4d流体疗法概念

M. Mulbrain
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Analysis of literature sources on this topic. \nResults and discussion. The improvement and proper application of the existing IT techniques and drugs is an important step in improving treatment outcomes. Frequent mistakes include too long IT, wrong choice of drug or dose. Hypervolemia as a result of excessive infusions is even more dangerous than hypovolemia because it can lead to the interstitial edema. To address the issue of IT, it is advisable to focus on preload – the degree of stretching of a cardiomyocyte before contraction. Echocardiographic indicators of preload include end-diastolic volume and end-diastolic pressure of left ventricle. When choosing a solution for IT, it is necessary to take into account its tonicity and osmolality, as it depends on whether the solution will remain in the vessels or enter the intercellular space. Choosing an optimal IT, one should take into account the choice of solution or combination of solutions, the optimal time and duration of its introduction, the pathological condition of the patient. Thus, in case of trauma, blood and crystalloids are prescribed, in case of sepsis – crystalloids, and later albumin, in the perioperative period – hydroxyethyl starch (HES) and crystalloids. When choosing an antibiotic for IT, you should pay attention to the recent history of hospitalizations, length of stay in a medical institution (term >5 days increases the likelihood that the patient’s infection is nosocomial), comorbid conditions, history of steroid use, previous antibiotic therapy (ABT), duration of mechanical lung ventilation. Dose is another important aspect of IT. In ABT, too high dose can be toxic to the macroorganism, and too low dose can be ineffective and cause bacterial resistance. When selecting the dose of the antibiotic, attention should be paid to the distribution volume of the drug, the liver and kidney function and the peculiarities of the drug clearance, albumin level, ability to penetrate into tissues, minimal inhibitory concentration. In turn, when selecting the dose of solutions for IT, it is necessary to take into account the volume of distribution, type of solution, osmolality, tonicity, and the condition of renal function. In most cases, the maintenance volume of solutions is 1 ml/kg/h (25 ml/kg/day), and the volume required for resuscitation is 30 ml/kg in the first 3 hours, the fluid bolus is 4 ml/kg / 15 min. Some fluids (HES) are toxic for the kidneys (maximum dose is 30 ml/kg/h). However, lack of control over shock is also not beneficial for the kidneys, so the benefit/risk balance should always be assessed. Static surrogate parameters of preload (central venous pressure, average arterial pressure, urine volume, volumetric indicators) are often used for IT titration. However, it is more appropriate to use dynamic functional parameters of hemodynamics: pulse pressure variations, stroke volume variations, passive leg raise test. The duration of optimal IT has not yet been established, although there is evidence of a downward trend. After eliminating shock and normalizing blood lactate, it is advisable to stop IT. It is advisable to reduce the duration of ABT to a minimum and to remember that the goal is to treat the infection, not to treat fever, infiltrates or elevated C-reactive protein. Therefore, ABT should be discontinued when the signs and symptoms of active infection disappear. In future, biomarkers (procalcitonin or cystatin C, citrulline, respectively) will be used to determine the need to discontinue ABT or IT. Timely de-escalation of IT is no less important than its timely start. It is advisable to follow the ROSE concept (R – resuscitation; O – organ support; S – stabilization; E – evacuation). \nConclusions. 1. The concept of four D IT includes definitions, diagnosis, drug, dose, duration, de-escalation, and discharge. 