Managing PTS Users | Users Rights Figure C-2. User Manager Main Screen The USER MANAGER MAIN SCREEN comprises the following panels: Users of the PT system: this list displays the list of all users of the PT system that are currently defined. Rights: various rights have been defined and any of these rights can be granted to users. From the Users panel you can: IBA | C-2 | Enable or disable a user. To enable a user, put the checkmark in the Enabled column.
Managing PTS Users | Creating a New User To create a new user, click New user from the USER MANAGER MAIN SCREEN. The NEW USER SCREEN appears. Figure C-3. New User Screen The fields on the NEW USER SCREEN are as follows: New user data: Login name: the login name of the user. Full name Comments New user authentication data: Password Repeat password Select any of the rights that you want to grant to this newly defined user.
Managing PTS Users | Editing a User and Changing the Password Any user who wants to change his or her password needs to request so to you as an administrator. To edit data of a user, including his or her password: 1. Select the user from the USER MANAGER MAIN SCREEN. 2. Click Edit User and Change Password. The USER UPDATE SCREEN appears. Figure C-4. User Update Screen 3. Modify the data of the user. 4. Click Update User. The USER MANAGER MAIN SCREEN reappears.
Managing PTS Users | Non-Clinical Mode Whenever you log in to the User Manager in a mode other than clinical, a red banner and a ‘Non Clinical’ indication appear at the bottom of the screen. ‘non-clinical’ indication Red banner Figure C-5.
Managing PTS Users | Intentionally left blank IBA | C-6 | Clinical User’s Guide Volume 1 - Treatment Session
Appendix D Managing adaPTprescribe Settings •••••• When you use adaPTprescribe in Administration mode, you can perform any of the following functions: Manage tolerance tables Manage MU clinical ranges Manage Accessories For information on how to start an adaPTprescribe session and how to login, refer to Chapter 24, “Getting Started With adaPTprescribe” Clinical User’s Guide Volume 1 - Treatment Session IBA | D-1 |
Managing adaPTprescribe Settings | Figure D-1. adaPTprescribe Login Screen - Administration Managing Tolerance Tables Tolerance tables are associated with a type of tumor. Tolerance tables are used to provide checks on positioning parameters used in a prescription. When creating a new setup or treatment beam in the Prescription part of adaPTprescribe, the user can select which tolerance table will be used. A defined Tolerance table is not patient specific and may be used by other RTTs.
Managing adaPTprescribe Settings | The Tolerance table is called when you define the beam, in standalone mode. Performing Functions With Tolerance Tables From the TOLERANCE TABLE MANAGEMENT SCREEN you can perform any of the following: View the existing tolerance tables. Create a new tolerance table: the tolerance table label must be unique. Making changes to the tolerance tables may have important consequences on clinical operations.
Managing adaPTprescribe Settings | Figure D-2. Tolerance Table Management Screen External Tolerance Tables In addition, you can click Include external tables to display tolerance tables that got imported. External tolerance tables are identified by the green checkmark ( ) in the Ext column. You can copy an external tolerance table but they cannot be edited nor deleted.
Managing adaPTprescribe Settings | Figure D-3. Tolerance Table Management Screen - with External Tables Managing MU Clinical Ranges If a beam requires an MU (Monitor Unit) above the MU Clinical Range defined on the MONITOR UNIT (MU) CLINICAL RANGE DEFINITION SCREEN, the user is prompted to confirm that he or she wants to proceed with the requested MU value. Each TR is listed on the MONITOR UNIT (MU) CLINICAL RANGE DEFINITION SCREEN along with the delivery technique.
Managing adaPTprescribe Settings | Figure D-4. Monitor Unit (MU) Clinical Range Definition Screen For each TR the PBS Spot Tune ID(s) is (are) listed. Each of these Spot Tune IDs can have its own MU clinical range. If a beam has an MU above the clinical range defined on the MONITOR UNIT (MU) CLINICAL RANGE DEFINITION SCREEN: adaPTprescribe will warn the user and request an override with credentials to the user when the user requests to baseline and to save the beam.
