D levels. In the present Norwegian study, serum 25(OH)D levels were measured 1) in 2,668 subjects in the 1994 and 2008 Tromsø surveys and 2) every third month for 1 year in 94 subjects randomly assigned to placebo in a vitamin D intervention study. There was a marked seasonal variation in 25(OH)D, and, depending on the method of adjusting for season, the correlation coefficient between serum 25(OH)D measurements from 1994 and 2008 ranged from 0.42 to 0.52. In the 1-year intervention study, the correlation between baseline and 12-month values was 0.80. Apart from the effect of season, changes in weight, intake of vitamin D, and physical activity were related to change in serum 25(OH)D levels. Tracking of serum 25(OH)D appears similar to that for blood pressure and serum lipids, and it provides some support for the use of a single 25(OH)D measurement to predict future health outcomes.
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6.
Therapeutic drug monitoring of mycophenolate mofetil and enteric-coated mycophenolate sodium in patients with systemic lupus erythematosus.
Djabarouti, S, Duffau, P, Lazaro, E, Chapouly, C, Greib, C, Viallard, JF, Pellegrin, JL, Saux, MC, Breilh, D
Expert opinion on pharmacotherapy. 2010;(5):689-99
Abstract
OBJECTIVE Mycophenolic acid (MPA), the active form of mycophenolate mofetil (MMF) and enteric-coated mycophenolate sodium (EC-MPS), is used to treat systemic lupus erythematosus (SLE). MMF and EC-MPS pharmacokinetics were examined to devise guidance for therapeutic drug monitoring (TDM) for SLE patients with normal renal function. RESEARCH DESIGN AND METHODS This observational study included 21 patients receiving MMF (1000 mg twice daily) and 14 taking EC-MPS (720 mg twice daily). MPA AUC between 0 and 12 h (AUC(0-12h)), C(max), T(max), and 12-h trough concentrations (C(12h)) were determined. RESULTS Means of dose-normalized MMF- or EC-MPS-MPA C(max) were 64.6 +/- 25 and 61.4 +/- 27.1 h mg/l, respectively. MPA T(max) for EC-MPS was longer and more variable than for MMF. MMF-MPA AUC(0-12h) and C(12h) were correlated (r = 0.78, p = 0.0001), but EC-MPS-MPA C(max) and single concentrations were weakly correlated. A limited-sampling strategy (LSS) combining C(max) and C(12h) gave satisfactory predictive performance to estimate MPA AUC(0-12h) after EC-MPS administration. CONCLUSIONS For TDM in SLE patients with GFR > 60 ml/min/1.73 m(2), C(12h) after MMF ingestion could predict MPA AUC(0-12h), while an LSS around T(max) should be used for patients on EC-MPS.
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7.
Meta-analysis to assess the quality of warfarin control in atrial fibrillation patients in the United States.
Baker, WL, Cios, DA, Sander, SD, Coleman, CI
Journal of managed care pharmacy : JMCP. 2009;(3):244-52
Abstract
BACKGROUND Atrial fibrillation (AF) affects a significant proportion of the American population and increases ischemic stroke risk by 4- to 5-fold. Oral vitamin K antagonists, such as warfarin, can significantly reduce this stroke risk but can be difficult to dose and monitor. Previous research on the effects of setting (e.g., randomized controlled trials, anticoagulation management by specialty clinics, usual care by community physicians) on the proportion of time spent within therapeutic range for the international normalized ratio (INR) has not specifically examined anticoagulation in AF patients. OBJECTIVES Use traditional meta-analytic and meta-regressive techniques to evaluate the effect of specialty clinic versus usual care by community physicians on anticoagulation control, measured as the proportion of time spent in therapeutic INR range, for AF patients that received warfarin anticoagulation in the United States. METHODS Studies included in a previously published meta-analysis (van Walraven et al., 2006), which systematically searched reports between 1987 and 2005, were also screened for inclusion in our analysis. A subsequent systematic literature search of MEDLINE, EMBASE, and the Cochrane Central Register of Clinical Trials from January 2005 through February 2008 was conducted. Studies were included if they (a) contained at least 1 warfarin-treated group including more than 25 patients for whom INR control was monitored for at least 3 weeks; (b) included patients treated for AF in the United States; (c) used a patient-time approach (patient-year) to report outcomes; and (d) reported data on the proportion of time spent in traditional therapeutic INR ranges (i.e., a lower limit INR between 1.8 and 2.0 and an upper limit INR between 3.0 and 3.5. Studies with INR goals outside this range were excluded). The proportion of time spent within the therapeutic INR range for each study group was expressed as an incidence density using a person-time approach (in years). All studies were pooled using a random effects model and were weighted by the inverse of the variance of proportion of time spent in the therapeutic range. In order to determine how study setting influenced the proportion of time spent within a therapeutic INR range, both subgroup and meta-regression analyses were conducted. RESULTS This analysis included 8 studies and a total of 14 unique warfarin- treated groups; 3 of the 8 studies and 4 of the warfarin groups were not included in the previous meta-analysis (van Walraven et al., 2006). Overall, patients spent a mean 55% (95% CI = 51%-58%) of their time in the therapeutic INR range. Meta-regression suggested that AF patients treated in a community usual care setting compared with an anticoagulation clinic spent 11% (95% CI = 2%-20%, n = 6 studies with 9 study groups) less time in range. CONCLUSIONS In the United States, AF patients spend only about one-half the time within therapeutic INR. Anticoagulation clinic services are associated with somewhat better INR control compared with standard community care.
