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Direct measurement of the in vitro hemoglobin content of erythrocytes using the photo-thermal effect of the heme group

Authors
 Bong Seop Kwak  ;  Beom Seok Kim  ;  Suk-Heung Song  ;  Hyun Ok Kim  ;  Hyung Hee Cho  ;  Hyo-Il Jung 
Citation
 ANALYST, Vol.135(9) : 2365-2371, 2010 
Journal Title
 ANALYST 
ISSN
 0003-2654 
Issue Date
2010
MeSH
Erythrocytes/immunology ; Erythrocytes/metabolism* ; Heme/chemistry* ; Hemoglobins/analysis* ; Humans ; Lasers ; Platinum/chemistry ; Temperature
Abstract
Blood hemoglobin is an important diagnostic parameter in measuring overall health. The hemoglobin molecule and the iron it contains absorb light energy, leading to thermal changes. This paper presents a new method for determining the hemoglobin concentration of erythrocytes by measuring temperature increases of the heme group when cells are heated by a 532 nm wavelength laser. The advantages of our method are that it determines the hemoglobin content of an entire blood sample without chemical treatments and requires only a small amount of blood (less than 10 microL). A micro scaled platinum resistance temperature detector (Pt RTD) was fabricated using a microelectromechanical system (MEMS) technique that directly measures the temperature changes. The platinum RTD's resistance at 0 degrees C is 275.32 Omega. For the specific heating of erythrocytes, we used a 0.03 to 9.6 W cm(-2) power tunable diode pumped solid state (DPSS) continuous wave (CW) laser module with a wavelength of 532 nm. When heating human erythrocytes, leukocytes, plasma, and reference solutions, only the temperature of the erythrocytes significantly increased, indicating that our measurement technique can be used to determine hemoglobin concentration. The hemoglobin concentrations for the samples we used were 0.34, 0.67, 1.35, 2.7, 5.4, 8.1, 10.8, 13.5, 16.2, 18.9 and 21.6 g dL(-1). The temperatures measured for each sample were 31.17 +/- 1.98, 36.34 +/- 3.76, 42.70 +/- 4.38, 48.39 +/- 6.47, 63.73 +/- 3.34, 79.09 +/- 9.60, 84.86 +/- 1.99, 87.54 +/- 9.84, 91.90 +/- 5.27, 90.00 +/- 3.24 and 95.79 +/- 2.66 degrees C at a 9.6 W cm(-2) output power of the 532 nm laser at 23 degrees C. We also provide a theoretical analysis of the temperature increases and investigate their major heat source.
Full Text
http://pubs.rsc.org/en/Content/ArticleLanding/2010/AN/c0an00235f#!divAbstract
DOI
10.1039/C0AN00235F
Appears in Collections:
1. College of Medicine (의과대학) > Dept. of Laboratory Medicine (진단검사의학교실) > 1. Journal Papers
Yonsei Authors
Kim, Hyun Ok(김현옥) ORCID logo https://orcid.org/0000-0002-4964-1963
URI
https://ir.ymlib.yonsei.ac.kr/handle/22282913/101506
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