Multimodal Imaging-assisted Diagnosis Model for Cervical Spine Tumors
4 juli 2021 uppdaterad av: Peking University Third Hospital
Based on a Small Sample Deep Learning Multi-modal Image-assisted Diagnosis Model of Cervical Spine Tumors Clinical Application Research
Cervical spine tumor is a small sample of tumor disease with low incidence, great harm, and complex anatomical structure. It is very difficult to identify and classify benign and malignant cervical spine tumors clinically.
The deep learning model we constructed in the early stage has a higher accuracy rate for the image diagnosis of cervical spondylosis with a large number of cases, and a better clinical application effect, but the accuracy rate for cervical spine tumors with a small number of cases is lower. The reason may be the amount of data. With limited tasks, the traditional deep learning model is difficult to play an effective role.
Based on this, we propose to build a small sample-oriented deep learning model to assist clinicians in the diagnosis of cervical spine tumors with multimodal images, and to evaluate the benign and malignant tumors.
Studieöversikt
Status
Avslutad
Betingelser
Detaljerad beskrivning
Cervical spine tumor is a small-sample tumor disease with low incidence, great harm, and complex anatomical structure.
It is very difficult to identify and classify benign and malignant cervical spine tumors clinically.
The deep learning model we constructed in the early stage is suitable for the large number of cases.
The imaging diagnosis of cervical spondylosis has a high accuracy rate and a good clinical application effect, but the accuracy rate is low for cervical spine tumors with a small number of cases.
The reason may be that for tasks with limited amount of data, the traditional deep learning model is difficult to play an effective role.
Based on this, we propose to construct a small sample-oriented deep learning model to assist clinicians in the diagnosis of cervical spine tumors in multi-modal imaging, and to evaluate the benign and malignant tumors.
This research will not only improve the efficiency and efficiency of cervical spine tumor imaging diagnosis.
Accuracy, to guide clinical personalized treatment, will also provide a basis for the clinical application of deep learning in the field of small samples, which has important clinical significance.
Studietyp
Observationell
Inskrivning (Faktisk)
600
Kontakter och platser
Det här avsnittet innehåller kontaktuppgifter för dem som genomför studien och information om var denna studie genomförs.
Studieorter
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Beijing, Kina
- Peking University Third Hospital
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Deltagandekriterier
Forskare letar efter personer som passar en viss beskrivning, så kallade behörighetskriterier. Några exempel på dessa kriterier är en persons allmänna hälsotillstånd eller tidigare behandlingar.
Urvalskriterier
Åldrar som är berättigade till studier
18 år till 50 år (Vuxen)
Tar emot friska volontärer
Nej
Kön som är behöriga för studier
Allt
Testmetod
Icke-sannolikhetsprov
Studera befolkning
Inclusion criteria: clinically suspected cervical spine tumors, multi-modality (X-ray, CT, MR) imaging, followed by needle biopsy or surgery to confirm the tumor, and pathology report.
Exclusion criteria: surgery or radiotherapy before imaging, cervical spine Those who have fractures, deformities, infections, etc. who cannot cooperate with imaging examinations, and those who have not signed an informed consent.
Beskrivning
Inclusion Criteria:
- 18-50 years old, about 300 males and females; in the orthopedics outpatient and emergency department of our hospital, the imaging scans (X-ray, CT, MR) showed no obvious abnormalities.
Exclusion Criteria:
- have had surgery before acquiring the images, Those who have cervical spine fractures, deformities, infections, etc. who cannot cooperate with imaging examinations, and those who have not signed the informed consent. The normal control group" includes about 600 patients with normal or slightly degenerated cervical spine, as a standard for training computers to recognize cervical spine structures Images and control images for detecting tumor lesions.
Studieplan
Det här avsnittet ger detaljer om studieplanen, inklusive hur studien är utformad och vad studien mäter.
Hur är studien utformad?
Designdetaljer
Kohorter och interventioner
Grupp / Kohort |
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X-ray
This study completed the manual labeling of preoperative multi-modal images of cervical spine structures and tumor lesions.