2. For IT titration it is reasonable to use dynamic functional parameters of hemodynamics: pulse pressure and shock volume variation, passive leg raise test. 3. It is advisable to follow the concept of ROSE.","PeriodicalId":13681,"journal":{"name":"Infusion & Chemotherapy","volume":"27 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2020-12-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Four D concept of fluid therapy\",\"authors\":\"M. Mulbrain\",\"doi\":\"10.32902/2663-0338-2020-3.2-193-195\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background. D (definition): the daily fluid balance is the sum of all the amounts of consumed and excreted fluid. Assessment of fluid accumulation per day allows to detect fluid overload. At early stages (the first 1-3 hours) of infusion therapy (IT) targeted administration of necessary drugs should be carried out. The volume of infusion is 10-30 ml/kg of body weight. Subsequently, during the first week of treatment in the intensive care unit (ICU) it is necessary to achieve two consecutive days with a negative fluid balance. In the later stages of treatment, active fluid removal is performed with diuretics or renal replacement therapy. The concept of four D IT actually includes seven D: definitions, diagnosis, drug, dose, duration, de-escalation, discharge. \\nObjective. To describe the basic principles of modern IT. \\nMaterials and methods. Analysis of literature sources on this topic. \\nResults and discussion. The improvement and proper application of the existing IT techniques and drugs is an important step in improving treatment outcomes. Frequent mistakes include too long IT, wrong choice of drug or dose. Hypervolemia as a result of excessive infusions is even more dangerous than hypovolemia because it can lead to the interstitial edema. To address the issue of IT, it is advisable to focus on preload – the degree of stretching of a cardiomyocyte before contraction. Echocardiographic indicators of preload include end-diastolic volume and end-diastolic pressure of left ventricle. When choosing a solution for IT, it is necessary to take into account its tonicity and osmolality, as it depends on whether the solution will remain in the vessels or enter the intercellular space. Choosing an optimal IT, one should take into account the choice of solution or combination of solutions, the optimal time and duration of its introduction, the pathological condition of the patient. Thus, in case of trauma, blood and crystalloids are prescribed, in case of sepsis – crystalloids, and later albumin, in the perioperative period – hydroxyethyl starch (HES) and crystalloids. When choosing an antibiotic for IT, you should pay attention to the recent history of hospitalizations, length of stay in a medical institution (term >5 days increases the likelihood that the patient’s infection is nosocomial), comorbid conditions, history of steroid use, previous antibiotic therapy (ABT), duration of mechanical lung ventilation. Dose is another important aspect of IT. In ABT, too high dose can be toxic to the macroorganism, and too low dose can be ineffective and cause bacterial resistance. When selecting the dose of the antibiotic, attention should be paid to the distribution volume of the drug, the liver and kidney function and the peculiarities of the drug clearance, albumin level, ability to penetrate into tissues, minimal inhibitory concentration. In turn, when selecting the dose of solutions for IT, it is necessary to take into account the volume of distribution, type of solution, osmolality, tonicity, and the condition of renal function. In most cases, the maintenance volume of solutions is 1 ml/kg/h (25 ml/kg/day), and the volume required for resuscitation is 30 ml/kg in the first 3 hours, the fluid bolus is 4 ml/kg / 15 min. Some fluids (HES) are toxic for the kidneys (maximum dose is 30 ml/kg/h). However, lack of control over shock is also not beneficial for the kidneys, so the