فهرست مقالات Cancer Diagnosis

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  1 - Investigation of the Nonlinear Refractive Index of MCF7 and MCF10A Breast Cell Lines for Optical Diagnosis
  Bahareh Khaksar Jalali Somayeh Salmani Shik Latifeh Karimzadeh Bardee Sharife Shahi
  10.30495/ijbbe.2023.1969265.1016
  To demonstrate that the Z-scan approach is a reliable tool for diagnosing normal and cancer cells, the absorption coefficient (α) and nonlinear refractive index (n2) of normal (MCF10A) and cancer cell lines (MCF7) were examined as linear and nonlinear optical prop چکیده کامل

  To demonstrate that the Z-scan approach is a reliable tool for diagnosing normal and cancer cells, the absorption coefficient (α) and nonlinear refractive index (n2) of normal (MCF10A) and cancer cell lines (MCF7) were examined as linear and nonlinear optical properties. Cancer cells had a higher absorption coefficient than normal cells, according to the findings. Cancer cells exhibit a greater nonlinear refractive index (n2) and distinct signs, despite being in the same order (10-7 cm2/W). This method is a quick method for differentiating between normal and cancerous breast cells, making it suitable for use in clinical stages in the future. This is because of the obvious fundamental difference between the optical behaviour of normal and cancer cells, as well as the affordability, the potential for reproducibility without compromising sample quality, and the high accuracy. پرونده مقاله
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  2 - Investigation of the Nonlinear Refractive Index of MCF7 and MCF10A Breast Cell Lines for Optical Diagnosis
  Bahareh Khaksar Jalali Somayeh Salmani Shik Latifeh Karimzadeh Bardee sharifeh shahi
  10.30495/ijbbe.2023.699380
  To demonstrate that the Z-scan technique is a reliable approach for diagnosing normal and cancer cells, the absorption coefficient (α), nonlinear refractive index (n2) of normal (MCF10A) and cancer cell lines (MCF7) were examined. According to our findings of the چکیده کامل

  To demonstrate that the Z-scan technique is a reliable approach for diagnosing normal and cancer cells, the absorption coefficient (α), nonlinear refractive index (n2) of normal (MCF10A) and cancer cell lines (MCF7) were examined. According to our findings of the optical properties of cells, cancer cells shown to have higher linear absorption coefficient than normal cells as well as nonlinear refractive index (n2) of different signs but the same order of (10-7 cm2/W). This method is a quick method for differentiating between normal and cancerous breast cells, making it suitable for use in clinical stages in the future. This is because of the obvious fundamental difference between the optical behavior of normal and cancer cells, as well as the affordability, the potential for reproducibility without compromising sample quality, and the high accuracy. پرونده مقاله
• دسترسی آزاد مقاله
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  3 - A review of the treatment of bone tumours by hyperthermia using magnetic nanoparticles
  Athena Ehsani Rayappa Shrinivas Mahale Shika Shayegan Ali Attaeyan Atefeh Ghorbani Shamanth Vasanth Sharath P C Sheyda Shahriari Azadeh Asefnejad
  10.22034/jna.2022.1944876.1278
  Cancer is a fatal disease that has long plagued and damaged people. In the last two decades, many researchers have been interested in the use of magnetic nanoparticles (MNPs) in medicine and pharmaceutical application particularly in the field of cancer diagnostics and چکیده کامل

  Cancer is a fatal disease that has long plagued and damaged people. In the last two decades, many researchers have been interested in the use of magnetic nanoparticles (MNPs) in medicine and pharmaceutical application particularly in the field of cancer diagnostics and treatment. The goal of this article is to provide an overview of MNPs as well as the principles of successful techniques for delivering these nanoparticles to cancer cells. According to an examination, there are two types of active and passive techniques for delivering MNPs to cancer cells. The targeted transfer of nanoparticles to the tumour happens in the active approach, which uses specific molecular ligands of tumour cells and irradiates an external magnetic field to the tumour area, whereas the passive method penetrates the tumour due to its permeability and nanoparticle retention. MNPs offer a variety of applications in biomedicine, including targeted medication delivery to tumours, magnetic resonance imaging, and cancer treatment with hyperthermia, due to their magnetic nature and capacity to carry pharmaceuticals. The use of MNPs in medicine has led to focus on the treatment of cancer. This review indicates that a reduction in the side effects and biological damage produced by chemotherapy in patients can be obtained using MNPs. پرونده مقاله