Patent Abstract:
A device for recording information on CDRs or other recording media and printing file information for observing what is recorded thereon. The information may be medical images such as x-rays, cat scans, magnetic resonance images, or sonograms. The discs can have patient names and other information selected from information stored thereon, printed on the disc as well as logos for the hospital, service provider or trademarks. The discs can be automatically loaded into the recorder and printer. The fields of information or logos printed on the discs can be changed to suit the user. A database creates and updates a directory of patient files so the discs can be located and the images thereon viewed for each patient. The discs have software allowing the computer to view the images on the disc so that a personal computer not having imaging software can operate the disc.

Full Description:
RELATED APPLICATIONS 
     This application is a Continuation Application of U.S. application Ser. No. 12/265,331, filed 5 Nov. 2008, now U.S. Pat. No. 8,059,304 entitled “Medical Data Recording System”, which in turn is a Continuation Application of U.S. application Ser. No. 09/753,792 (now U.S. Pat. No. 7,965,408), filed 3 Jan. 2001, entitled “Medical Data Recording System”, which claims the benefit of U.S. Provisional Application No. 60/205,751, filed 19 May 2000, entitled “Medical Image and Data Recordation System”, all of which are herein incorporated by reference. 
    
    
     FIELD OF THE INVENTION 
     This invention relates to data storage and more particularly to determining end of incoming data stream in order to create jobs for recording and printing file information on a disc taken from the electronically stored information on the disc. 
     BACKGROUND OF THE INVENTION 
     In the past medical imaging such as x-rays were recorded on film and digital images were stored on digital film using film laser printers, which is expensive, bulky and difficult to store. Also, the original digital data might have to be modified so it can be printed using a laser printer since most printers can not handle high resolution or high quality digital data. Digital image storage allows storage and retrieval of original digital data on discs and transmittal of images over communications systems such as the internet. 
     There are printers combined with CD recording devices for printing on the disc that has just been recorded. 
     Medical imaging data is frequently manually stored on CD&#39;s and filed for later use in doctor&#39;s offices, hospitals, clinics and other medical facilities. The medical images may be generated by x-rays, cat scans, magnetic resonance images, sonograms or other image generating technologies. 
     Medical imaging data can be transmitted from one location to another over the internet or other communication system for recording the data. The filing and record keeping of the images thus received is a problem. It is a labor-intensive and error-prone task to gather information about each disc, write out labels and attach the labels to the discs, or write directly on the disc for storing and filing. It is very useful to have the information contained on a disc printed on the disc for reference and filing and for automatically creating a directory of the information stored on all the discs recorded in an office. 
     BRIEF SUMMARY OF THE INVENTION 
     The present invention automatically scans data received for storage on the disc and prints selected fields of information directly on the discs for ease of file management. The invention also constantly updates a database having a directory of all patient records and the discs the patient data is stored on. Although the invention is described in terms of storing medical imaging data any data imbedded with information useful for filing and label printing can be used with the invention. 
     The Medical Data Recording System hardware consists of three main components: a computer server; a CD autoloader with printer; and a piracy prevention device. The software components are: DICOM® communication software; FilmX™ software for storing software for viewing the images on the CDs, software for selecting image information to be copied to the CD and fields for printing on the discs; software for creating and updating a database of patient information and autoloader control software for the CDR and printer; and security device driver software. 
     The computer server communicates with other medical devices on the network using the DICOM® protocol. It receives medical images (patient studies) from other devices, processes the images and burns each patient&#39;s images on one or more CDRs along with medical image viewing software and other files as defined by the DICOM® protocol as well as files containing printed label definition and graphics files, files containing patient and study demographics, and necessary system files to make the CD autorun and autoload. Once a CDR has been burnt, information regarding the contents of the CDR and other graphics (company logo, legal notices, etc) is then printed directly on the CDR using the printer attached to the autoloader. Optionally, the system will create back up copies of the medical images it has received by burning them on CDR at configured days of the week and time. Each back up CDR will contain as many patients&#39; images as possible to maximize disc space usage. Each backup disc is assigned a serial number which is printed on it. The patient and study demographics of the backed up data along with the corresponding backup disc serial number is stored in a database where they can queried. 
     Additional advantages and features of the invention will be set forth in part in the description which follows, and in part, will become apparent to those skilled in the art upon examination of the following or may be learned by practice of the invention. 
     OBJECTS OF THE INVENTION 
     It is an object of the invention to print information from selected fields of data saved on a disc onto the disc for visual recognition such that the discs can be properly stored in files. 
     It is an object of the invention to reduce clerical time and reduce errors by having discs printed with information fields from files stored on the discs. 
     It is an object of the invention to automatically load discs for information storage. 
     It is an object of the invention to automatically stop recording when the information stream has stopped and load a new disc for the next patient. 
     It is an object of the invention to print trademarks, service marks and logos on the discs. 
     It is an object of the invention to print selectable fields of information on the discs. 
     It is an object of the invention to back up files at specified time intervals. 
     It is an object of the invention to get as many images as possible onto one CDR. 
     It is an object of the invention to conveniently store medical image data on CD&#39;s rather than on film. 
     It is an object of the invention to be able to use a computer display to view medical images stored on CD&#39;s. 
     It is an object of the invention to preserve medical images for long periods of time. 
     It is an object of the invention to create patient files with directories and subdirectories from image data streams. 
     It is an object of the invention to divide data streams into separate files. 
     It is an object of the invention to automatically create and update file databases to locate patient information on the discs. 
     Other objects, advantages and novel features of the present invention will become apparent from the following detailed description of the invention when considered in conjunction with the accompanying drawing. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  shows a schematic of the system using the data recording system. 
         FIG. 2  shows a block diagram of the software steps used in the computer for receiving files from the network and storing them on the computer. 
         FIG. 3  shows the routine for determining the data for jobs from incoming files. 
         FIG. 4  shows the routine for processing jobs in queue. 
         FIG. 5  shows the routine for checking for end of jobs. 
         FIG. 6  shows the routine for the backup process. 
     
