Abstract:
A method is provided for verification of the identification of a patient undergoing radiation treatment administered by a treatment technologist in a treatment room. An identifying card for the patient is provided which is part of the patient&#39;s treatment file and which includes an identifying optical code capable of being read by an optical reader located within the treatment room. The treatment technologist causes the identifying card of the treatment file to be read by the optical reader in the treatment room, and a characteristic audio signal, previously assigned to the patient and known to the patient and the treatment technologist, is generated in response to the reading of the identifying card when there is a match between the identifying optical code and a stored identifying code for the patient. If an audio signal is generated responsive to reading of the card, both the patient and technologist listen to the signal, and checks are made and treatment of the patient is at least temporarily withheld if the patient and technologist do not agree that the audio signal generated is the characteristic audio signal assigned to the patient. The identifying card also includes a photograph of the patient which is used by the technologist in identifying the patient.

Description:
CROSS-RELATIONSHIP TO OTHER APPLICATIONS 
     The present application claims benefit of priority of U.S. Provisional Application Ser. No. 60/153,243 filed on Sep. 13, 1999; No. 60/155,644 filed on Sep. 24, 1999; No. 60/155,800 filed on Sep. 27, 1999; No. 60/161,416 filed on Oct. 25, 1999; and No. 60/163,084 filed on Nov. 2, 1999. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates to record and verify systems used in radiation therapy and, more particularly, to an improved record and verification system for such use which includes a number of important features and advantages as compared with prior art systems including those currently in use. 
     BACKGROUND OF THE INVENTION 
     By way of background, it is instructive to briefly consider the history of verify and record systems used in connection with radiation therapy treatment of patients using linear accelerators or other megavoltage radiation units. Verify and record systems were originally designed to verify that radiation treatments were set up correctly by the radiation therapy technologist (RTT). This was accomplished through verification that certain key parameters were within predetermined tolerances. The verify and record process has evolved more recently into an automated set-up procedure that emphasizes rapid through-put, while de-emphasizing verification of treatment parameters that previously were set manually by the RTT. Some record and verify systems currently in use actually take control of the manual process by changing physician-selected field sizes, even though the field sizes fall within selected tolerance limits. The trend toward automated systems has led to reduced interaction between the user and the accelerator which has both positive and negative implications. The philosophy of delivering radiation treatment based on an automated set-up model is grounded in the desire to reduce the potential for human error in the set-up process. The downside of the automated or “black box” approach is the disengagement of the RTT from parameter adjustment, i.e., in relieving the RTT of the task of setting the patient treatment parameters through adjustment of the linear accelerator. The negative aspect of this is that if the RTT does not have to set the parameters manually, the RTT is less conditioned to perform the function manually and, therefore, less conditioned to detect errors when these errors occur, whether these errors are dosimetry programming or process errors and whether these errors occur in manual or automated set-up modes. When the RTT is detached from the procedure of manually setting up the patient for treatment, it becomes more difficult for the overall treatment process to recover should the automated process fail. In this regard, when an RTT sets up a patient manually, the RTT “rehearses” the recovery procedure that would be used if the automated primary process should fail. However, when automated set-ups are employed, the RTT is less “rehearsed” in recovering efficiently when the automated process is not available, because such rehearsal of recovery procedures is not integral to automated treatment delivery. 
     Given current trends in the medical industry, the trend toward automated set-up is irreversible. Further, because of a number of factors including cost pressures, the trend toward staffing reduction is irreversible, at least in the near term. It also appears clear that the electronic record will not totally replace the paper chart, at least not in the near term. In this regard, even if it were proven better for patient care to chart electronically, physician resistance will hinder widespread adoption in the foreseeable future. In general, physicians will not abandon paper charts, either from habit or for medical-legal reasons. Accordingly, the need for maintaining a paper record during implementation of electronic medical record keeping will continue. As a consequence, a further vulnerability of automated radiation treatment systems (in addition to the disengagement of the RTT from the manual recovery process when the automated system is temporarily down), is the potential for mismatches between the electronic record and the paper medical record. These mismatches are commonly due to a failure of the RTT to document treatments in the paper record when the automated system logs the event. The problem of electronic record and paper mismatches is increasing in the specialty of radiation oncology, as reported by clinical medical physicists. 
     It should be understood that disengagement of the RTT from the manual recovery process increases risk for patient care because the verify and record systems, in many recent configurations, do not check for human error. Record and verify systems, when programmed and executed correctly, can prevent some errors, but not all. Record and verify systems in current use cannot detect human errors when the system itself is the primary process. Additionally, as indicated above, the disengagement of the RTT from linear accelerator parameter adjustment also can disengage the RTT from subtle cues regarding patient identification and radiation field placement. It would be desirable if record and verify systems were configurable to allow automated set-ups at selected times for certain radiation therapy technologists and not for others, such as, for example, when the manual skills of selected RTTs are being assessed. However, the overall trend is clearly toward automated set-up because of the improved throughput which results, as well as the industry-wide momentum toward multi-leaf collimator therapy, which is more optimally performed with automation. 
     Greater automated throughput can lead to greater risk for other reasons as well. Increased automation means greater potential for a mistake occurring through dose calculation error, with the danger of the error being repeated without prompt detection once the error does occur. The emphasis on throughput also increases the probability of errors in the actual treatment process, characterized by patient identification errors, field sequence errors and field alignment errors. Major preventable ways to harm patients through treatment process failures include (1) treating the wrong patient, i.e., treating a patient with a radiation treatment intended for another patient; (2) treating the right patient, but on a day when the patient is not supposed to receive treatment until other evaluations are performed first (e.g., treating a patient when the patient was supposed to have been seen by the doctor prior to the treatment delivery), and (3) treating the right patient but with the improper treatment set-up, i.e., treating with a wedged field without a wedge, treating with the wrong monitor units (MU) programmed into the accelerator, or treating with the wrong energy. In addition, as described above, in the event that the record and verify device should be temporarily unavailable due to a network, or other, problem, there is a distinct possibility or even an increased probability of parameter selection errors due to human error, because the process of automation can change the behavior of the user. It is noted that more combination chemotherapy with radiation increases toxicity and therefore increases the potential harm that may occur to a patient if the patient receives the wrong treatment or if the patient is treated without proper evaluation before treatment. Moreover, pushing patients to the limit of tissue tolerance increases the potential for adverse events. Automated treatment may increase the possibility of undetected mistakes related to automated set-up, thereby increasing the possibility of patient injury. 
     As indicated above, the transition to automated treatment system tends to distract the RTTs for a number of reasons. First, and very basically, the new technology creates a new process. Further, the new process diverts RTTs from traditional cross checks in the treatment room. This is true of systems now in use such as the Varis, Impac and Lantis. In addition, visual distractions are created and the RTTs are diverted from paper chart documentation which can be critical in the safe treatment of a patient. 
     SUMMARY OF THE INVENTION 
     In accordance with the invention, a record and verify method is provided which addresses the issues discussed above. Among other advantages, the method of the invention assists in verification of patient identity, and, according to an important feature, enlists the patient in the identification process. The invention also documents electronically and manually which RTT was responsible for final parameter verification, including documenting the treated patient, and time of cross-check, and thus avoiding electronic record and paper record mismatches. The patient identification component is installed at a workstation and functions even if the system network is down, thereby maintaining an accountability trail as part of the recovery procedure from network failure. 
     In accordance with a first aspect of the invention, a method is provided for verification of the identification of a patient undergoing radiation treatment administered by a treatment technologist in a treatment room using a radiation source, the method comprising: 
     providing an identifying card for the patient including an identifying optical code capable of being read by an optical reader located within the treatment room; 
     causing the identifying card to be read by said optical reader in the treatment room; 
     generating a characteristic audio signal, previously assigned to the patient and known to the patient and the treatment technologist, in response to the reading of the identifying card when there is a match between the identifying optical code and a stored identifying code for the patient; and 
     at least temporarily withholding treatment of the patient if the patient and technologist do not agree that any audio signal generated is the characteristic audio signal assigned to the patient. 
     In an advantageous implementation, the identifying card includes a photograph of the patient and the photograph is used by the technologist in identifying the patient. 
     Preferably, the identification card is affixed to a treatment file containing treatment data for use by the technologist during treatment, and the card affixed to the treatment file is caused to be read by the technologist thereby ensuring that the technologist takes the treatment file into the treatment room. 
