Biological and environmental monitoring of hospital personnel exposed to antineoplastic agents: a review of analytical methods

Occupational exposure to antineoplastic drugs in seven Italian hospitals: the effect of quality assurance and adherence to guidelines

In health care facilities, dermal contact and inhalation are considered to be the main routes of exposure to cytotoxic antineoplastic drugs (ADs). Hand-to-mouth contamination or accidental needle sticks as well as events due to inadequate disposal may also contribute to exposure. In order to measure the extent of contamination, biological and environmental monitoring are essential tools for routine testing. Moreover, reliable sampling and analytical procedures are required. During the last decade, several methods have been developed and validated. The appropriate analytical techniques were used to quantify even very low levels of some of the more commonly used ADs, such as cyclophosphamide, 5-fluoruracil, taxol, anthracyclines, and platinum-compounds. The main objective of this study is to assess the adherence to existing standards of practice through an effective monitoring program, including environmental and biological measurements. In seven hospitals located in Northern-Central Italy, periodic surveys were scheduled to verify continuing compliance with guidelines over a 5-year period. All biological samples were found to be below detection limits and a progressive, significant decrease in workplace contamination was observed. Our results confirm that a cost-effective monitoring regime, including fast and simple sample pre-treatment procedures, simultaneous determination of the analytes and their metabolites, validated procedures including uncertainty evaluation, and periodic surveys, is the adequate approach for the collection of reliable exposure data and hence for effective intervention.

Antineoplastic Drugs as a Potential Risk Factor in Occupational Settings: Mechanisms of Action at the Cell Level, Genotoxic Effects, and Their Detection Using Different Biomarkers

U članku je prikazana osnovna podjela antineoplastičnih lijekova prema mehanizmima djelovanja na razini stanice. Objašnjeni su mehanizmi genotoksičnosti najvažnijih vrsta lijekova koji se primjenjuju u okviru uobičajenih protokola za liječenje zloćudnih novotvorina. Navedena je važeća klasifikacija antineoplastika prema kancerogenom potencijalu, podaci o mutagenom potencijalu te je prikazana njihova podjela u skladu s anatomsko-terapijsko-kemijskim sustavom klasifikacije. Sustavno su prikazani najvažniji rezultati svjetskih i hrvatskih istraživanja na populacijama radnika izloženih antineoplasticima, provedenih u razdoblju 1980.-2009. s pomoću četiri najčešće primjenjivane metode: analize izmjena sestrinskih kromatida, analize kromosomskih aberacija, mikronukleus-testa i komet-testa. Objašnjena su osnovna načela navedenih metoda te raspravljene njihove prednosti i nedostaci. Biološki pokazatelji daju važne podatke o individualnoj osjetljivosti profesionalno izloženih ispitanika koji mogu poslužiti unaprjeđenju postojećih uvjeta rada i upravljanju rizicima pri izloženosti genotoksičnim agensima. Na osnovi prednosti i nedostataka citogenetičkih metoda zaključeno je da je mikronukleus-test, koji podjednako uspješno dokazuje klastogene i aneugene učinke, jedna od najboljih metoda dostupnih za otkrivanje štetnih djelovanja antineoplastičnih lijekova koji su u aktivnoj primjeni.

Reduction in surface contamination with antineoplastic drugs in 22 hospital pharmacies in the US following implementation of a closed-system drug transfer device

PURPOSE

Surface contamination with the antineoplastic drugs cyclophosphamide, ifosfamide, and 5-fluorouracil was compared in 22 US hospital pharmacies following preparation with standard drug preparation techniques or the PhaSeal® closed-system drug transfer device (CSTD).

METHODS

Wipe samples were taken from biological safety cabinet (BSC) surfaces, BSC airfoils, floors in front of BSCs, and counters and analyzed for contamination with cyclophosphamide, ifosfamide, and 5-fluorouracil. Contamination was reassessed several months after the implementation of the CSTD. Surface contamination (ng/cm(2)) was compared between the two techniques and evaluated with the Signed Rank Test.

