Review
BibTex RIS Cite
Year 2022, Volume: 1 Issue: 2, 79 - 82, 30.12.2022

Abstract

References

  • 1. Acar H, Özer N: The implication of molecular markers in the early stage diagnosis of colorectal cancers and precancerous lesion. Turkish j Biochemistry 2022; https://doi.org/10.1515/tjb-2022-0052.
  • 2. Acar H, Özer N: Are serum moleculer markers more effective than the invasive methods used in the diagnosis of breast cancers? Turkish j Biochemistry 2021; https://doi.org/10.1515/tjb-2021-0001.
  • 3. Acar H, Özer N: What is the Impact of Serum Molecular Markers on the Diagnosis of Thyroid Cancers? A Comparison of Serum Molecular Markers with Invasive Biopsy Methods. Asian Journal of Research and Reports in Endocrinology.2021;4(2):32-41.
  • 4. Acar H, Özer N: What is the effect of advanced diagnostic methods on sensitivity and survival in the multiple breast cancers? A systematic analysis and comparison. Asian Journal of Medical Sciences.2021:12(7).
  • 5. Kaura B, Kumar S, Kaushika BK: Recent advancements in optical biosensors for cancer detection. Biosensors and Bioelectronics.2021;197(1).
  • 6. Alharthi SD, Bijukumar D, Prasad S, Khan AM, Mathew MT: Evolution in Biosensors for Cancers Biomarkers Detection: A Review. Journal of Bio-and Tribo-Corrosion.2021;7(42).
  • 7. Kholoud KA, Alaa I, Reem Mergawy: Advances in Cancer Diagnosis: Bio-Electrochemical and Biophysical Characterizations of Cancer Cells. Micromachines. 2022;13(9).
  • 8. Shahdeo D, Gandhi S: Biosensor Based Advanced Cancer Diagnostics From Lab to Clinics.Biosensor Based Advanced Cancer Diagnostics.2022; https://doi.org/10.1016/B978-0-12-823424-2.00016-8.
  • 9. Zhang Y, Lyu H: Application of biosensors based on nanomaterials in cancer cell detection. Journal of Physics: Conference Series.2021;Vol 1948.(IoTAIMA 2021),Hangzhou, China.
  • 10. Kaya I, Özçelikay G, Mollarasoulic F, Bakırhan NK, Ozkan SA: Recent achievements and challenges on nanomaterial based electrochemical biosensors for the detection of colon and lung cancer biomarkers. Sensors and Actuators B: Chemical.2022;351:130856.
  • 11. Pereira C, Parolo C, Idili A, Gomis RR, Rodrigues L, Sales G et al: Paper-based biosensors for cancer diagnostics. Trends in Chemistry.2022;4(6).
  • 12. Zhanga S, Ronga F, Guoa C, Duona F, Hea L, Wanga M,et al: Metal–organic frameworks (MOFs) based electrochemical biosensors for early cancer diagnosis in vitro. Coordination Chemistry Reviews.2021:439.213948.
  • 13. Sharifianjazi F, Rad AJ, Bakhtiari A, Niazvand F, Esmaeilkhanian A, Bazli L, et al: Biosensors and nanotechnology for cancer diagnosis (lung and bronchus, breast, prostate, and colon): a systematic review. Biomedical Materials.2021;17(1).
  • 14. Sharmaa A, Dultaa K, Nagraika R, Dua K, Singh SK, Chellappand CK, et al: Potentialities of aptasensors in cancer diagnosis. Materials Letters.2022;308:131240.
  • 15. Munoz-San M, Pedrero M, Gamella M, Montero-Calle A,Barderas R, et al: A novel peptide-based electrochemical biosensor fort he determination af a metastasis-linked protease in pancreatic cancer cells. Anal. Bioanal. Chem. 2020;412:6177-6188.
  • 16. Lu X, Yao C, Sun L, Li Z: Plasmon-enhanced biosensors for microRNA analysis and cancer diagnosis. Biosensors and bioelectronics.2022;203:114041.
  • 17. Chen M, Wu D, Tu S, Yang C, Chen DJ, Xu Y: A novel biosensor for the ultrasensitive detection of the lncRNA biomarker MALAT1 in non-small cell lung cancer. Nature Scientific Reports.2021;11:3666.
  • 18. Syed HH, Cesar SH, Arnan M, Anne-Laure D, Laurenceay E: Biosensors for circulating tumor cells (CTCs)-biomarker detection in lung and prostate cancer: Trends and prospects. Biosensors and Bioelectronics.2022;197:113770.
  • 19. Boriachek K, Umer M, Islam N, Gopalan V, Lam AK, Nguyen NT, et al: An amplification-free electrochemical detection of exosomal miRNA-21 in serum samples. Analyst.2018;143(7).
  • 20. Arshad F, Nabi F, Iqbal S, Khan RH: Applications of graphene-based electrochemical and optical biosensors in early detection of cancer biomarkers. Colloids and Surfaces B: Biointerfaces.2022;212:112356.
  • 21. Iannazzo D, Espro C, Celesti C, Ferlazzo A, Neri G: Smart Biosensors for Cancer Diagnosis Based on Graphene Quantum Dots. Cancers.2021;13(13).
  • 22. Mostufa S, Akib TBA, Rana M, Islam R: Highly Sensitive TiO2/Au/Graphene Layer-Based Surface Plasmon Resonance Biosensor for Cancer Detection. Biosensors.2022;12(8). 23. Kshirsagar P, Seshacharyulu P, Muniyan S, Rachagani S, Smith LM, Thompson C, et al: DNA-gold nanoprobe-based integrated biosensing technology for non-invasive liquid biopsy of serum miRNA: A new frontier in prostate cancer diagnosis. Nanomedicine: Nanotechnology, Biology and Medicine.2022;43:102566.
  • 24. Baabuc S, Srinivasanad S, Nagarajan S, Muthamilselvana S, Selvia T, Sureshb RR, et al: End-to-end computational approach to the design of RNA biosensors for detecting miRNA biomarkers of cervical cancer. Synthetic and Systems Biotechnology.2022;7(2).
  • 25. Uygun ZO, Yeniay L, Sağın FG: CRISPR-dCas9 powered impedimetric biosensor for label-free detection of circulating tumor DNAs. Analytica Chimica Acta.2020;1121:35-41.

