Pascal Bonnabry

Analysis of anticancer drugs: a review.

In the last decades, the number of patients receiving chemotherapy has considerably increased. Given the toxicity of cytotoxic agents to humans (not only for patients but also for healthcare professionals), the development of reliable analytical methods to analyse these compounds became necessary. From the discovery of new substances to patient administration, all pharmaceutical fields are concerned with the analysis of cytotoxic drugs. In this review, the use of methods to analyse cytotoxic agents in various matrices, such as pharmaceutical formulations and biological and environmental samples, is discussed. Thus, an overview of reported analytical methods for the determination of the most commonly used anticancer drugs is given.

Temporal effects of antibiotic use and hand rub consumption on the incidence of MRSA and Clostridium difficile

OBJECTIVES The aim of this study was to determine the temporal relation between the use of antibiotics and alcohol-based hand rubs (ABHRs) and the incidence of methicillin-resistant Staphylococcus aureus (MRSA) and Clostridium difficile. METHODS An interventional time-series analysis was performed to evaluate the impact of two promotion campaigns on the consumption of ABHRs and to assess their effect on the incidence of non-duplicate clinical isolates of MRSA and C. difficile from February 2000 through September 2006. This analysis was combined with a transfer function model of aggregated data on antibiotic use. RESULTS Consumption of ABHRs correlated with MRSA, but not with C. difficile. The final model demonstrated the immediate effect of the second hand hygiene promotion campaign and an additional temporal effect of fluoroquinolone (time lag, 1 month; i.e. antibiotic effect delayed for 1 month), macrolide (lag 1 and 4 months), broad-spectrum cephalosporins (lag 3, 4 and 5 months) and piperacillin/tazobactam (lag 3 months) use. The final model explained 57% of the MRSA variance over time. In contrast, the model for C. difficile showed only an effect for broad-spectrum cephalosporins (lag 1 month). CONCLUSIONS We observed an aggregate-level relation between the monthly MRSA incidence and the use of different antibiotic classes and increased consumption of ABHR after a successful hand hygiene campaign, while no association with ABHR use was detected for C. difficile.

A Risk Analysis Method to Evaluate the Impact of a Computerized Provider Order Entry System on Patient Safety

OBJECTIVES Quantitative evaluation of safety after the implementation of a computerized provider order entry (CPOE) system, stratification of residual risks to drive future developments. DESIGN Comparative risk analysis of the drug prescription process before and after the implementation of CPOE system, according to the Failure Modes, Effects and Criticality Analysis (FMECA) method. MEASUREMENTS The failure modes were defined and their criticality indices calculated on the basis of the likelihood of occurrence, potential severity for patients, and detection probability. Criticality indices of handwritten and electronic prescriptions were compared, the acceptability of residual risks was discussed. Further developments were proposed and their potential impact on the safety was estimated. RESULTS The sum of criticality indices of 27 identified failure modes was 3813 for the handwritten prescription, 2930 (-23%) for CPOE system, and 1658 (-57%) with 14 enhancements. The major safety improvements were observed for errors due to ambiguous, incomplete or illegible orders (-245 points), wrong dose determination (-217) and interactions (-196). Implementation of targeted pop-ups to remind treatment adaptation (-189), vital signs (-140), and automatic edition of documents needed for the dispensation (-126) were the most promising proposed improvements. CONCLUSION The impact of a CPOE system on patient safety strongly depends on the implemented functions and their ergonomics. The use of risk analysis helps to quantitatively evaluate the relationship between a system and patient safety and to build a strategy for continuous quality improvement, by selecting the most appropriate improvements to the system.

Use of a systematic risk analysis method to improve safety in the production of paediatric parenteral nutrition solutions

Background: Until recently, the preparation of paediatric parenteral nutrition formulations in our institution included re-transcription and manual compounding of the mixture. Although no significant clinical problems have occurred, re-engineering of this high risk activity was undertaken to improve its safety. Several changes have been implemented including new prescription software, direct recording on a server, automatic printing of the labels, and creation of a file used to pilot a BAXA MM 12 automatic compounder. The objectives of this study were to compare the risks associated with the old and new processes, to quantify the improved safety with the new process, and to identify the major residual risks. Methods: A failure modes, effects, and criticality analysis (FMECA) was performed by a multidisciplinary team. A cause-effect diagram was built, the failure modes were defined, and the criticality index (CI) was determined for each of them on the basis of the likelihood of occurrence, the severity of the potential effect, and the detection probability. The CIs for each failure mode were compared for the old and new processes and the risk reduction was quantified. Results: The sum of the CIs of all 18 identified failure modes was 3415 for the old process and 1397 for the new (reduction of 59%). The new process reduced the CIs of the different failure modes by a mean factor of 7. The CI was smaller with the new process for 15 failure modes, unchanged for two, and slightly increased for one. The greatest reduction (by a factor of 36) concerned re-transcription errors, followed by readability problems (by a factor of 30) and chemical cross contamination (by a factor of 10). The most critical steps in the new process were labelling mistakes (CI 315, maximum 810), failure to detect a dosage or product mistake (CI 288), failure to detect a typing error during the prescription (CI 175), and microbial contamination (CI 126). Conclusions: Modification of the process resulted in a significant risk reduction as shown by risk analysis. Residual failure opportunities were also quantified, allowing additional actions to be taken to reduce the risk of labelling mistakes. This study illustrates the usefulness of prospective risk analysis methods in healthcare processes. More systematic use of risk analysis is needed to guide continuous safety improvement of high risk activities.