Managing adaPTprescribe Settings | Figure D-5. Accessories Management Screen From the Snout Management tab of the ACCESSORIES MANAGEMENT SCREEN you can click any of the following buttons: New: to create a new accessory. You can define the ID and type of any new snout. The snout ID that you define here will be available for selection in adaPTprescribe. The definition is as follows: Snout ID: the identification of the snout as known in the treatment plan.
Managing adaPTprescribe Settings | Figure D-6.
Appendix E Emergency Stop Button Locations •••••• Table D-1 lists all emergency stop buttons and the Safety Redundant Control Unit (SRCU) to which they are connected. Figure D-1 illustrates the location of all safety and emergency devices. Note: The switch depicted on the hand-pendant represents the pressure sensitive switches at the bottom of the hand pendant that enable or disable the movement of the Patient Positioning Devices (refer to the Clinical User's Guide for the use of the hand-pendant).
Emergency Stop Button Locations | Table E-1.
Emergency Stop Button Locations | Emergency stop buttons not pressed, no discrepancy pressed, discrepancy not pressed, discrepancy pressed, no discrepancy released, alarms not cleared Search buttons Search button Doors Discrepancy Open Closed Areas cannot be searched can be searched search in progress searched Figure E-1.
Emergency Stop Button Locations | Motion Stop Buttons Each of the following devices features a motion stop button: IBA | E-4 | Hand pendant: features two Motion Enable Buttons (MEB), one on each side. As long as both buttons are pressed, movement of the Patient Positioning Devices is possible. Maintenance hand pendant of the Patient Positioning System (PPS), which is located in the gantry pit. Maintenance hand pendant of the Large Field of View (LFOV) Control Unit (FOVCU).
Appendix F System Messages •••••• The appendix explains the different system messages intended for the clinical operator that require a decision to be taken with respect to the patient treatment. The messages are characterized as follows, according to the circumstances under which they may appear: Software: according to the software in which they appear.
System Messages | Table F-1. System messages IBA | F-2 | Software Environment(s) Delivery Message Description Any DEVC Any Failure to store Dicom object to Dicom server.SopClassUID={0}SopInstanceUID ={1} This message informs the user that the system has failed to store a DICOM object into the DICOM server. Following this message, the user may need to manually record the treatment.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description Any DEVC Any The data received to resume from last partial irradiation is not consistent. The proposed MUd value might be incorrect. Double check this value before deciding to resume the irradiation. This message informs the user that there are inconsistencies between the data that the system has in the database and the data it receives from the OIS, to resume a partial irradiation.
System Messages | Table F-1. System messages IBA | F-4 | Software Environment(s) Delivery Message Description adaPTprescribe StandAlone Any The patient data cannot be saved. Check the database status. This message informs the user that there is an issue in the connection to the database and advices them to check the status of the connection. Contact an operator to check the database status. adaPTprescribe StandAlone Any Patient cannot be unlocked because the database is not accessible.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description adaPTdeliver Any PBS In the 'Partial Irradiation' dialogue, the system displays the following message: The goal of this message is to inform the user that, if an appropriate record is available for resuming an interrupted irradiation, they should privilege using that record instead of an MUd value.
System Messages | Table F-1. System messages IBA | F-6 | Software Environment(s) Delivery Message Description adaPTdeliver DevC Standalone Any Warning: modified MU This message confirms to the user that they have successfully modified the MU value. adaPTdeliver Any PBS Not enough information to resume a partial PBS beam. Click on [Partial] button to resume from local database or to explicitly proceed with inaccurate data.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description adaPTdeliver Any Any For DoseReferenceNumber ({0})/For {0} reference point, the dose ({0} Gy) goes over the total dose ({1} Gy). Do you want to start treatment anyway? This message informs the user that for a particular dose reference number or reference point, the dose prescribed exceeds the total dose limit.
System Messages | Table F-1. System messages IBA | F-8 | Software Environment(s) Delivery Message Description adaPTdeliver Any Any You specified a previously delivered MU for this beam. This can only be done in the context of a previously interrupted irradiation, and value must be carefully set and checked.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description adaPTdeliver Any Any Some beam(s) are not completely irradiated. Do you confirm you want to cancel the session? This message informs the user that at least one of the beams in the current session have not been completely irradiated. The message prompts the user to confirm if they want to cancel the session regardless of that fact.
