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Infrared Imaging for Breast Cancer Modeling

29. juli 2022 oppdatert av: Jody Hayes, University of Texas Southwestern Medical Center

The primary objective of this study is to obtain infrared (IR) images and video and three-dimensional (3-D) scans of patients referred for biopsy based on the results of their diagnostic breast exam(s).

This research study is investigating infrared imaging (also referred to as infrared thermography, or digital infrared thermal imaging (DITI)) of breast cancer. The infrared images collected in this study will be used to construct a computational biothermal engineering model of the cancerous breast.

Patients will undergo standard breast cancer screening procedures as part of routine care at Parkland Comprehensive Breast Center. For any patients who are referred for biopsy based on the results of their breast cancer screening procedures, this research study will take infrared images of the patient. Patients will undergo infrared imaging prior to biopsy but will not delay biopsy or treatment; infrared images & video may be recorded at biopsy visit. The biopsy will confirm/diagnose whether the patient has a benign or malignant condition.

Studieoversikt

Status

Fullført

Forhold

Intervensjon / Behandling

Detaljert beskrivelse

The purpose of this research study is to obtain IR images, IR video, and 3-D scans of female patients' breasts (i.e., thermograms) who have been referred for biopsy based on the results of their diagnostic breast exams. These patients may be later diagnosed with a malignant or benign breast condition. The infrared images and video collected will be used to construct and validate a computational biothermal engineering model of breast cancer.

This research study does not involve any investigational drugs or treatments. This research study does not involve any FDA-approved drugs or devices.

In this research study, the equipment used (IR camera, 3-D scanner) will no be tested nor be used to diagnose or treat. Further, medical decisions will not be based on the use of these devices.

Infrared imaging (or digital thermal infrared imaging, DITI) is a non-invasive, non-contact, and harmless imaging procedure that measures the natural infrared radiation (body heat) emitted by the human body at normal 37°C body temperature. This procedure does not expose the patient to any radiation and is therefore entirely safe for the patient.

IR images and video will be obtained by IR equipment provided by University of Texas (UT) at Dallas researchers. IR equipment consists of an IR camera and ancillary equipment (e.g., tripod, computer, and vendor-provided IR image-processing software). The IR camera that will be used will be a commercial off-the-shelf product.

Additionally, a 3-D scanner will be used to obtain a 3-D surface contour map of the patient's breasts. This 3-D scanner is also non-invasive, non-contact, and does not expose the patient any radiation, similar to the IR camera. The 3-D scanner outputs a file format that is compatible with 3-D computer-aided design (CAD) software for engineering analysis.

Studietype

Intervensjonell

Registrering (Faktiske)

11

Fase

  • Ikke aktuelt

Kontakter og plasseringer

Denne delen inneholder kontaktinformasjon for de som utfører studien, og informasjon om hvor denne studien blir utført.

Studiesteder

  • Forente stater
    • Texas
      • Dallas, Texas, Forente stater, 75235
        • Parkland Memorial Hospital

Deltakelseskriterier

Forskere ser etter personer som passer til en bestemt beskrivelse, kalt kvalifikasjonskriterier. Noen eksempler på disse kriteriene er en persons generelle helsetilstand eller tidligere behandlinger.

Kvalifikasjonskriterier

Alder som er kvalifisert for studier

18 år og eldre (Voksen, Eldre voksen)

Tar imot friske frivillige

Nei

Kjønn som er kvalifisert for studier

Hunn

Beskrivelse

Inclusion Criteria:

  • Females with a suspicious breast mass (BI-RADS 4C or 5).
  • Referred for a breast biopsy.
  • Capable of providing informed consent.

Exclusion Criteria:

  • Currently undergoing treatment for breast cancer.
  • Incapable of providing informed consent.

Studieplan

Denne delen gir detaljer om studieplanen, inkludert hvordan studien er utformet og hva studien måler.

Hvordan er studiet utformet?