RESULTS

Using the CSTD compared to the standard preparation techniques, a significant reduction in levels of contamination was observed for all drugs (cyclophosphamide: p < 0.0001; ifosfamide: p < 0.001; 5-fluorouracil: p < 0.01). Median values for surface contamination with cyclophosphamide, ifosfamide, and 5-fluorouracil were reduced by 95%, 90%, and 65%, respectively.

CONCLUSIONS

Use of the CSTD significantly reduces surface contamination when preparing cyclophosphamide, ifosfamide, and 5-fluorouracil as compared to standard drug preparation techniques.

A preliminary study on the occurrence of cytostatic drugs in hospital effluents in Beijing, China

Cytostatic drugs are used in cancer therapy. They can enter hospital wastewater due to excretion by patients undergoing chemotherapy. Little attention has been paid to these drugs in China even though their usage is high. The effluents of 21 hospitals of different size in Beijing, China, were investigated on 1-7 different days. Nine cytostatic compounds (methotrexate, azathioprine, doxorubicin, doxorubicinol, vincristine, ifosfamide, cyclophosphamide, etoposide, and procarbazine) were tested. Of the 65 effluent samples analyzed, the median concentrations for methotrexate, azathioprine, ifosfamide, cyclophosphamide and etoposide were 17, 15, 151, 100 and 42 ng/L, respectively. Doxorubicin, doxorubicinol, vincristine and procarbazine were not detected in this study. These results suggested that the hospital effluents are an important source of certain cytostatic drugs in aqueous environment.

Guidance values for surface monitoring of antineoplastic drugs in German pharmacies

OBJECTIVES

Antineoplastic drugs are widely used in anticancer therapy due to their cytotoxic activity but many of them are classified as carcinogenic, mutagenic, or teratogenic to humans. In order to evaluate personal exposure, surface monitoring has been successfully applied for several years. In this study, we present a statistical description of our data set from 102 German pharmacies and propose 'threshold guidance values (TGVs)' to facilitate interpretation of monitoring results.

METHODS

Our database included 1008 results for platinum (PT) and 1237 for 5-fluorouracil (FU) collected in 102 pharmacies in Germany. Wipe sampling on site was performed with one validated procedure. PT concentrations were measured by voltammetry and FU by gas chromatography/mass spectrometry. Data were stratified into 10 locations and statistically evaluated.

RESULTS

Contamination was detected on all surfaces in the pharmacies with high levels on storage shelves and floors. The median values for the different locations ranged from 0.20 to 1.70 pg cm(-2) (mean: 0.57 pg cm(-2)) for PT and from 2.50 to 10.00 pg cm(-2) (mean: 5.34 pg cm(-2)) for FU. The mean 75th percentiles were 3.92 pg cm(-2) (PT) and 28.90 pg cm(-2) (FU). The TGV 1 value was set at the median value and results below demonstrate good working practices. Contaminations above the TGV 2, which was assigned at the 75th percentile, show a clear need for optimizing the handling procedures.

CONCLUSIONS

The introduction of TGVs helps to reduce occupational exposure and allows pharmacy personnel to benchmark their own contamination levels. This provides a basis for improvement in occupational safety precautions and for regular contamination controls.

The genotoxic risk in health care workers occupationally exposed to cytotoxic drugs--a comprehensive evaluation by the SCE assay

Present study aimed at an integral assessment of sister chromatid exchange (SCE) frequencies in the health care workers occupationally exposed to cytostatics. The results of 500 individual analyses were evaluated. Drug handling practice was investigated in parallel and the results showed that cytostatics are mostly prepared outside hospital pharmacy (98%) and mainly handled by nurses (96%). Mean frequency of SCE was 5.63 +/- 2.28, while HFC represented 9.65% of the cells analysed. Both values were higher compared to previously established control values for Croatian population. The duration of exposure, profession, age, gender, smoking habit, medical exposures, and simultaneous exposure to other occupational mutagens significantly contributed to SCE and HFC values. The usefulness both biomarkers in the assessment of cytogenetic damage is confirmed. Since current practice in Croatian hospitals does not include regular monitoring of workplaces, to ensure maximal occupational safety, a surveillance on exposed health care workers, including periodic biomonitoring, is recommended.