System Messages | Table F-1. System messages IBA | F-10 | Software Environment(s) Delivery Message Description adaPTdeliver Any Any The irradiation has stopped abnormally. The reason of the termination is unknown.\n[Treatment Termination Status={0}] This message informs the user that the irradiation was stopped before being complete, due to an unknown reason. The message also provides the Treatment termination Status of the irradiation. adaPTdeliver Any Any PMS seems busy.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description adaPTdeliver OIS Any Unable to send treatment record to OIS and failed to save local disk. This message informs the user that the system could not record the irradiation in the OIS or save a treatment record in the local disk. In this case, the user should refer to the Dose Counter Electronic Unit to manually record the irradiation in the OIS.
System Messages | Table F-1. System messages IBA | F-12 | Software Environment(s) Delivery Message Description adaPTdeliver Any Any Unable to generate DICOM treatment record because of an internal error! Please check log messages for details. This message informs the user that the system was unable to generate a DICOM record and advices them to investigate the issue by accessing the logs. The user can record the DCEU values manually in the OIS. Contact an operator to fix this issue.
System Messages | Table F-1. System messages Software Environment(s) Delivery Message Description adaPTdeliver DevC Any The system encountered an issue recording the irradiation in the OIS.Please refer to the Dose Counter Electronic Unit and manually record this irradiation in the OIS. This message informs the user that the system could not record the irradiation in the OIS and it instructs the user to manually record the irradiation in the OIS using the data on the DCEU.
System Messages | Table F-1. System messages IBA | F-14 | Software Environment(s) Delivery Message Description adaPTdeliver Any Any Too many set range failures due to field regulation. Please inform the Service team. Sign in if you want to disable field regulation and continue irradiation in degraded mode. The system has been unable to correctly reach the expected magnetic fields for some magnets (for which automatic field regulation is applicable) after 3 consecutive attempts.
Appendix E PTS Acronyms & Abbreviations •••••• AA (Axis Arm) (see GAPS) ABS (Automatic Beam Scheduler) ACU (Accelerator Control Unit) AE (Application Entity) ANS (Automatic Nozzle Switching) BAEU (Beam Absence Electronic Unit) BCM (Beam Current Monitor) BCMEU (Beam Current Measurement Electronic Unit) BCP (Beam Common Process) BCREU (Beam Current Regulation Electronic Unit) BDS (Beam Delivery System) BGEU (Beam Gating Electronic Unit) BMD (Beam Modifying
PTS Acronyms & Abbreviations | IBA | E-2 | CAS (Caterpillar System) CBCT (Cone Beam Computed Tomography) CBTV (Cyclotron/Beam Transport Vault) CCW (CounterClockWise) CDE (Common Desktop Environment) CG (Center of Gravity) CMMS (Computerized Maintenance Management System) CNSH (Compact Nozzle Snout Holder) CS (Coordinate System) CT (Computed Tomography) CTDi (Computed Tomography Dose Index) CTDI100 (Computed Tomography Dose Index 100) CTDIcenter (Computed
PTS Acronyms & Abbreviations | DSP (Digital Signal Processor) DVM (Digital Voltmeter) ECQ (External Coil Quadrupole) ECR (Engineering Change Request) EEPROM (Electrically Erasable PROM) EMC (Electromagnetic Compatibility) EMF (Electromagnetic Field) EMI (Electromagnetic Interference) EMR (Electronic Medical Record) EOT (End-of-Travel) ESBTS (Energy Selection and Beam Transport System) ESD (Entrance Skin Dose) ESS (Energy Selection System) EU (Electroni
