A Multicenter Phase 3 Study Comparing the Diagnostic Accuracy of 99mTc EC DG SPECT/CT Versus 18F FDG PET/CT for Diagnosing and Staging Patients Who Have Clinical and Radiological (CT) Evidence Consistent With a Diagnosis of Lung Cancer

The purpose of this study is to determine if the images of the primary lesions of lung cancer and any metastatic lesions seen from the investigational SPECT/CT 99mTC-EC-DG scans are the same as the PET/CT 18F-FDG scans.

开始日期2025-05-01

申办/合作机构

Cell > Point LLC

CTR20241513

/ Recruiting临床3期

一项比较 99mTc-EC-DG SPECT/CT 和 18F-FDG PET/CT 用于临床和影像学（CT）证据符合肺癌诊断标准的患者诊断和分期诊断准确性的国际多中心、III 期研究

1. 证明在肺癌高发的患者中，当参照真值标准对原发性和转移性病灶的图像判读进行比较时，SPECT/CT（99mTc-EC-DG）的敏感性或特异性指标非劣于 PET/CT（18F-FDG）。 2. 进一步证明 99mTc-EC-DG 在患者中的安全性。

开始日期2024-04-24

申办/合作机构

Cell > Point LLC

[+1]

NCT01359267

/ Completed早期临床1期IIT

A Pilot Feasibility Study of 99mTc EC DG SPECT/CT Imaging in the Treatment Response Evaluation in Patients With Locally Advanced Head and Neck Cancer

The purpose of this study is to obtain preliminary information on the potential of 99m Tc-EC-DG SPECT imaging to distinguish cancer from non cancer.

开始日期2011-04-19

申办/合作机构

The University of Chicago

100 项与锝[99mTc]双半胱乙酯相关的临床结果

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100 项与锝[99mTc]双半胱乙酯相关的转化医学

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100 项与锝[99mTc]双半胱乙酯相关的专利（医药）

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项与锝[99mTc]双半胱乙酯相关的文献（医药）

2025-05-01·GYNECOLOGIC ONCOLOGY

The use of indocyanine green (ICG) for sentinel lymph node detection in vulvar cancer

Article

作者: Kupets, Rachel S ; Gien, Lilian T ; Covens, Allan ; Vicus, Danielle ; Cornel, Karlijn M C ; Swift, Brenna E ; Mehta, Meera P

OBJECTIVE:

The aim of this study is to evaluate the use of indocyanine green (ICG) as a detection modality in sentinel lymph node (SLN) procedures for vulvar cancer.

METHOD:

A retrospective cohort study was performed from January 2008-August 2022 including all patients who underwent a SLN procedure for ≤4 cm vulvar cancer tumors with clinically/radiological normal inguinal nodes. SLN procedures with Tc99 +/- blue dye were compared to those with ICG +/- Tc99. Patient and tumor characteristics were collected as well as short-term and long-term complications. A subset analysis of SLN procedures with ICG alone was described.

RESULTS:

A total of 229 patients were included, representing 365 groins. Detection modality was Tc99 +/-blue dye in 189 patients (304 groins) and ICG +/-Tc99 in 40 patients (60 groins). The SLN detection rate for Tc99 +/- blue dye was 93.4 % and for ICG +/- Tc99 90.3 % (p = 0.4). The SLN was positive in 17.3 % of the Tc99 +/- blue dye group vs 23.2 % in the ICG +/- Tc99 group (p = 0.3). There was no significant difference in short- or long-term complications. The detection rate among 15 patients (22 groins) where ICG was used as a single modality was 90.9 %. There were no specific patient or tumor characteristics related to SLN mapping failure.

CONCLUSION:

The use of ICG +/- Tc99 as detection modality shows promising results with a success rate comparable to Tc99 +/- blue dye, supporting the use of ICG. Future studies are needed to confirm the efficacy and long-term safety of ICG alone.

