Provided by: libgdcm-tools_3.0.24-5_amd64
NAME
gdcmdump - dumps a DICOM file, it will display the structure and values contained in the specified DICOM file.
SYNOPSIS
gdcmdump [options] dcm_file gdcmdump [options] dcm_directory
DESCRIPTION
The gdcmdump command line program dumps a DICOM file to the console. For those familiar with dcmdump (DCMTK) output, gdcmdump has some minor differences. Namely: • For Implicit Transfer Syntax gdcmdump will print ?? instead of the dictionary VR gdcmdump has a limited private dictionary that is used to lookup private element whenever possible.
PARAMETERS
dcm_file DICOM input filename dcm_directory DICOM input directory
OPTIONS
specific options -x --xml-dict generate the XML dict (only private elements for now). -r --recursive recursive (input is a directory) -d --dump dump value (limited use). -p --print print value instead of simply dumping (default). -c --color print in color. -C --csa print SIEMENS CSA Header (0029,[12]0,SIEMENS CSA HEADER). --csa-asl print decoded SIEMENS CSA MR_ASL (base64). --csa-diffusion print decoded SIEMENS CSA MRDiffusion (base64). --mrprotocol print SIEMENS MrProtocol only (within ASCCONV BEGIN/END). or Phoenix Meta Protocol (0021,19,SIEMENS MR SDS 01). -P --pdb print GEMS Protocol Data Block (0025,1b,GEMS_SERS_01). --elscint print ELSCINT Protocol Information (01f7,26,ELSCINT1). --vepro print VEPRO Protocol Information (0055,20,VEPRO VIF 3.0 DATA). or VEPRO Protocol Information (0055,20,VEPRO VIM 5.0 DATA). --sds print Philips MR Series Data Storage (1.3.46.670589.11.0.0.12.2) Information (2005,32,Philips MR Imaging DD 002). --ct3 print CT Private Data 2 (7005,10,TOSHIBA_MEC_CT3). --pmtf print PMTF INFORMATION DATA sub-sequences (0029,01,PMTF INFORMATION DATA). or TOSHIBA_MEC_MR3 sub-sequences (0029,01,TOSHIBA_MEC_MR3). or CANON_MEC_MR3 sub-sequences (0029,01,CANON_MEC_MR3) --medcom print MedCom History Information as UTF-8 (0029,20,SIEMENS MEDCOM HEADER). --mr3 print Original Data as UTF-8 (700d,08,TOSHIBA_MEC_MR3). -A --asn1 print encapsulated ASN1 structure >(0400,0520). --map-uid-names map UID to names. general options -h --help print this help text and exit -v --version print version information and exit -V --verbose verbose mode (warning+error). -W --warning warning mode, print warning information -E --error error mode, print error information -D --debug debug mode, print debug information special options -I --ignore-errors dumps even if file is corrupted (advanced users only, see disclaimers).
TYPICAL USAGE
Printing Implicit Transfer Syntax The VR are not found in the file, thus are presented with a “(??)”, and right next to it (if found) the correct VR. Eg.: $ gdcmdump GE_DLX-8-MONO2-PrivateSyntax.dcm # Dicom-File-Format ... (0008,0000) ?? (UL) 434 # 4,1 Generic Group Length (0008,0005) ?? (CS) [ISO_IR 100] # 10,1-n Specific Character Set (0008,0008) ?? (CS) [ORIGINAL\\PRIMARY\\SINGLE PLANE ] # 30,2-n Image Type (0008,0016) ?? (UI) [1.2.840.10008.5.1.4.1.1.12.1] # 28,1 SOP Class UID (0008,0018) ?? (UI) [1.2.840.113619.2.16.1.0.906539207.1.24207] # 42,1 SOP Instance UID (0008,0020) ?? (DA) [19980923] # 8,1 Study Date (0008,0021) ?? (DA) [19980923] # 8,1 Series Date (0008,0022) ?? (DA) [19980923] # 8,1 Acquisition Date (0008,0023) ?? (DA) [19980923] # 8,1 Content Date (0008,0030) ?? (TM) [101229.000] # 10,1 Study Time (0008,0031) ?? (TM) [101229.000] # 10,1 Series Time (0008,0032) ?? (TM) [102653.000] # 10,1 Acquisition Time (0008,0033) ?? (TM) [102653.000] # 10,1 Content Time ... Print Private Attributes GDCM has a limited private dictionary. Whenever possible, it will try to lookup the private data element. $ gdcmdump 012345.002.050.dcm ... (0009,0010) LO [GEMS_IDEN_01] # 12,1 Private Creator (0009,1001) LO [GE_GENESIS_FF ] # 14,1 Full fidelity (0009,1002) SH [MRCV] # 4,1 Suite id (0009,1004) SH [SIGNA ] # 6,1 Product id (0009,1027) SL 985968524 # 4,1 Image actual date (0009,1030) SH [19356UMR2 ] # 10,1 Service id (0009,1031) SH [999 ] # 4,1 Mobile location number (0009,10e3) UI [1.2.840.113619.1.1.4.1762386977] # 32,1 Equipment UID (0009,10e6) SH [08] # 2,1 Genesis Version - now (0009,10e7) UL 2757786872 # 4,1 Exam Record checksum (0009,10e9) SL 985968523 # 4,1 Actual series data time stamp ... (0019,0000) UL 1208 # 4,1 Generic Group Length (0019,0010) LO [GEMS_ACQU_01] # 12,1 Private Creator (0019,100f) DS [424.399994] # 10,1 Horiz. Frame of ref. (0019,1011) SS 0 # 2,1 Series contrast ... (0019,10e0) DS [0.000000] # 8,1 User data 24 {# DTI Diffusion Dir., release 10.0 & above} (0019,10e2) DS [0.000000] # 8,1 Velocity Encode Scale (0019,10f2) SS 0 # 2,1 Fast phases (0019,10f9) DS [98] # 2,1 Transmit gain ... (0021,0000) UL 372 # 4,1 Generic Group Length (0021,0010) LO [GEMS_RELA_01] # 12,1 Private Creator (0021,1003) SS 0 # 2,1 Series from which Prescribed ... SIEMENS CSA Header Using this option it is possible to dump as a readable text what is contained in the private attribute as found in typical SIEMENS MR DICOM file. Eg.: $ gdcmdump --csa MR_SIEMENS_forceLoad29-1010_29-1020.dcm (0029,0010)siemens csa header Image shadow data (0029,xx10) 0 - 'EchoLinePosition' VM 1, VR IS, SyngoDT 6, NoOfItems 6, Data '64 ' 1 - 'EchoColumnPosition' VM 1, VR IS, SyngoDT 6, NoOfItems 6, Data '64 ' 2 - 'EchoPartitionPosition' VM 1, VR IS, SyngoDT 6, NoOfItems 6, Data '32 ' 3 - 'UsedChannelMask' VM 1, VR UL, SyngoDT 9, NoOfItems 6, Data '255 ' 4 - 'Actual3DImaPartNumber' VM 1, VR IS, SyngoDT 6, NoOfItems 