Simultaneous determination of cyclophosphamide, ifosfamide, doxorubicin, epirubicin and daunorubicin in human urine using high-performance liquid chromatography/electrospray ionization tandem mass spectrometry: bioanalytical method validation

A reversed-phase high-performance liquid chromatography (rp-HPLC) system interfaced with an electrospray ionization (ESI) source coupled to tandem mass spectrometry (MS/MS) was developed and validated for the determination of cyclophosphamide (CP), ifosfamide (IF), daunorubicin (DNR), doxorubicin (DXR), and epirubicin (EPI) in human urine. The analysis of samples containing multiple analytes with a dissimilar range of polarities was carried out using a conventional reversed-phase chromatographic BDS Hypersil C8 column. The analytical run was 15 min. The triple quadrupole mass spectrometer was operated in positive ion mode and multiple reaction monitoring (MRM) was used for drug quantification. The method was validated over a concentration range of 0.2 to 4.0 microg.L(-1) for CP, IF, DXR, EPI and 0.15-2.0 microg.L(-1) for DNR in human urine. The lower limit of quantification (LLOQ) was 0.2 microg.L(-1) for CP, IF, EPI and was set at 0.3 and 0.15 microg.L(-1) for DXR and DNR, respectively. The relative standard deviations (RSD%) were <11.2% for inter- and intra-day precisions. The overall accuracy was also within 114.7% for all analytes at the concentrations of the quality control samples. The potential of ionization suppression resulting from the endogenous biological material on the rp-HPLC/MS/MS method was evaluated and measured. The feasibility of the proposed HPLC/ESI-MS/MS procedure was demonstrated by analyzing urine samples from pharmacy technicians and nurses working in hospitals or personnel employed in drug-manufacturing plants.

Evaluation of surface contamination in a hospital hematology—oncology pharmacy

Objective. To describe environmental contamination with hazardous drugs in a hospital pharmacy setting before and after reorganizing a hematology— oncology satellite pharmacy.

Methods. This is a descriptive study of surface contamination with cyclophosphamide, ifosfamide, and methotrexate in two hematology—oncology satellite pharmacies. In order to measure surface contamination with hazardous drugs, samples from four distinct measurement sites within the pharmacy were taken in each of the two phases (pre-and postphases) using a sampling procedure and an analytical method modified from Larson et al.

Results. A total of 133 samples from four measurement sites were taken and analyzed over the course of the study (specifically 60 prephase samples and 73 postphase samples). The study showed a significant increase in the number of positive samples (from 66.7% to 90.4%, p<0.001) from the pre- to the postphase. The increase, however, is only significant in terms of the location where completed preparations were placed after they had come out from under the hood (from 0/15 to 21/28, p<0.001) and the work surface (from 8/15 to 15/15, p = 0.006) and only in terms of ifosfamide. Furthermore, for the other sites studied, the number of positive samples remained unchanged between the pre- and postphase. A statistically significant difference between the pre- and postphase was observed in terms of ifosfamide for three of the four measurement sites studied and methotrexate for one of the four sites. Average concentrations were higher in the post phase in three of the four cases.

Conclusion. This study describes environmental contamination with hazardous drugs in a hospital pharmacy setting before and after reorganizing a hematology—oncology satellite pharmacy. The study showed that a refitting of the hemato-oncology pharmacy is not a sufficient strategy to reduce the environmental contamination by ifosfamide because a significant increase in the number of positive samples from the pre- to the postphase have been observed. Many factors can contribute to influence the contamination of hazardous drugs such as the workflow and the training of the personal. Continuous environmental surveillance of hazardous drugs is required to document traces and help reduce risks. J Oncol Pharm Practice (2009) 15: 53—61.