    
    
     DETAILED DESCRIPTION 
       FIG. 1  shows a schematic view of the invention. A medical imaging device  10  such as an x-ray, cat scan, magnetic resonance imaging, sonogram or other device which generates information for storage on a disc or generates images of a patient and either transmits it or stores it for later transmittal through a communication network  20  such as the internet to a computer  30 . The computer  30  can be used to select information to be stored by the compact disc writer  40  on compact discs, CDs,  42  and can select what information is to be printed by printer  44  on discs  42 . Although CDs  42  are shown, any recording medium may be used for storage of information. The blank compact discs  42  are stacked in an input CD stack  43  waiting to be recorded. The CD autoloader  46  selects CDs  42  from the top of the input CD stack  43  to be recorded on and places the CDs  42  into the recorder  40 . When the CD  42  has information stored on it, it is moved by the CD autoloader  46  to the printer  44  where selected information and logos or other graphics are printed on the CD  42  so that the users have a written record on the disc of the information stored thereon and logos identifying the producer of the disc or other information. The CDs  42  are then removed from the printer  44  by CD autoloader  46  and placed in the CD output tray  45 . The CDs  42  can then be placed in patient files. 
     The software for running the invention performs several tasks. There is security software communicating to an attached piracy prevention security device that keeps track of how many CDs are being recorded and what product option are active. There is software to run the autoloading functions of the CD autoloader  46  for recording and moving discs  42 . The software also can be programmed to select the fields of information to be printed on the discs and for printing logos or other graphics or information on the discs. The software also copies instructions for operating the imaging onto the disc so that a computer without imaging software loaded in it can view the images on the discs. 
     Although many different software programs can be used to accomplish the goals set out above the following shows one method of securing image information for later viewing and recording it on discs with labels printed thereon. The software described herein is called FilmX™ software by the applicant. 
     FilmX™ software is used to receive data in the computer  30  from the communication network  20 . The software incorporates DICOM® network connectivity software  51  such as WinSCP32.exe which is currently a standard digital imaging protocol used in the industry to receive the digital imaging data from the imaging device  10 . The imaging data is received in the computer  30  by use of network connectivity software  51  using “winSCP32.exe” software available from ETIAM Corporation; Rennes, France. This program is a Storage Service Class Provider using the DICOM® protocol. The computer  30  receives DICOM® images that are sent to it and places them in the Incoming (“D:.backslash.Incoming”) directory  52 . The files are named: &lt;Storage SOP Class&gt;.&lt;SOP Instance UID&gt;.dcm where &lt;Storage SOP Class&gt; is the SOP class of the image and &lt;SOP Instance UID&gt; is the image UID (Unique Identifier). 
     There are multiple timers defined with in FilmX.exe. Timer.sub.--1  60  is responsible for checking for incoming new files  61  in Incoming Directory  52 . If new files are received they are stored as a separate file in a temporary directory Temp Directory  63 . Timer.sub.--1  60  is programmed to check if an end-of-patient-data timeout (MaxTime)  65  has occurred. The value for Timer.sub.--1  60  is defined in the FilmX.ini file and is hence user configurable. Default time for Timer.sub.--1  60  is 1 (one) second. Max Time  65  is also user configurable via FilmX.ini and is set to 30 seconds for default. The system will not allow that time to be set less than 10 seconds. Once the Timer.sub.--1  60  goes off, two routines are called:
         DcmBTreeParseInputDirectory   dcmBTreeMakePatientDataAvailable       

