Aim: There has been no indicator that allows an early quantitative evaluation of the severity of a mamushi snake (Gloydius blomhoffii) bite. Because the number of severe mamushi bite cases is much fewer than non-severe cases, a formal case-control study is difficult. Therefore, we tried to generate a preliminary quantitative, real-time index for its severity by referring to published reports of severe mamushi bite cases. Methods: We enrolled patients who presented with a mamushi bite and visited our outpatient clinic. Severe cases were collected from published works. Creatinine kinase levels and white blood cell counts of non-severe and severe cases were compared and analyzed. Results: There was a lag time of 10 h before the creatinine kinase level began to rise. The speed of the increase was higher in severe cases than in non-severe cases, and severe cases were recognized as those showing speeds of above 250 IU/L/h. White blood cell counts increased earlier than creatinine kinase levels without any lag time. Severe cases were recognized as those with the counts of over 1,000 × (h) + 6,000 [/μL] before 5 h and 300 × (h) + 10,000 [/μL] after 5 h. Conclusion: We herein present the creatinine kinase level and white blood cell count trends and demonstrate preliminary cut-off equations. The trends for both parameters serve as quantitative indicators of the severity of a mamushi bite until a large scale case-control study is achieved.
Aim: There has been no indicator that allows an early quantitative evaluation of the severity of a mamushi snake (Gloydius blomhoffii) bite. Because the number of severe mamushi bite cases is much fewer than non-severe cases, a formal case-control study is difficult. Therefore, we tried to generate a preliminary quantitative, real-time index for its severity by referring to published reports of severe mamushi bite cases. Methods: We enrolled patients who presented with a mamushi bite and visited our outpatient clinic. Severe cases were collected from published works. Creatinine kinase levels and white blood cell counts of non-severe and severe cases were compared and analyzed. Results: There was a lag time of 10 h before the creatinine kinase level began to rise. The speed of the increase was higher in severe cases than in non-severe cases, and severe cases were recognized as those showing speeds of above 250 IU/L/h. White blood cell counts increased earlier than creatinine kinase levels without any lag time. Severe cases were recognized as those with the counts of over 1,000 × (h) + 6,000 [/μL] before 5 h and 300 × (h) + 10,000 [/μL] after 5 h. Conclusion: We herein present the creatinine kinase level and white blood cell count trends and demonstrate preliminary cut-off equations. The trends for both parameters serve as quantitative indicators of the severity of a mamushi bite until a large scale case-control study is achieved.