The application of inductively coupled plasma mass spectrometry in clinical pharmacological oncology research

Metal-based anticancer agents are frequently used in the treatment of a wide variety of cancer types. The monitoring of these anticancer agents in biological samples is important to understand their pharmacokinetics, pharmacodynamics, and metabolism. In addition, determination of metals originating from anticancer agents is relevant to assess occupational exposure of health care personnel working with these drugs. The high sensitivity of inductively coupled plasma mass spectrometry (ICP-MS) has resulted in an increased popularity of this technique for the analysis of metal-based anticancer drugs. In addition to the quantitative analysis of the metal of interest in a sample, ICP-MS can be used as an ultrasensitive metal selective detector in combination with speciation techniques such as liquid chromatography. In the current review we provide a systematic survey of publications describing the analysis of platinum- and ruthenium-containing anticancer agents using ICP-MS, focused on the determination of total metal concentrations and on the speciation of metal compounds in biological fluids, DNA- and protein-adducts, and environmental samples. We conclude that ICP-MS is a powerful tool for the quantitative analysis of metal-based anticancer agents from multiple sample sources.

Spill and leakage using a drug preparation system based on double-filter technology

Occupational exposure to cytotoxic drugs has frequently been reported during recent years. Various drug-handling systems have been applied to reduce the spill and leakage that cause this exposure. Some of these systems have also been tested for spill and leakage using independent test methods. In this paper, a new drug-handling system has been tested for spill and leakage during drug preparation. The handling system, Tevadaptortrade mark, was tested using a modification of an independent test method, the Technetium test method, based on the use of Technetium m-99 as tracer substance. The test results showed that the spill was <100 nl for all 75 preparations and was <1 nl for 70 of the preparations. This is comparable with other tested drug-handling system, e.g. isolators, PhaSealtrade mark. The test shows that the Tevadaptor drug-handling system has similar performance as drug-handling systems regarded as closed systems.

Occupational exposure to antineoplastic agents induces a high level of chromosome damage. Lack of an effect of GST polymorphisms

The aim of our study was to investigate whether occupational exposure to antineoplastic drugs (AND) resulted in genetic damage, possibly indicative of adverse health effects in the long term. We performed a chromosomal aberrations (CA) analysis in peripheral blood lymphocytes (PBL) of a group of 76 trained nurses occupationally exposed to AND. Furthermore, we analysed whether genetic polymorphisms in four metabolic genes of the glutathione S-transferase (GST) family involved in antineoplastic drugs detoxification (GSTM1, GSTT1, GSTP1, GSTA1) had any effect on the yield of chromosomal aberrations in nurses exposed to antineoplastic agents. The exposed group showed a very significant increase of genetic damage (p<0.0001) potentially indicative of an increased risk of cancer. Unexpectedly, besides the elevated level of chromatid-type aberrations usually related to exposure to chemical agents, we found also severe chromosome damages such as chromosome deletions and dicentric chromosomes, usually related to radiation exposure. No significant association was detected between all GSTs genotypes and chromosome damage. In conclusion, our data show how the occupational exposure to AND is associated to a potential cancer risk, suggesting that current prevention methods do not completely eliminate opportunities for exposure and supporting the need to improve the actual safety practices.

Monitoring of platinum surface contamination in seven Dutch hospital pharmacies using inductively coupled plasma mass spectrometry

OBJECTIVE

To develop, validate, and apply a method for the determination of platinum contamination, originating from cisplatinum, oxaliplatinum, and carboplatinum.

METHODS

Inductively coupled plasma mass spectrometry (ICP-MS) was used to determine platinum in wipe samples. The sampling procedure and the analytical conditions were optimised and the assay was validated. The method was applied to measure surface contamination in seven Dutch hospital pharmacies.

RESULTS

The developed method allowed reproducible quantification of 0.50 ng l(-1) platinum (5 pg/wipe sample). Recoveries for stainless steel and linoleum surfaces ranged between 50.4 and 81.4% for the different platinum compounds tested. Platinum contamination was reported in 88% of the wipe samples. Although a substantial variation in surface contamination of the pharmacies was noticed, in most pharmacies, the laminar-airflow (LAF) hoods, the floor in front of the LAF hoods, door handles, and handles of service hatches showed positive results. This demonstrates that contamination is spread throughout the preparation rooms.

CONCLUSION

We developed and validated an ultra sensitive and reliable ICP-MS method for the determination of platinum in surface samples. Surface contamination with platinum was observed in all hospital pharmacies sampled. The interpretation of these results is, however, complicated.