Recent Developments with Biosensors in the Diagnosis of Cancer Diseases

Year 2022, Volume: 1 Issue: 2, 79 - 82, 30.12.2022

Abstract

Aim:
Early diagnosis is very important in cancer diseases. Our aim in this study is to reveal the latest developments in the studies on the use of newly developed biosensors in the early diagnosis of cancer diseases.
Material and methods:
For this purpose, the results obtained in studies using different methods and materials in different types of cancer were evaluated. The sensitivity and specificity rates obtained with biosensors in the diagnosis of cancer were compared with the results obtained by conventional methods.
Results:
According to the results obtained in studies conducted with biosensors, the diagnosis of cancer diseases can be made with biosensors in a cost-effective way, in real-time, with much higher sensitivity, specificity and selectivity than conventional methods.
Conclusion:
According to the findings we obtained in our study, biosensors have opened a new era in the diagnosis of cancer. Early diagnosis of all kinds of cancer diseases will be possible with this method and mortality will be decreased to very low levels.

References

  • 1. Acar H, Özer N: The implication of molecular markers in the early stage diagnosis of colorectal cancers and precancerous lesion. Turkish j Biochemistry 2022; https://doi.org/10.1515/tjb-2022-0052.
  • 2. Acar H, Özer N: Are serum moleculer markers more effective than the invasive methods used in the diagnosis of breast cancers? Turkish j Biochemistry 2021; https://doi.org/10.1515/tjb-2021-0001.
  • 3. Acar H, Özer N: What is the Impact of Serum Molecular Markers on the Diagnosis of Thyroid Cancers? A Comparison of Serum Molecular Markers with Invasive Biopsy Methods. Asian Journal of Research and Reports in Endocrinology.2021;4(2):32-41.
  • 4. Acar H, Özer N: What is the effect of advanced diagnostic methods on sensitivity and survival in the multiple breast cancers? A systematic analysis and comparison. Asian Journal of Medical Sciences.2021:12(7).
  • 5. Kaura B, Kumar S, Kaushika BK: Recent advancements in optical biosensors for cancer detection. Biosensors and Bioelectronics.2021;197(1).
  • 6. Alharthi SD, Bijukumar D, Prasad S, Khan AM, Mathew MT: Evolution in Biosensors for Cancers Biomarkers Detection: A Review. Journal of Bio-and Tribo-Corrosion.2021;7(42).
  • 7. Kholoud KA, Alaa I, Reem Mergawy: Advances in Cancer Diagnosis: Bio-Electrochemical and Biophysical Characterizations of Cancer Cells. Micromachines. 2022;13(9).
  • 8. Shahdeo D, Gandhi S: Biosensor Based Advanced Cancer Diagnostics From Lab to Clinics.Biosensor Based Advanced Cancer Diagnostics.2022; https://doi.org/10.1016/B978-0-12-823424-2.00016-8.
  • 9. Zhang Y, Lyu H: Application of biosensors based on nanomaterials in cancer cell detection. Journal of Physics: Conference Series.2021;Vol 1948.(IoTAIMA 2021),Hangzhou, China.
  • 10. Kaya I, Özçelikay G, Mollarasoulic F, Bakırhan NK, Ozkan SA: Recent achievements and challenges on nanomaterial based electrochemical biosensors for the detection of colon and lung cancer biomarkers. Sensors and Actuators B: Chemical.2022;351:130856.
  • 11. Pereira C, Parolo C, Idili A, Gomis RR, Rodrigues L, Sales G et al: Paper-based biosensors for cancer diagnostics. Trends in Chemistry.2022;4(6).
  • 12. Zhanga S, Ronga F, Guoa C, Duona F, Hea L, Wanga M,et al: Metal–organic frameworks (MOFs) based electrochemical biosensors for early cancer diagnosis in vitro. Coordination Chemistry Reviews.2021:439.213948.
