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Objective:To evaluate the effects of intrathecal infusion chemotherapy on intracranial pressure (ICP) in non-small cell lung cancer (NSCLC) patients with leptomeningeal metastases (LM) by ultrasound measurement of the optic nerve beside the bed of optic nerve sheath diameter (ONSD) .Methods:A total of 31 NSCLC-LM patients who underwent intrathecal infusion chemotherapy at Nanjing Drum Tower Hospital, Affiliated Hospital of Nanjing University Medical School from June 10, 2021 to December 25, 2022 were collected. The ONSD values were measured before and after the first lumbar puncture by bedside optic nerve ultrasound, and measured dynamically 30 min before intrathecal infusion chemotherapy (T0) , 30 min (T1) , 1 h (T2) , 2 h (T3) , 4 h (T4) , 6 h (T5) , and 24 h (T6) after intrathecal infusion chemotherapy. ICP ONSD was calculated, with differences between ICP LP and ICP ONSD, and differences between ONSD and ICP ONSD series at different time being compared separately. Mean arterial pressure (MAP) , heart rate, and headache score were assessed and compared respectively at T0, T1, T2, T3, T4, T5 and T6. Spearman analysis was used to evaluate the correlation between the response assessment in neuro-oncology (RANO) score and ICP. Results:Before the first lumbar puncture for cerebrospinal fluid drainage, ICP LP was (218.55±63.83) mmH 2O, left eye, right eye, and binocular eyes ICP ONSD were (217.28±57.17) mmH 2O, (223.64±51.13) mmH 2O, and (220.46±52.50) mmH 2O respectively, in NSCLC-LM patients, with no statistically significant difference ( F=0.77, P=0.463) . After first lumbar puncture for cerebrospinal fluid drainage, ICP LP was (214.68±58.01) mmH 2O, left eye, right eye, and binocular eyes ICP ONSD were (216.71±48.96) mmH 2O, (216.62±47.18) mmH 2O, and (216.67±47.86) mmH 2O respectively, with no statistically significant difference ( F=0.12, P=0.757) . At T0, T1, T2, T3, T4, T5, and T6, the MAP during intrathecal infusion chemotherapy was 89.80 (83.40, 93.67) mmHg, 95.00 (80.83, 99.37) mmHg, 91.86 (79.88, 100.14) mmHg, 90.15 (79.04, 100.55) mmHg, 105.14 (88.55, 114.74) mmHg, 98.96 (81.72, 111.81) mmHg, and 89.29 (85.45, 100.38) mmHg, with a statistically significant difference ( χ2=16.11, P=0.013) ; heart rates were 80.00 (75.00, 84.50) times/min, 80.00 (72.50, 87.50) times/min, 74.00 (66.00, 87.50) times/min, 82.00 (72.00, 90.00) times/min, 80.00 (70.50, 90.00) times/min, 77.00 (68.00, 91.00) times/min, 77.00 (71.50, 88.50) times/min, with no statistically significant difference ( χ2=2.18, P=0.902) ; headache scores were 2.00 (0.50, 3.00) score, 2.00 (1.00, 3.00) score, 2.00 (2.00, 3.00) score, 2.00 (1.00, 3.00) score, 2.00 (1.00, 2.00) score, 2.00 (1.00, 2.00) score, and 2.00 (0.00, 2.00) score, with no statistically significant difference ( χ2=11.64, P=0.071) . At T0, T1, T2, T3, T4, T5, and T6, left eye, right eye, and binocular ONSD were (5.85±0.64) mm, (5.72±0.68) mm, (7.11±1.11) mm, (6.42±0.78) mm, (5.69±0.63) mm, (5.61±0.64) mm, (5.65±0.88) mm, (5.85±0.12) mm, (5.89±0.12) mm, (6.93±0.20) mm, (6.40±0.14) mm, (5.71±0.12) mm, (5.66±0.12) mm, (5.33±0.14) mm, (5.85±0.64) mm, (5.81±0.64) mm, (7.02±1.03) mm, (6.41±0.75) mm, (5.70±0.63) mm, (5.64±0.63) mm, (5.49±0.76) mm, with statistically significant differences ( F=58.48, P<0.001; F=49.34, P<0.001; F=78.05, P<0.001) ; ICP ONSD were (222.81±56.81) mmH 2O, (211.89±60.29) mmH 2O, (335.12±98.32) mmH 2O, (274.17±68.87) mmH 2O, (208.77±56.12) mmH 2O, (201.75±56.79) mmH 2O, (205.59±78.36) mmH 2O, (223.26±58.33) mmH 2O, (227.08±61.68) mmH 2O, (319.36±101.10) mmH 2O, (272.33±69.61) mmH 2O, (211.21±57.73) mmH 2O, (206.51±57.22) mmH 2O, (177.22±68.98) mmH 2O, (223.03±57.24) mmH 2O, (219.49±57.24) mmH 2O, (327.24±91.56) mmH 2O, (273.25±67.04) mmH 2O, (209.99±56.26) mmH 2O, (204.13±56.29) mmH 2O, (191.40±67.95) mmH 2O, with statistically significant differences ( F=58.48, P<0.001; F=49.34, P<0.001; F=78.13, P<0.001) . The ONSD of the left eye, right eye, and binocular eyes and the corresponding ICP ONSD increased significantly at T2 compared with T0, T1, T3, T4, T5, and T6, with statistically significant differences (all P<0.05) . Pre- and post-treatment RANO scores were 4.00 (3.00, 7.00) score and 3.00 (2.00, 6.00) score respectively. Pre- and post-treatment RANO scores were positively correlated with ICP ONSD in the left eye ( r=0.55, P=0.001; r=0.60, P<0.001) , right eye ( r=0.54, P=0.001; r=0.46, P=0.009) and binocular eyes ICP ONSD ( r=0.45, P=0.010; r=0.37, P=0.043) . Conclusion:Intrathecal infusion chemotherapy for NSCLC-LM patients can cause a transient increase in ONSD and ICP, with the greatest effect at 1 hour after intrathecal infusion chemotherapy. RANO score is positively correlated with ICP ONSD before and after treatment, which can provide an important reference for evaluating the efficacy of intrathecal infusion chemotherapy.