0, Data 5 - 'ICE_Dims' VM 1, VR LO, SyngoDT 19, NoOfItems 6, Data 'X_1_1_1_1_1_1_31_1_1_1_1_19' 6 - 'B_value' VM 1, VR IS, SyngoDT 6, NoOfItems 6, Data '0 ' 7 - 'Filter1' VM 1, VR IS, SyngoDT 6, NoOfItems 0, Data 8 - 'Filter2' VM 1, VR IS, SyngoDT 6, NoOfItems 0, Data ... SIEMENS CSA Header: MR_ASL Using this option it is possible to dump a decoded (base64) version of MR_ASL contained in the CSA header. Eg.: $ gdcmdump --csa-asl ASL.dcm (0018,9251) SQ (Sequence with undefined length) # u/l,1 MR Arterial Spin Labeling Sequence (fffe,e000) na (Item with undefined length) (0018,9252) LO [2D pulsed ASL (EP2D)] # 20,1 ASL Technique Description (0018,9257) CS [LABEL ] # 6,1 ASL Context (0018,9259) CS [NO] # 2,1 ASL Crusher Flag (0018,925c) CS [YES ] # 4,1 ASL Bolus Cut-off Flag (0018,925d) SQ (Sequence with undefined length) # u/l,1 ASL Bolus Cut-off Timing Sequence (fffe,e000) na (Item with undefined length) (0018,925e) LO [Q2TIPS] # 6,1 ASL Bolus Cut-off Technique (0018,925f) IS (UL) [1990] # 4,1 ASL Bolus Cut-off Delay Time (fffe,e00d) (fffe,e0dd) (0018,9260) SQ (Sequence with undefined length) # u/l,1 ASL Slab Sequence (fffe,e000) na (Item with undefined length) (0018,9253) US 1 # 2,1 ASL Slab Number (0018,9254) FD 109.5 # 8,1 ASL Slab Thickness (0018,9255) FD 0\0\1 # 24,3 ASL Slab Orientation (0018,9256) FD 0\-23.9333\-70.9189 # 24,3 ASL Mid Slab Position (0018,9258) IS (UL) [10] # 2,1 ASL Pulse Train Duration (fffe,e00d) (fffe,e0dd) (fffe,e00d) (fffe,e0dd) This is completely equivalent to doing (by hand): $ gdcmdump --csa asl.dcm | grep -A 6 MR_ASL 98 - 'MR_ASL' VM 1, VR UT, SyngoDT 27, NoOfItems 6, Data 'GABRklNRAAD//////v8A4P////8YAFKSTE8UADJEIHB1bHNlZCBBU0wgKEVQMkQpGABXkkNT BgBMQUJFTCAYAGCSU1EAAP/////+/wDg/////xgAU5JVUwIAAQAYAFSSRkQIAAAAAAAAYFtA GABVkkZEGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA8D8YAFaSRkQYAAAAAAAAAAAAAAAAYOvu N8AAAACAzrpRwBgAWJJJUwIAMTD+/w3gAAAAAP7/3eAAAAAAGABZkkNTAgBOTxgAXJJDUwQA WUVTIBgAXZJTUQAA//////7/AOD/////GABekkxPBgBRMlRJUFMYAF+SSVMEADE5OTD+/w3g AAAAAP7/3eAAAAAA/v8N4AAAAAD+/93gAAAAAA== ' $ echo 'GABRklNRAAD//////v8A4P////8YAFKSTE8UADJEIHB1bHNlZCBBU0wgKEVQMkQpGABXkkNT BgBMQUJFTCAYAGCSU1EAAP/////+/wDg/////xgAU5JVUwIAAQAYAFSSRkQIAAAAAAAAYFtA GABVkkZEGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA8D8YAFaSRkQYAAAAAAAAAAAAAAAAYOvu N8AAAACAzrpRwBgAWJJJUwIAMTD+/w3gAAAAAP7/3eAAAAAAGABZkkNTAgBOTxgAXJJDUwQA WUVTIBgAXZJTUQAA//////7/AOD/////GABekkxPBgBRMlRJUFMYAF+SSVMEADE5OTD+/w3g AAAAAP7/3eAAAAAA/v8N4AAAAAD+/93gAAAAAA== ' | base64 -d > asl.dcm $ dcmdump -f asl.dcm One should pay attention that currently two attributes (0018,925f) and (0018,9258) are using a VR that is different from what the DICOM standard specifies. SIEMENS CSA Header: MRDiffusion Using this option it is possible to dump a decoded (base64) version of MRDiffusion contained in the CSA header. Eg.: $ gdcmdump --csa-diffusion DIFFUSION.dcm # Dicom-File-Format # Dicom-Meta-Information-Header # Used TransferSyntax: # Dicom-Data-Set # Used TransferSyntax: Unknown Transfer Syntax (0018,9117) SQ (Sequence with undefined length) # u/l,1 MR Diffusion Sequence (fffe,e000) na (Item with undefined length) (0018,9075) CS [ISOTROPIC ] # 10,1 Diffusion Directionality (0018,9087) FD 0 # 8,1 Diffusion b-value (fffe,e00d) (fffe,e0dd) SIEMENS CSA Header: MrProtocol Using this option it is possible to dump a sorted version of MrProtocol (extra '"' are trimmed). Eg.: $ gdcmdump --mrprotocol input.dcm MrProtocolVersion: 12510002 acFlowComp[0] : 1 adFlipAngleDegree[0] : 90 alTE[0] : 60000 alTR[0] : 3000000 dRefSNR : 181090.7706 dRefSNR_VOI : 181090.7706 lAverages : 1 lCombinedEchoes : 1 lContrasts : 1 lParadigmPeriodicity : 1 lRepetitions : 79 lScanTimeSec : 3 lTotalScanTimeSec : 246 sAdjFreSpec.ulMode : 0x1 sAdjShimSpec.ulMode : 0x2 sAdjWatSupSpec.ulMode : 0x1 sAngio.ucPCFlowMode : 0x2 sAngio.ucTOFInflow : 0x4 sAutoAlign.dAAMatrix[0] : 1 sAutoAlign.dAAMatrix[10] : 1 sAutoAlign.dAAMatrix[15] : 1 sAutoAlign.dAAMatrix[5] : 1 sCOIL_SELECT_MEAS.asList[0].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[0].lRxChannelConnected : 1 sCOIL_SELECT_MEAS.asList[0].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[0].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[0].sCoilElementID.tElement : PH7 sCOIL_SELECT_MEAS.asList[1].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[1].lRxChannelConnected : 2 sCOIL_SELECT_MEAS.asList[1].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[1].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[1].sCoilElementID.tElement : PH5 sCOIL_SELECT_MEAS.asList[2].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[2].lRxChannelConnected : 3 sCOIL_SELECT_MEAS.asList[2].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[2].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[2].sCoilElementID.tElement : PH3 sCOIL_SELECT_MEAS.asList[3].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[3].lRxChannelConnected : 4 sCOIL_SELECT_MEAS.asList[3].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[3].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[3].sCoilElementID.tElement : PH1 sCOIL_SELECT_MEAS.asList[4].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[4].lRxChannelConnected : 5 sCOIL_SELECT_MEAS.asList[4].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[4].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[4].sCoilElementID.tElement : PH8 sCOIL_SELECT_MEAS.asList[5].