     In a preferred embodiment, the method further comprises generating an electronic record comprising treatment data associated with the treatment to be administered and including said identifying optical code, causing the identifying optical code of the electronic record to be read by a further optical reader in the treatment room, generating said characteristic audio signal in response to reading of said identifying code of the electronic record, and at least temporarily withholding treatment if the patient and the technologist do not agree that any audio signal generated in response to the reading of the identifying code of the electronic record is the characteristic audio signal assigned to the patient. Advantageously, the optical readers are caused to read the respective optical codes of the card and the electronic record at closely spaced times. Advantageously, the respective optical codes are caused to be read by different technologists. In an advantageous embodiment, the optical readers are located on opposite walls of the treatment room. Preferably, the optical readers are each a part of respective verification stations located at different locations inside of the treatment room and the stored identifying code is stored at a verification workstation located outside of the treatment room and linked to the respective verification stations. 
     More generally, where there is only one optical reader inside the treatment room, the optical reader is preferably part of a first verification station located inside of the treatment room and the stored identifying code is stored at a verification workstation located outside of the treatment room and linked to the verification station inside the treatment room. 
     In accordance with a further aspect of the invention which combines some of the features discussed above, a method is provided for identification, and verification of the identification, of a patient undergoing radiation treatment by a radiation source administered by a treatment technologist in a treatment room, the method comprising: 
     providing a treatment file for the patient to be treated containing a prescribed treatment regimen for the patient; 
     providing an identifying card affixed to the treatment file and including a photograph of the patient together with an identifying optical code capable of being read by an optical reader located within the treatment room; 
     causing the identifying card of the treatment file to be read by the optical reader in the treatment room; 
     generating a characteristic audio signal known to the patient and the treatment technologist in response to the reading of the identifying card when there is a match between the identifying optical code and a stored identifying code for the patient; and 
     providing for checking of the treatment file by the technologist if the patient and technologist do not agree that the audio signal generated is the characteristic audio signal assigned to the patient. 
     As with the method above, the method of this aspect of the invention preferably comprises generating an electronic record comprising treatment data associated with the treatment to be administered and including said identifying optical code, causing the identifying optical code of the electronic record to be read by a further optical reader in the treatment room, generating said characteristic audio signal in response to reading of said identifying code of the electronic record, and checking the treatment file and at least temporarily withholding treatment by the technologist if the patient and the technologist do not agree that any audio signal generated in response to said reading of the identifying code of the electronic record is the characteristic audio signal assigned to the patient. As above, the optical readers are preferably caused to read the respective optical codes of the card and the electronic record at closely spaced times, and, in an advantageous implementation, are caused to be read by different technologists. 
     As discussed in connection with the first aspect of the invention, the optical readers are preferably located on opposite walls of the treatment room. More generally, the optical readers are each a part of respective verification stations located at different locations inside of the treatment room and, advantageously, the stored identifying code is stored at a verification workstation located outside of the treatment room and linked to the respective verification stations. 
     In accordance with yet another aspect of the invention, a record and verify method for use with a radiation therapy system including, located in a treatment room, a radiation treatment device for providing radiation treatment and a treatment monitor for monitoring the treatment provided by the treatment device, the method comprising: 
     (a) using a patient chart for a patient to be treated to enter treatment data into the treatment monitor; 
     (b) retrieving stored treatment data for use at a verification monitor; 
     (c) sending the entered treatment data to the verification monitor for comparison with the stored treatment data; 
     (d) comparing each data entry of the entered treatment data with a corresponding stored data point of the stored treatment data; 
     (e) using the verification monitor to output an identifier for each data entry which, based on said comparison, is outside of predetermined tolerances; 
     (f) correcting, as necessary, the data entered into the treatment monitor based on the output received from said verification monitor to produce corrected treatment data; 
     (g) generating an electronic record of the corrected treatment data; 
     (h) using a high speed printer to print the prescribed treatment data on a paper verification sheet; 
     (i) cross checking the corrected treatment data with previous treatment data; 
     (j) when the printed paper verification sheet is checked and determined to be accurate, using the radiation treatment device in treating the patient so as to generate actual core treatment data; 
     (k) printing said actual treatment data on the verification sheet to produce an updated verification sheet; 
     (l) after completion of a final treatment field of the radiation treatment, reviewing and signing off on the updated verification sheet; 
     (m) manually entering the actual data obtained from the treatment monitor into the patient&#39;s chart and reviewing and signing off on the manual entry of the actual data on the patient&#39;s chart; and 
     (n) checking the core treatment data on the printed hard copy against the actual treatment data entered into the patient&#39;s chart and, if there is agreement, signing off on the patient&#39;s chart and the paper verification sheet. 
     Preferably, first and second radiation technologists carry out the method, and the first therapist is responsible for steps (a), (c), (f), (j) and (m) and the second therapist is responsible for steps (a), (b), (d), (e), (g), (h), (i), (k), (l) and (n). Advantageously, the first therapist also reviews and signs off on the paper verification sheet upon completion of the method. 
     In accordance with still a further aspect of the invention, a treatment verification method is provided for use with a radiation therapy system including a radiation treatment device for providing radiation treatment, the method comprising: 
     a) providing automated and manual set up options for setting of treatment field values for the radiation treatment device wherein, in the automated option, treatment field values are automatically entered as received from a computer at a verification station and wherein, in the manual option, the treatment field values are entered by a technologist at a radiation treatment device workstation; 
     b) setting different predetermined tolerances based on whether the treatment field values are to be entered in an automated manner by the computer in accordance with said automated option or are to be entered manually by the technologist in accordance with said manual option; 
     c) selecting between said options and proceeding with the selected option; 
     d) comparing each data entry for the entered treatment field values with a corresponding stored data point of stored treatment field values; and 
     e) using the verification monitor to output an identifier for each data entry which, based on said comparison, is outside of the predetermined tolerances for the option selected. 
     In accordance with yet another aspect of the invention, a verification system is provided for use in verification of the identity of a patient about to undergo radiation treatment administered to the patient by radiation source in a treatment room under the control of at least one treatment therapist and monitored by a treatment monitor located in the treatment room, said system comprising: 
     a verification workstation, located outside of the treatment room, including means for storing a patient identifying code for the patient; and 
     at least one verification station linked to said verification workstation and located within the treatment room at spaced locations on opposite sides of the radiation source, said at least one verification station including an optical reader and means for generating an audible output assigned to the patient, responsive to said optical reader reading a patient identifying code assigned to the patient that matches the patient identifying code stored at the verification workstation. 
     Preferably, first and second verification stations are provided which are located within the treatment room at spaced locations on opposite sides of the radiation source. 
     Further features and advantages of the present invention will be set forth in, or apparent from, the detailed description of preferred embodiments thereof which follows. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a block diagram of a record and verify system in accordance with one preferred embodiment of the invention; 
     FIG. 2 is a flow chart of an initial consultation sequence involving the patient to be treated; and 
     FIGS. 3A,  3 B,  3 C and  3 D, taken together, are a flow chart of a record and verify method in accordance with one preferred embodiment of the invention. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Referring to FIG. 1, a block diagram is provided of one preferred embodiment of the overall system. A treatment room  10  includes a conventional linear accelerator  12  which administers the radiation treatment to the patient and which may be any conventional analog or digital system. Two laser verification stations  14 A and  14 B are provided in the treatment room  10  along with a treatment monitor  16 . The stations  14 A and  14 B are identical and each preferably includes a respective barcode reader  15 A and  15 B and a speaker  17 A and  17 B placed into a single mountable box (not shown). In a preferred embodiment, the verification stations  14 A and  14 B are located across the treatment room  10  from each other, just beyond the isocenter in the direction of the maze, with the linear accelerator  12  being located between the stations  14 A and  14 B. Further, the stations  14 A and  14 B should be situated so that a first technologist, Technologist A, is able to scan a chart or identification card or photograph (not shown) at station  14 A on the wall (the left wall is viewed in FIG. 1) while a second technologist, Technologist B, is able to scan a patient&#39;s paper verification sheet (as referred to as an electronic sheet, or e-Sheet) at station  14 B on the opposite (right) wall. As described below, the e-Sheet is a verification sheet used by the technologist during treatment which shows scheduled and actual treatments. With this setup, each technologist faces towards the gantry of the accelerator  10  and the patient. It is possible to scan the chart on the right rather than the left wall but the e Sheet would then have to be scanned on the left wall scanner. It is understood that while the terms “therapist” are used throughout, the actions described can be carried out by qualified person including qualified doctors, nurses and other hospital personnel and these terms are intended to cover this. 
     The treatment monitor  16  is used to display the name of the patient and the treatment field values, i.e., the actual fields which are used by the accelerator  10  and which are verified by the verification system. A typical listing of the treatment fields is provided in Table 1 below. 
     
