Development of world-class neuronavigation infrastructure, R & D and educational platform in Hungary (Q3923184): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: add summary) |
(Changed an Item: Adding English translations) |
||||||||||||||
| Property / summary | |||||||||||||||
The tasks ahead of the first milestone of the project are the architectural design of the infrastructure site, the implementation and operation of the procurement of equipment. The preparation costs include the plans necessary for the refurbishment of the three rooms in the clinic, as it is necessary to provide the platform of new devices with the end-points and the ventilation and cooling necessary to ensure its optimal operation in the long term. This is where we planned to carry out needs/needs assessments to examine how and how we can connect to the European networks, what other opportunities we have and whether financial benefits can be realised in the future from the research infrastructure created in the context of the development (market revenues and not just grants). At the same time, in order to achieve the expected results — the activities that can be started without full availability of the infrastructure — on the one hand, contacts with the developers of image-driven therapeutic software and tools and the promotion of infrastructure and free research capacity are carried out. In consultation with the industrial partners of projects defined in EIT Health, we explore research capacity and links to ongoing projects. The business potential of R & D projects based on infrastructure-based university ideas will be developed in detail and joint projects with previously defined industrial partners will be prepared. The PTE qualifies as a contracting authority on the basis of the Public Procurement Act, so already in March 2016 it conditionally launches the procurements that serve as the basis for the project, e.g.: purchase of equipment. As a result, the supply contracts under which instruments can be purchased and installed will be available at the start of the project in July. With regard to public procurement, we planned both internal university resources and external service providers and planned the cost of notices. The procurement involves the purchase of the following means: Neuronavigation system and premium ultrasound device. The devices will be suitable for quick, automatic fuse of CT/MR/UH/PET/SPECT/Angio images using high-performance, two monitor optical navigation systems in the first phase of diagnosis or preoperative design. In the second phase, in addition to the fused images, using independent design software independent of imaging diagnostics, MR DTI sequence detects 255 diffusion directions and automatically imports DTI data. At the same time, it will be possible to visualise functional areas of the brain, anatomical images with functional maps, motor and speech centers, as well as segmentation of the surface of the brain. Using automatic segmentation software, automatic formula recognition based on anatomical structures, segmentation of lesions and calculation of volume for each structure, e.g.: brain tumor, functional areas. The instrument’s surgical intervention software is the intraoperative fixed micro electrode stimulation data for processing the patient’s physical position reference points for optimal therapeutic decisions. Functional design based on previously defined data. Direction, and target setting based on the reference points, and automatic mid-sagittal plane definition. Its spinal field registration and navigation software, and the integration of the entire device package, the surgical image amplifier, support specific decision support during surgery. The introduction point and direction of the pedicular screws will be perfectly planned. Screws can be designed before insertion of screw thickness, length. It can be used for minimal invasive and open surgery. The system will also provide highly effective support for the design, surgical implementation and subsequent radiation treatment of surgical interventions in combination with radiotherapy, together with an oncologist. With the help of the software, the optimal degree of surgical removal of the tumour is determined and the technique of postoperative radiation therapy is determined for the most effective tumour treatment and, at the same time, maximum function retention. At the same time, the system will also have a unique feature of being able to use images of premium ultrasound equipment for surgical decision support during surgery, representing an integrated element in the intraoperable module of the neuronavigation system. The equipment is compatible with any hospital PACS system, capable of receiving and sending DICOM images. Fast network communication, data transmission outside the network via 4x USB or CD/DVD±RW. The design workstation you want to purchase will perform the following tasks: Pre-operative planning is especially important for the demanding surgeon, because it is possible to define and assign the target object of the surgery (e.g. tumor), the opt (English) | |||||||||||||||
