Zijlstra W G, Buursma A
Department of Medical Physiology, University of Groningen, The Netherlands.
Clin Chem. 1993 Aug;39(8):1685-9.
When cyanide poisoning is treated with a methemoglobin-forming agent, oxidative metabolism is protected at the expense of the oxygen capacity of the blood. The affinity of methemoglobin for CN- is high enough to compete with cytochrome oxidase, which protects the latter from becoming blocked, but all hemoglobin used for this purpose is lost for the transport of oxygen. Therefore, the fractions of the various hemoglobin derivatives present in the blood should be carefully monitored during this kind of treatment. After we had developed a multiwavelength spectrophotometric method for this purpose, we studied the feasibility of using a modified commercial six-wavelength hemoglobin photometer (Radiometer OSM3) for easy and rapid analysis of methemoglobin and methemoglobin cyanide in small samples of blood. All conditions appeared to be fulfilled for the construction of a practical multiwavelength photometer for reliably monitoring methemoglobin therapy in patients with cyanide poisoning, even in the presence of carboxyhemoglobin, as often occurs in fire victims.
当用形成高铁血红蛋白的药物治疗氰化物中毒时,氧化代谢得以保护,但代价是血液的携氧能力。高铁血红蛋白对CN-的亲和力足够高,能够与细胞色素氧化酶竞争,从而保护后者不被阻断,但用于此目的的所有血红蛋白都失去了运输氧气的功能。因此,在这种治疗过程中,应仔细监测血液中各种血红蛋白衍生物的比例。在我们为此开发了一种多波长分光光度法之后,我们研究了使用改良的商用六波长血红蛋白光度计(Radiometer OSM3)对小血样中的高铁血红蛋白和氰化高铁血红蛋白进行简便快速分析的可行性。构建一台实用的多波长光度计以可靠地监测氰化物中毒患者的高铁血红蛋白治疗似乎具备了所有条件,即使存在一氧化碳血红蛋白(一氧化碳血红蛋白在火灾受害者中经常出现)也是如此。