       
         
               
             
               
               
             
               
               
             
           
               
                 TABLE 1 
               
             
             
               
                   
               
               
                 Treatment Chart Fields and Descriptions 
               
             
          
           
               
                 Number 
                 Description 
               
               
                   
               
             
          
           
               
                 1 
                 Hospital Reference Number 
               
               
                 2 
                 Radiation Oncology Number 
               
               
                 3 
                 Protocol Number 
               
               
                 4 
                 Patient&#39;s Date of Birth 
               
               
                 5 
                 Referring Doctor&#39;s Name, Address, Phone Number and 
               
               
                   
                 Identification number 
               
               
                 6 
                 Patient&#39;s Name 
               
               
                 7 
                 Patient&#39;s Address 
               
               
                 8 
                 Patient&#39;s Home Phone Number 
               
               
                 9 
                 Patient&#39;s Work Phone Number 
               
               
                 10 
                 Patient&#39;s Diagnosis 
               
               
                 11 
                 Diagnosis ICU-9 Code 
               
               
                 12 
                 Palliative or Radical 
               
               
                 13 
                 Definitive 
               
               
                 14 
                 Adjuvant 
               
               
                 15 
                 Pre-Op 
               
               
                 16 
                 Post-Op 
               
               
                 17 
                 Chemotherapy 
               
               
                 18 
                 Series Number 
               
               
                 19 
                 Current Date 
               
               
                 20 
                 Site to be treated 
               
               
                 21 
                 Field Description 
               
               
                 22 
                 Rx Dose 
               
               
                 23 
                 Dose per Fraction 
               
               
                 24 
                 Cumulative Dose 
               
               
                 25 
                 Number of Fractions 
               
               
                 26 
                 Energy 
               
               
                 27 
                 Modify 
               
               
                 28 
                 Reassess 
               
               
                 29 
                 Stop 
               
               
                 30 
                 Planned Rest 
               
               
                 31 
                 Total Treatments Planned 
               
               
                 32 
                 Physician Signature 
               
               
                 33 
                 Previous Radiation Technologist 
               
               
                 34 
                 Consent Signed 
               
               
                 35 
                 Collimator Size 
               
               
                 36 
                 SAD/SSD 
               
               
                 37 
                 Gantry Angle 
               
               
                 39 
                 Collimator Angle 
               
               
                 40 
                 Drum/Table Angle 
               
               
                 41 
                 Tray/Wedge 
               
               
                 42 
                 Monitor Units 
               
               
                 43 
                 Comments 
               
               
                 44 
                 Port Film Verifications 
               
               
                 45 
                 Inpatient/Outpatient 
               
               
                 46 
                 Elapsed day count for number of treatments (can start at 0) 
               
               
                 47 
                 Radiation Treatment Technologist 
               
               
                 48 
                 Monitor Units 
               
               
                 49 
                 Tumor Dose Cumulative dosage 
               
               
                 50 
                 Physics 
               
               
                   
               
             
          
         
       
     