PTS Acronyms & Abbreviations | IBA | E-4 | GTR (Gantry Treatment Room) GTS (Gantry Beam Transport System) GUI (Graphical User Interface) HCPS (Harmonic Coils Power Supply) HKCB (Hook-Up Control Box) HMI (Human Machine Interface) HS (High Speed) HV (High Voltage) HVAC (Heating Ventilation Air Cooling) IBA (Ion Beam Applications) IBD (Interface Building Document) IC (Ionization Chamber) ICEU (Ionization Chamber Electronic Unit) IEC (International Electr
PTS Acronyms & Abbreviations | LLRF (Low Level Radio Frequency) LPPS (Laser Pair Power Supply) LS (Low Speed) LUT (Look-Up-Table) MCPS (Main Coil Power Supply) MCR (Main Control Room) MCRS (Main Control Room Server) MEB (Motion Enable Button) MEWP (Mobile Elevating Work Platform) MFOV (Medium Field Of View) MID (Metadoc ID) MLIC (Multilayer Ionisation Chamber) MMS (Milling Machine System) MSDS (Material Safety Data Sheet) MU (Monitor Unit) MUd
PTS Acronyms & Abbreviations | IBA | E-6 | PPD (Patient Positioning Device) PPE (Personal Protective Equipment) PPS (Patient Positioning System) PPSCU (Patient Positioning System Control Unit) PPVD (Patient Positioning Verification Device) PPVS (Patient Positioning Verification System) PROM (Programmable ROM) PS (Power Supply) PSR (Power Supply Room) PTS (Proton Therapy System) PWM (Pulse Width Modulation) QA (Quality Assurance) QACS (Quality Assurance Ca
PTS Acronyms & Abbreviations | SLD (Snout Lifting Device) SM (Scanning Magnet) SMEU (Scanning Magnet Electronic Unit) SMPS (Scanning Magnet Power Supply) SMPSEU (Scanning Magnet Power Supply Electronic Unit) SOBP (Spread-Out Bragg Peak) SP (Set point) SREU (Snout Rotation Electronic Unit) SROB (Spatial Registration Object) SSA (Solid State Amplifier) SSEU (Second Scatterer Electronic Unit) STEU (Snout Translation Electronic Unit) TAN (Total Acid Number)
PTS Acronyms & Abbreviations | IBA | E-8 | VCEU (Variable Collimator Electronic Unit) VME (Versamodule Eurocard) (for example, VMEbus cards or VME cards) Vreg (Voltage regulation) WCR (Water Cooling Room) XR (X-Ray) XREU (x-Ray Electronic Unit) XRPS (x-Ray Power Supply) YTEU (Yoke Temperature Electronic Unit) YTMEU (Yoke Temperature Measurement Electronic Unit) YUM (Ynternet Uplink Monitor) Clinical User’s Guide Volume 1 - Treatment Session
Appendix H Glossary of Terms •••••• Absorber A material or device placed in the beam path to scatter, block, or degrade the beam energy. Whether the absorber blocks some of the beam energy or all of the beam energy depends on the amount of the material used. See also: Degrader, First Scatterer, Second Scatterer. Accelerator A device that uses electric or magnetic fields to increase the speed (and thus the energy) of charged particles.
Glossary of Terms | Amplification The ratio of output magnitude to input magnitude in a device intended to produce an output that is an enlarged reproduction of its input. See also: Intermediate Power Amplifier, Solid State Amplifier. Amplification Factor The voltage gain of an amplifier with no load on the output. See also: Intermediate Power Amplifier, Solid State Amplifier.
Glossary of Terms | Beam Modifying Device (BMD) A device placed in or out of the beam in the Energy Selection and Beam Transport System (ESBTS) and nozzle used to effect, define, or modify beam characteristics. For the ESBTS, they alter the beam energy and define the beam emittance. They include the degrader, divergence limiting collimator, diversion limiting slit, momentum limiting slit, and final collimator.
Glossary of Terms | Common Desktop Environment (CDE) The Hewlett Packard user interface that coexists on Central Management Workstation 1 with the PTS user interface. See also: Central Management Workstation, Proton Therapy System. Configuration Table (CT) A software tool used to update clinical parameters and system parameters. Continuous Wave Proton beam that is provided unmodulated.