benefit/risk balance should always be assessed. Static surrogate parameters of preload (central venous pressure, average arterial pressure, urine volume, volumetric indicators) are often used for IT titration. However, it is more appropriate to use dynamic functional parameters of hemodynamics: pulse pressure variations, stroke volume variations, passive leg raise test. The duration of optimal IT has not yet been established, although there is evidence of a downward trend. After eliminating shock and normalizing blood lactate, it is advisable to stop IT. It is advisable to reduce the duration of ABT to a minimum and to remember that the goal is to treat the infection, not to treat fever, infiltrates or elevated C-reactive protein. Therefore, ABT should be discontinued when the signs and symptoms of active infection disappear. In future, biomarkers (procalcitonin or cystatin C, citrulline, respectively) will be used to determine the need to discontinue ABT or IT. Timely de-escalation of IT is no less important than its timely start. It is advisable to follow the ROSE concept (R – resuscitation; O – organ support; S – stabilization; E – evacuation). \\nConclusions. 1. The concept of four D IT includes definitions, diagnosis, drug, dose, duration, de-escalation, and discharge. 2. For IT titration it is reasonable to use dynamic functional parameters of hemodynamics: pulse pressure and shock volume variation, passive leg raise test. 3. 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引用次数: 0

摘要

背景。D(定义):每日液体平衡是所有消耗和排泄液体量的总和。每天液体积累的评估允许检测液体过载。在输注治疗(IT)的早期阶段(前1-3小时),应进行必要药物的靶向给药。输注量为10- 30ml /kg体重。随后,在重症监护病房(ICU)治疗的第一周,有必要连续两天保持体液负平衡。在治疗的后期,采用利尿剂或肾脏替代疗法主动清除液体。4d IT的概念实际上包括七个D:定义、诊断、药物、剂量、持续时间、降级、出院。目标。描述现代资讯科技的基本原理。材料和方法。对这一主题的文献来源进行分析。结果和讨论。对现有信息技术和药物的改进和合理应用是提高治疗效果的重要一步。常见的错误包括信息太长,选择错误的药物或剂量。过量输液引起的高血容量甚至比低血容量更危险,因为它可导致间质水肿。为了解决IT问题,建议关注预负荷-收缩前心肌细胞的拉伸程度。预负荷的超声心动图指标包括左心室舒张末期容积和舒张末期压。在选择IT解决方案时,有必要考虑它的滋补性和渗透性,因为这取决于解决方案是否会留在血管中或进入细胞间空间。选择最佳的IT时,应考虑到溶液或溶液组合的选择,引入的最佳时间和持续时间,以及患者的病理状况。因此,在创伤的情况下,规定血液和晶体,在败血症的情况下-晶体,后来的白蛋白,在围手术期-羟乙基淀粉(HES)和晶体。在选择用于IT的抗生素时,应注意近期的住院史、在医疗机构的住院时间(bbb50天增加患者院内感染的可能性)、合并症、类固醇使用史、既往抗生素治疗(ABT)、机械肺通气持续时间。剂量是IT的另一个重要方面。在ABT中,过高的剂量可能对大型生物体有毒,过低的剂量可能无效并引起细菌耐药性。在选择抗生素的剂量时,应注意药物的分布体积、肝肾功能以及药物清除率、白蛋白水平、穿透组织能力、最小抑制浓度的特点。反过来,在选择IT溶液的剂量时,有必要考虑到分布的体积,溶液的类型,渗透压,强直性和肾功能状况。在大多数情况下,溶液的维持量为1ml /kg/h (25ml /kg/天),复苏所需的体积在前3小时为30ml /kg,液体量为4ml /kg/ 15分钟。一些液体(HES)对肾脏有毒(最大剂量为30ml /kg/h)。然而,缺乏对休克的控制也对肾脏不利,因此应始终评估收益/风险平衡。预负荷的静态替代参数(中心静脉压、平均动脉压、尿量、容量指标)常用于IT滴定。然而,使用血流动力学的动态功能参数更合适:脉压变化、卒中容积变化、被动抬腿试验。最佳信息技术的持续时间尚未确定,尽管有证据表明有下降趋势。在消除休克并使血乳酸正常化后,建议停止it。建议将ABT的持续时间减少到最低限度,并记住目标是治疗感染,而不是治疗发烧、浸润或c反应蛋白升高。因此,当活动性感染的体征和症状消失时,应停用ABT。将来,生物标志物(分别为降钙素原或胱抑素C、瓜氨酸)将用于确定是否需要停止ABT或IT。及时的IT降级与及时的IT启动同等重要。建议遵循ROSE概念(R -复苏;O -器官支持;S -稳定化;E -疏散)。结论:1。4d IT的概念包括定义、诊断、药物、剂量、持续时间、降级和出院。2. 对于IT滴定,合理的使用血流动力学动态功能参数:脉压和冲击量变化,被动抬腿试验。3.建议遵循ROSE的概念。
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Four D concept of fluid therapy
Background. D (definition): the daily fluid balance is the sum of all the amounts of consumed and excreted fluid. Assessment of fluid accumulation per day allows to detect fluid overload. At early stages (the first 1-3 hours) of infusion therapy (IT) targeted administration of necessary drugs should be carried out. The volume of infusion is 10-30 ml/kg of body weight. Subsequently, during the first week of treatment in the intensive care unit (ICU) it is necessary to achieve two consecutive days with a negative fluid balance. In the later stages of treatment, active fluid removal is performed with diuretics or renal replacement therapy. The concept of four D IT actually includes seven D: definitions, diagnosis, drug, dose, duration, de-escalation, discharge. Objective. To describe the basic principles of modern IT. Materials and methods. Analysis of literature sources on this topic. Results and discussion. The improvement and proper application of the existing IT techniques and drugs is an