P59 A quality assurance program in cancer clinical trials

P59 A quality assurance program in cancer clinical trials

451 Abstracts other studys' usage. The VSR is also a vehicle to communicate system updates, bug fixes, new features, new developments in the computi...

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451

Abstracts

other studys' usage. The VSR is also a vehicle to communicate system updates, bug fixes, new features, new developments in the computing industry, and new software to the user community. To relieve the tedium of so many numbers, comic relief is provided on the back page showing that systems people do have a sense of humor. The report also serves as a quick reference when informarion is requested for grants renewals or internal reports. The VSR provides a mechanism to distribute information regarding a study's use of system and data management resources which contributes to the efficient use of these resources.

!'57 BMDPLOT: PUBLICATION-QUALITY SURVIVAL PLOTS FROM BMDP OUTPUT S. Corley and K. Davis

University of Washington Seattle, Washington The BMDPLOT program produces publicarion-quality survival plots from line-printer out-put generated by BMDP survival analysis programs 1L and 2L on VAX VMS computers. The plots may be printed on any PostScript-type laser printer or on an HP 7550 pen plotter. The program is written in VAX FORTRAN with calls to the GKS (Graphical Kernel System) run-rime library of graphics functions. The computer on which the program is to be run must be equipped with GKS. BMDP program 1L estimates a survivor function (i.e., survival curse) using either of two methods-actuarial life table or product-limit. BMDP program 2L performs survival analysis with covariates. BMDPLOT can produce five types of plots depending on the BMDP program 1L using the life table method, one type (cumulative survival) for BMDP program 1L using the product-limit method, and two types (Cox-Snell residual and cumulative hazard) for BMDP program 2L. BMDPLOT can process up to 99 problems (or subproblems) per BMDP job and up to six gr.oups and six strata per problem or sub-problem. BMDPLOT allows the user to specify various plot characteristics (such as plot rifle, axis labels, and axis lengths) or to accept the default characteristics determined by the program.

P58 CLUSTER SAMPLING TO ESTIMATE KEY ENTRY ERROR RATES Lesly A. Pearce

Statistics and Epidemiology Research Corporation Seattle, Washington Quality control in a clinical trial includes estimating the key entry error rate. The number of fields on a form, the number of expected records in the database, and also the error rate are dependent on the form type. We sampled 249 forms (5.2%) containing 9815 fields (3.8%) entered in a distributed data ...... entry__system_as _partof _qualitycontrol in the initial _Phaseof the Stroke Prevention in Atrial Fibrillation (SPAF) study. Individual forms, or clusters of fields, were sampled randomly from within each stratum, or form type. Some or all forms of a given form type were sampled. Unbiased estimates of the error rate and variance were then computed using cluster sampling techniques within a stratum, weighting and summing stratum estimates to then compute the overall rate and variance. Estimation by strict random sampling would have required a fewer number of fields to be sampled (2.3 %), however, a much larger number of forms (approaching 100%) would have been solicited from the clinical sites. While simple random sampling does provide a basis for determining the number of forms necessary to sample within a stratum, cluster sampling is clearly a more efficient method for estimating the error rate and its variance.

i'59 A QUALITY ASSURANCE PROGRAM IN CANCER CLINICAL TRIALS

Joyce Niland, Tamara Odom-Maryon and Christine Blevins

City of Hope National Medical Center Duarte, California

The City of Hope Department of Biostaristics provides data management support for 200 cancer clinical trials. A Quality Assurance (QA) program has been implemented to monitor investigator compliance to protocols, and the quality of data collection. The Protocol Compliance Committee

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(PCC) was formed in 1988 to audit in-house treatment protocols which are not subject to external review. PCC members include a physician from each major clinical department, a data manager, and a protocol nurse. Recommendations for improved trial conduct stemming from P e c audits have included: 1) formation of a Tumor Measurement Committee; 2) use of pre-stamped progress notes to obtain needed protocol Oat_a; and 3) elimination of protocol tests with low cost/benefit ratios. In addition to the PCC, the quality and completeness of data collection are monitored through twice yearly audits of each data manager by the department's Quality Control Coordinator. The QA goals are to: 1) achieve calculated error rates of < 10% on each form; 2) identify required areas of retraining; and 3) provide input into annual performance evaluations. The operational aspects and realized benefits of these QA programs will be discussed.

P60 INTERFACING MICROSOFT EXCEL 4.0 ® AND SAS® FOR REPORT GENERATION IN CLINICAL TRIALS Robert R. Goodwill and Peter N. Peduzzi

Veterans Affairs Medical Center West Haven, Connecticut Report generation is an important aspect of clinical trials. The ability to easily generate tables and graphs is the goal of all trialists. In this paper we describe the interfacing of SAS and EXCEL 4.0 to produce high quality reports. Although SAS is excellent for manipulating large data bases, it is cumbersome for generating tables and graphs because of the extensive programming required to format them. Microsoft EXCEL version 4.0 offers a simple and easy way to produce tables and graphs but lacks the facility to manipulate large data bases. The use of EXCEL's menu driven package allows nonprogrammingstaff the ability to produce desk top publishing quality looking tables by creating table templates. SAS data sets can than be read into templates by converting the SAS output to an ASCII file. By combining the data management features of SAS and the formatting ease of EXCEL, the task of producing tables and graphs can be greatly reduced.

P61 AN AUTOMATED TELEPHONE RESPONSE SYSTEM

S. Pollizzi, P. Wilkins, G. Bowden and B. Thompson Maryland Medical Research Institute Baltimore, Maryland Maryland Medical Research Institute (MMRI) staff developed the Automated Telephone Response System (ATRS) to support critical functions necessary for the management of clinical trials. The ATRS provides round-the-clock access to these functions by clinical center staff located world-wide. The equipment required at the clinical centers is a touch-tone phone and a facsimile machine. When using this system the user responds to recorded questions by pressing the keys on the touch-tone telephone. Experience for one Clinical Trial: Duration: 8 Months Number of Patients: 901 Number of kits required: 1100 Average randomizations: 3.5 per day In summary, a system was developed which required minimum clinical center expense and experience to have access to the ATRS. The ATRS proved to be easy and reliable to use. The system provided the means to maintain tight control over drug distribution which resulted in lower total cost of providing drug for the clinical trial.