Program to monitor surface contamination by methotrexate in a hematology–oncology satellite pharmacy

PURPOSE

The results of contamination monitoring during a one-year pilot period are described.

SUMMARY

A hematology-oncology satellite pharmacy conducted contamination monitoring for one year, using methotrexate as the index marker. From January 12, 2005, to December 21, 2005, 40 sampling sessions occurred during which 238 wipe samples (excluding positive controls) were collected. Each week, seven wipe samples were prepared by pharmacy technicians. Samples were obtained from the blank reference (site 0), the external metallic window frame of the main biological safety cabinet (BSC) (site 1), the back of the phone receiver (site 2), the external surface of an i.v. solution bag that was inside the BSC the previous hour (site 3), a working surface used for the final packaging and labeling (site 4), and the floor of the preparation room (site 5). The sixth sample was a positive methotrexate control. The methotrexate was detected by a high-performance liquid chromatograph with a fluorometric detector. Five samples tested positive for methotrexate-two from site 1, one from site 2, one from site 4, and one from site 0 (the blank); the last finding was thought to have most likely been the result of an error or sample mix-up during the wipe-sampling procedures. Despite differences in the sampling methods used, the type of wetting solution used, and the volume of desorption solution, the results were consistent with the literature in terms of few positive results.

CONCLUSION

A program was developed to monitor surface contamination by methotrexate in a hematology-oncology satellite pharmacy.

Simultaneous determination of gemcitabine, taxol, cyclophosphamide and ifosfamide in wipe samples by high-performance liquid chromatography/tandem mass spectrometry: protocol of validation and uncertainty of measurement

Measurable levels of anticancer agents are still detected on work surfaces in health-care settings. However, application of recent guidelines for the protection of workers' safety and health has resulted in lowered contamination levels. To assess occupational exposure to antineoplastic agents, very sensitive and specific procedures for environmental sampling and analysis are therefore needed. In the present study an assay for simultaneous determination of gemcitabine, taxol, cyclophosphamide, and ifosfamide in wipe samples, using two internal standards (trofosfamide and cephalomannine), was developed and validated by high-performance liquid chromatography/tandem mass spectrometry (HPLC/MS/MS). Solid-phase extraction (SPE) was used for sample concentration and cleanup. The assay was found to be linear up to 1000 ng/wipe, with limits of quantitation of 25.0 ng/wipe for gemcitabine and taxol, and 12.5 ng/wipe for cyclophosphamide and ifosfamide. In order to investigate the effectiveness of the surface sampling, removal efficiency tests were repeated on different types of surfaces. Recovery rates of between 62 and 81% were obtained at two contamination levels (50.0 and 250 ng/100 cm2). Precision and trueness were determined on three different days. The within-day precision was found to be always less than 12.1% for all the analytes. The overall precision, expressed as relative standard deviation (RSD), was always less than 9.4%. Recoveries varying from 75.0 (gemcitabine) to 95.0% (taxol) were obtained at three levels. In order to obtain a quantitative indication of the quality of the result, the overall uncertainty of measurement (UOM) was evaluated according to the EURACHEM/CITAC guide. The relative combined uncertainty was found to be always less than 9.5%. The relative expanded uncertainty was also calculated, at three contamination levels.

Residual Hazard Assessment Related to Handling of Antineoplastic Drugs: Safety System Evolution and Quality Assurance of Analytical Measurement

Despite improvement of operating procedures and publication of safety guidelines, contamination is still observed in healthcare settings where antineoplastic drugs (ADs) are handled. Even after cleaning work areas, some residual contamination may still be present. Zero percent contamination is not a realistic goal, but the scientific community should set zero contamination as its main goal. The strategies to reach this objective may be traced based on the followings: (a) a wider number of drugs should be monitored; (b) safety equipment and devices must be available to the workers; (c) the likely source of widespread contamination in workplaces is the safety cabinet; (d) direct determination of the parent drug or its metabolite in urine is the recommended approach because it provides higher sensitivity and specificity; (e) reliable analytical methods are necessary to measure the extent of contamination; and (f) analytical methods intended to be applied for routine testing must be assessed through method validation studies. These studies rely on the determination of overall method performance parameters including uncertainty measurement. Our laboratory has developed and validated a number of analytical methods for the determination of several drugs in environmental and biological samples. Surveys were carried out in several hospitals, and there has been progressive, significant decrease in the number of positive samples, mostly due to the improvement of working procedures and safety measures.