  • 13. Sharifianjazi F, Rad AJ, Bakhtiari A, Niazvand F, Esmaeilkhanian A, Bazli L, et al: Biosensors and nanotechnology for cancer diagnosis (lung and bronchus, breast, prostate, and colon): a systematic review. Biomedical Materials.2021;17(1).
  • 14. Sharmaa A, Dultaa K, Nagraika R, Dua K, Singh SK, Chellappand CK, et al: Potentialities of aptasensors in cancer diagnosis. Materials Letters.2022;308:131240.
  • 15. Munoz-San M, Pedrero M, Gamella M, Montero-Calle A,Barderas R, et al: A novel peptide-based electrochemical biosensor fort he determination af a metastasis-linked protease in pancreatic cancer cells. Anal. Bioanal. Chem. 2020;412:6177-6188.
  • 16. Lu X, Yao C, Sun L, Li Z: Plasmon-enhanced biosensors for microRNA analysis and cancer diagnosis. Biosensors and bioelectronics.2022;203:114041.
  • 17. Chen M, Wu D, Tu S, Yang C, Chen DJ, Xu Y: A novel biosensor for the ultrasensitive detection of the lncRNA biomarker MALAT1 in non-small cell lung cancer. Nature Scientific Reports.2021;11:3666.
  • 18. Syed HH, Cesar SH, Arnan M, Anne-Laure D, Laurenceay E: Biosensors for circulating tumor cells (CTCs)-biomarker detection in lung and prostate cancer: Trends and prospects. Biosensors and Bioelectronics.2022;197:113770.
  • 19. Boriachek K, Umer M, Islam N, Gopalan V, Lam AK, Nguyen NT, et al: An amplification-free electrochemical detection of exosomal miRNA-21 in serum samples. Analyst.2018;143(7).
  • 20. Arshad F, Nabi F, Iqbal S, Khan RH: Applications of graphene-based electrochemical and optical biosensors in early detection of cancer biomarkers. Colloids and Surfaces B: Biointerfaces.2022;212:112356.
  • 21. Iannazzo D, Espro C, Celesti C, Ferlazzo A, Neri G: Smart Biosensors for Cancer Diagnosis Based on Graphene Quantum Dots. Cancers.2021;13(13).
  • 22. Mostufa S, Akib TBA, Rana M, Islam R: Highly Sensitive TiO2/Au/Graphene Layer-Based Surface Plasmon Resonance Biosensor for Cancer Detection. Biosensors.2022;12(8). 23. Kshirsagar P, Seshacharyulu P, Muniyan S, Rachagani S, Smith LM, Thompson C, et al: DNA-gold nanoprobe-based integrated biosensing technology for non-invasive liquid biopsy of serum miRNA: A new frontier in prostate cancer diagnosis. Nanomedicine: Nanotechnology, Biology and Medicine.2022;43:102566.
  • 24. Baabuc S, Srinivasanad S, Nagarajan S, Muthamilselvana S, Selvia T, Sureshb RR, et al: End-to-end computational approach to the design of RNA biosensors for detecting miRNA biomarkers of cervical cancer. Synthetic and Systems Biotechnology.2022;7(2).
  • 25. Uygun ZO, Yeniay L, Sağın FG: CRISPR-dCas9 powered impedimetric biosensor for label-free detection of circulating tumor DNAs. Analytica Chimica Acta.2020;1121:35-41.
There are 24 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Reviews
Authors

Hasan Acar 0000-0001-6435-8720

Early Pub Date December 27, 2022
Publication Date December 30, 2022
Submission Date November 14, 2022
Published in Issue Year 2022 Volume: 1 Issue: 2

Cite

APA Acar, H. (2022). Recent Developments with Biosensors in the Diagnosis of Cancer Diseases. Inspiring Technologies and Innovations, 1(2), 79-82.

Our journal has started to accept publications in English and Turkish as of January 2024. Turkish publications will be accepted with English Abstracts. You can download the Full Text writing template from the Writing Rules menu.