IndoseCT

For those who want to delve deeper into the scientific aspects of IndoseCT, please refer to the following list of publications:

  1. Anam C, Haryanto F, Widita R, Arif I. Automated estimation of patient’s size from 3D image of patient for size specific dose estimates (SSDE). Adv Sci Eng Med. 2015; 7(10): 892-896.
  2. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. The evaluation of effective diameter (Deff) calculation and its impact on size-specific dose estimate (SSDE). Atom Indonesia. 2017; 43(1): 55-60.
  3. Anam C, Haryanto C, Widita R, Arif I, Dougherty G. Automated calculation of water-equivalent diameter (DW) based on AAPM report TG. 220. J Appl Clin Med Phys. 2016; 17(4): 320-333.
  4. Anam C, Mahdani FR, Dewi WK,  Sutanto H, Triadyaksa P, Haryanto F, Dougherty G. An improved method for automated calculation of the water-equivalent diameter for estimating size-specific dose in CT. J Appl Clin Med Phys. 2021; 00: 1–11.
  5. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. A fully automated calculation of size-specific dose estimates (SSDE) in thoracic and head CT examinations. J Phys Conf Ser. 2016; 694: 012030.
  6. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. The size specific dose estimates (SSDE) for truncated computed tomography images. Radiat Prot Dosim. 2017; 175(3): 313-320.
  7. Anam C, Haryanto F, Widita R, Arif I, Dougherty G, McLean D. The impact of patient’s table on size-specific dose estimates (SSDE). Australas Phys Eng Sci Med. 2017; 40(1): 153-158.
  8. Anam C, Arif I, Haryanto F, Widita R, Lestari FP, Adi K, Dougherty G. A simplified method for the water-equivalent diameter calculation to estimate patient dose in CT examinations. Radiat Prot Dosim. 2019; 185(1): 42–49.
  9. Anam C, Haryanto F, Widita R, Arif I, Dougherty G, McLean D. Volume computed tomography dose index (CTDIvol) and size-specific dose estimate (SSDE) in tube current modulation CT. Int J Rad Res. 2018; 16(3): 289-297.
  10. Anam C, Fujibuchi T, Toyoda T, Sato N, Haryanto F, Widita R, Arif I, Dougherty G. A simple method for calibrating pixel values of the CT localizer radiograph for calculating water-equivalent diameter and size-specific dose estimate. Radiat Prot Dosim. 2018; 179(2): 158–168.
  11. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. Profile of CT scan output dose in axial and helical modes using convolution. J Phys Conf Ser. 2016; 694: 012034.
  12. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. The profile of patient dose along the longitudinal axis in CT using tube current modulation (TCM). Information (Japan). 2017; 20(1B): 377-382.
  13. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. Estimation of eye radiation dose during nasopharyngeal CT examination for an individual patient. Information (Japan). 2016; 19(9B): 3951-3962.
  14. Anam C, Haryanto F, Widita R, Arif I, Dougherty G. A size-specific effective dose for patients undergoing CT examinations. J Phys Conf Ser. 2019; 1204: 012002.
  15. Anam C, Adhianto D, Sutanto H, Adi K, Ali MH, Rae WID, Fujibuchi T, Dougherty G. Comparison of central, peripheral, and weighted size-specific dose in CT. J X-ray Sci Technol. 2020; 28: 695–708.
  16. Anam C, Dewi WK, Masdi M, Haryanto F, Fujibuchi T, Dougherty G. Investigation of eye lens dose estimate based on AAPM report 293 in head computed tomography. J Biomed Phys Eng. 2021.
  17. Anam C, Fujibuchi T, Haryanto F, Widita R, Arif I, Dougherty G. An evaluation of computed tomography dose index measurements using a pencil ionisation chamber and small detectors. J Radiol Prot. 2019; 39: 112–124.
  18. Adhianto D, Anam C, Sutanto H, Ali MH. Effect of phantom size and tube voltage on the size-conversion factor for patient dose estimation in computed tomography Examinations. Iran J Med Phys. 2020; 17: 282-288.

The following is a list of several publications on studies conducted using IndoseCT:

  1. Anam C, Budi WS, Adi K, Sutanto H, Haryanto F, Ali MH, Fujibuchi T, Dougherty G. Assessment of patient dose and noise level of clinical CT images: automated measurements. J Radiol Prot. 2019; 39: 783–793.
  2. Fahmi A, Anam C, Suryono, Ali MH. The size-specific dose estimate of paediatric head CT examinations for various protocols. Radiat Prot Dosim. 2020; 188(4): 522–528.
  3. Fahmi A, Anam C, Suryono, Ali MH, Jauhari A. Correlation between age and head diameters in the paediatric patients during CT examination of the head. Pol J Med Phys Eng. 2019; 25(4): 229-235.
  4. Utami MSN, Sutanto H, Anam C. Effect of contrast agent administration on size-specific dose estimates (SSDE) calculations based on water equivalent diameter in CT head examinations. International Journal of Scientific Research in Science and Technology. 2021; 8(3): 563-571.
  5. Dewi WK, Anam C, Hidayanto E, Nitasari A, Dougherty G. The effective and water-equivalent diameters as geometrical size functions for estimating CT dose in the thoracic, abdominal, and pelvic regions. Pol J Med Phys Eng. 2021.
  6. Dewi WK, Anam C, Hidayanto E, Wati AL, Dougherty G. Correlation between anterior-posterior and lateral dimensions and the effective and water-equivalent diameters in axial images from head computed tomography examinations. Radiat Prot Dosim. 2021.
  7. Nitasari A, Anam C, Budi WS, Wati AL, Syarifudin S, Dougherty G. Comparisons of water-equivalent diameter measured on images of abdominal routine computed tomography with and without a contrast agent. Atom Indonesia. 2021: 1-5. 
  8. Ali MH, Anam C, Haryanto F, Dougherty G. The comparison of size-specific dose estimate in CT examination based on head and body PMMA phantom. Journal of Physics and Its Applications. 2018; 1(1): 1-6.
  9. Wati AL, Anam C, Budi WS, Nitasari A, Syarifudin, Satoto B, Jannah M, Sepsatya F.  Patient doses based on the acceptable quality dose on thoracic CT examination. International Journal of Latest Engineering Research and Applications. 2021; 6(6): 17-22.
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