Glossary of Terms | Dee Dees are located in opposite valleys of the accelerator with counter dees attached to the magnet sector on each side of each dee. Dees resonate at the 4th harmonic of the ion orbital frequency. See also: Accelerator, Counter Dee. Degrader A device located downstream from quadrupole Q2 used to transform the 230-MeV fixed energy beam exiting the cyclotron into a beam having an energy level range of 70 MeV–230 MeV. See also: Absorber, First Scatterer, Second Scatterer.
Glossary of Terms | Dose Counter Electronic Unit (DCEU) An electronic device that interfaces with a dosimetry counter located in each TCR. See also: Electronic Unit. Dosimetry Device Allows for the calibration of a dose monitor. Dosimetry devices are used to allow correlation of dosimetry data between the beam production into the nozzle, dosimetry device operation, and acquisition of data for visualization. Among the dosimetry devices are the ion chamber with electrometers and water phantoms.
Glossary of Terms | Energy Selection and Beam Transport System (ESBTS) Includes those subsystems located between the degrader wheel and the entrance of each nozzle. The Treatment Control System (TRCS) interfaces with the Energy Selection and Beam Transport System both to degrade the beam up to the energy defined by the range required to treat each patient and to correctly direct the beam to the appropriate nozzle. The ESBTS includes 60º bending sections, straight beam line sections, and Gantry sections.
Glossary of Terms | Fixed Reference System (FRS) One of the coordinate systems supported by the Treatment Control System (TRCS). See also: Treatment Control System, Coordinate System. Flux Coil Electronic Unit (FCEU) An electronic device that interfaces with a flux coil. See also: Electronic Unit. First Scatterer Electronic Unit (FSEU) Located on the rotating catwalk of the gantry. An electronic device that interfaces with a first scatterer. See also: Nozzle, Electronic Unit.
Glossary of Terms | Graphical User Interface (GUI) See also: User Interface. Half-wave Rectifier A rectifier using only one-half of each cycle to change ac into pulsating dc. Hand-Pendant (HP) A Hardware hand-pendant is present in each TR to enable positioning any of the devices that may require positioning. See also: Patient Positioning Device, Treatment Room, Gantry, Patient Positioning System, Nozzle.
Glossary of Terms | Ionization The interaction of radiation (UV, X-ray, etc.) with atoms can result in the loss of electrons by the atom. The atom becomes a charged ion. Ionization Chamber (IC) One of the three ionization chambers included in the PTS. See also: Ionization Chamber no. 1, Ionization Chambers n. 2 & no. 3. Ionization Chamber no. 1 (IC1) Located downstream from the 135ºquadrupole magnet on each gantry.
Glossary of Terms | Local Emergency Stop Button Located in select areas within the facility. Switches off electrical power to most PTS equipment in the area where the button is located. See also: Area Emergency Stop Button, Local Emergency Stop Button. Lookup Table (LUT) A lookup table is generated before each irradiation in order to “teach” the BCREU the relationship between the beam current and the arc current. Low-level RF (LLRF) A lower level of radio frequency. See also: Radio Frequency.
Glossary of Terms | Multipactor Effect As soon as an RF field is in the RF cavity, some electrons are pulled free from the surfaces of the cavity and are accelerated by the field. If these electrons are accelerated to approximately 100 electron volts and impact another surface of the RF cavity, depending on the secondary electron emission coefficient, they may produce one or more secondary electrons. The RF field may then accelerate those secondary electrons when the polarity of the field changes.
Glossary of Terms | Peak Current The maximum current that flows during a complete cycle. Peak-reverse Voltage The peak ac voltage that a rectifier tube will withstand in the reverse direction. Peak Voltage The maximum value present in a varying or alternating voltage. This may be positive or negative. Penning Gauge A type of vacuum gauge used within the PTS. See also: Pirani gauge.
Glossary of Terms | Power Amplifier (PA) A component of the RF system located upstream of the accelerator (cyclotron). See also: Accelerator, Radio Frequency. Power Supply (PS) Provides electrical power to PTS equipment. Power Supply Room (PSR) Where the majority of the power supplies, controllers, and Treatment Control System (TRCS) components, which control the equipment, are located. See also: Power Supply.