2025-05-01·JOURNAL OF ENVIRONMENTAL RADIOACTIVITY

Uptake of technetium and iodine (I−, IO3− and organo-I) by pecan biochar

Article

作者: Ferguson, Brennan ; Xing, Wei ; Greene, Karah M ; Kaplan, Daniel I ; Lin, Peng ; Xu, Chen ; Bagwell, Christopher E ; Watts, Donald W

Remediation of land and groundwater that are contaminated with high-risk driving anionic-radionuclides, such as iodine-129 (I-129) and technetium-99 (Tc-99), remains an intractable problem. The objective of this study was to evaluate biochar materials as a low-cost and effective sorbent for Tc-99 and three iodine species, iodide/iodate/organo-iodine (org-I). Sorption studies were conducted with biochar derived from pecan shells (Carya illinoinensis), that underwent two pyrolysis temperatures (500 °C and 700 °C) and two types of acid-activation (H₃PO₄ and HCl). Acid-activated biochar had much higher sorption capacities (in terms of distribution coefficient, K_d, the concentration ratio of solid:liquid) for Tc-99 and different iodine species, than non-acid-activated biochar. The H₃PO₄-activated biochar (500 °C) was the most effective sorbent with Tc-99 K_d of 49,390 ± 14,268 mL/g, iodide K_d of 2433 ± 312 mL/g, iodate K_d of 410 ± 168 mL/g, and org-I K_d of 857 ± 181 mL/g. The HCl-activated biochar (700 °C) was also effective at sequestering Tc-99 (K_d of 7864 ± 5,585 mL/g) and iodide (K_d of 2481 ± 237 mL/g) but not for iodate/org-I. Solid-state ¹³C-nuclear magnetic resonance (NMR) analysis suggested the strong sorption capacity related to the formation of abundant alkene, aromatic and heteroaromatic functional groups, which was also supported by the Fourier-transform infrared spectroscopy (FTIR) analysis. Additionally, the FTIR suggested the possible electrophilic substitution of C-H by iodine to form C-I bond. Surface area measurements and SEM images indicated the H₃PO₄-activated biochar (500 °C) had especially high surfaces areas. Functionalized biochar may provide a cost effective and efficient sorbent for sequestering I-129 and Tc-99 from the biosphere, thereby reducing human risk.

2024-08-01·GYNECOLOGIC ONCOLOGY

Superparamagnetic iron oxide (SPIO) for sentinel lymph node detection in vulvar cancer

Article

作者: Jaunarena, Ibon ; Ruiz, Ruben ; Lekuona, Arantxa ; Gorostidi, Mikel ; Cespedes, Juan ; Del Valle, David ; Cobas, Paloma

OBJECTIVES:

Sentinel lymph node (SLN) detection with superparamagnetic iron oxide (SPIO) nanoparticles has been widely studied and standardized for breast and prostate cancer, but there is scarce evidence concerning its use in vulvar cancer. The objective of this study was to compare SLN detection using a SPIO tracer injected at the time of the surgery detected by a magnetometer, with the standard procedure of using a technetium 99 radioisotope (Tc99) detected by a gamma probe, in patients with vulvar cancer.

METHODS:

The SPIO vulvar cancer study was a single-center prospective interventional non-inferiority study of SPIO compared to Tc99, conducted between 2016 and 2021 in patients who met the GROINSS-V study inclusion criteria for selective sentinel lymph node dissection in vulvar cancer.

RESULTS:

We included 18 patients and a total of 41 SLNs. The level of agreement between tracers was 92.7% (80.6%-97.4%), corresponding to 38 out of 41 SLNs, which confirms the non-inferiority of SPIO compared to Tc99. The SLN detection rate per groin was 96.3 (81.7%-99.3) using Tc99 and 100% (87.5%-100%) using SPIO. Both tracers had a detection rate of 100% for positive lymph nodes.

CONCLUSIONS:

The use of SPIO as a tracer for detecting SLNs in patients with vulvar cancer has shown to be non-inferior to that of the standard radiotracer, with the advantages of not requiring nuclear medicine and being able to inject it at the time of surgery after induction of anesthesia.