     Located outside of the treatment room in a treatment console area  18  is a verification workstation  20  including a verification monitor  22  (e.g., a standard twenty-one inch color monitor) and an associated high-speed printer  24  connected to the verification workstation  20 . Also located in area  18  is an accelerator workstation  26  including a card swipe reader  27  and an accelerator monitor  28 . The verification workstation  20  basically comprises a personal computer (e.g., NT 4.0) with a keyboard and mouse, which are not illustrated, together with a barcode reader which is shown separately at  21  and a mounted card swipe reader shown separately at  23 . The workstation  20  preferably has a minimum of a 10-Megabyte hard drive and 64 Megabytes of memory. 
     As indicated in FIG. 1, the system also includes a fileserver  30  for the verification workstation  20  which is normally located in a secured room  32 . Preferably, there is a TCP/IP connection from the verification station  20 , and the file server  30  has enough memory to support at least one verification workstation. The system may also include further, optional verification workstations  34  for running an administration function described below. 
     For shorthand purposes, the method of the invention will be referred to hereinbelow as the VEEBAT (Verify Easily Electronically Before and After Treatment) method or process, and the verification workstation  20  will also be referred to as the VEEBAT workstation. Moreover, certain terminology will be used which is explained below and which, for the sake of convenience, is capitalized in the description which follows and also defined in the glossary set forth below. 
     Before consideration of the process in detail, it is noted that the VEEBAT process may take various paths based on its configuration. For example, the configuration may be set up for each patient daily, or just once. The basic configurable parameters are Treatment Fields, technologist, patient and day of the week. Any combination of parameters may be configured. The VEEBAT verification process may be run at the verification (VEEBAT) workstation  20  in an Auto Setup Mode or Manual Setup Mode. The mode refers to how the Treatment Field Values are entered into the accelerometer (PRIMUS) workstation  26 . A Manual Setup will have the Treatment Field Values manually entered at the accelerator workstation  26  and an Auto Setup will have the Field Values automatically downloaded from the VEEBAT workstation  20  which electronically sends the treatment parameters automatically to the Accelerator workstation  26 . The VEEBAT process may be configured for Auto or Manual Setup based on four parameters: the technologist, the patient, the current day, and the treatment. The technologist parameter has highest priority, i.e., if a particular technologist is configured for VEEBAT Manual only, then Manual will take precedence over Auto setup. 
     It is noted that the process is configured for two laser verification stations  14 A and  14 B in the treatment room  10  but may be overridden to operate with one of the laser verification stations if the other laser verification station fails. 
     Regarding the VEEBAT workstation  20 , the process is configured with the single, above-mentioned barcode reader  21  located at the VEEBAT workstation  20  with the VEEBAT Verification Function. The VEEBAT workstation barcode reader  21  functions only to enable access to the application, not to perform the “echo function” (bar-coded photo/e-sheet cross check) described below. 
     The process is configured to display various reports at VEEBAT startup. The reports are as follows: partial treatment report, cumulative dose reached report, and scheduled patient report. The reports will be displayed on monitor  22  in a scrolling fashion that can be controlled by the person viewing the reports. The partial treatment report will give a listing of patients who received partial treatment the previous day. This report will include the date and the patient&#39;s name. The cumulative dose reached report will list patients who have or will exceed their prescribed cumulative dose. The patient&#39;s cumulative doses is prescribed by the Radiation Oncologist. The report will include the date and the patient&#39;s name. The scheduled patient report will list all patients who are scheduled for treatment on that date. The report will include the patient&#39;s name and time of treatment. 
     As an initial matter, referring to FIG. 2, a Patient&#39;s File is created on the patient&#39;s initial visit. A Patient&#39;s File creation consists of the initial consultation and, if advised, the patient&#39;s radiation oncology consultation. These steps are indicated in FIG. 2 by blocks  36  and  38 . These particular sections of the Patient&#39;s File determine if a patient should be treated and, if so, the treatment strategy. A patient&#39;s initial consultation determines if radiation therapy is advisable. A radiation secretary creates a Red Folder. The folder contains the patient&#39;s referral and medical history. If treatment is advised, a patient is set up for a radiation oncology consultation. Otherwise, the patient&#39;s Red Folder will be archived. A radiation oncology consultation determines a patient&#39;s prescribed treatment. The patient&#39;s initial Red Folder is then moved to a White Folder. The patient&#39;s VEEBAT account is created along with a Treatment Folder. The White Folder is a permanent folder for a patient. It will contain the initial Red Folder&#39;s contents and radiation oncology consultation. 
     After completion of a patient&#39;s scheduled treatments, all documents in the Treatment Folder are moved to the patient&#39;s White Folder. The Treatment Folder is used during the patient&#39;s treatments. The folder contains a Treatment Chart, e Sheet, patient set-up photographs and the patient&#39;s Polaroid Photo. These items are discussed below. The Treatment Folder also contains the dose calculation work sheets and simulation data, consent form and computer isodose plans, as well as in-vivo dosimetry data. The purpose of using two folders per patient is to reduce conflicts during treatment caused by situations in which radiation treatment technologist (R.T.T.) and nursing personnel simultaneously require access to the medical record. The White Folder and Treatment Foilder are presented to the Radiation Oncologist for telephone calls, patient encounters, dictation, and the like. The Treatment Chart contains a patient&#39;s original prescription and treatment schedule signed by the Radiation Oncologist. The chart is used during treatment by the Technologist to manually enter Treatment Field Values into the accelerator workstation  26 . Typical Treatment Field Values are set forth in Table 2 below. 
     
       
         
               
               
             
           
               
                 TABLE 2 
               
               
                   
               
               
                 Number 
                 Name 
               
               
                   
               
             
             
               
                 1 
                 Monitor Units 
               
               
                 2 
                 Jaw/Collimator Size 
               
               
                 3 
                 Collimator Angle 
               
               
                 4 
                 Gantry Angle 
               
               
                 5 
                 Table Drum Angle (optional) 
               
               
                   
               
             
          
         
       
     
     The e Sheet is, as mentioned above, used during the verification process to store prescribed and actual Treatment field Values. A new Treatment Folder will receive a blank e Sheet. A barcode is attached to the e Sheet. A detailed listing of fields and descriptions is provided above. Each Treatment Folder contains patient&#39;s set-up photographs to indicate the area for treatment along with tattoo markings. Each Treatment Folder also contains a patient&#39;s Polaroid Photo. This photograph or picture is used during the verification process to help insure the Treatment Folder belongs with the patient being treated. A barcode is attached to the Polaroid Photo. 
     The method and system of the invention lends itself well to accounting and billing tasks. As a first step, the patient&#39;s VEEBAT Account is created. The account is used in the verification procedure during treatments. The account is generated on a VEEBAT verification workstation  20  (or one of the optional workstations  34 ) using the VEEBAT Administration Function. A typical chart with a detailed listing of fields and descriptions is provided in Table 3 below. Barcodes on the patient&#39;s e Sheet and Polaroid photo will be associated to the patient&#39;s VEEBAT Account. As described in more detail below, the patient will be assigned a unique audio signal (e.g., a three tone audio signal in the exemplary embodiment under consideration) that will be used for audio verification by each of the patient, Technologist A and Technologist B in the Treatment Room prior to treatment. 
     
