Unified severity and organ dysfunction scoring system in pediatric intensive care unit: A pressing priority

SureshKumar Angurana, ManinderSingh Dhaliwal, Abhijit Choudhary
{"title":"Unified severity and organ dysfunction scoring system in pediatric intensive care unit: A pressing priority","authors":"SureshKumar Angurana, ManinderSingh Dhaliwal, Abhijit Choudhary","doi":"10.4103/jpcc.jpcc_50_23","DOIUrl":null,"url":null,"abstract":"Several scoring systems have been used to objectively assess the severity of illness and to predict the short-term mortality among critically ill children. The Pediatric Risk of Mortality-III (PRISM-III) and Pediatric Index of Mortality-3 (PIM-3) are the commonly used severity scores; and Pediatric Logistic Organ Dysfunction-2 (PELOD-2), Sequential Organ Failure Assessment (SOFA), and pediatric SOFA (pSOFA) are organ dysfunction scoring systems.[1–6] In addition, these scoring systems are also useful in assessing the performance of different units, monitoring the quality of pediatric intensive care and benchmarking, and further improvement in performance. SOFA was introduced in 1996 by Vincent et al.[6] to assess the severity of organ dysfunction in critically ill adult patients with sepsis. SOFA score objectively evaluates the organ dysfunction using six organ system variables (clinical and laboratory) that measure the disease severity during the stay in the intensive care unit. Recently, pSOFA score was devised and validated by adapting the original SOFA score with two additional changes: age-adjusted cutoffs for the cardiovascular and renal systems and inclusion of noninvasive surrogates of lung injury (SpO2/FiO2 ratio in addition to PaO2/FiO2 ratio) in the respiratory criteria.[5,7,8] Since SOFA score requires multiple clinical and laboratory data, its use may be potentially challenging, especially in resource-limited settings. Keeping in mind the limitations of SOFA, quick SOFA (qSOFA) score was developed to help clinicians to identify patients at risk of sepsis, by assessing predictive validity using mortality as an outcome more likely occur in patients with sepsis. qSOFA requires only three clinical examination components (i.e., systolic blood pressure, respiratory rate, and Glasgow Coma Scale).[9] qSOFA has been used in low-resource settings.[10] More recently, it has been demonstrated that addition of point-of-care venous lactate to qSOFA was superior to qSOFA alone to predict sepsis-related mortality among adults.[11] Similarly, Kumbar and Chandrashekhara[12] evaluated pSOFA with lactate (pSOFA-L) to predict the mortality among critically ill children (n = 75) and demonstrated that pSOFA-L score had good ability to predict mortality (area under the curve [AUC] = 0.92, cutoff value 10.5, P < 0.001). The mortality rate in children with pSOFA-L <9, 9–11, and >11 was 26.1%, 38.9%, and 50%, respectively. The PRISM-III, PIM-3, and PELOD-2 scores are commonly used to predict mortality and these were validated and calibrated in large populations. However, pSOFA and pSOFA-L are newer ones and these need to be validated in large studies. There is some evidence that SOFA or pSOFA has better accuracy to predict mortality in critically ill children than the PRISM-III or PELOD-2 score or other organ dysfunction scores.[5,13–15] The performance of available severity and organ dysfunction scoring systems to predict mortality among critically ill children is variable and it depends on hospital settings, patients’ population selected, and resources.[16,17] However, the majority of these scoring systems need a lot of clinical and laboratory data. There is felt need for simple, unified, and well-validated scoring systems to predict outcome among critically ill children. We read with interest the recently published article titled, “A study to assess the role of pSOFA-L score in predicting the clinical outcome of critically ill children admitted to the pediatric intensive care unit (PICU) at a tertiary care centre.