Speckle contrast visualization and heart rate pulses on rats induced with alloxan were successfully carried out. This research aims to visualize speckle contrast measurements using the Scikitimage program and analyze the relationship between speckle contraston rats to blood sugar levels and also to determine the effect of alloxan induced on heart rate frequency in rats. This study obtained speckle pattern image data from rats induced by alloxan with variations in concentrations of 35%, 55% and without alloxan for 12 days of treatment. The sample used were3 to 5 months old. The method conducted in speckle contrast visualization was using blob detection with Laplacian of Gaussian algorithm to obtain speckle contrast values while the visualization of heart rate pulse based on Arduino Uno was done using the Integrated Development Environment (IDE) program. The results obtained from image processing using the Scikitimage program show that the contrast value could achieved decreasing with increasing blood sugar levels and the results obtained for detection of heart rate was the greater the blood sugar level the greater the heart rate (beat per minute) measured.

Rendy, M. C. (2012). Asuhan Keperawatan Medikal Bedah dan Penyakit Dalam. Yogyakarta : Nuha Medika.

Timoshina, P. A., Bucharskaya, A. B., Alexandrov, D. A., & Tuchin, V. V. (2017). Study of Blood Microcirculation of Pancreas in Rats With Alloxan Diabetes by Laser Speckle Contrast Imaging. Biomedical Photonics & Eng., 3(2).

Ragel, S. (2015). Static Laser Speckle Contrast Analysis for Noninvasive Burn Diagnosis Using a Camera Phone-Imager. Journal of Biomedical Optics, 20(8).

Briers, D., Duncan, D. D., Hirst, E., Kirkpatrick, S. J., Larsson, M., Steenbergen, W., Stromberg, T., & Thompson, O. B. (2013). Laser speckle contrast imaging : theoretical and practical limitations. Journal of Biomedical Optics, 18, 066018.

Rabal, H. J. & Braga R. A. (2009). Dynamic Laser Speckle and Applications Optical Science and Engineering, 139. Taylor & Francis Group. LLC.

Zakharov, P., Volker, A. C., Wyss, M. T., Haiss, F., Calcinaghi, N., Zunzunegui, C., Buck, A., Scheffold, F., & Weber, B. (2009). Dynamic Laser Speckle Imaging of Cerebral Blood Flow. Optics Express, 17(16).

Zulkarnain, S. & Minarni. (2018). Investigasi Penggunaan Metode Laser Speckle Imaging (LSI) Untuk Pengukuran Kadar Gula Darah. Jurnal Fisika UNNES, 8(2), 60-67.

Kaspers, A. (2011). Blob Detection Biomedical Image Sciences. Image Sciences Institute. UMC Utrecht.

Wang , L., Liufu, C., Yanxue, W., Anand, V., Shuohua, C., Caifeng, Z., Ying, Z., Dongqing, L., Frank, B., Shouling, W., & Xiang, G. (2015). Resting heart rate and the risk of developing impaired fasting glucose and diabetes : the Kailuan prospective study. International Journal of Epidemiology, 44(2).

Wang, R. (2016). Laplacian of Gaussian(LoG). http://fourier.eng.hmc.edu/e161/lectures/gradient/node9.html. Diakses pada tanggal 13 Maret 2018.

Mirdyanto, B. & Hikmah, I. (2015). Pengukuran Standard Deviasi dan Analisis Pengaruh Polarisasi dengan Citra Speckle. Laporan Resmi Laboratorium Optik. Institut Teknologi Sepuluh Nopember.

Yuriska, A. F. (2009). Efek Aloksan Terhadap Kadar Glukosa Darah Tikus Wistar. Artikel Ilmiah. Fakultas Kedokteran. Iniversitas Diponegoro.

Departemen Kesehatan RI. (2005). Pharmaceutical Care Untuk Penyakit Diabetes Mellitus. Bina Kefarmasian dan Alat Kesehatan.