New generation of electrochemical immunoassay based on polymeric nanoparticles for early detection of breast cancer

Mouffouk, Fouzi; Aouabdi, Sihem; Al‐Hetlani, Entesar; Serrai, Haçène; Alrefae, Tareq; Chen, Liaohai Leo

doi:10.2147/ijn.s127086

Cited by 11 publications

(6 citation statements)

References 31 publications

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“…The MUC-1 was detectable in the presence of 10 cells/ml of cancer cells. 246 The analytical performance in more detail is provided in Table 7.…”

Section: Muc-1mentioning

confidence: 99%

“…249 Combining micelles with high-loading capacity features with magnetically enriched cancer cells/biomarkers leads to a high-performance nano/bioassaying methodology. 246 In this way, decorating pH-sensitive materials with MUC-1 Abs as signaling probes provide…”

Section: Muc-1mentioning

confidence: 99%

“…The pH of the solution was lowered considering the pH‐sensitive property of the micelles led the micelles to be opened, and ferrocene was released and detected electrochemically. The MUC‐1 was detectable in the presence of 10 cells/ml of cancer cells 246 . The analytical performance in more detail is provided in Table 7.…”

Section: Immunosensor (Protein Biomarkers)mentioning

confidence: 99%

See 2 more Smart Citations

Nanotechnology‐based electrochemical biosensors for monitoring breast cancer biomarkers

Nasrollahpour

Khalilzadeh

Hasanzadeh

et al. 2022

Medicinal Research Reviews

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Breast cancer is categorized as the most widespread cancer type among women globally. On-time diagnosis can decrease the mortality rate by making the right decision in the therapy procedure. These features lead to a reduction in medication time and socioeconomic burden. The current review article provides a comprehensive assessment for breast cancer diagnosis using nanomaterials and related technologies. Growing use of the nano/biotechnology domain in terms of electrochemical nanobiosensor designing was discussed in detail. In this regard, recent advances in nanomaterial applied for amplified biosensing methodologies were assessed for breast cancer diagnosis by focusing on the advantages and disadvantages of these approaches. We also monitored designing methods, advantages, and the necessity of suitable (nano) materials from a statistical standpoint.The main objective of this review is to classify the applicable biosensors based on breast cancer biomarkers.With numerous nano-sized platforms published for breast cancer diagnosis, this review tried to collect the most suitable methodologies for detecting biomarkers and certain breast cancer cell types.

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“…The MUC-1 was detectable in the presence of 10 cells/ml of cancer cells. 246 The analytical performance in more detail is provided in Table 7.…”

Section: Muc-1mentioning

confidence: 99%

Section: Muc-1mentioning

confidence: 99%

Section: Immunosensor (Protein Biomarkers)mentioning

confidence: 99%

See 1 more Smart Citation

Nanotechnology‐based electrochemical biosensors for monitoring breast cancer biomarkers

Nasrollahpour

Khalilzadeh

Hasanzadeh

et al. 2022

Medicinal Research Reviews

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“…Mouffouk together with colleagues applied bioconjugated self-assembled pH-responsive polymeric micelles loaded with ferrocene (Fc) and antiMUC1 antibodies as a signal probe [ 85 ]. The biosensor was able to detect MUC1 in a sample containing about 10 cells/mL [ 85 ] (Approach 2).…”

Section: Nanomaterials/nanoparticles-based Electrochemical Biosensmentioning

confidence: 99%

“…HER2 (185 kDa) i.e., human epidermal growth factor receptor-2, belongs to a family of receptor tyrosine kinases [ 91 ]. HER2 in BC is characterized by its high expression of growth factor receptor-related genes ( ERBB2 , EGFR , and/or FGFR4 ) and cell cycle-related genes [ 85 ].…”

Section: Nanomaterials/nanoparticles-based Electrochemical Biosensmentioning

confidence: 99%

Electrochemical Nanobiosensors for Detection of Breast Cancer Biomarkers

Gajdošová

Lorencová

Kasák

et al. 2020

Sensors

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This comprehensive review paper describes recent advances made in the field of electrochemical nanobiosensors for the detection of breast cancer (BC) biomarkers such as specific genes, microRNA, proteins, circulating tumor cells, BC cell lines, and exosomes or exosome-derived biomarkers. Besides the description of key functional characteristics of electrochemical nanobiosensors, the reader can find basic statistic information about BC incidence and mortality, breast pathology, and current clinically used BC biomarkers. The final part of the review is focused on challenges that need to be addressed in order to apply electrochemical nanobiosensors in a clinical practice.

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