On the normal cervical spine, six target areas were labeled: cervical spinal cord (MRI), cervical spine alignment (MRI), cervical intervertebral discs ( MRI), cervical spinal canal area (MRI), cervical cobb angle (X-ray) and cervical posterior longitudinal ligament ossification (CT).
For cervical tumor lesions, complete MR and CT as well as orthopedic, axial and coronal positions.
The label on the lateral X-ray image.
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CT
This study completed the manual labeling of preoperative multi-modal images of cervical spine structures and tumor lesions.
On the normal cervical spine, six target areas were labeled: cervical spinal cord (MRI), cervical spine alignment (MRI), cervical intervertebral discs ( MRI), cervical spinal canal area (MRI), cervical cobb angle (X-ray) and cervical posterior longitudinal ligament ossification (CT).
For cervical tumor lesions, complete MR and CT as well as orthopedic, axial and coronal positions.
The label on the lateral X-ray image.
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MRI
This study completed the manual labeling of preoperative multi-modal images of cervical spine structures and tumor lesions.
On the normal cervical spine, six target areas were labeled: cervical spinal cord (MRI), cervical spine alignment (MRI), cervical intervertebral discs ( MRI), cervical spinal canal area (MRI), cervical cobb angle (X-ray) and cervical posterior longitudinal ligament ossification (CT).
For cervical tumor lesions, complete MR and CT as well as orthopedic, axial and coronal positions.
The label on the lateral X-ray image.
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Vad mäter studien?
Primära resultatmått
Resultatmått |
Åtgärdsbeskrivning |
Tidsram |
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tumor detection
Tidsram: 2022-2023
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On the basis of the cervical spine structure, it is the modeling of the tumor.
The model based on weakly supervised learning recognizes the morphological features such as the size of the tumor lesion, and uses the fast-adapted meta-learning method to achieve a fast model under a small amount of training.
Optimize, and finally evaluate the benignity, borderline and malignant probability of the tumor and use it as an output.
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2022-2023
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Sekundära resultatmått
Resultatmått |
Åtgärdsbeskrivning |
Tidsram |
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cervical spine detection
Tidsram: 2022-2023
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Taking the postoperative pathology report of cancer patients as the audit standard, testing the sensitivity and accuracy of the model, and integrating it into a complete deep learning model.
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2022-2023
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Samarbetspartners och utredare
Det är här du hittar personer och organisationer som är involverade i denna studie.
Sponsor
Utredare
- Studiestol: hanqiang ouyang, Peking University Third Hospital
Studieavstämningsdatum
Dessa datum spårar framstegen för inlämningar av studieposter och sammanfattande resultat till ClinicalTrials.gov. Studieposter och rapporterade resultat granskas av National Library of Medicine (NLM) för att säkerställa att de uppfyller specifika kvalitetskontrollstandarder innan de publiceras på den offentliga webbplatsen.
Studera stora datum
Studiestart (Faktisk)
1 januari 2020
Primärt slutförande (Faktisk)
1 juni 2020
Avslutad studie (Faktisk)
1 juni 2021
Studieregistreringsdatum
Först inskickad
4 juli 2021
Först inskickad som uppfyllde QC-kriterierna
4 juli 2021
Första postat (Faktisk)
13 juli 2021
Uppdateringar av studier
Senaste uppdatering publicerad (Faktisk)
13 juli 2021
Senaste inskickade uppdateringen som uppfyllde QC-kriterierna
4 juli 2021
Senast verifierad
1 juli 2021
Mer information
Termer relaterade till denna studie
Andra studie-ID-nummer
- IRB00006761-M2020255
Plan för individuella deltagardata (IPD)
Planerar du att dela individuella deltagardata (IPD)?
NEJ
Läkemedels- och apparatinformation, studiedokument
Studerar en amerikansk FDA-reglerad läkemedelsprodukt
Nej
Studerar en amerikansk FDA-reglerad produktprodukt
Nej
Denna information hämtades direkt från webbplatsen clinicaltrials.gov utan några ändringar. Om du har några önskemål om att ändra, ta bort eller uppdatera dina studieuppgifter, vänligen kontakta register@clinicaltrials.gov. Så snart en ändring har implementerats på clinicaltrials.gov, kommer denna att uppdateras automatiskt även på vår webbplats .
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