     The first routine parses any DICOM Part 10 file found in Incoming Directory  52 . If any new files  61  are available, they are transferred to the Temp Directory (d:.backslash.Temp)  63 . For each different patient, a subdirectory is created under the Temp Directory  63 , and for each study of this patient, a subdirectory is created under the patient directory. 
     Patient differentiation is based on Patient Identification which consists of the concatenation of information found in DICOM® datasets: PatientsID ‘_’ PatientsName, without any ‘ ’, any white character or any character that may lead to an invalid Windows directory name, all characters are uppercase and enclosing blanks are removed. Patient Directory name underneath Temp Directory  63  is the Patient Identification described above. 
     Study identification is based on the StudyInstanceUID. Study Directory name beneath the Patient Directory is the study identification referenced above. 
     Filenames are the original filenames found in Incoming Directory  52 . This allows the system to override an image if it is sent twice. 
     An additional text file is created in each Patient Directory. This file has a fixed name (timestamp.bsy) and contains the date and time of the last image insertion in the Patient hierarchy. The following information is also written in this file:
         PatientsName   PatientsSex   PatientsBirthDate       

     An additional text file is created in each Study Directory. This file has a fixed name (study.dsc) and contains the information extracted from the last image of the study inserted in the Study Directory. This information is as follows:
         StudyDate   StudyTime   StudyID   StudyDescription   RefferringPhysiciansName   Accession Number.       