       
         
               
               
             
               
               
               
             
               
               
             
           
               
                   
                 TABLE 3 
               
               
                   
                   
               
               
                   
                 Patient Information 
               
               
                   
                   
               
             
             
               
                   
               
             
          
           
               
                   
                 RT #: 
                   
               
               
                   
                 Patient Name: 
               
               
                   
                 Date of Birth: 
               
               
                   
                 Referring MD: 
                 (link into UPIN chart) 
               
               
                   
                 City of Residence: 
               
               
                   
                 Telephone No (home): 
               
               
                   
                 Telephone No (work): 
               
               
                   
                 Diagnosis: 
                 {ascii text} 
               
               
                   
                 ICD 9 Code: 
                 (link into ICD 9 chart) 
               
               
                   
                 Chemotherapy 
                 y/n 
               
               
                   
                 Hormone Therapy 
                 y/n 
               
               
                   
                 Bar code - Polaroid photo: 
               
               
                   
                 Bar code - e Sheet: 
               
             
          
           
               
                   
                 (link to actual treatment delivered) 
               
               
                   
                   
               
             
          
         
       
     
     A simulation system provides access to a comprehensive library of treatment strategies, including treatment protocols, simulation checklists, guides on how to order tests, and test rationale and, as indicated by block  40  in FIG. 2, a simulation work-up can be provided as part of the initial consultation process. 
     Turning now to the actual patient treatment process which is one key aspect of the present invention, and referring to FIGS. 3A to  3 D, the patient arrives for treatment as indicated by block  42  and checks in with the receptionist. Technologist A obtains the patient&#39;s Treatment Folder, scans the patient&#39;s Polaroid Photo at the treatment console or workstation  20  to initiate VEEBAT Verification Function, and ensures the patient matches the patient Polaroid Photo, as indicated by block  44 . If there is a match, Technologists A and B escort the patient to treatment room  10  (block  46 ). Technologist B obtains the patient&#39;s e Sheet from the Treatment Folder. Technologist A scans the photo at the barcode reader  15 A of the verification station  14  (block  48 ). If Technologist A is unable to scan the photo for any reason, a Supervisor will be requested to help resolve the problem. Once the photo has been successfully scanned, the VEEBAT verification workstation  20  will associate the photo with the patient&#39;s VEEBAT Account in the VEEBAT Database (block  50 ). If the patient&#39;s VEEBAT Account is not found, an Audio Error Signal (“beep”) will be emitted and a Supervisor will be required to resolve the problem. 
     Considering in more detail the steps which take place, after Technologists A and B escort the patient into Treatment Room  10 , the patient is correctly positioned on treatment table. Technologist A proceeds to either laser verification station  14 A or  14 B. Technologist B proceeds to other laser verification station. It will be assumed here that Technologist A is at station  14 A and Technologist B is at station  14 B. Technologist A then scans barcode on the patient&#39;s Polaroid Photo at the barcode reader  15 A (block  48 ). The barcode is passed to the VEEBAT Verification Function at the verification workstation  20  to ensure the barcode matches the Polaroid Photo bar code that was just scanned outside the treatment room at the verification workstation  20 . If valid, the patient&#39;s audio signal is emitted at the verification station  14 A. If the Technologist fails to scan the Patient&#39;s Polaroid Photo at the VEEBAT verification workstation  20 , an Audio Error Signal is issued. This will require the Technologist to go back to the VEEBAT verification workstation  20  to scan the Patient&#39;s Polaroid Photo bar code to initiate the VEEBAT Verification Function. Further, if the bar code scanned at barcode reader  15 A of verification workstation  14 A is a valid VEEBAT account bar code, but does not match the bar code previously scanned at the VEEBAT verification workstation  20 , an audio Error Signal will be emitted in this case as well and a Supervisor will be required to resolve the problem. If the patient&#39;s e Sheet bar code is scanned first, i.e., if the bar code scanned is the e Sheet bar code associated with the current VEEBAT Account, an audio Warning Signal is issued and the system waits for the Patient&#39;s Polaroid Photo bar code to be scanned. If the bar code is not a valid VEEBAT bar code, it will be considered to be a read error. The VEEBAT verification workstation will emit an audio Warning Signal and wait for a re-scan. Considering other potential failures, if the bar code is found but the patient cannot be treated, an audio Error Signal is issued. Again a Supervisor is required to resolve this problem. If the patient&#39;s cumulative dose exceeds or will exceed the patient&#39;s prescribed dose, a stop order is issued. In this regard, the patient&#39;s VEEBAT Account has a stop treatment flag set, which is determined by the Radiation Oncologist. 
     The patient name and scheduled Treatment Field Values from the selected VEEBAT Account are displayed on the treatment monitor  16  in a large font for easy readability. Also, if a port verification film (PVF) is scheduled, a reminder will appear on the treatment room monitor  16  to remind the technologists. Technologists A and B will visually verify that the name displayed on the monitor matches the patient&#39;s name. If not, a Supervisor shall be called to resolve the problem. 
     Referring to FIG. 3B, in the next step, Technologist B scans the patient&#39;s e Sheet bar code, as indicated by block  52  at barcode reader  15 B of verification workstation  14 B. The VEEBAT Verification Function then verifies that the bar code is assigned to the patient&#39;s VEEBAT Account. Verification of the patient chart and e Sheet is then provided. As shown by decision diamond  56 , if valid, i.e., if there is a match, the patient&#39;s audio signal is emitted. If there is no match, an audio Error Signal is emitted and a Supervisor is required to resolve this problem (block  58 ). When the tone is emitted, Technologist A, Technologist B, and the patient all verify that the audio signals emitted from Verification Stations  14 A and  14 B are the same. The use of identification signals such as unique audio signals is an important aspect of the invention and, among other advantages, provides a comfort level for the patient that is not available with other methods and systems. If anyone questions the comparison of the audio signals, a Supervisor is required to resolve this issue. This aspect of the invention, i.e., the use of an audio signal unique to the patient and the requirement that the patient and the technologist (or technologists) in attendance all verify the signal, is discussed in more detail below. 
     Next, as shown by block  60 , Technologist A proceeds to accelerator workstation  26  and Technologist B proceeds to the VEEBAT verification workstation  20  to access the VEEBAT Verification Function. Technologist A logs onto the accelerator workstation  26  (block  62 ) and uses the card swipe reader  27  located on the accelerator workstation  26  to register with the Verification Function of the VEEBAT verification workstation  20 . If Technologist A is unknown or does not have privilege to apply treatment, then the Verification Function of the verification (VEEBAT) workstation  20  will display a message at the VEEBAT workstation indicating the discrepancy. A Supervisor will be required to resolve this problem. 
     Technologist B logs onto the VEEBAT verification workstation  20  by using the card swipe reader  23  located on the VEEBAT verification workstation  20  that uses the VEEBAT Verification Function (block  64 ). If Technologist B is unknown or does not have privilege to apply treatment, then the Verification Function will display a message on the VEEBAT verification workstation  20  indicating the discrepancy. A Supervisor will be required to resolve this problem. Technologist B then views the scheduled Treatment Field Values for the patient at the VEEBAT workstation  20  (block  66 ). 