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[5].lRxChannelConnected : 6 sCOIL_SELECT_MEAS.asList[5].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[5].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[5].sCoilElementID.tElement : PH6 sCOIL_SELECT_MEAS.asList[6].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[6].lRxChannelConnected : 7 sCOIL_SELECT_MEAS.asList[6].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[6].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[6].sCoilElementID.tElement : PH4 sCOIL_SELECT_MEAS.asList[7].lElementSelected : 1 sCOIL_SELECT_MEAS.asList[7].lRxChannelConnected : 8 sCOIL_SELECT_MEAS.asList[7].sCoilElementID.lCoilCopy : 1 sCOIL_SELECT_MEAS.asList[7].sCoilElementID.tCoilID : 8_Channel_Head sCOIL_SELECT_MEAS.asList[7].sCoilElementID.tElement : PH2 sCOIL_SELECT_MEAS.sCOILPLUGS.auiNmbrOfNibbles[0] : 0x2 sCOIL_SELECT_MEAS.sCOILPLUGS.auiNmbrOfNibbles[1] : 0x2 sCOIL_SELECT_MEAS.sCOILPLUGS.auiNmbrOfNibbles[2] : 0x2 sCOIL_SELECT_MEAS.sCOILPLUGS.auiNmbrOfNibbles[3] : 0x2 sCOIL_SELECT_MEAS.sCOILPLUGS.auiNmbrOfNibbles[4] : 0x2 sCOIL_SELECT_MEAS.sCOILPLUGS.aulPlugId[0] : 0xff sCOIL_SELECT_MEAS.sCOILPLUGS.aulPlugId[1] : 0xaa sCOIL_SELECT_MEAS.sCOILPLUGS.aulPlugId[2] : 0xee sCOIL_SELECT_MEAS.sCOILPLUGS.aulPlugId[3] : 0xee sCOIL_SELECT_MEAS.sCOILPLUGS.aulPlugId[4] : 0xa4 sDiffusion.ulMode : 0x1 sEFISPEC.bEFIDataValid : 1 sEllipticalFilter.ucMode : 0x1 sFastImaging.lEPIFactor : 128 sFastImaging.lSegments : 1 sFastImaging.lTurboFactor : 1 sGRADSPEC.alShimCurrent[0] : -166 sGRADSPEC.alShimCurrent[1] : 596 sGRADSPEC.alShimCurrent[2] : -516 sGRADSPEC.alShimCurrent[3] : 84 sGRADSPEC.alShimCurrent[4] : -295 sGRADSPEC.bB0CompensationValid : 1 sGRADSPEC.bCrossTermCompensationValid : 1 sGRADSPEC.bDelayValid : 1 sGRADSPEC.bEddyCompensationValid : 1 sGRADSPEC.bOffsetValid : 1 sGRADSPEC.bSensitivityValid : 1 sGRADSPEC.bShimCurrentValid : 1 sGRADSPEC.flGSWDMinRiseTime : 5 sGRADSPEC.flSensitivityX : 0.000353238 sGRADSPEC.flSensitivityY : 0.000364826 sGRADSPEC.flSensitivityZ : 0.000356804 sGRADSPEC.lDelayX : 14 sGRADSPEC.lDelayY : 15 sGRADSPEC.lDelayZ : 13 sGRADSPEC.lOffsetX : -10 sGRADSPEC.lOffsetY : 22 sGRADSPEC.lOffsetZ : 34 sGRADSPEC.sB0CompensationX.aflAmplitude[0] : -0.0110937 sGRADSPEC.sB0CompensationX.aflAmplitude[1] : -0.0276212 sGRADSPEC.sB0CompensationX.aflAmplitude[2] : 0.00261628 sGRADSPEC.sB0CompensationX.aflTimeConstant[0] : 1.86006 sGRADSPEC.sB0CompensationX.aflTimeConstant[1] : 0.0451358 sGRADSPEC.sB0CompensationX.aflTimeConstant[2] : 0.00199924 sGRADSPEC.sB0CompensationY.aflAmplitude[0] : 0.0647921 sGRADSPEC.sB0CompensationY.aflAmplitude[1] : 0.0207167 sGRADSPEC.sB0CompensationY.aflAmplitude[2] : -0.0131878 sGRADSPEC.sB0CompensationY.aflTimeConstant[0] : 0.852499 sGRADSPEC.sB0CompensationY.aflTimeConstant[1] : 0.0633158 sGRADSPEC.sB0CompensationY.aflTimeConstant[2] : 0.00199999 sGRADSPEC.sB0CompensationZ.aflAmplitude[0] : 0.119857 sGRADSPEC.sB0CompensationZ.aflAmplitude[1] : 0.0106907 sGRADSPEC.sB0CompensationZ.aflAmplitude[2] : -0.0159243 sGRADSPEC.sB0CompensationZ.aflTimeConstant[0] : 1.03958 sGRADSPEC.sB0CompensationZ.aflTimeConstant[1] : 0.019543 sGRADSPEC.sB0CompensationZ.aflTimeConstant[2] : 0.00141055 sGRADSPEC.sCrossTermCompensationXY.aflAmplitude[0] : 0.000779649 sGRADSPEC.sCrossTermCompensationXY.aflTimeConstant[0] : 0.609972 sGRADSPEC.sCrossTermCompensationXZ.aflAmplitude[0] : -0.000357764 sGRADSPEC.sCrossTermCompensationXZ.aflTimeConstant[0] : 0.757463 sGRADSPEC.sCrossTermCompensationYX.aflAmplitude[0] : 0.00028701 sGRADSPEC.sCrossTermCompensationYX.aflTimeConstant[0] : 0.692162 sGRADSPEC.sCrossTermCompensationYZ.aflAmplitude[0] : 0.000341002 sGRADSPEC.sCrossTermCompensationYZ.aflTimeConstant[0] : 0.643997 sGRADSPEC.sEddyCompensationX.aflAmplitude[0] : 0.00321033 sGRADSPEC.sEddyCompensationX.aflAmplitude[1] : 0.0764387 sGRADSPEC.sEddyCompensationX.aflAmplitude[2] : -0.0119296 sGRADSPEC.sEddyCompensationX.aflAmplitude[3] : 0.002806 sGRADSPEC.sEddyCompensationX.aflAmplitude[4] : 0.00131044 sGRADSPEC.sEddyCompensationX.aflTimeConstant[0] : 1.92825 sGRADSPEC.sEddyCompensationX.aflTimeConstant[1] : 0.530542 sGRADSPEC.sEddyCompensationX.aflTimeConstant[2] : 0.348189 sGRADSPEC.sEddyCompensationX.aflTimeConstant[3] : 0.0172583 sGRADSPEC.sEddyCompensationX.aflTimeConstant[4] : 0.00199055 sGRADSPEC.sEddyCompensationY.aflAmplitude[0] : 0.00129643 sGRADSPEC.sEddyCompensationY.aflAmplitude[1] : 0.0657945 sGRADSPEC.sEddyCompensationY.aflAmplitude[2] : -0.00875319 sGRADSPEC.sEddyCompensationY.aflAmplitude[3] : 0.00247817 sGRADSPEC.sEddyCompensationY.aflAmplitude[4] : 0.00136282 sGRADSPEC.sEddyCompensationY.aflTimeConstant[0] : 2.18733 sGRADSPEC.sEddyCompensationY.aflTimeConstant[1] : 0.554603 sGRADSPEC.sEddyCompensationY.aflTimeConstant[2] : 0.363992 sGRADSPEC.sEddyCompensationY.aflTimeConstant[3] : 0.0174167 sGRADSPEC.sEddyCompensationY.aflTimeConstant[4] : 0.0019934 sGRADSPEC.sEddyCompensationZ.aflAmplitude[0] : 0.0106364 sGRADSPEC.sEddyCompensationZ.aflAmplitude[1] : 0.0644895 sGRADSPEC.sEddyCompensationZ.aflAmplitude[2] : -0.0116849 sGRADSPEC.sEddyCompensationZ.aflAmplitude[3] : 0.00245425 sGRADSPEC.sEddyCompensationZ.aflAmplitude[4] : -0.000382604 sGRADSPEC.sEddyCompensationZ.aflTimeConstant[0] : 2.45763 sGRADSPEC.sEddyCompensationZ.aflTimeConstant[1] : 0.728919 sGRADSPEC.sEddyCompensationZ.aflTimeConstant[2] : 0.490303 sGRADSPEC.sEddyCompensationZ.aflTimeConstant[3] : 0.0146871 sGRADSPEC.sEddyCompensationZ.aflTimeConstant[4] : 0.00198729 sGRADSPEC.ucMode : 