Hazardous Anticancer Drugs in Health Care: Environmental Exposure Assessment

Exposure of healthcare workers to anticancer drugs became problematic in the 1970s. Shortly thereafter, studies began documenting exposure of healthcare workers to these drugs. Investigations employing biological markers, such as urine mutagenicity, chromosomal aberrations, sister chromatid exchanges, and micronuclei, demonstrated associations between occupational exposures and elevated marker levels. Other analytical methods emerged to monitor workplaces where drugs were handled. These contemporary studies uncovered widespread contamination of drugs on work surfaces, trace amounts in air samples, and their presence in the urine of workers. Vials containing these drugs are often contaminated with the drug when they are shipped. Most workplace surfaces are contaminated with the drugs being prepared and used in that area. Other anticancer/hazardous drugs would most likely be used in these areas. The interior surfaces of biological safety cabinets and isolators, floors, countertops, carts, storage bins, waste containers, treatment areas, tabletops, chairs, linen, and other items are all potential sources of exposure to anticancer drugs. Patient body fluids contain the drugs and/or metabolites, often more biologically active than the parent compounds. An exposure assessment of areas where anticancer/hazardous drugs are handled must consider every potential source and route of exposure. Data from surface contamination and inhalation studies suggest that dermal exposure is the primary route of exposure. Assessment of exposure is the first step in providing a safe work environment for these workers. However, because of the many drugs to which they are exposed, any assessment can only be an estimation of the overall exposure.

Validation protocol and analytical quality in biological monitoring of occupational exposure to antineoplastic drugs

Occupational exposure to antineoplastic cytostatic drugs has been recognized as a potential health hazard since the seventies. Safety guidelines and recommendations have been published in several countries in order to improve operating procedures and keep exposure levels as low as possible. Nevertheless, contamination still occurs. With a view to preventing exposure, standardized authorized methods and a mandatory monitoring system appear to be an essential prerequisite. First of all, reliable analytical methods are necessary, and a wide number of drugs should be monitored, on the basis of the continual change in the treatment protocols. In fact, most of the methods available in the literature were not properly validated, and a lack of details concerning quality assurance is clearly observed. When assessing analytical methods applied for routine testing, validation studies are of utmost importance. Not only performance parameters, such as sensitivity, specificity, LOD and LLQ, should therefore be determined, but also the uncertainty of measurement, which gives a measure of the confidence that can be placed on the results.

Analysis of antibiotics in urine and wipe samples from environmental and biological monitoring—Comparison of HPLC with UV-, single MS- and tandem MS-detection

Results of the simultaneous determination of the structurally different antibiotics cefazoline, cefotiame, cefuroxime, chloramphenicol, ciprofloxacin, ofloxacin, sulfamethoxazole and trimethoprim from environmental and biological monitoring using high-performance liquid chromatography with UV, single mass and tandem mass spectrometry were compared. For sample enrichment and clean-up a SPE method using bakerbond C18 cartridges was developed. Mean recovery rates were above 70%. Because of the complex urine matrix, only the wipe samples could be analyzed by UV-detection. However, UV-detection and single MS-detection are useful for control measurements after spillage, e.g. (LOD=1-2 ng/cm(2)). Samples from biological monitoring of occupational uptake should be analyzed by LC-MS/MS. The limits of detection (LOD) in urine ranged from 0.4 to 70 microg/L for LC-MS and 0.01 to 0.9 microg/L for LC-MS/MS detection. The limits of detection in wipe samples ranged from 0.003 to 0.13 ng/cm(2).