     As indicated by decision diamond  68 , and was discussed above, the VEEBAT process can be configured for Manual Setup or Auto Setup. If the former confirmation is chosen, as indicated by block  70 , the steps set forth at the left side of FIG. 3C are taken. Considering these steps, Manual Setup first requires that Technologist A manually enter Treatment Field Values as indicated on the patient&#39;s Treatment Chart at the accelerator workstation  26 . The Treatment Field Values are then automatically verified at the VEEBAT workstation  20  by the VEEBAT Verification Function against the patient&#39;s prescribed treatment. As shown by block  74 , Technologist A manually enters Treatment Field Values indicated on the patient&#39;s Treatment Chart at the accelerator workstation  26 . Technologist B then places the VEEBAT Verification Function in ready-to-receive mode. Technologist B verbally requests Technologist A to electronically send the patient&#39;s Treatment Field Values that were manually entered at the accelerator workstation  26  to the VEEBAT workstation  20  (block  76 ). The accelerator (PRIMUS) workstation  26  electronically sends the data to the VEEBAT workstation  20  when Technologist A presses a designated button (e.g., the “ACCEPT” button) on the accelerator keyboard (block  78 ). The VEEBAT workstation Verification Function will only receive values from the accelerator workstation  26  when the VEEBAT verification workstation is in the ready-to-receive mode. At any time, Technologist B has the option to cancel the ready-to-receive mode, thus returning the VEEBAT verification workstation  20  to its previous state. 
     As indicated by block  80 , the VEEBAT Verification Function, after receiving the accelerator values that have been entered, will then verify all patient&#39;s Treatment Field Values and confirm that all values are within predetermined tolerances. If any Treatment Field Values are not within the predetermined tolerances, the VEEBAT verification workstation will give an audio Warning Signal (“beep”) and display an asterisk beside each field that is not within the predetermined tolerance. If all fields are within predetermined tolerance (i.e., when the output of decision diamond  82  is “yes”), the method or procedure continues as described below. 
     As indicated by decision diamond  82 , if accelerator manual values are incorrect, Technologist B advises Technologist A to reenter any Treatment Field that was flagged at the VEEBAT workstation with an asterisk (block  84 ). The processing is then repeated. If Technologist A intentionally enters in a value that is not consistent with the predetermined tolerance for any of patient&#39;s Treatment Fields, a Supervisor override is required. 
     Referring to the right side of FIG. 3C, the Auto Setup configuration electronically sends values from the patient&#39;s VEEBAT Account through the VEEBAT verification workstation  20  to the Accelerator workstation  26 . In this regard, in the specific implementation under consideration, Technologist A places the accelerator workstation in a ready-to-receive mode by depressing a specific key (e.g., the F5 key) on the accelerator keyboard (not shown). Technologist A verbally requests Technologist B to electronically send the patient&#39;s Treatment Field Values(block  86 ). Technologist B, by depressing a download key, sends the requested patient&#39;s Treatment Field Values to the accelerator workstation  26 . 
     It is noted that in accordance with a further aspect of the invention different tolerances are provided for Manual Setup and Auto Setup. In Auto Setup, relatively tight tolerances are provided so that, for example, the gantry angle tolerance may be ±1°. Although the automated operation has its advantages, it is important in some circumstances to provide a manual approach wherein the RTT manually sets the Treatment Field Values. Such a manual approach can be customized to the requirements of the patient over time and, in this regard, the Treatment Field Values may be changed over the course of treatment during the day. As a consequence, the tolerances set here should be relatively wider to accommodate the manual approach and, for example, the gantry angle tolerance may set at ±5°. Thus the VEEBAT function provides a different set of tolerances for Manual Setup versus Auto Setup. Referring to FIG. 3D, which depicts the remainder of the method or procedure, which is common to both the Manual Setup and Auto Setup, Technologist B requests the VEEBAT verification workstation  20  to print a treatment entry on the patient&#39;s e Sheet at printer  24  (block  86 ), i.e., the date, energy, MU and wedge (i.e., the number of the wedge used, if any) for each prescribed/scheduled Treatment Field of the current treatment session. This occurs before the first treatment field for this treatment session. If this is not the patient&#39;s initial treatment session, the technologist will compare the printed values on the e Sheet to the previous treatment values (i.e. the line above on the chart). If the verification fails, a Supervisor is informed of any discrepancies. 
     As indicated by block  88 , Technologist B next gives the Accelerator workstation  26  permission to treat the patient via the VEEBAT verification workstation  20  and verbally informs Technologist A to proceed with treatment. If, during treatment, the accelerator  12  fails to give a complete treatment due to mechanical failure or technologist intervention, Technologist A may “fix” the problem and resume treatment until treatment is complete. However, if Technologist A is unable to complete treatment due to equipment failure or human decision, a Supervisor should, at a later time but prior to next treatment, manually write in the make-up dosage in the right margin of the Treatment Chart and override the patient&#39;s VEEBAT Treatment Schedule. 
     Next, as indicated by block  90 , the actual Treatment Field Values are sent to the VEEBAT verification workstation  20  from accelerator workstation  26 . The VEEBAT Verification Function updates the screen with actual treatment dose delivered and saves the values to the VEEBAT fileserver  30 . If this is not the last treatment beam of the session, the technologists return to the treatment room and set up the patient for the next treatment field. If this is the last treatment, as shown by block  92 , Technologist B submits the e Sheet to print the actual monitoring units (MU) on the same row of the e Sheet where the prescribed/scheduled Treatment Field Values are printed on the e Sheet in step  86  above. Thus, in a preferred embodiment, the e Sheet will include columns of entry spaces for the date, energy, wedge and MU, and for initialing by the Technologist or therapist. Such an e Sheet has important advantages because of its simplicity. An asterisk will be printed beside each Treatment Field that received a MU value outside the predetermined tolerance range. If one or more Treatment Field MUs were printed with asterisks, an asterisk will also be printed in the far right-hand column for the day&#39;s treatment. This asterisk indicates any discrepancies to the reviewing Physicist. Technologist B should initial the e Sheet at the appropriate session entry space and hand it to technologist A to initial and return to the patient&#39;s Treatment Folder (block  92 ). Technologist A enters the actual Treatment Field Values as shown on the accelerator workstation screen on the Patient&#39;s Treatment Chart (block  94 ). Technologist A then initials the Patient&#39;s Treatment Chart at the appropriate session line and hands it to Technologist B. Technologist B initials the Patient&#39;s Treatment Chart at the appropriate session line and returns it to the Patient&#39;s Treatment Folder (block  96 ). 
     Referring to block  98 , at the end of the day, various reports can be requested. The reports are generated at a VEEBAT verification workstation  20  using the VEEBAT Administration Function. These reports can include a report of patients who received partial treatment. This report will list each patient that received a smaller dose for that day than was prescribed for that day. This report shall contain patient names and RT numbers. 
     The reports may also include a list of scheduled patients who were not treated. Such a report will list each patient who was scheduled for treatment that day but did not receive treatment that day for any reason. This report shall also contain the Patient names and RT numbers. 
     Statistics can also be output for the following treatment types: electron, photon, simple, intermediate and/or complex. 
     A billing summary can also be produced. This report will list charge codes for each patient treatment as well as patient&#39;s name, and concurrent chemotherapy or hormone treatments, if any. 