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8.
Comparison of indinavir + ritonavir 600 + 100 mg vs. 400 + 100 mg BID combinations in HIV1-infected patients guided by therapeutic drug monitoring.
Wasmuth, JC, Rodermann, E, Voigt, E, Vogel, M, Lauenroth-Mai, E, Jessen, A, Burger, D, Rockstroh, JK
European journal of medical research. 2007;(7):289-94
Abstract
OBJECTIVE To compare two reduced dose indinavir (IDV) + ritonavir (RTV) combinations guided by therapeutic drug monitoring (TDM) in treatment-naive HIV1-infected patients. METHODS HIV1-infected treatment naive patients were prospectively randomized to treatment with IDV 600 mg or 400 mg BID each in combination with RTV 100 mg BID. Boosted IDV was combined with 2 NRTI, and patients were followed for 48 weeks. IDV-trough levels and initially also peak levels (C2h) were performed to allow dose modification of IDV following a specified protocol. RESULTS 14 patients were randomized (age 38 +/- 10.4 years; mean +/- SD; 3 female, 11 male). 8 were treated with 600 mg (group 1), 6 with 400 mg IDV BID (group 2). Efficacy of treatment was good: CD4-cell count increased from 198/microl (14-523; median, range) to 371/microl (214-927) after 48 weeks (p<0.01). All but one patient with adherence problems achieved a viral load below the limit of detection. At the beginning two patients had plasma levels below 0.1 mg/l, most likely due to adherence problems. However, in the course of the observation period all patients had adequate plasma levels. 3 patients in group 1 could further reduce their IDV dose to 400 mg BID due to high plasma (peak and trough) levels. Rate of discontinuation was high (1: 4 pat., 2: 2 pat.), but only one discontinuation was possibly associated with IDV (alopecia; group 2). There were no significant changes in laboratory parameters (bilirubin, triglycerides, cholesterol) or suspicious urine results. Incidence and severity of adverse events was lower than in previous studies. CONCLUSION Despite the low number of patients it seems reasonable to state, that boosted IDV may be used in significantly reduced dose. Efficacy seemed not to be altered, whereas tolerability was improved.
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9.
Screening procedure for detection of stimulant laxatives and/or their metabolites in human urine using gas chromatography-mass spectrometry after enzymatic cleavage of conjugates and extractive methylation.
Beyer, J, Peters, FT, Maurer, HH
Therapeutic drug monitoring. 2005;(2):151-7
Abstract
A gas chromatography-mass spectrometry (GC-MS)-based screening procedure was developed for the detection of stimulant laxatives and/or their metabolites in human urine after enzymatic cleavage of conjugates followed by extractive methylation. The part of the phase-transfer catalyst remaining in the organic phase was removed by solid-phase extraction on a diol phase. The compounds were separated by capillary GC and identified by computerized MS in the full scan mode. By use of mass chromatography with the ions m/z 305, 290, 335, 320, 365, 350, 311, 326, 271, and 346, the possible presence of stimulant laxatives and/or their metabolites could be indicated. The identity of positive signals in such mass chromatograms was confirmed by comparison of the peaks underlying full mass spectra with the reference spectra. This method allowed the detection of the diphenol laxatives bisacodyl, picosulfate, and phenolphthalein and of the anthraquinone laxatives contained in plant extracts and/or their metabolites in human urine samples. The overall recoveries of the stimulant laxatives and/or their metabolites ranged between 33% and 89% with a coefficient of variation of less than 15%, and the limits of detection ranged between 10 and 25 ng/mL (S/N 3) in the full scan mode. After ingestion of the lowest therapeutic dose of sodium picosulfate, its main metabolite, bisacodyl diphenol, was detectable in urine samples for 72 hours. After ingestion of the lowest therapeutic dose of a senna extract, the main metabolite of sennosides, rhein, was detectable in urine samples for 24 hours. This procedure is part of a systematic toxicological analysis procedure for acidic drugs and poisons with the modification of enzymatic cleavage of conjugates.
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10.
Rapid determination method of caffeine and application to monitoring of caffeine-assisted chemotherapy.
Kawahara, M, Kagiyama, H, Kanazawa, Y, Tsuchiya, H, Tomita, K, Yokogawa, K, Miyamoto, K
Biopharmaceutics & drug disposition. 2004;(2):61-7
Abstract
Caffeine-assisted chemotherapy for bone and soft tissue tumours is very effective. However, high serum caffeine concentrations cause severe side effects, so monitoring of the serum level during therapy is important. For this purpose, a rapid determination method was established by high-performance liquid chromatography after solid-phase extraction. This method can measure caffeine and its three major metabolites in serum samples within 8 min. The mean serum caffeine concentrations of patients were 34.6+/-7.8, 54.5+/-11.9 and 73.0+/-12.8 microg/ml at 24, 48 and 72 h, respectively, after the start of a 1500 mg/m2/day continuous infusion for 72 h. The distribution volume of caffeine was 0.65+/-0.23 l/kg, and the total body clearance was 0.025+/-0.011 l/h/kg, which was one-third of the reported low dose clearance. The appropriate infusion rate was calculated to avoid severe side effects in the final phase of the infusion by using a one-compartment constant infusion model based on the serum levels measured at 24 and 48 h. Caffeine clearance did not correlate with the metabolite/caffeine ratio in serum at any time. It is concluded that individual monitoring with this method for the purpose of dose adjustment is useful for avoiding the side effects of caffeine-assisted chemotherapy.