Use of Transdermal Drug Formulations in the Elderly

Transdermal drug delivery systems are pharmaceutical forms designed to administer a drug through the skin to obtain a systemic effect. They ensure a constant rate of drug administration and a prolonged action. Several different types of transdermal delivery devices are available on the market. They are either matrix or reservoir systems and their main current uses are to treat neurological disorders, pain and coronary artery disease, and as hormone replacement therapy.Transdermal drug administration has a number of advantages compared with the oral route: it avoids gastrointestinal absorption and hepatic first-pass metabolism, minimizes adverse effects arising from peak plasma drug concentrations and improves patient compliance. Compared with the parenteral route, transdermal administration entails no risk of infection. For elderly people, who are often polymedicated, transdermal drug delivery can be a good alternative route of administration.Transdermal absorption depends on passive diffusion through the different layers of the skin. As skin undergoes many structural and functional changes with increasing age, it would be useful to know whether these alterations affect the transdermal diffusion of drugs. Studies have shown that age-related changes in hydration and lipidic structure result in an increased barrier function of the stratum corneum only for relatively hydrophilic compounds. In practice, no significant differences in absorption of drugs from transdermal delivery systems have been demonstrated between young and old individuals. The need for dose adaptation in elderly patients using transdermal drug delivery systems is therefore not related to differences in skin absorption but rather to age-related cardiovascular, cerebral, hepatic and/or renal compromise, and to ensuing geriatric pharmacokinetic and pharmacodynamic changes.

Role of human liver microsomal CYP2C9 in the biotransformation of lornoxicam

AbstractObjective: The nature of the enzyme(s) catalysing the biotransformation of lornoxicam to one of its major metabolites, 5′-hydroxy-lornoxicam, has been investigated in human liver microsomes. The reaction kinetics were characterised, the affinity of lornoxicam for three major human drug metabolising cytochrome P-450 isozymes (CYP2C9, CYP2D6 and CYP3A4) was determined, and inhibition of the reaction by known substrates (diclofenac, ibuprofen, mefenamic acid, phenytoin, tolbutamide and warfarin) and the prototype inhibitor (sulphaphenazole) of CYP2C9 was investigated. Results: Lornoxicam 5′-hydroxylation displayed single enzyme Michaelis-Menten kinetics, with a KM of 3.6 μmol·l-1 and a Vmax of 2.6 nmol·h-1·mg-1 microsomal protein. The apparent affinity of lornoxicam was high for CYP2C9, but negligible for CYP3A4 and CYP2D6. Inhibition of lornoxicam 5′-hydroxylation by CYP2C9 substrates and sulphaphenazole was comparable in all livers preparations, values predicted from their KM or Ki for CYP2C9 determined in separate studies assuming competitive inhibition. Sulphaphenazole competitively and completely inhibited lornoxicam 5′-hydroxylation (Ki=0.31 μmol·l-1) as well as lornoxicam clearance (Ki=0.33 μmol·l-1), partial metabolic clearance (fm)=0.95). Conclusion: 5′-Hydroxylation appears to be the only cytochrome P-450 catalysed metabolic reaction of lornoxicam by human liver microsomes and this major in vivo biotransformation pathway is catalysed virtually exclusively by CYP2C9.

Modelling the impact of antibiotic use on antibiotic-resistant Escherichia coli using population-based data from a large hospital and its surrounding community

OBJECTIVES To determine the temporal relationship between antibiotic use and incidence of antibiotic-resistant Escherichia coli in both the inpatient and outpatient setting of a large urban area. METHODS A retrospective observational time-series analysis was performed to evaluate the incidence of non-duplicate clinical isolates of E. coli resistant to ciprofloxacin, trimethoprim/sulfamethoxazole and cefepime from January 2000 through December 2007, combined with a transfer function model of aggregated data on antibiotic use in both settings obtained from the hospitals pharmacy and outpatient billing offices. RESULTS Ciprofloxacin resistance increased from 6.0% (2000) to 15.4% (2007; P<0.0001) and cefepime resistance from 0.9% (2002) to 3.2% (2007; P=0.01). Trimethoprim/sulfamethoxazole resistance remained stable (23.7%-25.8%). Total antibiotic use increased in both settings, while fluoroquinolone use increased significantly only among outpatients. A temporal effect between fluoroquinolone resistance in community E. coli isolates and outpatient use of ciprofloxacin (immediate effect and time lag 1 month) and moxifloxacin (time lag 4 months) was observed, explaining 51% of the variance over time. The incidence of cefepime resistance in E. coli was correlated with ciprofloxacin use in the inpatient (lag 1 month) and outpatient (lag 4 months) settings and with the use of ceftriaxone (lag 0 month), piperacillin/tazobactam (3 months) and cefepime (3 months) in the hospital (R2=51%). CONCLUSIONS These results support efforts to reduce prescribing of fluoroquinolones for control of resistant E. coli including extended-spectrum β-lactamase producers and show the added value of time-series analysis to better understand the interaction between community and hospital antibiotic prescribing and its spill-over effect on antibiotic resistance.