| Property / summary: The tasks ahead of the first milestone of the project are the architectural design of the infrastructure site, the implementation and operation of the procurement of equipment. The preparation costs include the plans necessary for the refurbishment of the three rooms in the clinic, as it is necessary to provide the platform of new devices with the end-points and the ventilation and cooling necessary to ensure its optimal operation in the long term. This is where we planned to carry out needs/needs assessments to examine how and how we can connect to the European networks, what other opportunities we have and whether financial benefits can be realised in the future from the research infrastructure created in the context of the development (market revenues and not just grants). At the same time, in order to achieve the expected results — the activities that can be started without full availability of the infrastructure — on the one hand, contacts with the developers of image-driven therapeutic software and tools and the promotion of infrastructure and free research capacity are carried out. In consultation with the industrial partners of projects defined in EIT Health, we explore research capacity and links to ongoing projects. The business potential of R & D projects based on infrastructure-based university ideas will be developed in detail and joint projects with previously defined industrial partners will be prepared. The PTE qualifies as a contracting authority on the basis of the Public Procurement Act, so already in March 2016 it conditionally launches the procurements that serve as the basis for the project, e.g.: purchase of equipment. As a result, the supply contracts under which instruments can be purchased and installed will be available at the start of the project in July. With regard to public procurement, we planned both internal university resources and external service providers and planned the cost of notices. The procurement involves the purchase of the following means: Neuronavigation system and premium ultrasound device. The devices will be suitable for quick, automatic fuse of CT/MR/UH/PET/SPECT/Angio images using high-performance, two monitor optical navigation systems in the first phase of diagnosis or preoperative design. In the second phase, in addition to the fused images, using independent design software independent of imaging diagnostics, MR DTI sequence detects 255 diffusion directions and automatically imports DTI data. At the same time, it will be possible to visualise functional areas of the brain, anatomical images with functional maps, motor and speech centers, as well as segmentation of the surface of the brain. Using automatic segmentation software, automatic formula recognition based on anatomical structures, segmentation of lesions and calculation of volume for each structure, e.g.: brain tumor, functional areas. The instrument’s surgical intervention software is the intraoperative fixed micro electrode stimulation data for processing the patient’s physical position reference points for optimal therapeutic decisions. Functional design based on previously defined data. Direction, and target setting based on the reference points, and automatic mid-sagittal plane definition. Its spinal field registration and navigation software, and the integration of the entire device package, the surgical image amplifier, support specific decision support during surgery. The introduction point and direction of the pedicular screws will be perfectly planned. Screws can be designed before insertion of screw thickness, length. It can be used for minimal invasive and open surgery. The system will also provide highly effective support for the design, surgical implementation and subsequent radiation treatment of surgical interventions in combination with radiotherapy, together with an oncologist. With the help of the software, the optimal degree of surgical removal of the tumour is determined and the technique of postoperative radiation therapy is determined for the most effective tumour treatment and, at the same time, maximum function retention. At the same time, the system will also have a unique feature of being able to use images of premium ultrasound equipment for surgical decision support during surgery, representing an integrated element in the intraoperable module of the neuronavigation system. The equipment is compatible with any hospital PACS system, capable of receiving and sending DICOM images. Fast network communication, data transmission outside the network via 4x USB or CD/DVD±RW. The design workstation you want to purchase will perform the following tasks: Pre-operative planning is especially important for the demanding surgeon, because it is possible to define and assign the target object of the surgery (e.g. tumor), the opt (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