[18]” We would like to make a few important comments about this study. In this cohort of critically ill children admitted to PICU, the mortality was very high (44%). In contrast, the usual mortality rate in most of the PICUs including that in developing countries ranges from 2% to 20%.[5,14,19] The information about admission diagnosis; PRISM-III/PIM-3 score; percentage of children who received mechanical ventilation, vasoactive drugs, and other organ-supportive therapies; and rate of health-care-associated infections could have provided some clues about the possible reasons for high mortality in the index study. The authors have not mentioned the predominant diagnosis in the index study or patient population their PICU caters to. In the index study, the AUC for pSOFA and pSOFA-L to predict mortality is 0.881 and 0.882, respectively, which make pSOFA and pSOFA-L having similar ability to predict mortality. The possible reasons for no difference in pSOFA and pSOFA-L in predicting mortality among critically ill children in the index study are discussed here. Abnormal lactate (>2 mmol/L) adds only 1 point, which does not make much difference in the final pSOFA-L score as compared to other parameters where score for individual parameters ranges from 0 to 4. This is also highlighted by the fact that the best cutoff to predict mortality for both pSOFA and pSOFA-L is 10. Furthermore, it is not clear from the index study whether AUC for mortality was calculated using 24 h or 72 h values of pSOFA or pSOFA-L. In Tables 3, 4, and 6 in the index study, comparison of pSOFA in addition to pSOFA-L with mortality could have given some clue about which one of these parameters has better ability to predict mortality. Thus, as per the results of the index study, pSOFA-L is no better than pSOFA in predicting mortality among critically ill children. Concept of combining pSOFA and lactate is feasible and has strong physiological rationale. However, there are limited studies to support this concept including the index study, which too has a small sample size. This warrants further exploration of this concept to determine outcome in critically ill children. Multicentric studies with large sample size are needed to verify whether pSOFA-L is better than pSOFA in predicting mortality among critically ill children. Also, it has to be investigated whether categorization of increasing lactate values into different scores (0, 1, 2, 3, and 4 scores) may give more weightage to pSOFA-L score and better ability to predict the mortality than pSOFA score. The search for an ideal severity and organ dysfunction scoring system for critically ill children is still elusive. Therefore, there is a need to have a unified severity and organ dysfunction scoring system that is derived and validated in large, heterogeneous international databases of critically ill children.[17]","PeriodicalId":34184,"journal":{"name":"Journal of Pediatric Critical Care","volume":"82 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Pediatric Critical Care","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4103/jpcc.jpcc_50_23","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0

Abstract

Several scoring systems have been used to objectively assess the severity of illness and to predict the short-term mortality among critically ill children. The Pediatric Risk of Mortality-III (PRISM-III) and Pediatric Index of Mortality-3 (PIM-3) are the commonly used severity scores; and Pediatric Logistic Organ Dysfunction-2 (PELOD-2), Sequential Organ Failure Assessment (SOFA), and pediatric SOFA (pSOFA) are organ dysfunction scoring systems.[1–6] In addition, these scoring systems are also useful in assessing the performance of different units, monitoring the quality of pediatric intensive care and benchmarking, and further improvement in performance. SOFA was introduced in 1996 by Vincent et al.[6] to assess the severity of organ dysfunction in critically ill adult patients with sepsis. SOFA score objectively evaluates the organ dysfunction using six organ system variables (clinical and laboratory) that measure the disease severity during the stay in the intensive care unit. Recently, pSOFA score was devised and validated by adapting the original SOFA score with two additional changes: age-adjusted cutoffs for the cardiovascular and renal systems and inclusion of noninvasive surrogates of lung injury (SpO2/FiO2 ratio in addition to PaO2/FiO2 ratio) in the respiratory criteria.