Glossary of Terms | Proton Therapy System (PTS) The equipment provided by IBA that aligns patients, and produces and delivers proton beam. This system includes all equipment within the treatment facility, the Treatment Control System (TRCS), and Therapy Safety System. See also: Treatment Control System, Therapy Safety System. Pulse Width Modulation (PWM) The Accelerator Operator uses Pulse Width Modulation to verify the duty cycle of a train of pulses.
Glossary of Terms | Read-only Memory (ROM) A type of computer memory. See also: Programmable ROM, Random Access Memory. Rectifier A device, which, by its construction characteristics, converts alternating current into a pulsating direct current. Regulator The section in a power supply that maintains the output of the power supply at a constant level even if experiencing changes in load current or input line voltage.
Glossary of Terms | Setpoint (SP) Value entered on UI screens of the TRCS. The entered value correlates to a voltage, current, or distance. See also: Treatment Control System. Solid State Amplifier (SSA) Located in the Power Supply Room (PSR) downstream from the low-level RF 1W amplifier. The pre-driver amplifier that is part of the RF system. See also: Accelerator, Low-level RF, Final Power Amplifier, Intermediate Power Amplifier.
Glossary of Terms | Transit Time The time an electron takes to cross the distance between the cathode and the plate. Treatment Control Room (TCR) Located next to each TR and used by the Radiation Therapy Technologist (RTT) to control and monitor patient treatments or by the Medical Physicist to perform Dose Monitor Calibrations. See also: Treatment Room, Radiation Therapy Technologist (RTT).
Glossary of Terms | Variable Collimator (VC) One of the BMDs located inside the nozzle downstream from the retractable X-ray tube. The VC provides the ability to limit the transversal size of the proton beam by using a pair of symmetric jaws in the X direction and another pair of symmetric jaws in Y direction. The jaws are used to circumscribe the beam field in order to limit the neutron field received by a patient. See also: Nozzle, Gantry, Range Verifier.
Glossary of Terms | X-ray Power Supply (XRPS) Provides electrical power to X-ray tubes. Sometimes also called the "X-ray generator". See also: Power Supply.
Index A about coordinate systems 6-3 accelerator cavities G-4, G-5 Operator 38-4, 50-1 Accuracy PPS 7-8 adaPTdeliver 30-1, 31-1, 39-1, 41-1 adaPTinsight 47-2 adaPTprescribe 22-1, 23-1 alarms audible 15-3, 15-4 algorithm 1-13 aperture 35-8 Auto motion 13-14 Automatic Beam Scheduling (ABS) 44-1 automatic triggering 48-6 axis 6-12, 7-14 B baseline (field) 46-3 beam 1-1, 1-13, 7-14, 12-14, 12-16, 12-18, 15-3, 38-3, 38-4, 46-5, 50-1 axis 7-13 delivery 38-4 Operation Manager (BOM) 4-9 pause 38-3, 38-4, 38-5, 50-
Bugzilla 106180 31-5, 31-7 building patient enclosure 12-13 buttons crash 38-4 motion enable 9-11, 11-6, 46-22 Move 9-10, 9-11, 11-6 Pause 38-3 Pressure-sensitive 7-1 Reset 15-3 search 35-8 C cavities G-4, G-5 Check Manager PMS 36-13 Positioning 36-13 Checksum 2-2 coordinate system axis 6-3 coordinate systems 6-3, 6-10, 7-11, 46-3, 46-5 Fixed Reference System (FRS) 6-3, 46-3 Gantry Coordinate System 6-3 Isocentric 7-11, 7-12 Table Top Coordinate System (TTCS) 6-3, 46-3 course 1-12 D database 26-12 Dedicat
E electrometers 4-9 emergency hand-pendant 16-1 Emergency Stop Button (ESB) 9-10, 9-11, 11-6, 38-2, 38-3, 38-4, 38-5, 50-1 energy 20-3 equipment settings 1-13 Extended Treatment Volume (ETV) 7-6 F field (treatment) 38-6 Field Of View Control Unit (FOVCU) D-4 Field Size ix Fixed Reference System (FRS) 6-3 fraction 7-11 G gantry 6-13, 7-10, 7-12, 7-14, 12-13, 12-17, 45-2, 46-22 catwalk 12-13 rotation 46-22 Gantry Coordinate System (GCS) 6-5 Gantry Rolling Floor 4-3, 14-3, 45-1 Gantry Treatment Room (GTR) A-
Ion Chamber Electronic Unit (ICEU) 15-2 Ionization Chamber (IC) 15-3, A-6, A-8 no. 1 A-6 no. 2 A-8 no.
ionization chamber no. 2 A-8 ionization chamber no.
