Human study on cancer diagnostic probe (CDP) for real‐time excising of breast positive cavity side margins based on tracing hypoxia glycolysis; checking diagnostic accuracy in non‐neoadjuvant cases

Miripour, Zohreh Sadat; Abbasvandi, Fereshteh; Aghaee, Parisa; Shojaeian, Fatemeh; Faramarzpour, Mahsa; Mohaghegh, Pooneh; Hoseinpour, Parisa; Namdar, Naser; Amiri, Mojtaba; Ghafari, Hadi; Parniani, Mohammad; Kaviani, Ahmad; Alamdar, Sedigheh; NajafiKhoshnoo, Sahar; Sanati, Hassan; Mapar, Mahna; Sadeghian, N; Akbari, Mohammad Esmaeil; Yunesian, Masud; Abdolahad, Mohammad

doi:10.1002/cam4.4503

Cited by 6 publications

(3 citation statements)

References 47 publications

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Section: Photoacoustic Imagingmentioning

confidence: 99%

“…A device based on nanotechnology is the cancer diagnostic probe that was observed to efficiently detect breast cavity side margins in real-time as well as after neoadjuvant treatment [55]. This device assesses the presence of hypoxia glycolysis associated with the tumor tissue [55]. Another approach based on an exogenous nanotechnology contrast agent (water-soluble melanin nanoparticles conjugated with cyclic Arg-Gly-Asp peptides) and photoacoustic imaging was proposed to guide surgery in vivo and assess free margins ex-vivo or in-vivo [56].…”

Section: Photoacoustic Imagingmentioning

confidence: 99%

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Updates and Debate Concerning Margin Adequacy and Management following Breast-Conserving Surgery

Bertozzi¹,

Londero²,

Nanez³

et al. 2022

Clin. Exp. Obstet. Gynecol.

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Objective: Breast-conserving surgery (BCS) experienced a significant surge during the last decades due to the increase of early breast cancer detection. Central to the discussion is margin adequacy which represents one of the most significant predictive factors for local relapse. This paper aims to shed light on the problem of margins in breast surgery. Mechanism: We performed a systematic narrative review of the literature by conducting a search using Medline/PubMed, Scopus, and Embase. The following keywords were considered: "breast-conserving surgery" AND "margins"/"margin". Findings in Brief: In the case of invasive breast cancer, "no ink on tumor" can be considered an adequate margin, while for ductal carcinoma in situ (DCIS), a distance of 2 mm from tumor should be obtained. Many novel tools have been developed based both on the latest radiological imaging techniques and on the tissue expression of certain markers, with the aim of precise navigation of tumor excision and intraoperative evaluation of cavity excision margins. Oncoplastic surgery can be considered oncologically safe while improving the cosmetic outcome and patients' quality of life. The appropriate use of adjuvant treatments in the context of a multidisciplinary and personalized management of breast cancer is the only means to omit a second intervention in some carefully selected cases. Conclusions: Debate still exists concerning the definition of adequate clear margin following BCS for DCIS. Further studies are required to better assess multimodal treatment approaches in this condition.

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Section: Photoacoustic Imagingmentioning

confidence: 99%

Section: Photoacoustic Imagingmentioning

confidence: 99%

Updates and Debate Concerning Margin Adequacy and Management following Breast-Conserving Surgery

Bertozzi¹,

Londero²,

Nanez³

et al. 2022

Clin. Exp. Obstet. Gynecol.

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“…Incomplete fixation of adipose cells existing in dissected breast tumor Diagnostics 2023, 13, 179 2 of 11 margins is a crucial pitfall in the accuracy of frozen pathology in breast cancer surgeries [4], so at least 20-30% misdiagnosis in breast tumor margins was reported in the literature [5,6]. Thus, several types of research have been conducted to fill the gap and invent precise intraoperative complementary devices [7,8]. One of the most attractive methods for cancer detection has been based on tissue dielectric properties [9].…”

Section: Introductionmentioning

confidence: 99%

High-Frequency (30 MHz–6 GHz) Breast Tissue Characterization Stabilized by Suction Force for Intraoperative Tumor Margin Assessment

et al. 2023

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A gigahertz (GHz) range antenna formed by a coaxial probe has been applied for sensing cancerous breast lesions in the scanning platform with the assistance of a suction tube. The sensor structure was a planar central layer and a metallic sheath of size of 3 cm2 connected to a network analyzer (keySight FieldFox N9918A) with operational bandwidth up to 26.5 GHz. Cancer tumor cells have significantly higher water content (as a dipolar molecule) than normal breast cells, changing their polarization responses and dielectric losses to incoming GHz-based stimulation. Principal component analysis named S11, related to the dispersion ratio of the input signal, is used as a parameter to identify malignant tumor cells in a mouse model (in vivo) and tumor specimens of breast cancer patients (in vitro) (both central and marginal parts). The results showed that S11 values in the frequency range from 5 to 6 GHz were significantly higher in cancer-involved breast lesions. Histopathological analysis was the gold standard for achieving the S11 calibration to distinguish normal from cancerous lesions. Our calibration on tumor specimens presented 82% positive predictive value (PPV), 100% negative predictive value (NPV), and 86% accuracy. Our goal is to apply this system as an in vivo non-invasive tumor margin scanner after further investigations in the future.

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