0x11 sGroupArray.anMember[10] : 10 sGroupArray.anMember[11] : 11 sGroupArray.anMember[12] : 12 sGroupArray.anMember[13] : 13 sGroupArray.anMember[14] : 14 sGroupArray.anMember[15] : 15 sGroupArray.anMember[16] : 16 sGroupArray.anMember[17] : 17 sGroupArray.anMember[18] : 18 sGroupArray.anMember[19] : 19 sGroupArray.anMember[1] : 1 sGroupArray.anMember[20] : 20 sGroupArray.anMember[21] : 21 sGroupArray.anMember[22] : 22 sGroupArray.anMember[23] : 23 sGroupArray.anMember[24] : 24 sGroupArray.anMember[25] : 25 sGroupArray.anMember[26] : 26 sGroupArray.anMember[27] : 27 sGroupArray.anMember[28] : 28 sGroupArray.anMember[29] : 29 sGroupArray.anMember[2] : 2 sGroupArray.anMember[30] : 30 sGroupArray.anMember[31] : -1 sGroupArray.anMember[3] : 3 sGroupArray.anMember[4] : 4 sGroupArray.anMember[5] : 5 sGroupArray.anMember[6] : 6 sGroupArray.anMember[7] : 7 sGroupArray.anMember[8] : 8 sGroupArray.anMember[9] : 9 sGroupArray.asGroup[0].dDistFact : 0.1 sGroupArray.asGroup[0].nSize : 31 sGroupArray.lSize : 1 sGroupArray.sPSat.dGap : 10 sGroupArray.sPSat.dThickness : 50 sKSpace.dPhaseResolution : 1 sKSpace.dSliceResolution : 1 sKSpace.lBaseResolution : 64 sKSpace.lImagesPerSlab : 64 sKSpace.lPartitions : 64 sKSpace.lPhaseEncodingLines : 64 sKSpace.ucAveragingMode : 0x2 sKSpace.ucDimension : 0x2 sKSpace.ucMultiSliceMode : 0x2 sKSpace.ucPhasePartialFourier : 0x10 sKSpace.ucSlicePartialFourier : 0x10 sKSpace.unReordering : 0x1 sNavigatorPara.ucRespComp : 0x4 sPat.lAccelFact3D : 1 sPat.lAccelFactPE : 1 sPat.ucPATMode : 0x1 sPat.ucRefScanMode : 0x1 sPhysioImaging.lMethod1 : 1 sPhysioImaging.lMethod2 : 1 sPhysioImaging.lPhases : 1 sPhysioImaging.lRetroGatedImages : 16 sPhysioImaging.lSignal1 : 1 sPhysioImaging.lSignal2 : 1 sPhysioImaging.sPhysioECG.lArrhythmiaDetection : 1 sPhysioImaging.sPhysioECG.lCardiacGateOffThreshold : 700000 sPhysioImaging.sPhysioECG.lCardiacGateOnThreshold : 100000 sPhysioImaging.sPhysioECG.lTriggerPulses : 1 sPhysioImaging.sPhysioECG.lTriggerWindow : 5 sPhysioImaging.sPhysioExt.lCardiacGateOffThreshold : 700000 sPhysioImaging.sPhysioExt.lCardiacGateOnThreshold : 100000 sPhysioImaging.sPhysioExt.lTriggerPulses : 1 sPhysioImaging.sPhysioExt.lTriggerWindow : 5 sPhysioImaging.sPhysioPulse.lCardiacGateOffThreshold : 700000 sPhysioImaging.sPhysioPulse.lCardiacGateOnThreshold : 100000 sPhysioImaging.sPhysioPulse.lTriggerPulses : 1 sPhysioImaging.sPhysioPulse.lTriggerWindow : 5 sPhysioImaging.sPhysioResp.dGatingRatio : 0.3 sPhysioImaging.sPhysioResp.lRespGatePhase : 2 sPhysioImaging.sPhysioResp.lRespGateThreshold : 20 sPrepPulses.ucFatSat : 0x1 sPrepPulses.ucFatSatMode : 0x2 sPrepPulses.ucInversion : 0x4 sPrepPulses.ucSatRecovery : 0x1 sPrepPulses.ucWaterSat : 0x4 sProtConsistencyInfo.flGMax : 26 sProtConsistencyInfo.flNominalB0 : 1.494 sProtConsistencyInfo.flRiseTime : 5 sRXSPEC.aFFT_SCALE[0].bValid : 1 sRXSPEC.aFFT_SCALE[0].flFactor : 0.720612 sRXSPEC.aFFT_SCALE[0].lRxChannel : 1 sRXSPEC.aFFT_SCALE[1].bValid : 1 sRXSPEC.aFFT_SCALE[1].flFactor : 0.719059 sRXSPEC.aFFT_SCALE[1].lRxChannel : 2 sRXSPEC.aFFT_SCALE[2].bValid : 1 sRXSPEC.aFFT_SCALE[2].flFactor : 0.705708 sRXSPEC.aFFT_SCALE[2].lRxChannel : 3 sRXSPEC.aFFT_SCALE[3].bValid : 1 sRXSPEC.aFFT_SCALE[3].flFactor : 0.731533 sRXSPEC.aFFT_SCALE[3].lRxChannel : 4 sRXSPEC.aFFT_SCALE[4].bValid : 1 sRXSPEC.aFFT_SCALE[4].flFactor : 0.722418 sRXSPEC.aFFT_SCALE[4].lRxChannel : 5 sRXSPEC.aFFT_SCALE[5].bValid : 1 sRXSPEC.aFFT_SCALE[5].flFactor : 0.738751 sRXSPEC.aFFT_SCALE[5].lRxChannel : 6 sRXSPEC.aFFT_SCALE[6].bValid : 1 sRXSPEC.aFFT_SCALE[6].flFactor : 0.719098 sRXSPEC.aFFT_SCALE[6].lRxChannel : 7 sRXSPEC.aFFT_SCALE[7].bValid : 1 sRXSPEC.aFFT_SCALE[7].flFactor : 0.733029 sRXSPEC.aFFT_SCALE[7].lRxChannel : 8 sRXSPEC.alDwellTime[0] : 3000 sRXSPEC.bGainValid : 1 sRXSPEC.bVariCapVoltagesValid : 1 sRXSPEC.lGain : 1 sSliceArray.anAsc[10] : 10 sSliceArray.anAsc[11] : 11 sSliceArray.anAsc[12] : 12 sSliceArray.anAsc[13] : 13 sSliceArray.anAsc[14] : 14 sSliceArray.anAsc[15] : 15 sSliceArray.anAsc[16] : 16 sSliceArray.anAsc[17] : 17 sSliceArray.anAsc[18] : 18 sSliceArray.anAsc[19] : 19 sSliceArray.anAsc[1] : 1 sSliceArray.anAsc[20] : 20 sSliceArray.anAsc[21] : 21 sSliceArray.anAsc[22] : 22 sSliceArray.anAsc[23] : 23 sSliceArray.anAsc[24] : 24 sSliceArray.anAsc[25] : 25 sSliceArray.anAsc[26] : 26 sSliceArray.anAsc[27] : 27 sSliceArray.anAsc[28] : 28 sSliceArray.anAsc[29] : 29 sSliceArray.anAsc[2] : 2 sSliceArray.anAsc[30] : 30 sSliceArray.anAsc[3] : 3 sSliceArray.anAsc[4] : 4 sSliceArray.anAsc[5] : 5 sSliceArray.anAsc[6] : 6 sSliceArray.anAsc[7] : 7 sSliceArray.anAsc[8] : 8 sSliceArray.anAsc[9] : 9 sSliceArray.anPos[10] : 10 sSliceArray.anPos[11] : 11 sSliceArray.anPos[12] : 12 sSliceArray.anPos[13] : 13 sSliceArray.anPos[14] : 14 sSliceArray.anPos[15] : 15 sSliceArray.anPos[16] : 16 sSliceArray.anPos[17] : 17 sSliceArray.anPos[18] : 18 sSliceArray.anPos[19] : 19 sSliceArray.anPos[1] : 1 sSliceArray.anPos[20] : 20 sSliceArray.anPos[21] : 21 sSliceArray.anPos[22] : 22 sSliceArray.anPos[23] : 23 sSliceArray.anPos[24] : 24 sSliceArray.anPos[25] : 25 sSliceArray.anPos[26] : 26 sSliceArray.anPos[27] : 27 sSliceArray.anPos[28] : 28 sSliceArray.anPos[29] : 29 sSliceArray.anPos[2] : 2 sSliceArray.anPos[30] : 30 sSliceArray.anPos[3] : 3 sSliceArray.anPos[4] : 4 sSliceArray.anPos[5] : 5 sSliceArray.anPos[6] : 6 sSliceArray.anPos[7] : 7 sSliceArray.anPos[8] : 8 sSliceArray.anPos[9] : 9 sSliceArray.asSlice[0].dPhaseFOV : 230 sSliceArray.asSlice[0].dReadoutFOV : 230 sSliceArray.asSlice[0].dThickness : 4 sSliceArray.asSlice[0].