[5,7,8] Since SOFA score requires multiple clinical and laboratory data, its use may be potentially challenging, especially in resource-limited settings. Keeping in mind the limitations of SOFA, quick SOFA (qSOFA) score was developed to help clinicians to identify patients at risk of sepsis, by assessing predictive validity using mortality as an outcome more likely occur in patients with sepsis. qSOFA requires only three clinical examination components (i.e., systolic blood pressure, respiratory rate, and Glasgow Coma Scale).[9] qSOFA has been used in low-resource settings.[10] More recently, it has been demonstrated that addition of point-of-care venous lactate to qSOFA was superior to qSOFA alone to predict sepsis-related mortality among adults.[11] Similarly, Kumbar and Chandrashekhara[12] evaluated pSOFA with lactate (pSOFA-L) to predict the mortality among critically ill children (n = 75) and demonstrated that pSOFA-L score had good ability to predict mortality (area under the curve [AUC] = 0.92, cutoff value 10.5, P < 0.001). The mortality rate in children with pSOFA-L <9, 9–11, and >11 was 26.1%, 38.9%, and 50%, respectively. The PRISM-III, PIM-3, and PELOD-2 scores are commonly used to predict mortality and these were validated and calibrated in large populations. However, pSOFA and pSOFA-L are newer ones and these need to be validated in large studies. There is some evidence that SOFA or pSOFA has better accuracy to predict mortality in critically ill children than the PRISM-III or PELOD-2 score or other organ dysfunction scores.[5,13–15] The performance of available severity and organ dysfunction scoring systems to predict mortality among critically ill children is variable and it depends on hospital settings, patients’ population selected, and resources.[16,17] However, the majority of these scoring systems need a lot of clinical and laboratory data. There is felt need for simple, unified, and well-validated scoring systems to predict outcome among critically ill children. We read with interest the recently published article titled, “A study to assess the role of pSOFA-L score in predicting the clinical outcome of critically ill children admitted to the pediatric intensive care unit (PICU) at a tertiary care centre.[18]” We would like to make a few important comments about this study. In this cohort of critically ill children admitted to PICU, the mortality was very high (44%). In contrast, the usual mortality rate in most of the PICUs including that in developing countries ranges from 2% to 20%.[5,14,19] The information about admission diagnosis; PRISM-III/PIM-3 score; percentage of children who received mechanical ventilation, vasoactive drugs, and other organ-supportive therapies; and rate of health-care-associated infections could have provided some clues about the possible reasons for high mortality in the index study. The authors have not mentioned the predominant diagnosis in the index study or patient population their PICU caters to. In the index study, the AUC for pSOFA and pSOFA-L to predict mortality is 0.881 and 0.882, respectively, which make pSOFA and pSOFA-L having similar ability to predict mortality. The possible reasons for no difference in pSOFA and pSOFA-L in predicting mortality among critically ill children in the index study are discussed here. Abnormal lactate (>2 mmol/L) adds only 1 point, which does not make much difference in the final pSOFA-L score as compared to other parameters where score for individual parameters ranges from 0 to 4. This is also highlighted by the fact that the best cutoff to predict mortality for both pSOFA and pSOFA-L is 10. Furthermore, it is not clear from the index study whether AUC for mortality was calculated using 24 h or 72 h values of pSOFA or pSOFA-L. In Tables 3, 4, and 6 in the index study, comparison of pSOFA in addition to pSOFA-L with