     A report can be generated on any information maintained in the VEEBAT database which is located on Fileserver  30 . 
     Considering in more detail the use of a photograph of the patient in generating distinctive audio output, in a preferred embodiment, a photograph of the face of the patient with an identifying barcode is taped or otherwise affixed to the inside front jacket of the Treatment Chart, although the photograph and bar code can take other forms and be printed or mounted on other media. When the chart photograph, with barcode, is scanned by the barcode reader of the corresponding laser verification station in question (station  14 A in the example above), a suitable audio output which is uniquely associated with, i.e., specific to, the particular patient is emitted by the speaker (not shown) of the station. Conventional methods are available to generate a specific audio output in response to a corresponding triggering input, including computer generation of sounds or tones. As described above, verification station  14 B is used to scan the patient&#39;s e sheet. In the specific exemplary embodiment under consideration, the audio output is an audio signal which takes about one second to complete. Of course, while a soothing tone sequence is preferred and has important advantages, other audio outputs can be used including a recording of the patient&#39;s name. 
     In an exemplary embodiment wherein three sequence of tones comprising the three tone chord is determined at simulation by the patient&#39;s RT number. For example, departments with different lengths of patient identifying numbers can adjust with a different range of octaves. Four digit departments can use a different octave for the first digit. Five digit departments can use a different octave for the first and second digit. Digits which begin with eight or nine can use sharps or flats as the first digit. 
     As indicated above, in the specific application under consideration, the second therapist, Therapist B, scans the patient&#39;s e Sheet at barcode reader  15 B at laser verification station  14 B located inside the treatment room on the opposite wall from station  14 A, and a confirmatory audio signal emitted from the speaker  17 B at station  14 B is reassuring the staff that the Treatment Chart&#39;s face photo matches the e Sheet. This creates an opportunity to detect whether another patient&#39;s e Sheet has been inadvertently placed in the Treatment Chart. The audio signal emitted at station  14 A obtained by scanning the patient&#39;s Treatment Chart should match precisely the audio signal emitted from the speaker  17 B at station  14 B. This process of scanning the Treatment Chart, producing a patient specific audio signal and then confirming the audio signal by scanning the e Sheet and producing the audio signal again is referred to herein as “echoing.” Echoing is performed most efficiently when the e Sheet is scanned almost immediately after the Treatment Chart is scanned and thus generates its audio signal. 
     The sequence of Treatment Chart audio signal activation, followed by e Sheet tone activation, confirms that the Treatment Chart photo barcode is the same as the e Sheet barcode. If the wrong Treatment Chart is selected, the patient should notice a non-familiar audio signal, providing a self-managing dimension to the VEEBAT process. Patients often report to their radiation oncology caregivers that they count the seconds of treatment or that they occasionally report perceived changes in the sound of the accelerator as it delivers the radiation treatment. The confirmatory audio signal should reassure anxious patients, while allowing an opportunity for wrong audio signal to be noticed by a patient. This provides an added incentive for the staff to select the correct Treatment Chart since the patient also participates in the cross checking process. 
     In accordance with a further feature of this aspect of the invention, subsequent fields will be confirmed by a repeat of the last tone and the next tone of the second field, the last tone and the two next tones for the third field, and the last tone and three consecutive tones for the fourth field. Variations of this tone feedback process could be used for three dimensional conformal therapy. Certainly, many patients are already primed for audible feedback and the use of audio confirmation should be of help to patients as well as the staff. The foregoing sequence of barcode scanning brings up the patient&#39;s VEEBAT parameters which may then be downloaded for Auto Setup or Manual Setup, followed by verification before and after treatment as described above. This verification process provides a number of important advantages which will now be described. 
     First, two therapists are encouraged to enter the room with the patient and the Treatment Chart, maximizing the opportunity for satisfactory visual crosscheck. Both therapists are encouraged to enter the room because efficiency inside the room will be rewarded by bringing up the VEEBAT parameters more rapidly, either for Manual Setup verification or Auto Setup. As indicated previously, two therapists are not required to enter the room but if only one therapist enters the room, she or he will still have to bring the Treatment Chart so that no charts will be left on the counter outside the treatment room. Moreover, the lone therapist will still have to set up the patient properly, then activate the VEEBAT queue with the e Sheet at the right wall, i.e., at station  14 B, as viewed in FIG.  1 . 
     Further, with two therapists Therapist A must be with the patient at the left side of Accelerator  12  before the audio signal can be generated. The Treatment Monitor  16  and the VEEBAT monitor  22  will display simplified patient parameters only after the e Sheet is properly scanned and the second audio signal is generated at station  14 B. Typically, the simplified parameters are defined as a field number, i.e., 1) AP pelvis/prostate, 2) R lat pelvis/prostate, 3) PA pelvis/prostate, and 4) L lat. If Auto Setup has been approved by the Radiation Oncologist for the treatment of the patient, then treatment monitor  16  (in treatment room  10 ), and VEEBAT monitor  22  (on the treatment counter) will display the simplified patient parameters with, e.g., red letters. If the patient is being treated using Manual Setup, then the corresponding screens will display the simplified patient parameters with different, e.g., white, letters. 
     Because the display will also appear on VEEBAT monitor  22  at the treatment counter in area  18  which is not in treatment room  10 , this provides advanced queuing for treatment, thereby minimizing delays outside the room due to delays in calling up the parameters after the patient&#39;s alignment has been visually cross-checked. 
     In an advantageous implementation, patients are assigned a new RT number and bar code for each course of radiation therapy. In an advantageous implementation, if a patient returns to the radiation oncology department in the future, e.g., for a second course of radiation therapy several years in the future, a fourth note will be added before the three-tone chord assigned for the current year, creating a new four-note chord. This serves as an audible reminder to the staff that the patient has had a previous course of therapy, and that they should watch our for possible overlap of the current field with the prior fields. A third course of therapy will generate a fifth note. In other words, in this implementation, there will be two tones, followed by a pause, followed by the three-tone chord for the current course of radiation treatment. It is more difficult to audibly discriminate longer sequences of tones, and this approach takes advantage of this. The greater the number of prior courses of radiation the patient has had in prior years, the more difficult it is for the therapist to feel comfortable with alpha-beta confirmations, and the more motivated he or she will be to go back to the records to verify lack of overlap with the current fields. 
     One very important advantage of the verification method and system of the invention is that its primary method of supplemental communication is audio, thereby eliminating the use of additional visual distractions that might divert the attention away of the therapists from the patient&#39;s Treatment Chart and actual treatment setup and visual cross-check. This approach also provides for more efficient queuing of the server verification data to the monitor outside the treatment room, so as to provide time for therapists to perform an official verification, followed by treatment, immediately upon reaching the treatment counter or console. Overall, the invention should make treatments faster and more accurate than with existing record and verify systems, because the invention enhances and verifies efficient manual process without altering therapist behavior. 
     