Reliable low-cost capillary electrophoresis device for drug quality control and counterfeit medicines

The proportion of counterfeit medicines is dramatically increasing these last few years. According to numerous official sources, in some pharmaceutical wholesalers in African countries, the proportion has reached 80%. Unfortunately, this situation is far to be improved due to lack of suitable analytical equipment allowing rapid actions of the Regulatory Agencies based on scientific consideration, at affordable cost and all over the drug supply chain. For that purpose, a network group considered that mater by building a low-cost original capillary electrophoresis (CE) equipment equipped with a new deep UV detector based on LED technology. The generic conditions for analysis were investigated: capillary zone electrophoresis (CZE) performed at acidic pH for basic drug molecules (i.e., quinine, highly used as the last antimalarial rampart), basic pH for compounds such as furosemide (a common diuretic drug) and at neutral pH for a well known antibiotic combination, trimethoprim/sulfamethoxazol. To evaluate the ability of the CE equipment for quantification, a full validation and a method comparison study were carried out for the CZE method dedicated to quinine determination. The validation involved the use of accuracy profile and total error concept to monitor the adequacy of the results obtained by the new prototype. The method comparison was based on the Bland and Altman approach by comparing results obtained by the low-cost CE and a conventional set-up. Subsequent validation studies were realized with neutral and acidic drug molecules, each focusing on a single concentration level calibration curve in order to maintain as low as possible the expenses due to reagents and thus the cost of analysis, as important advantages of CE for drug quality control.

Subcutaneous administration of drugs in the elderly: survey of practice and systematic literature review.

Objectives and method: Survey of subcutaneous drug use and hypodermoclysis with a standardized questionnaire to 27 nursing teams and 52 physicians in a geriatric hospital department (404 beds). Evaluation of license status (CH, F, D and UK) and systematic literature review of 34 drugs used in the geriatric setting. Results: Subcutaneous route is used daily with drugs and fluids mostly for patients in palliative care (83%) or who are dehydrated (54%) when oral or IV administration is impossible (73%, 68% respectively). Morphine (98%), haloperidol (90%), furosemide (69%) and hydromorphone (56%) by bolus (36%) or slow injection over 5 min (82%) are the main drugs used and NaCl 0.9% (95%), and glucose 5%/NaCl 0.9% (31%) are commonly used for rehydration. Among the 34 drugs reviewed, only 13 (38%) are licensed for subcutaneous use in CH, UK, F or D, and only morphine (14 articles of 68) and rehydration (six articles) are evaluated in high level studies. Haloperidol and furosemide are used off-label and there are no well-designed studies supporting their subcutaneous use. Conclusion: There is a lack of information on drugs widely used by subcutaneous route in the elderly. In that context, physicians carry responsibility for the prescription.

Microbial contamination of syringes during preparation: The direct influence of environmental cleanliness and risk manipulations on end-product quality

PURPOSE The direct influence of environmental cleanliness and risk manipulations on prepared syringes was evaluated. METHODS Media-fill testing was used to estimate potential microbial contamination. Syringes were prepared in three different environments using four different uncontrolled high-risk manipulations. The three environments included an International Organization for Standardization (ISO) class 5 horizontal laminar-airflow hood in an ISO class 6 cleanroom (in accordance with United States Pharmacopeia [USP] chapter 797), an ISO class 7 drug preparation area of an operating room, and an uncontrolled decentralized pharmacy in a ward. For each combination of environment and manipulation, 100 syringes were filled by a single operator. The four high-risk manipulations used included simple filling of syringes with trypticase soy broth, three-second contact by the ungloved fingers of the operator with the hub of the syringe, three-second contact between an object and the hub of the syringe, and exposure of the filled syringes to ambient air for 10 minutes. RESULTS Of the 1500 syringes prepared in three different environments, none produced within the cleanroom contained microorganisms, 6% were contaminated in the operating room, and 16% were contaminated in the ward (p < 0.0001). Certain high-risk manipulations were associated with a significant increase in the contamination of the surrogate syringes, including exposure to nonsterile ambient air and nonsterile objects or fingers (p < 0.0001). CONCLUSION High contamination rates were measured when the hub of syringes touched nonsterile environmental surfaces and fingers, whereas the drawn-air manipulation was associated with a lower risk of contamination. Working within a properly operating unidirectional airflow primary engineering control in an ISO class 5 cleanroom in accordance with USP chapter 797 requirements was demonstrated to be the best way to avoid bacterial or fungal contamination of injectable drugs directly resulting in patient infections.