| Property / summary: The tasks ahead of the first milestone of the project are the architectural design of the infrastructure site, the implementation and operation of the procurement of equipment. The preparation costs include the plans necessary for the refurbishment of the three rooms in the clinic, as it is necessary to provide the platform of new devices with the end-points and the ventilation and cooling necessary to ensure its optimal operation in the long term. This is where we planned to carry out needs/needs assessments to examine how and how we can connect to the European networks, what other opportunities we have and whether financial benefits can be realised in the future from the research infrastructure created in the context of the development (market revenues and not just grants). At the same time, in order to achieve the expected results — the activities that can be started without full availability of the infrastructure — on the one hand, contacts with the developers of image-driven therapeutic software and tools and the promotion of infrastructure and free research capacity are carried out. In consultation with the industrial partners of projects defined in EIT Health, we explore research capacity and links to ongoing projects. The business potential of R & D projects based on infrastructure-based university ideas will be developed in detail and joint projects with previously defined industrial partners will be prepared. The PTE qualifies as a contracting authority on the basis of the Public Procurement Act, so already in March 2016 it conditionally launches the procurements that serve as the basis for the project, e.g.: purchase of equipment. As a result, the supply contracts under which instruments can be purchased and installed will be available at the start of the project in July. With regard to public procurement, we planned both internal university resources and external service providers and planned the cost of notices. The procurement involves the purchase of the following means: Neuronavigation system and premium ultrasound device. The devices will be suitable for quick, automatic fuse of CT/MR/UH/PET/SPECT/Angio images using high-performance, two monitor optical navigation systems in the first phase of diagnosis or preoperative design. In the second phase, in addition to the fused images, using independent design software independent of imaging diagnostics, MR DTI sequence detects 255 diffusion directions and automatically imports DTI data. At the same time, it will be possible to visualise functional areas of the brain, anatomical images with functional maps, motor and speech centers, as well as segmentation of the surface of the brain. Using automatic segmentation software, automatic formula recognition based on anatomical structures, segmentation of lesions and calculation of volume for each structure, e.g.: brain tumor, functional areas. The instrument’s surgical intervention software is the intraoperative fixed micro electrode stimulation data for processing the patient’s physical position reference points for optimal therapeutic decisions. Functional design based on previously defined data. Direction, and target setting based on the reference points, and automatic mid-sagittal plane definition. Its spinal field registration and navigation software, and the integration of the entire device package, the surgical image amplifier, support specific decision support during surgery. The introduction point and direction of the pedicular screws will be perfectly planned. Screws can be designed before insertion of screw thickness, length. It can be used for minimal invasive and open surgery. The system will also provide highly effective support for the design, surgical implementation and subsequent radiation treatment of surgical interventions in combination with radiotherapy, together with an oncologist. With the help of the software, the optimal degree of surgical removal of the tumour is determined and the technique of postoperative radiation therapy is determined for the most effective tumour treatment and, at the same time, maximum function retention. At the same time, the system will also have a unique feature of being able to use images of premium ultrasound equipment for surgical decision support during surgery, representing an integrated element in the intraoperable module of the neuronavigation system. The equipment is compatible with any hospital PACS system, capable of receiving and sending DICOM images. Fast network communication, data transmission outside the network via 4x USB or CD/DVD±RW. The design workstation you want to purchase will perform the following tasks: Pre-operative planning is especially important for the demanding surgeon, because it is possible to define and assign the target object of the surgery (e.g. tumor), the opt (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
| |||||||||||||||
Revision as of 17:46, 8 February 2022
Project Q3923184 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of world-class neuronavigation infrastructure, R & D and educational platform in Hungary |
Project Q3923184 in Hungary |
Statements
283,558,947 forint
0 references
775,143.997 Euro