       
         
               
               
             
           
               
                   
               
             
             
               
                 Accelerator 
                 The actual accelerator located in the treatment 
               
               
                   
                 room. 
               
               
                 Accelerator System 
                 The Accelerator Workstation and the 
               
               
                   
                 Accelerator. 
               
               
                 Accelerator Work- 
                 Part of the Accelerator System, Consists of 
               
               
                 station 
                 monitor, special keyboard, and computer. 
               
               
                   
                 Location is outside the room of the Accelerator. 
               
               
                 Auto Setup 
                 The Accelerator System receives its Treatment 
               
               
                   
                 Field Values from the VEEBAT Verification 
               
               
                   
                 Function 
               
               
                 Bar Code 
                 A label on the Polaroid Photo and e Sheet used 
               
               
                   
                 to identify electronically the patients VEEBAT 
               
               
                   
                 Account. 
               
               
                 Card Swipe 
                 Device used to identify user by badge number 
               
               
                 Cumulative Dose 
                 Total Radiation received 
               
               
                 e Sheet 
                 Verification sheet used by Technologist during 
               
               
                   
                 treatment showing scheduled and actual 
               
               
                   
                 treatments 
               
               
                 Error Signal 
                 Audio tone emitted from VEEBAT Workstation 
               
               
                   
                 when an error requiring a Supervisor is 
               
               
                   
                 required. 
               
               
                 ICD-9 Codes 
                 Used to categorize patients cancer location 
               
               
                 Laser Verification 
                 A verification station located in the treatment 
               
               
                 Station A 
                 room. Consist of a bar code reader and a 
               
               
                   
                 speaker. Used by Technologist A to read a 
               
               
                   
                 patients bar coded Patients Chart. 
               
               
                 Laser Verification 
                 A verification station located in the treatment 
               
               
                 Station B 
                 room consisting of a bar code reader and a 
               
               
                   
                 speaker. Used by Technoiogist A in reading a 
               
               
                   
                 patient&#39;s bar coded Patients Chart. 
               
               
                 Manual Setup 
                 The Accelerator System receives its Treatment 
               
               
                   
                 Field Values from the Accelerator Workstation 
               
               
                 MU 
                 The length of a treatment (Monitor Units). 
               
               
                 Patients File 
                 Patients Treatment Chart, e Sheet, and Polaroid 
               
               
                   
                 Photo 
               
               
                 PC 
                 Personal Computer. 
               
               
                 PVF 
                 Port Verification Film 
               
               
                 Polaroid Photo 
                 Picture of Patient 
               
               
                 Radiation Oncologist 
                 Physician 
               
               
                 Red Folder 
                 A patients tolder untii treatment is determined 
               
               
                 RT 
                 Radiation Oncology Number. 
               
               
                 RTT 
                 Radiation Therapy Technologist 
               
               
                 RTT 
                 Radiation Therapy Technologist (Technologist) 
               
               
                 Setup Room 
                 Room where Technologist A and B run the 
               
               
                   
                 Accelerator and VEEBAT Systems 
               
               
                 Radiation Oncology 
                 Work done with the simulator to determine a 
               
               
                 Consultation 
                 patients treatment 
               
               
                 Supervisor 
                 Senior Radiation Technologist 
               
               
                 TOP/JP 
                 Network communication protocoJ. 
               
               
                 Technologist A 
                 Technologist responsible for VEEBAT 
               
               
                   
                 Verification during treatment. 
               
               
                 Technologist B 
                 Technologist responsible for Accelerator 
               
               
                   
                 Workstation during treatment. 
               
               
                 Total Dose 
                 Total prescribed dose 
               
               
                 Treatment Field 
                 Actual fields used by the Accelerator and 
               
               
                 Values 
                 verified by the VEEBAT Verification Function. 
               
               
                   
                 See Appendix A for list. 
               
               
                 Treatment Folder 
                 Folder used by Technologist during treatment 
               
               
                 Treatment Monitor 
                 A monitor located in the treatment room used to 
               
               
                   
                 show a patients name and Treatment Field 
               
               
                   
                 Values 
               
               
                 VEEBAT Account 
                 Electronic data entered via VEEBAT 
               
               
                   
                 Workstation with VEEBAT Administration 
               
               
                   
                 Function. 
               
               
                 VEEBAT Administra- 
                 A program running on a VEEBAT Workstation. 
               
               
                 tion Function 
                 The program is used to create and access 
               
               
                   
                 patients VEEBAT accounts stored on the 
               
               
                   
                 VEEBAT fileserver. The program also provide 
               
               
                   
                 various report generation functions and 
               
               
                   
                 administrative functions (i.e. System Backup) 
               
               
                 VEEBAT Fileserver 
                 A workstation with houses the VEEBAT 
               
               
                   
                 Database. 
               
               
                 VEEBAT Process 
                 Verify Easily Electronic Before and After 
               
               
                   
                 Treatment Process 
               
               
                 VEEBAT System 
                 The actual components used to implement the 
               
               
                   
                 VEEBAT Process 
               
               
                 VEEBAT Verification 
                 A program running on a VEEBAT Workstation. 
               
               
                 Function 
                 The program is used to provide a verification 
               
               
                   
                 before and after treatment 
               
               
                 VEEBAT Workstation 
                 A workstation with monitor, keyboard, mouse, 
               
               
                   
                 CPU, bar code reader, and card swipe. The 
               
               
                   
                 workstation provides the VEEBAT 
               
               
                   
                 Administration and/or Verification Function. 
               
               
                 Warning Signal 
                 Audio tone emitted from VEEBAT Workstation 
               
               
                   
                 when an error occurred but does not require a 
               
               
                   
                 Supervisor. 
               
               
                 White Folder 
                 A patients permanent folder during and after 
               
               
                   
                 treatment 
               
               
                   
               
             
          
         
       
     
     Although the invention has been described above in relation to preferred embodiments thereof, it will be understood by those skilled in the art that variations and modifications can be effected in these preferred embodiments without departing from the scope and spirit of the invention.