important step in improving treatment outcomes. Frequent mistakes include too long IT, wrong choice of drug or dose. Hypervolemia as a result of excessive infusions is even more dangerous than hypovolemia because it can lead to the interstitial edema. To address the issue of IT, it is advisable to focus on preload – the degree of stretching of a cardiomyocyte before contraction. Echocardiographic indicators of preload include end-diastolic volume and end-diastolic pressure of left ventricle. When choosing a solution for IT, it is necessary to take into account its tonicity and osmolality, as it depends on whether the solution will remain in the vessels or enter the intercellular space. Choosing an optimal IT, one should take into account the choice of solution or combination of solutions, the optimal time and duration of its introduction, the pathological condition of the patient. Thus, in case of trauma, blood and crystalloids are prescribed, in case of sepsis – crystalloids, and later albumin, in the perioperative period – hydroxyethyl starch (HES) and crystalloids. When choosing an antibiotic for IT, you should pay attention to the recent history of hospitalizations, length of stay in a medical institution (term >5 days increases the likelihood that the patient’s infection is nosocomial), comorbid conditions, history of steroid use, previous antibiotic therapy (ABT), duration of mechanical lung ventilation. Dose is another important aspect of IT. In ABT, too high dose can be toxic to the macroorganism, and too low dose can be ineffective and cause bacterial resistance. When selecting the dose of the antibiotic, attention should be paid to the distribution volume of the drug, the liver and kidney function and the peculiarities of the drug clearance, albumin level, ability to penetrate into tissues, minimal inhibitory concentration. In turn, when selecting the dose of solutions for IT, it is necessary to take into account the volume of distribution, type of solution, osmolality, tonicity, and the condition of renal function. In most cases, the maintenance volume of solutions is 1 ml/kg/h (25 ml/kg/day), and the volume required for resuscitation is 30 ml/kg in the first 3 hours, the fluid bolus is 4 ml/kg / 15 min. Some fluids (HES) are toxic for the kidneys (maximum dose is 30 ml/kg/h). However, lack of control over shock is also not beneficial for the kidneys, so the benefit/risk balance should always be assessed. Static surrogate parameters of preload (central venous pressure, average arterial pressure, urine volume, volumetric indicators) are often used for IT titration. However, it is more appropriate to use dynamic functional parameters of hemodynamics: pulse pressure variations, stroke volume variations, passive leg raise test. The duration of optimal IT has not yet been established, although there is evidence of a downward trend. After eliminating shock and normalizing blood lactate, it is advisable to stop IT. It is advisable to reduce the duration of ABT to a minimum and to remember that the goal is to treat the infection, not to treat fever, infiltrates or elevated C-reactive protein. Therefore, ABT should be discontinued when the signs and symptoms of active infection disappear. In future, biomarkers (procalcitonin or cystatin C, citrulline, respectively) will be used to determine the need to discontinue ABT or IT. Timely de-escalation of IT is no less important than its timely start. It is advisable to follow the ROSE concept (R – resuscitation; O – organ support; S – stabilization; E – evacuation). Conclusions. 1. The concept of four D IT includes definitions, diagnosis, drug, dose, duration, de-escalation, and discharge. 2. For IT titration it is reasonable to use dynamic functional parameters of hemodynamics: pulse pressure and shock volume variation, passive leg raise test. 3. It is advisable to follow the concept of ROSE.
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