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[0].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[0].sNormal.dTra : 0.992737636 sSliceArray.asSlice[0].sPosition.dCor : -52.65585315 sSliceArray.asSlice[0].sPosition.dSag : 2.24891108 sSliceArray.asSlice[0].sPosition.dTra : -26.94105767 sSliceArray.asSlice[10].dPhaseFOV : 230 sSliceArray.asSlice[10].dReadoutFOV : 230 sSliceArray.asSlice[10].dThickness : 4 sSliceArray.asSlice[10].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[10].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[10].sNormal.dTra : 0.992737636 sSliceArray.asSlice[10].sPosition.dCor : -48.78027355 sSliceArray.asSlice[10].sPosition.dSag : -1.356313999 sSliceArray.asSlice[10].sPosition.dTra : 16.73939831 sSliceArray.asSlice[11].dPhaseFOV : 230 sSliceArray.asSlice[11].dReadoutFOV : 230 sSliceArray.asSlice[11].dThickness : 4 sSliceArray.asSlice[11].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[11].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[11].sNormal.dTra : 0.992737636 sSliceArray.asSlice[11].sPosition.dCor : -48.39271559 sSliceArray.asSlice[11].sPosition.dSag : -1.716836507 sSliceArray.asSlice[11].sPosition.dTra : 21.10744391 sSliceArray.asSlice[12].dPhaseFOV : 230 sSliceArray.asSlice[12].dReadoutFOV : 230 sSliceArray.asSlice[12].dThickness : 4 sSliceArray.asSlice[12].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[12].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[12].sNormal.dTra : 0.992737636 sSliceArray.asSlice[12].sPosition.dCor : -48.00515763 sSliceArray.asSlice[12].sPosition.dSag : -2.077359015 sSliceArray.asSlice[12].sPosition.dTra : 25.47548951 sSliceArray.asSlice[13].dPhaseFOV : 230 sSliceArray.asSlice[13].dReadoutFOV : 230 sSliceArray.asSlice[13].dThickness : 4 sSliceArray.asSlice[13].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[13].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[13].sNormal.dTra : 0.992737636 sSliceArray.asSlice[13].sPosition.dCor : -47.61759967 sSliceArray.asSlice[13].sPosition.dSag : -2.437881523 sSliceArray.asSlice[13].sPosition.dTra : 29.84353511 sSliceArray.asSlice[14].dPhaseFOV : 230 sSliceArray.asSlice[14].dReadoutFOV : 230 sSliceArray.asSlice[14].dThickness : 4 sSliceArray.asSlice[14].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[14].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[14].sNormal.dTra : 0.992737636 sSliceArray.asSlice[14].sPosition.dCor : -47.23004171 sSliceArray.asSlice[14].sPosition.dSag : -2.798404031 sSliceArray.asSlice[14].sPosition.dTra : 34.21158071 sSliceArray.asSlice[15].dPhaseFOV : 230 sSliceArray.asSlice[15].dReadoutFOV : 230 sSliceArray.asSlice[15].dThickness : 4 sSliceArray.asSlice[15].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[15].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[15].sNormal.dTra : 0.992737636 sSliceArray.asSlice[15].sPosition.dCor : -46.84248375 sSliceArray.asSlice[15].sPosition.dSag : -3.158926539 sSliceArray.asSlice[15].sPosition.dTra : 38.57962631 sSliceArray.asSlice[16].dPhaseFOV : 230 sSliceArray.asSlice[16].dReadoutFOV : 230 sSliceArray.asSlice[16].dThickness : 4 sSliceArray.asSlice[16].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[16].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[16].sNormal.dTra : 0.992737636 sSliceArray.asSlice[16].sPosition.dCor : -46.45492579 sSliceArray.asSlice[16].sPosition.dSag : -3.519449047 sSliceArray.asSlice[16].sPosition.dTra : 42.9476719 sSliceArray.asSlice[17].dPhaseFOV : 230 sSliceArray.asSlice[17].dReadoutFOV : 230 sSliceArray.asSlice[17].dThickness : 4 sSliceArray.asSlice[17].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[17].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[17].sNormal.dTra : 0.992737636 sSliceArray.asSlice[17].sPosition.dCor : -46.06736783 sSliceArray.asSlice[17].sPosition.dSag : -3.879971555 sSliceArray.asSlice[17].sPosition.dTra : 47.3157175 sSliceArray.asSlice[18].dPhaseFOV : 230 sSliceArray.asSlice[18].dReadoutFOV : 230 sSliceArray.asSlice[18].dThickness : 4 sSliceArray.asSlice[18].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[18].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[18].sNormal.dTra : 0.992737636 sSliceArray.asSlice[18].sPosition.dCor : -45.67980987 sSliceArray.asSlice[18].sPosition.dSag : -4.240494063 sSliceArray.asSlice[18].sPosition.dTra : 51.6837631 sSliceArray.asSlice[19].dPhaseFOV : 230 sSliceArray.asSlice[19].dReadoutFOV : 230 sSliceArray.asSlice[19].dThickness : 4 sSliceArray.asSlice[19].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[19].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[19].sNormal.dTra : 0.992737636 sSliceArray.asSlice[19].sPosition.dCor : -45.29225191 sSliceArray.asSlice[19].sPosition.dSag : -4.601016571 sSliceArray.asSlice[19].sPosition.dTra : 56.0518087 sSliceArray.asSlice[1].dPhaseFOV : 230 sSliceArray.asSlice[1].dReadoutFOV : 230 sSliceArray.asSlice[1].dThickness : 4 sSliceArray.asSlice[1].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[1].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[1].sNormal.dTra : 0.992737636 sSliceArray.asSlice[1].sPosition.dCor : -52.26829519 sSliceArray.asSlice[1].sPosition.dSag : 1.888388572 sSliceArray.asSlice[1].sPosition.dTra : -22.57301207 sSliceArray.asSlice[20].dPhaseFOV : 230 sSliceArray.asSlice[20].dReadoutFOV : 230 sSliceArray.asSlice[20].dThickness : 4 sSliceArray.asSlice[20].