     Once DcmBTreeParseInputDirectory has returned, any new patients are added to the Incoming Patient Queue and displayed on the screen as such. The combination of patient “[id]_[name]” is now the internal job name used for tracking the job. 
     Then dcmBTreeMakePatientDataAvailable is called to check in Temp Directory  63  if any patient subdirectories have not been modified (some images added) since MaxTime  65  seconds ago. The number of unmodified directories since MaxTime  65  seconds is returned. If no new files  61  have arrived for a patient, the timestamp file (timestamp.bsy) for the patient will be renamed to a fixed filename (timestamp.rdy). 
     Once the function returns a positive number, we browse for Patient Directories in the Temp Directory  63  containing “timestamp.rdy” file. The entire patient hierarchy is then moved to the Backup Directory  71  (D:.backslash.Backup). The Job is then removed from the Incoming Patient Queue and added to the Pending Patient Queue and displayed as such. If inactive, Timer.sub.--2  70  is activated to start processing the pending job(s). 
     Timer.sub.--2  70  is responsible for moving jobs pending in Queue to be processed. Once it goes off, the system is checked for any patient in queue  72 , if none are present, Timer.sub.--2  70  is disabled in step  74 . If there are pending jobs in Pending Patient Queue, the system is checked for patient in process  73  (being recorded or printed). If there is one, Timer.sub.--2  70  is disabled and it returns. If there are no patients in process  73 , the next job in Pending Patient Queue, is processed. The patient directory hierarchy in Backup Directory  71  is moved to the Build Image Directory  75  (D:.backslash.Build Image) to get ready to burn on CDR(s). The Build Image Directory  75  also contains a Viewer Directory (“.backslash.Viewer) where the viewing software resides. There is also a FilmX Directory (“FilmX”) in the Build Image Directory  75  which contains the Patient information file (“Patient.txt”) and the Xlabel Directory (“.backslash.Xlabel”) where the CD printing label definitions and graphics files reside. Since DICOM® Exchange standards only allow for eight character file names, the Patient, and Study directories as well as image file names are converted to eight character format in processing step  76 . The Patient Directory name is changed to “PT000000” for the first patient. In case of back up CD, Patient Directories are then sequentially named “PT000001” and so on. The Study Directory(ies) are named starting with “ST000000” and increase sequentially if there is more then one study for the patient. The image files are then named starting with “IM000000” and so on. On the Build Image Directory  75  there is also an “autorun” file which is recognized by the Windows operating system and executed when a disc is inserted in a computer. The “autorun” file contains instructions to start the viewer in an “autoload” fashion causing it to immediately load and display the first Patient&#39;s first Study. Finally, according to DICOM® Exchange standard, a “DICOMDIR” file is generated in step  76  in the Build Image Directory  75 . 
     Once the Build Image Directory  75  is complete, it represents what should be put on the final CDR with Build Image Directory  75  as the root of the CD. The computer program “Premaster.exe” is then called to create a CD image of the contents of the Build Image Directory  75 . This program is part of the BuzzSaw® software package produced by ISO Media of Seattle, Wash. The result is a “[job].CDR” file which is the image of the final CDR. It is located in the Spool Directory  77  (E:.backslash.Spool). A “[job]job” file containing the job control information for the autoloader control software (Buzzsaw®) is created in the Spool Directory  77 . The Job file specifies the name of the CDR file, the input file for the print label fields, the number of CDRs to be made, the test flag, and other fields as required by the Buzzsaw® software. Once the CD image files is generated in the Spool Directory  77 , the Build Image Directory  75  is then cleared of the patient directory and other created files. Once created, the job file is recognized by the Buzzsaw® software and processed. 
     Buzzsaw® instructs the autoloader  46  to pick up a new CDR  42 , put it in the CDR drive  40 . Once there, Buzzsaw® will proceed to record the contents of [job].CDR″ file on the CDR  42  in the drive  40 . In multi-copy, multi-drive situations, Buzzsaw® will place new CDRs  42  in other drives  40  as well and record them simultaneously. Once the recording is finished, Buzzsaw® instructs the autoloader  46  to place the recorded CDR  42  in the Disc Printer  44 . It will then execute the printing software to print the label containing the input fields on the CDR. 
     The label printing software and printer driver are supplied by Primera Technologies; Plymouth, Minn., a disc printer manufacturer. The label definitions allow for input fields to be merged into the label via a merge file in Build Image Directory  75 . The patient.txt file in the Build Image directory  75  is that merge file. 
     Once printed, the CDR  42  is then placed in the output bin  45  by the autoloader  46 . If there are multiple copies, the other CDRs  42  are then printed by the Disc Printer  44  and put on the output bin  45  as well by the autoloader  46 . Buzzsaw® then updates the status line at the bottom of the “[job].JOB” file contained in the Spool Directory  77  to indicate the job is completed. 
     Timer.sub.--3  80  is responsible for checking the end of the job. Once Timer.sub.--3  80  goes off, the system checks for job done  81 . If so, the job is moved from the Patients in Process to Patients completed and display is updated in step  82  where Timer.sub.--3  80  is cleared, and Timer.sub.--2  70  is enabled. If Backup Enabled  83  is false, the patient directory is deleted from Backup Directory  71 . Otherwise, it will be kept there to be used during the backup. 
     Timer.sub.--4  90  starts the backup process. It is programmed to go off at the configured time on the configured day(s) of the week. The program then checks if there are any files to backup  91 . This is also a check for the end of back up process. If finished (or nothing left to back up), a CDR  42  containing only the latest database files is generated  99 . This is the backup disc for the database files. If there are files to backup  91 , in Select Patients step  92  enough patients are selected to fill a 650 MB CD (if there are enough) minus approximately 10 MB which is used for storing system, label, and viewer files. A Backup CD unique serial number is also generated in Select Patients step  92 . The patient directories are then moved from Backup Directory  71  to Build Image Directory  75 . The same processing as for a patient CD, as described in steps  75 - 77  above then occur steps  93 - 95 . Once a backup job is created, the software then goes through a timed delay  96  waiting for the job to finish by checking for job complete  97 . Once done, the database is updated with the patient and study information of all the patients on that CD and the CD unique serial number in Update Database step  98 . The process starts anew by checking to see if there are any more files to back up  91 . 
     A simple query screen allows for querying the backup database using patient name, patient id, or study date thus allowing the user to find which CD a patient information is stored on. 
     The piracy protection device is attached to the parallel port. It is initialized with the number of CDRs  42  purchased, and with patient and/or backup options. FilmX™ will create patient CDs if that option is enabled; back up CDs if that option is enabled; and ii both if both options are present. Once a job has been successfully completed, the number of CDs created by it are deducted from the counter in the piracy protection device. If at Zero, the system halts operation until a new code for additional CDs has been entered. Patient and/or backup options can be enabled by operator entering a code provided by Soma Corporation. 
     Even though the invention has been described herein using CDRs, other printable recording medium, including but not limited to CDR, CDRW, DVD-R, DVD-RW, DVDRAM; can be used. 
     Obviously, many modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically described.

Technology Classification (CPC): 6