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Identification of Neoatherosclerosis in ISR Patients Based on Artifical Intelligence

Conditions
Neo-atherosclerosis
Retrospective
In-stent Restenosis
Interventions
Other: no interventin
Registration Number
NCT04220437
Lead Sponsor
Chinese PLA General Hospital
Brief Summary

Based on the large population of patients, in-stent restenosis (ISR) is still an important problem in the field of cardiovascular disease. How to reduce the incidence of ISR and the treatment of ISR has become the focus and hot spot. The 2018 ESC Guidelines for Cardiovascular Intervention recommends treatment of ISR under the guidance of intravascular ultrasound (IVUS), or optical coherent tomography (OCT). Circulation published a new Waksman ISR classification based on mechanisms and components of the restenosis tissue, which provides guidance for treatment strategy. Because of its good resolution, OCT makes it more accurate to distinguish the components of vascular tissue, thus providing a decision-making basis for interventional therapy. OCT examination can obtain the characteristics of the ISR more precisely. Neoatherosclerosis (NA), is one of the ISR types and accounts for more stent failure and target lesion failure than other types. Identification NA is important for decision-making of interventional therapy. However, the acquisition and analysis of OCT images not only need the digital angiography machine (DSA) equipped with the majority of hospitals, but also need professional OCT imaging equipment and technicians. Patients with severely CKD cannot bear OCT examination because of the large amount of contrast agent. OCT catheter is more than ten times the price of the CAG catheter. Therefore, identification of NA by the use of artificial intelligence (AI) is of significance to set therapeutic strategy for ISR patients, especially in patients with CKD. Our study retrospectively analyzed CAG images and OCT images of ISR patients obtained from Jan 1st,2015 to Oct 31st,2020. Identify NA by analyzing OCT images, build up U-net and V-net to analyze the CAG and OCT images, and finally build up an identification system of NA based on CAG images by AI. This study has been approved by Ethics Committee of Chinese PLA General Hospital (S2018-033-01)

Detailed Description

Drug Eluting Stents (DES) reduce the rate of in-stent restenosis (ISR) to 3.6-10%. Based on the large population of patients, ISR is still an important problem in the field of cardiovascular disease. How to reduce the incidence of ISR and the treatment of ISR has become the focus and hot spot. The 2018 ESC Guidelines for Cardiovascular Intervention recommends treatment of ISR under the guidance of intravascular ultrasound (IVUS), or optical coherent tomography (OCT). The European Expert Consensus on Intravascular Imaging, published in 2018, recommends finding the underlying mechanisms of ISR through intravascular imaging guidance (IVUS or OCT), and determining therapeutic strategies based on the mechanisms. Circulation published a new Waksman ISR classification based on mechanisms and components of the restenosis tissue, which provides guidance of treatment strategy. The use of intravascular imaging to identify and classify the types and mechanisms is very important for ISR treatment strategy. Because of its good resolution, OCT makes it more accurate to distinguish the components of vascular tissue, thus providing a decision-making basis for interventional therapy. OCT examination can obtain the characteristics of ISR more precisely. Neoatherosclerosis (NA), is one of the ISR types and accounts for more stent failure and target lesion failure than other types. Identification of NA is important for decision-making of interventional therapy. However, the acquisition and analysis of OCT images not only need the digital angiography machine (DSA) equipped with the majority of hospitals, but also need professional OCT imaging equipment and technicians. Patients with severely CKD cannot bear OCT examination because of the large amount of contrast agent. OCT catheter is more than ten times the price of the CAG catheter. Therefore, identification of NA by the use of artificial intelligence (AI) is of significance to set therapeutic strategy for ISR patients, especially in patients with CKD. Our study retrospectively analyzed CAG images and OCT images of ISR patients obtained from Jan 1st,2015 to Jan 31st,2020. Offline OCT analysis was performed using dedicated software (Light Lab Imaging Inc, Westford, MA). All images were analyzed at every frame in the stents by 2 independent investigators, who were blinded to the angiographic and clinical findings. Identify NA by analyzing OCT images, build up U-net and V-net to analyze the CAG and OCT images, and finally build up an identification system of NA based on CAG images by AI. This study has been approved by Ethics Committee of Chinese PLA General Hospital (S2018-033-01)

Recruitment & Eligibility

Status
UNKNOWN
Sex
All
Target Recruitment
90
Inclusion Criteria
  • all gender

18ys old to 80ys old

diagnosed of in-stent restenosis based on CAG

both CAG images and OCT images were obtained in the same patient on the same day

Exclusion Criteria
  • CAG images and OCT images were not obtained on the same day in the same patient

low quality in CAG images

low qualitiy in OCT images

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
CAG and OCT groupno interventinImages of CAG and OCT patients obtained from ISR patients were retrospectively collected and analyzed.
Primary Outcome Measures
NameTimeMethod
lipid-core arcthrough the study completion, an average of 3 years

To quantify the circumferential extent of NA, the lipid-core arc was measured at a 0.2-mm interval throughout the segments showing NA.

macrophage arcthrough the study completion, an average of 3 years

measured at 0.2-mm intervals and divided into 5 groups: grade 0, no macrophages; grade 1, localized macrophage accumulation, \<30 degrees; grade 2, clustered accumulation, ≥30 and \<90 degrees; grade 3, clustered accumulation, ≥90 and \<270 degrees; and grade 4, clustered accumulation, ≥270 degrees.

neovascularizaionthrough the study completion, an average of 3 years

diameter 50-300um, cavity in the stent area, not connected with the vasular

Thin-cap fibroatheroma-like neointimathrough the study completion, an average of 3 years

defined as a neointima characterized by a fibrous cap thickness at the thinnest part of \<65 μm and an angle of lipid-laden neointima of \>180 degrees

The identification of NAthrough the study completion, an average of 3 years

a neointima containing a diffuse border and a signal-poor region, with the struts underneath invisible because of the marked signal attenuation

ISR segment in the CAG imagesthrough the study completion, an average of 3 years

the segement in the stent area or within 5mm beside the stent,diameter stenosis rate\>50%

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

The General Hospital of PLA

🇨🇳

Beijing, China

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