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[20].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[20].sNormal.dTra : 0.992737636 sSliceArray.asSlice[20].sPosition.dCor : -44.90469395 sSliceArray.asSlice[20].sPosition.dSag : -4.961539079 sSliceArray.asSlice[20].sPosition.dTra : 60.4198543 sSliceArray.asSlice[21].dPhaseFOV : 230 sSliceArray.asSlice[21].dReadoutFOV : 230 sSliceArray.asSlice[21].dThickness : 4 sSliceArray.asSlice[21].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[21].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[21].sNormal.dTra : 0.992737636 sSliceArray.asSlice[21].sPosition.dCor : -44.51713599 sSliceArray.asSlice[21].sPosition.dSag : -5.322061587 sSliceArray.asSlice[21].sPosition.dTra : 64.7878999 sSliceArray.asSlice[22].dPhaseFOV : 230 sSliceArray.asSlice[22].dReadoutFOV : 230 sSliceArray.asSlice[22].dThickness : 4 sSliceArray.asSlice[22].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[22].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[22].sNormal.dTra : 0.992737636 sSliceArray.asSlice[22].sPosition.dCor : -44.12957804 sSliceArray.asSlice[22].sPosition.dSag : -5.682584095 sSliceArray.asSlice[22].sPosition.dTra : 69.15594549 sSliceArray.asSlice[23].dPhaseFOV : 230 sSliceArray.asSlice[23].dReadoutFOV : 230 sSliceArray.asSlice[23].dThickness : 4 sSliceArray.asSlice[23].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[23].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[23].sNormal.dTra : 0.992737636 sSliceArray.asSlice[23].sPosition.dCor : -43.74202008 sSliceArray.asSlice[23].sPosition.dSag : -6.043106603 sSliceArray.asSlice[23].sPosition.dTra : 73.52399109 sSliceArray.asSlice[24].dPhaseFOV : 230 sSliceArray.asSlice[24].dReadoutFOV : 230 sSliceArray.asSlice[24].dThickness : 4 sSliceArray.asSlice[24].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[24].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[24].sNormal.dTra : 0.992737636 sSliceArray.asSlice[24].sPosition.dCor : -43.35446212 sSliceArray.asSlice[24].sPosition.dSag : -6.403629111 sSliceArray.asSlice[24].sPosition.dTra : 77.89203669 sSliceArray.asSlice[25].dPhaseFOV : 230 sSliceArray.asSlice[25].dReadoutFOV : 230 sSliceArray.asSlice[25].dThickness : 4 sSliceArray.asSlice[25].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[25].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[25].sNormal.dTra : 0.992737636 sSliceArray.asSlice[25].sPosition.dCor : -42.96690416 sSliceArray.asSlice[25].sPosition.dSag : -6.764151619 sSliceArray.asSlice[25].sPosition.dTra : 82.26008229 sSliceArray.asSlice[26].dPhaseFOV : 230 sSliceArray.asSlice[26].dReadoutFOV : 230 sSliceArray.asSlice[26].dThickness : 4 sSliceArray.asSlice[26].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[26].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[26].sNormal.dTra : 0.992737636 sSliceArray.asSlice[26].sPosition.dCor : -42.5793462 sSliceArray.asSlice[26].sPosition.dSag : -7.124674127 sSliceArray.asSlice[26].sPosition.dTra : 86.62812789 sSliceArray.asSlice[27].dPhaseFOV : 230 sSliceArray.asSlice[27].dReadoutFOV : 230 sSliceArray.asSlice[27].dThickness : 4 sSliceArray.asSlice[27].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[27].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[27].sNormal.dTra : 0.992737636 sSliceArray.asSlice[27].sPosition.dCor : -42.19178824 sSliceArray.asSlice[27].sPosition.dSag : -7.485196635 sSliceArray.asSlice[27].sPosition.dTra : 90.99617349 sSliceArray.asSlice[28].dPhaseFOV : 230 sSliceArray.asSlice[28].dReadoutFOV : 230 sSliceArray.asSlice[28].dThickness : 4 sSliceArray.asSlice[28].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[28].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[28].sNormal.dTra : 0.992737636 sSliceArray.asSlice[28].sPosition.dCor : -41.80423028 sSliceArray.asSlice[28].sPosition.dSag : -7.845719143 sSliceArray.asSlice[28].sPosition.dTra : 95.36421908 sSliceArray.asSlice[29].dPhaseFOV : 230 sSliceArray.asSlice[29].dReadoutFOV : 230 sSliceArray.asSlice[29].dThickness : 4 sSliceArray.asSlice[29].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[29].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[29].sNormal.dTra : 0.992737636 sSliceArray.asSlice[29].sPosition.dCor : -41.41667232 sSliceArray.asSlice[29].sPosition.dSag : -8.206241651 sSliceArray.asSlice[29].sPosition.dTra : 99.73226468 sSliceArray.asSlice[2].dPhaseFOV : 230 sSliceArray.asSlice[2].dReadoutFOV : 230 sSliceArray.asSlice[2].dThickness : 4 sSliceArray.asSlice[2].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[2].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[2].sNormal.dTra : 0.992737636 sSliceArray.asSlice[2].sPosition.dCor : -51.88073723 sSliceArray.asSlice[2].sPosition.dSag : 1.527866064 sSliceArray.asSlice[2].sPosition.dTra : -18.20496647 sSliceArray.asSlice[30].dPhaseFOV : 230 sSliceArray.asSlice[30].dReadoutFOV : 230 sSliceArray.asSlice[30].dThickness : 4 sSliceArray.asSlice[30].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[30].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[30].sNormal.dTra : 0.992737636 sSliceArray.asSlice[30].sPosition.dCor : -41.02911436 sSliceArray.asSlice[30].sPosition.dSag : -8.566764159 sSliceArray.asSlice[30].sPosition.dTra : 104.1003103 sSliceArray.asSlice[3].dPhaseFOV : 230 sSliceArray.asSlice[3].dReadoutFOV : 230 sSliceArray.asSlice[3].dThickness : 4 sSliceArray.asSlice[3].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[3].