Sydorova Nataliia, Kazmirchuk Kateryna, Kolisnyk Oleh, Tsaralunha Vira, Kobirnichenko Yuliia, Sydorova Liudmyla
Department of Military General Practice and Family Medicine, Ukrainian Military Medical Academy, Kyiv, Ukraine.
Nephrology Clinic with Wards for Endocrinological Patients, National Military Medical Clinical Center "Main Military Clinical Hospital", Kyiv, Ukraine.
Acta Med Litu. 2025;32(1):64-77. doi: 10.15388/Amed.2025.32.1.2. Epub 2025 Feb 18.
The aim of this retrospective cohort study was to investigate the possibility of optimizing the calculation of integral indicators of the metabolic status and filtration function of the kidneys in patients with combat mine-explosive injuries who have lost significant body weight due to limb amputation.
Data from 81 servicemen (all males) with combat mine-explosive limb injuries, including those with isolated severe limb injuries (Group 1, n=34) or traumatic amputations (Group 2, n=47), were analyzed. We assessed demographic indicators and the glomerular filtration rate (GFR), calculated according to the generally accepted formulas with correction for lost body parts in the amputees.
The proportion of amputees with obesity as measured by the body mass index in Group 2 without correction for the lost body parts was significantly lower than that in Group 1 and Group 2 adjusted for the lost body parts (2.12% versus 17.65% and 21.28%, respectively, p<0.05 and p<0.01), but it was similar in Group 1 and Group 2 after body weight adjustment for the lost body parts of the amputees (p>0.05). The mean level of serum creatinine in the patients in Group 2 was significantly lower than that in Group 1 (75.19±11.62 vs. 90.93±37.12 μmol/L, respectively, p=0.0206). The estimated GFR according to the (CGF) with adjusted for the lost body part body weight was significantly greater in Group 2 than that in Group 1 (143.63±42.58 and 123.92±26.34 mL/min/1.73m, respectively, p=0.0379) as well as GRF according to CGF corrected for the (BSA) (131.59±39.94 and 106.17±21.88 mL/min/1.73m, respectively, p=0.0040). Only a few individuals had a moderate decrease in GFR according to CGF or CGF adjusted for BSA, but glomerular hyperfiltration was suspected in a significant number of patients, specifically, 23.53% and 17.65% of the patients in Group 1, respectively, and in 29.79% and 36.17% of the patients in Group 2, respectively (even 51.6% according to CGF corrected for BSA in Group 2 adjusted for the lost body parts).
In amputees, it is necessary to calculate their body weight considering the lost body part for an adequate assessment of their metabolic status. To calculate GFR, it is advisable to use CGF considering the lost body parts with or without adjustment for BSA to avoid the possibility of underestimating GFR calculated by other formulas. Special control is necessary for patients with hyperfiltration suspected by CGF, since this sign can be a predictor of future metabolic disorders.
这项回顾性队列研究的目的是调查对于因肢体截肢而体重显著减轻的战斗性地雷爆炸伤患者,优化其肾脏代谢状态和滤过功能积分指标计算方法的可能性。
分析了81名患有战斗性地雷爆炸所致肢体损伤的军人(均为男性)的数据,包括单纯严重肢体损伤患者(第1组,n = 34)和创伤性截肢患者(第2组,n = 47)。我们评估了人口统计学指标以及根据公认公式并针对截肢者丢失身体部位进行校正后计算的肾小球滤过率(GFR)。
第2组中未校正丢失身体部位的情况下,按体重指数衡量的肥胖截肢者比例显著低于第1组以及校正了丢失身体部位后的第2组(分别为2.12%、17.65%和21.28%,p < 0.05和p < 0.01),但在对截肢者丢失身体部位进行体重校正后,第1组和第2组相似(p > 0.05)。第2组患者的血清肌酐平均水平显著低于第1组(分别为75.19±11.62与90.93±37.12 μmol/L,p = 0.0206)。根据校正了丢失身体部位体重后的(CGF)估算的GFR,第2组显著高于第1组(分别为143.63±42.58和123.92±26.34 mL/min/1.73m²,p = 0.0379),以及根据校正了(BSA)后的CGF计算的GRF(分别为131.59±39.94和106.17±21.88 mL/min/1.73m²,p = 0.0040)。根据CGF或校正了BSA的CGF,只有少数个体的GFR有中度下降,但大量患者疑似存在肾小球高滤过,具体而言,第1组分别有23.53%和17.65%的患者,第2组分别有29.79%和36.17%的患者(在针对丢失身体部位进行校正后的第2组中,根据校正了BSA的CGF,甚至有51.6%)。
对于截肢者,有必要考虑丢失的身体部位来计算其体重,以便充分评估其代谢状态。为计算GFR,建议使用考虑了丢失身体部位的CGF,可选择校正或不校正BSA,以避免其他公式计算的GFR被低估的可能性。对于疑似由CGF提示存在高滤过的患者需要进行特殊监测,因为这一迹象可能是未来代谢紊乱的预测指标。