Setup 12-14, 12-17, 46-3, 46-5, 46-20, 49-3, 49-4, 49-5, 49-8 Treatment 12-16, 35-8, 46-5, 46-20, 46-22, 49-4, 49-9, 49-10, 49-12 User 7-12 prescribed dose 15-4 field baseline 46-3 parameters 1-12 prescription data 20-4 values C-2 Proton Therapy System (PTS) iii, 1-1 database 6-3 R radiation dose rate 15-3 range ix, 46-5 range compensator 14-2, 35-8 Range Shifter A-3 Range Verifier A-7 received parameters 1-12, 38-5, 38-6 required dose 15-3 setup 46-5 required position 49-8, 49-12 Resuming Irradiation 36-1
Setup position 12-14, 12-17, 46-3, 46-5, 46-20, 49-3, 49-4, 49-5, 49-8 side effects xi Snout M 14-11, 14-13, 14-18, 14-22 Snout XL 14-22 Spot size (beam sigma) ix Startup 2-1 stop movements 9-10, 11-6 switches master 38-4 service 38-4 System messages E-1 systems coordinate 6-3 T Table Top Coordinate System (TTCS) 6-5, 7-7 Therapy Control System (TCS) 7-10, 12-1, 12-3, 12-5, 15-1, 15-3, 16-1, 46-1, 46-20, 46-21 tolerance table 49-8, 49-12, C-2, C-3 Tool Center Point 7-7 translating parameters (to Equipment
U Universal Beam Triggering Interface (UBTI) 48-1, 48-2, 48-4 Universal Triggering Electronic Unit (UTEU) 48-4 X X-ray 12-13, A-7 tube 12-7, 12-13, 12-14, 12-16, 12-18 IBA | Index-8 | Clinical User’s Guide Volume 1 - Treatment Session
Safety Decisions G GRF-SD-002 GRF-SD-046 GRF-SD-048 GRF-SD-049 GRF-SD-050 46-19, 49-1 4-4 4-4 4-3 4-3 I 12-3, 46-2, 46-20, 46-22, 47-13, 49-5, 49-6, 49-10, 49-11 I2C Internal Safety Decision #1812 O OP-BDS-SD-085 OP-REQ-021 OP-REQ-051 (v.1) OP-REQ-052 (v.1) OP-REQ-054 (v.1) OP-REQ-059 (v.1) OP-SD-203 OP-SD-204 OP-SD-206 OP-SD-221 (v.2) OP-SD-225 OP-SD-226 OP-SD-234 OP-SD-236 OP-SD-240 OP-SD-244 (v.4) OP-SD-247 (v.3) OP-SD-250 OP-SD-254 (v.4) OP-SD-277 OP-SD-279 OP-SD-286 (v.2) OP-SD-287 (v.
OP-SD-339 (v.2) OP-SD-340 (v.2) OP-SD-364 OP-SD-388 (v.2) OP-SD-420 OP-SD-445 (v.3) OP-SD-447 (v.1) OP-SD-448 (v.1) OP-SD-449 (v.1) OP-SD-471 OP-SD-474 (v.1) OP-SD-475 (v.1) OP-SD-476 OP-SD-478 OP-SD-480 OP-SD-481 (v.2) OP-SD-482 (v.2) OP-SD-484 (v.1) OP-SD-495 OP-SD-528 (v.2) OP-SD-530 (v.2) OP-SD-533 OP-SD-538 OP-SD-539 OP-SD-541 OP-SD-546 OP-SD-547 OP-SD-578 (v.1) OP-SD-579 (v.1) OP-SD-580 (v.1) OP-SD-581 (v.1) OP-SD-582 (v.1) OP-SD-585 (v.1) OP-SD-608 (v.1) OP-SD-609 (v.1) OP-SD-610 (v.1) OP-SD-611 (v.