0.0027336256 Euro
15 December 2021
0 references
283,558,947.0 forint
0 references
100.0 percent
0 references
1 July 2016
0 references
30 June 2019
0 references
PÉCSI TUDOMÁNYEGYETEM
0 references
46°4'35.72"N, 18°13'40.94"E
0 references
A projekt első mérföldkövét megelőző feladatok az infrastruktúra helyszínének építészeti kialakítását, a közbeszerzéssel egybekötött eszközbeszerzés lebonyolítását és működésbe állítását jelentik. Az előkészítési költségek között szerepelnek a tervek, melyek a klinika három helyiségének átalakításához szükségesek, hiszen az új eszközök platformjának szükséges biztosítani azon végpontokat, illetve azt a szellőzést, hűtést, mely mellett hosszútávon biztosítható annak optimális működése. Itt terveztük olyan igény/szükségletfelmérések elkészítését, melyek azt hivatottak vizsgálni, hogy hogyan és milyen módon kapcsolódhatunk be az Európai hálózatokba, milyen egyéb lehetőségeink vannak, illetve pénzügyi előnyök realizálhatóak-e a jövőben a fejlesztés keretében létrejövő kutatási infrastruktúrából (piaci bevételekre és nem csak támogatásokra gondolunk). Ezzel párhuzamosan az elvárt eredmények teljesüléséhez - az infrastruktúra teljes rendelkezésre állás nélkül elkezdhető tevékenységek - egyrészt a képvezérelt terápiás szoftverek és eszközök fejlesztőivel kapcsolatfelvétel és az infrastruktúra-, szabad kutatási kapacitás promótálása megtörténik. EIT Health-ben definiált projektek ipari partnereivel történő egyeztetés során a kutatói kapacitást-, és már futó projektekhez kapcsolódási lehetőségeket térképezzük fel. Részletes kidolgozásra kerül az infrastruktúrára épülő egyetemi ötleteken alapuló K+F projektek üzleti potenciálja, és korábban definiált ipari partnerekkel közös projektek előkészítése. A PTE a Kbt. alapján ajánlatkérőnek minősül, így már 2016 márciusában feltételesen megindítja azon beszerzéseket, melyek a projekt alapjául szolgának, pl.: eszközbeszerzés. Ennek köszönhetően júliusban a projekt kezdetekor már rendelkezésre fognak állni azon szállítói szerződések, melyek alapján a műszerek beszerezhetőek és telepíthetőek lesznek. A közbeszerzés tekintetében mind belső egyetemi erőforrással, mind külső szolgáltatóval terveztünk, illetve a hirdetmények költségeit terveztük be. A közbeszerzés során az alábbi eszközök beszerzése valósul meg: Neuronavigációs rendszer és prémium ultrahang készülék. A készülékek alkalmasak lesznek nagy teljesítményű, két monitoros, optikai navigációs rendszer segítségével a diagnosztizálás vagy preoperatív tervezés első fázisában készült különböző modalitások CT/MR/UH/PET/SPECT/Angio képek gyors, automatikus fuzionálásához. Második fázisban a fuzionált feldolgozott képek mellett, képalkotó diagnosztikától független, önálló tervező szoftver segítségével MR DTI szekvencia 255 diffúziós irány detektálására és DTI adatok automatikus importjára. Ugyanakkor lehetséges lesz agyi funkcionális területek, anatómiai képek megjelenítése funkcionális térképekkel, motorikus és beszéd központokkal, továbbá az agy felszínének szegmentációjára. Automatikus szegmentációs szoftver segítségével anatómiai struktúrákon alapuló automatikus képletfelismerés, elváltozások szegmentálására és térfogatának kiszámítására minden egyes struktúrára pl.: agydaganat, funkcionális területek. Az eszköz műtéti beavatkozást segítő szoftvere az intraoperative rögzített mikroelektróda stimulációs adatok, páciens fizikai helyzetét jellemző referencia pontok feldolgozására az optimális terápiás döntések érdekében. Funkcionális tervezésre az előbb meghatározott adatok alapján. Irányvonal, és célpont beállítására a referencia pontok alapján, továbbá automatikus közép-szagittális sík meghatározás. Gerincsebészeti beavatkozást kiemelten támogató gerinctájéki regisztrációs és navigációs szoftverei, és a teljes eszközcsomag, a sebészi képerősítő integrációjával segítik a specifikus műtét közbeni döntéstámogatást. Tökéletesen tervezhető lesz a pedikuláris csavarok bevezetési pontja és irányvonala. Csavar behelyezés előtt tervezhető a csavar vastagsága, hossza. Minimál invazív és nyitott műtétekhez egyaránt alkalmazható. A rendszer továbbá kiemelten hatékony támogatást fog nyújtani a sugárterápiával kombinált műtéti beavatkozások – onkológussal együtt történő – tervezéséhez, műtéti végrehajtásához és utólagos sugárkezeléséhez. A szoftver segítségével meghatározzák a daganat sebészi eltávolításának optimális mérték, illetve a posztoperatív sugárkezelés technikáját a leghatékonyabb tumor kezelés és mindamellett a maximális funkciómegtartás érdekében. Ugyanakkor szintén unikális tulajdonsága lesz a rendszernek, hogy a műtét közbeni sebészi döntéstámogatáshoz a prémium kategóriás ultrahang berendezés képeit is fel tudja használni, a neuronavigációs rendszer intraoperábilis moduljában integrált elemet képvisel. A berendezés bármilyen kórházi PACS rendszerrel kompatibilis, DICOM képek fogadására, küldésére képes. Gyors hálózati kommunikáció, adatátvitel a hálózaton kívül 4x USB-n vagy CD/DVD±RW-n. A beszerezni kívánt tervezői munkaállomás az alábbi feladatokat fogja ellátni: A műtét előtti tervezés különösen fontos az igényes sebész számára, mert ennek során lehet meghatározni, kijelölni a műtét cél objektumát (pl. daganat), az opt (Hungarian)
