Detail Hasil Pencarian

Judul :
Perubahan kadar hemoglobin postmortem pada tikus putih galur Sprague-Dawley
Pengarang : Beta Ahlam Gizela
Jurnal : Berkala Ilmu Kedokteran 2001, XXXIII(4)
Tahun : 2001
Summary / Kata Kunci : Beta Ahlam Gizela - Postmortem hemoglobin concentration changing in Sprague-Dawley white mouse
Background: Postmortem changes in a death body have a lot of purposes, one of them is predicting the time of death. The common method used to predict the time of death is by detecting hypostasis, rigidity, decreasing temperature, and decomposition.
Objectives: To find out postmortem hemoglobin concentration changing pattern.
Methods: This research is a preliminary study. We used Quasi Experimental Design. The subjects were 31 white male mice aged of two months old. The mouse blood was taken in a periodic time: antemortem, 0, 1, 2, and 3 hours postmortem, and hemoglobin concentration was examined using Sahli method. Results: Data taken from this research were analyzed by regression analysis and t-test. The result showed that postmortem hemoglobin against time pattern was a curve. The hemoglobin concentration is significantly decreased in the first hour (p0.05). There was no significant difference between antemortem and 0 hour postmortem (p>0.05). There was a significant difference between antemortem and 1, 2, and 3 hours postmortem (p
File : 20.pdf
    (tidak ada sitasi)
1.   A.M. Idries, Pedoman Ilmu Kedokteran Forensik, 1997
2.   B. Knight, Forensic pathology, 1996
3.   B.A. Brown, Hematology:, Principles and procedures, 1993
4.   B.A. Gizela, E.H. Herningtyas, Pemeriksaan fragilitas osmotik eritrosit untuk penentuan saat kematian pada tikus putih, 2000
5.   D.C. Sanders, A.K. Chaturvedi, J.R. Hordinsky, Melatonin: Aeromedical, toxicopharmacological, and analytical aspects, 1999
6.   F. Introna, Determination of postmortem interval from old skeletal remains by image analysis of luminol test results, 1999
7.   G. Strassman, W. Mass, Postmortem changes, vital reactions, fat embolism, air embolism, 1954
8.   H. Kogawa, M. Satoh, T. Higuchi, A. Fujii-Kiyosue, T. Sahara, K. Kageyama, Effect of lactic acid on water content and osmotic fragility of erythrocytes in vitro (abstract), 1995
9.   Hillman and Finch, Red cell manual, 1996
10.   M.Y. Iscan, G. Quatrehomme, Medicolegal anthropology in France, 1999
11.   P. Hastuti, Pengaruh penambahan beberapa macam kadar ATP terhadap fragilitas eritrosit darah CPD donor in Vitro, 1990
12.   P. Neiss, R. Hille, M. Paschke, G. Pilwat, A. Schnabel, C. Neiss, H. Bratzke, Strontinum 90 for Determination of time since death (abstract), 1999
13.   S. Dahlan, Ilmu Kedokteran Forensik: Pedoman bagi dokter dan penegak hukum, 2000
14.   Weatherall and Provan, Red cells I: Inherited anemias, 2000
15.   Y. Chen, Study on cerebral ATP level with bioluminescent: Method to estimate the time of death (abstract), 1997
Inherent UGM
Gedung Pusat UGM
Lt 3 Sayap Utara
Telp. (0274) 564416