Designdetaljer

  • Primært formål: Diagnostisk
  • Tildeling: N/A
  • Intervensjonsmodell: Enkeltgruppeoppdrag
  • Masking: Ingen (Open Label)

Våpen og intervensjoner

Deltakergruppe / Arm
Intervensjon / Behandling
Eksperimentell: Patients referred for breast biopsy
Patients with Breast Imaging-Reporting and Data System (BI-RADS) 4C or 5 diagnosis who have been referred for breast biopsy based on the results of their standard diagnostic breast exam will undergo IR and 3D imaging of the breasts.
Fremgangsmåte: IR Imaging
Subjects will undergo steady steady state and video IR imaging of the breasts.
Fremgangsmåte: 3D Scanning
Subjects will undergo 3D scanning of the breasts.

Hva måler studien?

Primære resultatmål

Resultatmål
Tiltaksbeskrivelse
Tidsramme
Spatial location of breast tumors
Tidsramme: Two years
Researchers will use subjects' radiological imaging data to quantify the location of the tumor inside the breast, including mammography, ultrasound, and/or magnetic resonance imaging (MRI), for patients who are diagnosed with breast cancer. The tumor location will be measured. The tumor location will serve as an input for the computational model. No diagnostic assessments will be made from these data for this research study.
Two years
3-D Surface contour maps of the breast
Tidsramme: Two years
Researchers will use a 3-D scanning device to reconstruct the 3-D surface geometry of subjects' breasts. The surface geometry of subjects' breasts will be measured. The surface geometry will serve as an input for the computational model. No diagnostic assessments will be made from these data for this research study.
Two years
Computational thermal model of breast cancer
Tidsramme: Two years
Researchers will use study data to validate a computational biothermal engineering model of the cancerous breast. The computational model will model and simulate the internal thermodynamic and heat transfer processes inside the breast with cancer. The model outputs expected surface temperatures of the breast with cancer. The model will be constructed using commercial engineering software, ANSYS Fluent. No diagnostic assessments will be made from these data for this research study.
Two years

Samarbeidspartnere og etterforskere

Det er her du vil finne personer og organisasjoner som er involvert i denne studien.

Sponsor

University of Texas Southwestern Medical Center

Etterforskere

  • Hovedetterforsker: Jody Hayes, MD, UT Southwestern Medical Center

Studierekorddatoer

Disse datoene sporer fremdriften for innsending av studieposter og sammendragsresultater til ClinicalTrials.gov. Studieposter og rapporterte resultater gjennomgås av National Library of Medicine (NLM) for å sikre at de oppfyller spesifikke kvalitetskontrollstandarder før de legges ut på det offentlige nettstedet.

Studer hoveddatoer

Studiestart (Faktiske)

13. juni 2019

Primær fullføring (Faktiske)

15. desember 2021

Studiet fullført (Faktiske)

1. juni 2022

Datoer for studieregistrering

Først innsendt

21. mai 2019

Først innsendt som oppfylte QC-kriteriene

14. juni 2019

Først lagt ut (Faktiske)

18. juni 2019

Oppdateringer av studieposter

Sist oppdatering lagt ut (Faktiske)

2. august 2022

Siste oppdatering sendt inn som oppfylte QC-kriteriene

29. juli 2022

Sist bekreftet

1. juli 2022

Mer informasjon

Begreper knyttet til denne studien

Ytterligere relevante MeSH-vilkår

Andre studie-ID-numre

  • STU-2018-0370

Legemiddel- og utstyrsinformasjon, studiedokumenter

Studerer et amerikansk FDA-regulert medikamentprodukt

Nei

Studerer et amerikansk FDA-regulert enhetsprodukt

Nei

Denne informasjonen ble hentet direkte fra nettstedet clinicaltrials.gov uten noen endringer. Hvis du har noen forespørsler om å endre, fjerne eller oppdatere studiedetaljene dine, vennligst kontakt register@clinicaltrials.gov. Så snart en endring er implementert på clinicaltrials.gov, vil denne også bli oppdatert automatisk på nettstedet vårt. .

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