项与锝[99mTc]双半胱乙酯相关的新闻（医药）

2022-02-07

·BioSpace

Navidea Biopharmaceuticals Announces Research Agreement with the University of Pennsylvania Evaluating Tc99m Tilmanocept as a Prognostic Marker for Glioblastoma

Navidea Biopharmaceuticals (NYSE American: NAVB) (“Navidea” or the “Company”), a company focused on the development of precision immunodiagnostic agents and immunotherapeutics, today announced the signing of a Sponsored Research Agreement with the University of Pennsylvania (“Penn”) for a project to evaluate the use of Tc99m tilmanocept imaging in glioblastoma as a prognostic agent for tumor growth rate and overall survival. The research is led by Principal Investigator Ali Nabavizadeh, MD, of the Department of Radiology in the Perelman School of Medicine at Penn. Glioblastoma (“GBM”) is the most aggressive and most common primary central nervous system tumor in adults and there is an urgent need for new therapies. Macrophages play an important role in tumor biology. They are a major population of non-cancer cells in GBM, representing as many as half of all cells in some cases. These Tumor Associated Macrophages (“TAMs”) may then be a viable target for tumor therapies or serve as a biomarker for monitoring tumor status. Broadly, active macrophages can be of a tumor suppressing type (M1 macrophages) or of a tumor promoting type (M2 macrophages). The TAMs are typically M2-like and are known to express high levels of CD206, the macrophage mannose receptor that Tc99m tilmanocept targets. This research has as its hypothesis that the M2 TAMs in GBM can be imaged with Tc99m tilmanocept, and that this imaging can serve as a predictive tool for outcome with and without use of an immunotherapy that works in part to change the M2-like macrophage population to a more M1-like state, promoting tumor killing. In these preclinical studies, Tc99m tilmanocept imaging will be evaluated in correlation with tumor growth rate, and in separate studies Tc99m tilmanocept imaging will be performed before and after anti-interleukin-6 therapy, which has been shown to promote TAM switching from the M2 to M1 state. Study endpoints will include quantitative imaging compared to pathology and overall survival. Dr. Michael Rosol, Chief Medical Officer for Navidea, said, “We are pleased to sponsor this important work with Dr. Nabavizadeh at Penn. This is another in a line of research collaborations we have had with the highest level of researchers at top tier institutions.” Dr. Rosol continued, “Today’s announcement exemplifies the broad reach of our tilmanocept platform. The development of applications of Tc99m tilmanocept as a prognostic biomarker in cancers could have far-reaching implications for monitoring patient treatment and making decisions about therapeutic benefit. We are excited to continue to develop new and valuable applications for our core technology.” “TAMs are a very important component of immune microenvironment in GBM, and it is crucial to have reliable imaging biomarkers to quantify and monitor TAMs during the course of treatment,” Dr. Nabavizadeh said. “The advantage of Tc99m tilmanocept is that it is already being used in patients for another research indication which means that we can move forward to human GBM patients under an Investigational New Drug Application (IND) if our preclinical studies show promising results.” About Navidea Navidea Biopharmaceuticals, Inc. (NYSE American: NAVB) is a biopharmaceutical company focused on the development of precision immunodiagnostic agents and immunotherapeutics. Navidea is developing multiple precision-targeted products based on its Manocept™ platform to enhance patient care by identifying the sites and pathways of disease and enable better diagnostic accuracy, clinical decision-making, and targeted treatment. Navidea’s Manocept platform is predicated on the ability to specifically target the CD206 mannose receptor expressed on activated macrophages. The Manocept platform serves as the molecular backbone of Tc99m tilmanocept, the first product developed and commercialized by Navidea based on the platform. Navidea’s strategy is to deliver superior growth and shareholder return by bringing to market novel products and advancing the Company’s pipeline through global partnering and commercialization efforts.

合作诊断试剂免疫疗法

100 项与锝[99mTc]双半胱乙酯相关的药物交易

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适应症	最高研发状态	国家/地区	公司	日期
肺癌	临床3期	中国	浙江联辉生物医药科技有限公司	2024-04-24
肺癌	临床3期	中国	Cell > Point LLC	2024-04-24
心肌缺血	临床2期	美国	Cellpoint Systems AB	2013-01-19
非小细胞肺癌	临床2期	加拿大	Cellpoint Systems AB	2009-03-18
头颈部肿瘤	临床1期	美国	The University of Chicago	-

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研究	分期	人群特征	评价人数	分组	结果	评价	发布日期


SNMMI2015	N/A	头颈部肿瘤	-	99m Tc-EC-DG (99mTc-EC-DG SPECT)	觸鑰窪遞齋選淵鹽鑰網(繭蓋網鑰簾觸窪構廠鬱) = 夢襯製餘選鹽積膚遞範膚艱襯範顧鹽衊鹽襯積 (簾網積蓋構遞築鏇窪憲, 48.0% ~ 100.00%) 更多	-	2015-05-15