mortality could have given some clue about which one of these parameters has better ability to predict mortality. Thus, as per the results of the index study, pSOFA-L is no better than pSOFA in predicting mortality among critically ill children. Concept of combining pSOFA and lactate is feasible and has strong physiological rationale. However, there are limited studies to support this concept including the index study, which too has a small sample size. This warrants further exploration of this concept to determine outcome in critically ill children. Multicentric studies with large sample size are needed to verify whether pSOFA-L is better than pSOFA in predicting mortality among critically ill children. Also, it has to be investigated whether categorization of increasing lactate values into different scores (0, 1, 2, 3, and 4 scores) may give more weightage to pSOFA-L score and better ability to predict the mortality than pSOFA score. The search for an ideal severity and organ dysfunction scoring system for critically ill children is still elusive. Therefore, there is a need to have a unified severity and organ dysfunction scoring system that is derived and validated in large, heterogeneous international databases of critically ill children.[17]
查看原文
分享 分享
微信好友 朋友圈 QQ好友 复制链接
本刊更多论文
儿科重症监护病房统一的严重程度和器官功能障碍评分系统:当务之急
几种评分系统已被用于客观评估疾病的严重程度和预测危重儿童的短期死亡率。常用的严重程度评分是小儿死亡危险度- iii (PRISM-III)和小儿死亡指数-3 (PIM-3);和儿童后勤器官功能障碍-2 (PELOD-2),顺序器官衰竭评估(SOFA)和儿科SOFA (pSOFA)是器官功能障碍评分系统。[1-6]此外,这些评分系统也有助于评估不同单位的绩效,监测儿科重症监护的质量和基准,并进一步提高绩效。SOFA于1996年由Vincent等[6]引入,用于评估成人重症脓毒症患者器官功能障碍的严重程度。SOFA评分采用六个器官系统变量(临床和实验室)客观评估器官功能障碍,衡量重症监护病房住院期间疾病的严重程度。最近,pSOFA评分的设计和验证采用了原有的SOFA评分,增加了两个变化:心血管和肾脏系统的年龄调整截止值,以及在呼吸标准中纳入肺损伤的无创替代指标(SpO2/FiO2比和PaO2/FiO2比)。[5,7,8]由于SOFA评分需要多种临床和实验室数据,其使用可能具有潜在的挑战性,特别是在资源有限的环境中。考虑到SOFA的局限性,开发了快速SOFA (qSOFA)评分,通过使用死亡率作为脓毒症患者更可能发生的结果来评估预测有效性,帮助临床医生识别有脓毒症风险的患者。qSOFA只需要三个临床检查组成部分(即收缩压、呼吸频率和格拉斯哥昏迷评分)。[9] qSOFA已用于低资源环境。[10]最近,有研究表明,在qSOFA中加入即时护理静脉乳酸盐比单独使用qSOFA更能预测成人败血症相关死亡率。[11]同样,Kumbar和Chandrashekhara[12]用乳酸盐评价pSOFA (pSOFA- l)预测危重儿童(n = 75)的死亡率,并证明pSOFA- l评分具有良好的预测死亡率的能力(曲线下面积[AUC] = 0.92,截止值10.5,P < 0.001)。psofa - l11患儿的死亡率分别为26.1%、38.9%和50%。PRISM-III、PIM-3和PELOD-2评分通常用于预测死亡率,并在大量人群中进行了验证和校准。然而,pSOFA和pSOFA- l是较新的,需要在大型研究中进行验证。有证据表明,SOFA或pSOFA比PRISM-III或PELOD-2评分或其他器官功能障碍评分更准确地预测危重儿童的死亡率。[5,13 - 15]现有的严重程度和器官功能障碍评分系统在预测危重儿童死亡率方面的表现是可变的,这取决于医院环境、患者选择的人群和资源。[16,17]然而,大多数这些评分系统需要大量的临床和实验室数据。人们认为有必要建立简单、统一、有效的评分系统来预测危重儿童的预后。我们饶有兴趣地阅读了最近发表的一篇文章,题为“一项评估pSOFA-L评分在预测三级护理中心儿科重症监护病房(PICU)重症儿童临床结果中的作用的研究”。[18]“我们想对这项研究提出一些重要的评论。在这组入住PICU的危重儿童中,死亡率非常高(44%)。相比之下,包括发展中国家在内的大多数picu的通常死亡率为2%至20%。[5,14,19]入院诊断信息;PRISM-III / PIM-3得分;接受机械通气、血管活性药物和其他器官支持治疗的儿童百分比;在指数研究中,与医疗保健相关的感染率可能为高死亡率的可能原因提供了一些线索。作者没有提到在指数研究中的主要诊断或他们的PICU所迎合的患者群体。在指数研究中,pSOFA和pSOFA- l预测死亡率的AUC分别为0.881和0.882,说明pSOFA和pSOFA- l预测死亡率的能力相近。本文讨论了指数研究中pSOFA和pSOFA- l在预测危重儿童死亡率方面没有差异的可能原因。乳酸异常(>2 mmol/L)仅加1分,与其他参数相比,最终pSOFA-L评分没有太大差异,单个参数的评分范围为0到4。预测pSOFA和pSOFA- l死亡率的最佳截止值为10,这一事实也突出了这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
求助全文
约1分钟内获得全文 去求助
来源期刊
自引率
0.00%
发文量
42
审稿时长
8 weeks
期刊最新文献
Left main bronchus compression by massive pericardial effusion: A rare cause of respiratory distress in an infant: A case report Challenges in estimating the severity of kidney dysfunction in critically ill children Neuroparalytic snakebite resulting in cerebral salt wasting and refractory hyponatremia: A case report Takotsubo cardiomyopathy in a 7-month-old infant with familial hemophagocytic lymphohistiocytosis: A case report Evaluating the impact of intubation pillow on laryngoscopy grade in children: A Randomized controlled trial
×
引用
GB/T 7714-2015
复制
MLA
复制
APA
复制
导出至
BibTeX EndNote RefMan NoteFirst NoteExpress
×
×
提示
您的信息不完整,为了账户安全,请先补充。
现在去补充
×
提示
您因"违规操作"
具体请查看互助需知
我知道了
×
提示
现在去查看 取消
×
提示
确定
0
微信
客服QQ
Book学术公众号 扫码关注我们
反馈
×
意见反馈
请填写您的意见或建议
请填写您的手机或邮箱
已复制链接
已复制链接
快去分享给好友吧!
我知道了
×
扫码分享
扫码分享
Book学术官方微信
Book学术文献互助
Book学术文献互助群
群 号:481959085
Book学术
文献互助 智能选刊 最新文献 互助须知 联系我们:info@booksci.cn
Book学术提供免费学术资源搜索服务,方便国内外学者检索中英文文献。致力于提供最便捷和优质的服务体验。
Copyright © 2023 Book学术 All rights reserved.
ghs 京公网安备 11010802042870号 京ICP备2023020795号-1