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[3].sNormal.dTra : 0.992737636 sSliceArray.asSlice[3].sPosition.dCor : -51.49317927 sSliceArray.asSlice[3].sPosition.dSag : 1.167343556 sSliceArray.asSlice[3].sPosition.dTra : -13.83692088 sSliceArray.asSlice[4].dPhaseFOV : 230 sSliceArray.asSlice[4].dReadoutFOV : 230 sSliceArray.asSlice[4].dThickness : 4 sSliceArray.asSlice[4].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[4].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[4].sNormal.dTra : 0.992737636 sSliceArray.asSlice[4].sPosition.dCor : -51.10562131 sSliceArray.asSlice[4].sPosition.dSag : 0.8068210485 sSliceArray.asSlice[4].sPosition.dTra : -9.468875277 sSliceArray.asSlice[5].dPhaseFOV : 230 sSliceArray.asSlice[5].dReadoutFOV : 230 sSliceArray.asSlice[5].dThickness : 4 sSliceArray.asSlice[5].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[5].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[5].sNormal.dTra : 0.992737636 sSliceArray.asSlice[5].sPosition.dCor : -50.71806335 sSliceArray.asSlice[5].sPosition.dSag : 0.4462985405 sSliceArray.asSlice[5].sPosition.dTra : -5.100829679 sSliceArray.asSlice[6].dPhaseFOV : 230 sSliceArray.asSlice[6].dReadoutFOV : 230 sSliceArray.asSlice[6].dThickness : 4 sSliceArray.asSlice[6].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[6].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[6].sNormal.dTra : 0.992737636 sSliceArray.asSlice[6].sPosition.dCor : -50.33050539 sSliceArray.asSlice[6].sPosition.dSag : 0.08577603254 sSliceArray.asSlice[6].sPosition.dTra : -0.7327840804 sSliceArray.asSlice[7].dPhaseFOV : 230 sSliceArray.asSlice[7].dReadoutFOV : 230 sSliceArray.asSlice[7].dThickness : 4 sSliceArray.asSlice[7].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[7].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[7].sNormal.dTra : 0.992737636 sSliceArray.asSlice[7].sPosition.dCor : -49.94294743 sSliceArray.asSlice[7].sPosition.dSag : -0.2747464754 sSliceArray.asSlice[7].sPosition.dTra : 3.635261518 sSliceArray.asSlice[8].dPhaseFOV : 230 sSliceArray.asSlice[8].dReadoutFOV : 230 sSliceArray.asSlice[8].dThickness : 4 sSliceArray.asSlice[8].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[8].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[8].sNormal.dTra : 0.992737636 sSliceArray.asSlice[8].sPosition.dCor : -49.55538947 sSliceArray.asSlice[8].sPosition.dSag : -0.6352689834 sSliceArray.asSlice[8].sPosition.dTra : 8.003307116 sSliceArray.asSlice[9].dPhaseFOV : 230 sSliceArray.asSlice[9].dReadoutFOV : 230 sSliceArray.asSlice[9].dThickness : 4 sSliceArray.asSlice[9].sNormal.dCor : 0.08808135446 sSliceArray.asSlice[9].sNormal.dSag : -0.08193693363 sSliceArray.asSlice[9].sNormal.dTra : 0.992737636 sSliceArray.asSlice[9].sPosition.dCor : -49.16783151 sSliceArray.asSlice[9].sPosition.dSag : -0.9957914914 sSliceArray.asSlice[9].sPosition.dTra : 12.37135271 sSliceArray.lConc : 1 sSliceArray.lSize : 31 sSliceArray.sTSat.dThickness : 50 sSliceArray.ucMode : 0x4 sSpecPara.lDecouplingType : 1 sSpecPara.lExcitationType : 1 sSpecPara.lNOEType : 1 sSpecPara.lPhaseCyclingType : 1 sSpecPara.lPhaseEncodingType : 1 sSpecPara.lRFExcitationBandwidth : 1 sSpecPara.lSpectralSuppression : 1 sSpecPara.ucRemoveOversampling : 0x1 sTXSPEC.aRFPULSE[0].bAmplitudeValid : 0x1 sTXSPEC.aRFPULSE[0].flAmplitude : 263.068 sTXSPEC.aRFPULSE[0].tName : SincRFPulse sTXSPEC.aRFPULSE[1].bAmplitudeValid : 0x1 sTXSPEC.aRFPULSE[1].flAmplitude : 31.9334 sTXSPEC.aRFPULSE[1].tName : SLoopFCSatNS sTXSPEC.asNucleusInfo[0].bAmplitudeCorrectionValid : 1 sTXSPEC.asNucleusInfo[0].bFrequencyValid : 1 sTXSPEC.asNucleusInfo[0].bReferenceAmplitudeValid : 1 sTXSPEC.asNucleusInfo[0].flAmplitudeCorrection : 1 sTXSPEC.asNucleusInfo[0].flReferenceAmplitude : 259.084 sTXSPEC.asNucleusInfo[0].lFrequency : 63644057 sTXSPEC.asNucleusInfo[0].tNucleus : 1H sTXSPEC.asNucleusInfo[1].bAmplitudeCorrectionValid : 1 sTXSPEC.asNucleusInfo[1].bFrequencyValid : 1 sTXSPEC.asNucleusInfo[1].bReferenceAmplitudeValid : 1 sTXSPEC.bBTBValid : 1 sTXSPEC.bKDynValid : 1 sTXSPEC.flKDynMagnitudeClipHigh : 1.04 sTXSPEC.flKDynMagnitudeClipLow : 0.96 sTXSPEC.flKDynMagnitudeMax : 1.5 sTXSPEC.flKDynMagnitudeMin : 0.5 sTXSPEC.flKDynPhaseClip : 0.174533 sTXSPEC.flKDynPhaseMax : 0.698132 sTXSPEC.lBTB1ParallelCapacity : 9 sTXSPEC.lBTB1SerialCapacity : 16 sTXSPEC.lBTB2ParallelCapacity : 8 sTXSPEC.lBTB2SerialCapacity : 16 sTXSPEC.lNoOfTraPulses : 2 sTXSPEC.ucExcitMode : 0x1 sTXSPEC.ucRFPulseType : 0x2 sTXSPEC.ucSimultaneousExcitation : 0x1 tProtocolName : ep2d+AF8-BOLD+AF8-evntX4 tReferenceImage0 : 1.3.12.2.1107.5.2.12.21296.30000006070308044128100000804 tReferenceImage1 : 1.3.12.2.1107.5.2.12.21296.30000006070308044128100000798 tReferenceImage2 : 1.3.12.2.1107.5.2.12.21296.30000006070308044128100000797 tSequenceFileName : %SiemensSeq%\ep2d_pace tcurrentEVAProt : %CURRENTEVAPROT%\EVA6A.tmp tdefaultEVAProt : %SiemensEvaDefProt%\BOLD\t-test_10B10A_moco.evp ucDisableChangeStoreImages : 0x1 ucDixon : 0x1 ucOneSeriesForAllMeas : 0x1 ucPHAPSMode : 0x1 ucReconstructionMode : 0x1 ucScanRegionPosValid : 0x1 ulVersion : 0xbee332 GEMS Protocol Data Block Using this option it is possible to dump as a readable text what is contained in the private attribute as found in typical GEMS MR DICOM file. Protocol Data Block : 0025,xx1b,GEMS_SERS_01 $ gdcmdump --pdb GE_MR_0025xx1bProtocolDataBlock.dcm ENTRY "Head First" POSITION "Supine" ANREF "NA" COIL "HEAD" PLANE "OBLIQUE" SEDESCFLAG "1" SEDESC "AX FSE T2" IMODE "2D" PSEQ "FSE-XL" IOPT "FC, EDR, TRF, Fast" PLUG "22" FILTCHOICE "None" BWRT "-1" TRICKSIMG "1" TAG_SPACE "7" TAG_TYPE "None" ... ELSCINT Protocol Information Using this option it is possible to dump as a readable text what is contained in the private attribute as found in typical ELSCINT CT DICOM file. ELSCINT Protocol Information: (01f7,26,ELSCINT1) $ gdcmdump --elscint ELSCINT1_ProtocolInformation.dcm ELSCINT1 Dumping info from tag (01f7,26,elscint1) ELSCINT1/Item name: [] ApprovedStep [yes] RefSurview [1\0] STD-first-img-pos [11.5] current-step [yes] ntimed-steps [0] orig-n-slices [390] protocol-file [Head_Multi_1032_usr.proc] protocol-name [FACE-TRAUMA/Head/Hx] protocol-path [/usr/diamond.root/spr/] protocol-step [1] protocol-version [2.51] ELSCINT1/Item name: [doseright] ACS [n/a] ACS-bed-position [0] ACS-calc-mas [0] ACS-iq-parameter [0] ACS-learn-allowed [no] ACS-water-radius [-1.000000] ACS-water-radius-scan [-1] ... VEPRO Protocol Information Using this option it is possible to dump as a readable text what is contained in the private attribute as found in typical VEPRO CT DICOM file. ELSCINT Protocol Information: (0055,20,VEPRO VIM 5.0 DATA) $ gdcmdump --vepro VEPRO_ProtocolInformation.dcm VIMDATA2: (0055,20,VEPRO VIM 5.0 DATA) ID: VIM Version: 5.0 UserName: UserAdress1: Name of Institution UserAdress2: Street of Institution UserAdress3: City of Institution UserAdress4: UserAdress5: RecDate: 20101001 RecTime: 211321 RecPlace: RecSource: DICOM Distributor DF1: P-09/10-41808 DF2: Sultana Razia DF3: 19411001 DF4: F DF5: DF6: DF7: DF8: CT Scan Brain without Contrast DF9: 10/10-0034873 DF10: 10/10-00348 DF11: DF12: DF13: DF14: Head 0.5 DF15: 4 DF16: DF17: DF18: DF19: DF20: StudyUID: 1.2.392.200036.9116.2.6.1.48.1214228007.1285934880.206831 SeriesUID: 1.2.392.200036.9116.2.6.1.48.1214228007.1285935201.938653 Modality: CT Philips Private MR Series Data Storage (1.3.46.670589.11.0.0.12.2) Using this option it is possible to dump as a readable text what is contained in the private attribute as found in typical Philips Private MR Series Data Storage file. PMS Series Data Storage (2005,32,Philips MR Imaging DD 002) $ gdcmdump --sds PMS_SeriesDataStorage.dcm ... PMS/Item name: [PDF_CONTROL_GEN_PARS/IEEE_PDF/Y ] ... PMS/Item name: [PDF_CONTROL_PREP_PARS /IEEE_PDF/Y ] ... PMS/Item name: [PDF_CONTROL_RECON_PARS/IEEE_PDF/Y ] ... PMS/Item name: [PDF_CONTROL_SCAN_PARS /IEEE_PDF/Y ] ... PMS/Item name: [PDF_EXAM_PARS /IEEE_PDF/Y ] ... PMS/Item name: [PDF_HARDWARE_PARS /IEEE_PDF/Y ] ... PMS/Item name: [PDF_PREP_PARS /IEEE_PDF/Y ] ... PMS/Item name: [PDF_SPT_PARS/IEEE_PDF/Y ] SP_scan_resol [256\256] # 2 SP_pda_profiles [0\0] # 2 SP_filter [324074] # 1 SP_analyse_with_iqt [0] # 1 SP_main_system_type [3] # 1 SP_gradient_system [6] # 1 SP_coil_type [2\2\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_coil_id [2\34\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_coil_part [0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_act_q [0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_act_coil_freq [0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_coil_m_pos [255\255\255\0\0\0\0\0\0\0\0\0\0\0\0\255] # 16 SP_coil_t_pos [255\128\255\0\0\0\0\0\0\0\0\0\0\0\0\255] # 16 SP_surface_coil_con [0\1\0\0\0\0\0\0\0\0\0\0\0\0\0\0] # 16 SP_proton_freq [127801349] # 1 SP_tm_result [2\2\2\2\2\2\2\2\2\2\2\2\2\2\2\2] # 16 SP_f0_result [0] # 1 SP_as_result [0] # 1 SP_po_result [0] # 1 SP_rg_result [0] # 1 SP_dc_result [0] # 1 SP_ph_result [0] # 1 ... Encapsulated ASN1 Structure This option is mainly used for dumping the ASN1 structure of the encrypted Attribute (0040,0520) $ gdcmdump encrypted.dcm ... (0400,0500) SQ # u/l,1 Encrypted Attributes Sequence (fffe,e000) na (Item with undefined length) (0400,0510) UI [1.2.840.10008.1.2] # 18,1 Encrypted Content Transfer Syntax UID (0400,0520) OB 30\\82\\03\\ba\\06\\09\\2a\\86\\48\\55\\04\\08\\13 # 958,1 Encrypted Content (fffe,e00d) (fffe,e0dd) ... $ gdcmdump --asn1 encrypted.dcm 0:d=0 hl=4 l= 954 cons: SEQUENCE 4:d=1 hl=2 l= 9 prim: OBJECT :pkcs7-envelopedData 15:d=1 hl=4 l= 939 cons: cont [ 0 ] 19:d=2 hl=4 l= 935 cons: SEQUENCE 23:d=3 hl=2 l= 1 prim: INTEGER :00 26:d=3 hl=4 l= 366 cons: SET 30:d=4 hl=4 l= 362 cons: SEQUENCE 34:d=5 hl=2 l= 1 prim: INTEGER :00 37:d=5 hl=2 l= 82 cons: SEQUENCE 39:d=6 hl=2 l= 69 cons: SEQUENCE 41:d=7 hl=2 l= 11 cons: SET 43:d=8 hl=2 l= 9 cons: SEQUENCE 45:d=9 hl=2 l= 3 prim: OBJECT :countryName 50:d=9 hl=2 l= 2 prim: PRINTABLESTRING :AU 54:d=7 hl=2 l= 19 cons: SET 56:d=8 hl=2 l= 17 cons: SEQUENCE 58:d=9 hl=2 l= 3 prim: OBJECT :stateOrProvinceName 63:d=9 hl=2 l= 10 prim: PRINTABLESTRING :Some-State 75:d=7 hl=2 l= 33 cons: SET 77:d=8 hl=2 l= 31 cons: SEQUENCE 79:d=9 hl=2 l= 3 prim: OBJECT :organizationName 84:d=9 hl=2 l= 24 prim: PRINTABLESTRING :Internet Widgits Pty Ltd 110:d=6 hl=2 l= 9 prim: INTEGER :AC966D88787A51B4 121:d=5 hl=2 l= 13 cons: SEQUENCE 123:d=6 hl=2 l= 9 prim: OBJECT :rsaEncryption 134:d=6 hl=2 l= 0 prim: NULL 136:d=5 hl=4 l= 256 prim: OCTET STRING [HEX DUMP]:822368070285AD756C962ECB973514B291F946... 396:d=3 hl=4 l= 558 cons: SEQUENCE 400:d=4 hl=2 l= 9 prim: OBJECT :pkcs7-data 411:d=4 hl=2 l= 29 cons: SEQUENCE 413:d=5 hl=2 l= 9 prim: OBJECT :aes-256-cbc 424:d=5 hl=2 l= 16 prim: OCTET STRING [HEX DUMP]:3B49AFE71749F2BFF1519EBAEA95A393 442:d=4 hl=4 l= 512 prim: cont [ 0 ]
SEE ALSO
gdcmdump(1), gdcmraw(1), gdcmanon(1)
AUTHOR
Mathieu Malaterre Main developer
COPYRIGHT
Copyright © 2006, 2011 Mathieu Malaterre