Peculiarities of penetration of anti-tuberculosis drugs into the foci of infection in patients with tuberculosis of the central nervous system and the choice of pharmacotherapy

R. Ruslami
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Abstract

Background. Tuberculosis (TB) of the central nervous system (CNS) is the most severe and life-threatening form of TB. Diagnosis of TB of CNS is difficult, and treatment is suboptimal. At present, the treatment of tuberculous meningitis (TBM) involves the same drugs and doses as for pulmonary TB, however, the problem is that not all the drugs cross the blood-brain barrier. Objective. To describe the penetration of anti-TB drugs (ATBD) into the foci of infection in patients with TB of CNS and the choice of pharmacotherapy. Materials and methods. Analysis of literature sources on this issue. Results and discussion. Options for optimizing the TBM treatment include a non-pharmacological approach, treatment prolongation, and increasing the residence time of ATBD at the infection site. A meta-analysis of 17 observational studies found no significant benefits of 9-month treatment over 6-month regimens. To increase the residence time of the drug in CNS, you can increase the dose of drugs that poorly penetrate the CNS, add drugs with better brain penetration characteristics, modify drug delivery systems and physical and chemical properties of drugs. The optimal dose provides the maximum effectiveness of the active substance on the background of the minimum number of side effects, so increase of the dose without taking into account the risks of side effects is not advisable. One of the main ATBD rifampicin is characterized by poor penetration into the cerebrospinal fluid. The killer activity of rifampicin depends on its concentration. In our own study, it was found that the administration of a high dose of rifampicin (600 mg) intravenously for 14 days was characterized by lower mortality in patients with TBM than treatment with oral rifampicin (standardized risk ratio was 0.42). Intravenous high-dose treatment was safe and well tolerated by patients. The disadvantages of this treatment include its high cost, invasiveness and poor availability. A meta-analysis of Indonesian patient data confirmed that high doses of rifampicin were associated with lower mortality (Svensson E. et al., 2019). Other drugs that need research in TBM include a new drug bedaquiline, fluoroquinolones (levofloxacin), linezolid. Isoniazid, pyrazinamide, cycloserine, ethionamide, prothionamide are also characterized by the good permeability to cerebrospinal fluid. Therefore, in a strategy to optimize the TBM treatment high-dose rifampicin, high-dose isoniazid and pyrazinamide (?) are the first line, and cycloserine, ethionamide, linezolid, delamanide, pretomanide – the second line. Conclusions. 1. Diagnosis of TB of CNS is difficult, and treatment is suboptimal. 2. Not all the drugs cross the blood-brain barrier. 3. Options for optimization of the TBM treatment include a non-pharmacological approach, prolongation of therapy and increasing the residence time of ATBD in the infection focus. 4. Administration of high-dose rifampicin (600 mg) intravenously for 14 days was characterized by lower mortality in patients with TBM than treatment with oral rifampicin. 5. High-dose rifampicin, high-dose isoniazid and pyrazinamide (?) are the first line of TBM treatment.
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抗结核药物对中枢神经系统结核患者感染灶渗透的特点及药物治疗的选择
背景。中枢神经系统结核(TB)是最严重和危及生命的结核形式。中枢神经系统结核的诊断是困难的,治疗是次优的。目前,结核性脑膜炎(TBM)的治疗涉及与肺结核相同的药物和剂量,然而,问题是并非所有药物都能穿过血脑屏障。目标。目的探讨抗结核药物(ATBD)对中枢神经系统结核患者感染病灶的渗透及药物治疗的选择。材料和方法。对这一问题的文献来源进行分析。结果和讨论。优化TBM治疗的选择包括非药物方法、延长治疗时间和增加ATBD在感染部位的停留时间。一项对17项观察性研究的荟萃分析发现,9个月的治疗方案与6个月的治疗方案相比没有显著的益处。为了延长药物在中枢神经系统的停留时间,可以通过增加穿透中枢神经系统较差的药物的剂量,加入具有较好脑穿透特性的药物,改变给药系统和药物的理化性质。最佳剂量在副作用最少的情况下提供活性物质的最大功效,因此不考虑副作用风险而增加剂量是不可取的。一种主要的ATBD利福平的特点是难以渗透到脑脊液中。利福平的杀伤活性取决于它的浓度。在我们自己的研究中,发现TBM患者静脉注射高剂量利福平(600mg) 14天的死亡率低于口服利福平(标准化风险比为0.42)。静脉大剂量治疗是安全的,患者耐受良好。这种治疗方法的缺点包括成本高、侵入性和可及性差。对印度尼西亚患者数据的荟萃分析证实,高剂量利福平与较低的死亡率相关(Svensson E. et al., 2019)。其他需要研究的TBM药物包括新药贝达喹啉、氟喹诺酮类药物(左氧氟沙星)、利奈唑胺。异烟肼、吡嗪酰胺、环丝氨酸、乙硫酰胺、丙硫酰胺对脑脊液的渗透性也很好。因此,在优化TBM治疗策略中,大剂量利福平、大剂量异烟肼和吡嗪酰胺(?)为一线,环丝氨酸、乙硫酰胺、利奈唑胺、德拉马尼、普雷托马尼为二线。结论:1。中枢神经系统结核的诊断是困难的,治疗是次优的。2. 并不是所有的药物都能通过血脑屏障。3.优化TBM治疗的选择包括非药物方法、延长治疗时间和增加ATBD在感染病灶的停留时间。4. 大剂量利福平(600mg)静脉注射14天的TBM患者死亡率低于口服利福平治疗。5. 大剂量利福平、大剂量异烟肼和吡嗪酰胺是TBM治疗的一线药物。
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