Assay of urinaryα-fluoro-β-alanine by gas chromatography–mass spectrometry for the biological monitoring of occupational exposure to 5-fluorouracil in oncology nurses and pharmacy technicians

The validation of an analytical method for the measurement of the unnatural amino acid alpha-fluoro-beta-alanine (AFBA), the main metabolite of the antineoplastic drug 5-fluorouracil (5FU), in urine for the biological monitoring of the exposure of hospital workers to the drug when preparing the therapeutical doses and administering to cancer patients is described. The method employed a two-step extractive derivatization of the analyte from urine to the N-trifluoroacety-n-butyl ester derivative and detection by selected-ion monitoring gas chromatography-mass spectrometry of structurally specific fragments. The limit of detection was 20 ng/mL with quantification accuracy better than +/-20% and precision (CV%) better than +/-20% in the range 0.020-10 microg/mL. Norleucine was used as the internal standard and the sample-to-sample analysis time was less than 15 min. The validated method has been applied to the biological monitoring of some hospital workers potentially exposed to 5FU and to matched control subjects. On a total number of 65 analyzed urine samples from control and exposed subjects, only three, obtained from exposed subjects, were found to be positive, with values of 20, 30 and 1150 ng/mL, respectively.

Mono- and diiodocyclophosphamide as possible internal standards for cyclophosphamide quantification: characterization by ion trap multi-stage mass spectrometry and effects of iodine-chlorine substitution on the fragmentation pattern

Hospital personnel involved in antineoplastic drug preparation and administration to patients are exposed to large amounts of these drugs. Labour legislation indicates the necessity of planning monitoring strategies aimed at prevention and/or reduction of drug exposure. Monitoring strategies consist of quantitative determinations of indicators, present in environmental and biological matrices. Among the antineoplastic drugs widely used, cyclophosphamide (CP) has been identified as a suitable indicator of potential exposure to mixtures of antineoplastic drugs. Many literature methods for quantitative analysis of CP involve either liquid (LC) or gas chromatography (GC) with mass spectrometry (MS), both of which require use of a suitable internal standard. The present work focuses on the synthesis of mono- and diiodocyclophosphamide (CPI and CPI(2)) to be used as internal standard. These compounds were analyzed by GC/EI-MS/MS and LC/ESI-MS(n) using ion trap mass spectrometry. The product ion mass spectra are interpreted in terms of proposed structures of fragment ions. Iodine-chlorine substitution resulted in a weakening of the carbon-halogen bond with a noteworthy influence on the ion fragmentation processes. The proposed suitability of CPI and CPI(2) as internal standards was based on similarities to CP as regards ionization and fragmentation processes. The results obtained suggest that CPI could be used as internal standard for CP quantification by LC/ESI-MS/MS, and CPI(2) for GC/EI-MS/MS analyses.

Highly sensitive high-performance liquid chromatography/selective reaction monitoring mass spectrometry method for the determination of cyclophosphamide and ifosfamide in urine of health care workers exposed to antineoplastic agents

In recent years, the potential for exposure of health care workers to antineoplastic agents has led to the establishment of more restrictive government and professional standards and procedures for handling cytotoxic drugs. Therefore, the detection of low exposure levels is a new and important aim of biological monitoring. In the present paper we report an assay for the simultaneous determination of cyclophosphamide (CP) and ifosfamide (IF) in urine, using electrospray ionization liquid chromatography/tandem mass spectrometry with selective reaction monitoring (HPLC/SRM-MS). A rapid sample preparation procedure uses a solid-phase extraction stage with C18 columns. The urine assay is linear over the range 0.02 to 0.4 microg/L, with lower limits of quantification (LLOQs) of 0.02 and 0.04 microg/L for CP and IF. The accuracy and precision have been carried out through the validation study. The intra-day precision, expressed as relative standard deviation (RSD), is found to be always less than 14.7% for both analytes. The overall precision, assessed on three different days, is less than 15.0%. The recovery of ozaxaphosphorines ranges from 83.5% (CP) to 88.5% (IF) with a RSD always less than 14.6%. The uncertainty of the overall method was also evaluated, to identify possible sources of error. The combined uncertainty was less than 25% over all the days of the validation study. This method is selective and sensitive enough to determine trace levels of CP and IF in a range of urine concentrations relevant to performing low exposure assessment.