0 references
The tasks ahead of the first milestone of the project are the architectural design of the infrastructure site, the implementation and operation of the procurement of equipment. The preparation costs include the plans necessary for the refurbishment of the three rooms in the clinic, as it is necessary to provide the platform of new devices with the end-points and the ventilation and cooling necessary to ensure its optimal operation in the long term. This is where we planned to carry out needs/needs assessments to examine how and how we can connect to the European networks, what other opportunities we have and whether financial benefits can be realised in the future from the research infrastructure created in the context of the development (market revenues and not just grants). At the same time, in order to achieve the expected results — the activities that can be started without full availability of the infrastructure — on the one hand, contacts with the developers of image-driven therapeutic software and tools and the promotion of infrastructure and free research capacity are carried out. In consultation with the industrial partners of projects defined in EIT Health, we explore research capacity and links to ongoing projects. The business potential of R & D projects based on infrastructure-based university ideas will be developed in detail and joint projects with previously defined industrial partners will be prepared. The PTE qualifies as a contracting authority on the basis of the Public Procurement Act, so already in March 2016 it conditionally launches the procurements that serve as the basis for the project, e.g.: purchase of equipment. As a result, the supply contracts under which instruments can be purchased and installed will be available at the start of the project in July. With regard to public procurement, we planned both internal university resources and external service providers and planned the cost of notices. The procurement involves the purchase of the following means: Neuronavigation system and premium ultrasound device. The devices will be suitable for quick, automatic fuse of CT/MR/UH/PET/SPECT/Angio images using high-performance, two monitor optical navigation systems in the first phase of diagnosis or preoperative design. In the second phase, in addition to the fused images, using independent design software independent of imaging diagnostics, MR DTI sequence detects 255 diffusion directions and automatically imports DTI data. At the same time, it will be possible to visualise functional areas of the brain, anatomical images with functional maps, motor and speech centers, as well as segmentation of the surface of the brain. Using automatic segmentation software, automatic formula recognition based on anatomical structures, segmentation of lesions and calculation of volume for each structure, e.g.: brain tumor, functional areas. The instrument’s surgical intervention software is the intraoperative fixed micro electrode stimulation data for processing the patient’s physical position reference points for optimal therapeutic decisions. Functional design based on previously defined data. Direction, and target setting based on the reference points, and automatic mid-sagittal plane definition. Its spinal field registration and navigation software, and the integration of the entire device package, the surgical image amplifier, support specific decision support during surgery. The introduction point and direction of the pedicular screws will be perfectly planned. Screws can be designed before insertion of screw thickness, length. It can be used for minimal invasive and open surgery. The system will also provide highly effective support for the design, surgical implementation and subsequent radiation treatment of surgical interventions in combination with radiotherapy, together with an oncologist. With the help of the software, the optimal degree of surgical removal of the tumour is determined and the technique of postoperative radiation therapy is determined for the most effective tumour treatment and, at the same time, maximum function retention. At the same time, the system will also have a unique feature of being able to use images of premium ultrasound equipment for surgical decision support during surgery, representing an integrated element in the intraoperable module of the neuronavigation system. The equipment is compatible with any hospital PACS system, capable of receiving and sending DICOM images. Fast network communication, data transmission outside the network via 4x USB or CD/DVD±RW. The design workstation you want to purchase will perform the following tasks: Pre-operative planning is especially important for the demanding surgeon, because it is possible to define and assign the target object of the surgery (e.g. tumor), the opt (English)
8 February 2022
0 references
Pécs, Baranya
0 references
Identifiers
GINOP-2.3.3-15-2016-00013
0 references