OP-SD-654 (v.1) OP-SD-661 (v.1) OP-SD-676 (v.1) OP-SD-693 (v.1) OP-SD-695 (v.1) OP-SD-702 OP-SD-703 (v.1) OP-SD-708 OP-SD-710 OP-SD-711 OP-SD-712 OP-SD-713 OP-SD-719 OP-SD-728 OP-SD-730 (v.1) OP-SD-731 (v.1) OP-SD-748 OP-SD-751 (v.1) OP-SD-755 (v.1) OP-SD-756 (v.1) OP-SD-757 (v.1) OP-SD-758 (v.1) OP-SD-759 (v.1) OP-SD-761 (v.1) OP-SD-769 (v.1) OP-SD-770 (v.1) OP-SD-771 (v.1) OP-SD-779 (v.1) OP-SD-780 (v.1) OP-SD-781 (v.1) OP-SD-782 (v.1) OP-SD-783 (v.1) OP-SD-784 (v.1) OP-SD-785 (v.1) OP-SD-786 (v.
P PTS-SD-078 PTS-SD-229 PTS-SD-242 PTS-SD-300 9-10, 11-6, 45-2 37-2 46-19, 46-21, 49-3, 49-9 46-19, 46-21, 49-3, 49-9 S SD-0014 SD-0016 SD-0035 SD-0063 SD-0077 (v.3) SD-0080 (v.3) SD-0176 SD-0179 SD-0315 SD-0316 SD-0317 SD-0319 (v.
Issue Tracking System Problem Reports and Engineering Change Requests B Bugzilla 27610 Bugzilla 33302 Bugzilla 33697 Bugzilla 43188 Bugzilla 45136 Bugzilla 45389 Bugzilla 45562 Bugzilla 45564 Bugzilla 45845 Bugzilla 45848 Bugzilla 46492 Bugzilla 47281 Bugzilla 48205 Bugzilla 48405 Bugzilla 48532 Bugzilla 48970 Bugzilla 48975 Bugzilla 50254 Bugzilla 50755 Bugzilla 50942 Bugzilla 51641 Bugzilla 52024 Bugzilla 52212 Bugzilla 52214 Bugzilla 52405 Bugzilla 52682 Bugzilla 53339 Bugzilla 53559 Bugzilla 53910 Bugzi
Bugzilla 65420 Bugzilla 65474 Bugzilla 66451 Bugzilla 67580 Bugzilla 68570 Bugzilla 68848 Bugzilla 68914 Bugzilla 69298 Bugzilla 69941 Bugzilla 69943 Bugzilla 71616 Bugzilla 72553 Bugzilla 72981 Bugzilla 73314 Bugzilla 73393 Bugzilla 73975 Bugzilla 75331 Bugzilla 75416 Bugzilla 75631 Bugzilla 75904 Bugzilla 76389 Bugzilla 79470 Bugzilla 80758 Bugzilla 81232 Bugzilla 81869 Bugzilla 82687 Bugzilla 83543 Bugzilla 85967 Bugzilla 87343 Bugzilla 87523 Bugzilla 87677 Bugzilla 88065 Bugzilla 89647 Bugzilla 93549 Bu
Bugzilla 102429 Bugzilla 103056 Bugzilla 103239 Bugzilla 103673 Bugzilla 104322 Bugzilla 104875 Bugzilla 105057 Bugzilla 105891 Bugzilla 106366 Bugzilla 106390 Bugzilla 108524 Bugzilla 108593 Bugzilla 108737 7-9, 46-13 36-5 33-3 4-9 36-10 35-26, 36-9, 36-10 36-5, 48-19 18-1 39-8, 41-6 39-13, 39-24, 41-11 xvii x xviii IBA | Issue Tracking System-3 |
Intentionally left blank IBA | Issue Tracking System-4 |
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