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Objective:To investigate the pharmacokinetics of cerebrospinal fluid pemetrexed following intrathecal injection chemotherapy in patients with leptomeningeal metastasis (LM) from lung adenocarcinoma and provide a basis for clinical intrathecal injection chemotherapy.Methods:A total of 21 patients with lung adenocarcinoma LM who underwent pemetrexed intrathecal injection chemotherapy via Ommaya capsule at Nanjing Drum Tower Hospital, Aiffilitated Hospital of Nanjing University Medical School from November 2019 to November 2022 were collected, and divided into 30, 40 and 50 mg groups ( n=10, n=4, n=7) according to pemetrexed dose. Cerebrospinal fluid was collected at 0, 0.5, 1, 2, 4, 6, 12, 24 and 48 h after the first intrathecal injection chemotherapy, and day 8 of each cycle for three groups. Reversed phase high performance liquid chromatography was used to determine the drug concentration in cerebrospinal fluid, to clarify the drug-related pharmacokinetic parameters, and to compare the differences in pemetrexed concentration among groups. Finally, cerebrospinal fluid pemetrexed concentration changes were observed and compared after different intrathecal injection chemotherapy cycles. Results:There were statistically significant differences in cerebrospinal fluid drug concentrations of patients in three groups at 0, 0.5, 1, 2, 4, 6, 12, 24 and 48 h after the first intrathecal injection chemotherapy (30 mg group: F=20.56, P<0.001; 40 mg group: F=27.06, P<0.001; 50 mg group: F=28.63, P<0.001), and there were statistically significant differences in the concentration of cerebrospinal fluid drugs in each dose group at 0.5, 1, 2, 4, 6 and 12 h compared to 0 h after intrathecal injection chemotherapy (all P<0.05). Compared to the 30 mg group, cerebrospinal fluid drug concentrations in the 50 mg group increased at 1, 2, 4, 6, 12 and 24 h after intrathecal injection chemotherapy, with statistically significant differences (all P<0.05). Pharmacokinetic analysis of cerebrospinal fluid pemetrexed showed that area under the concentration-time curve (AUC) 0-∞ of the 30, 40 and 50 mg groups were (5 696.12±283.32), (7 886.29±396.57), and (14 202.70±440.19) h·mg/L, respectively, with a statistically significant difference ( F=1 159.00, P<0.001) ; AUC 0-∞ increased in the 50 mg group compared to the 30 and 40 mg groups (both P<0.05) ; AUC 0-∞ increased in the 40 mg group compared to the 30 mg group ( P<0.05). The half-lives of three groups were (8.75±0.23), (11.29±0.59) and (16.42±1.23) h, respectively, with a statistically significant difference ( F=206.80, P<0.001) ; half-life was longer in the 50 mg group compared to the 30 and 40 mg groups (both P<0.05) ; half-life was longer in the 40 mg group compared to the 30 mg group ( P<0.05). The peak time of three groups were (1.55±0.10), (1.00±0.01), (1.43±0.11) h, respectively, with a statistically significant difference ( F=48.11, P<0.001) ; the peak time was shorter in the 40 and 50 mg groups compared to the 30 mg group (both P<0.05). Clearance of three groups were (7.02±2.46), (5.80±1.25) and (3.66±1.32) L/h, respectively, with a statistically significant difference ( F=6.02, P=0.009) ; clearance was decreased in the 50 mg group compared to the 30 mg group ( P<0.05). The peak concentration of three groups were (540.45±32.25), (820.75±46.47) and (1 014.78±64.96) mg/L, respectively, with a statistically significant difference ( F=207.70, P<0.001) ; peak concentration increased in the 50 mg group compared to the 30 and 40 mg groups (both P<0.05) ; peak concentration increased in the 40 mg group compared to the 30 mg group ( P<0.05). Cerebrospinal fluid drug concentrations were dynamically monitored after 4 cycles of intrathecal injection chemotherapy, in which cerebrospinal fluid pemetrexed concentrations in 30 mg group were (13.76±4.79), (11.41±7.08), (9.41±2.59) and (7.86±4.02) mg/L, respectively; 40 mg group were (14.45±6.59), (12.87±15.73), (11.24±2.48) and (9.09±3.38) mg/L, respectively; 50 mg group were (12.94±10.34), (9.72±7.62), (8.15±8.17) and (4.34±4.21) mg/L, respectively. There was a statistically significant difference in cerebrospinal fluid drug concentrations among different intrathecal injection chemotherapy cycles in 30 mg group ( F=4.04, P=0.016), and the cerebrospinal fluid drug concentration decreased in cycles 3 and 4 compared to cycle 1 (both P<0.05). There were no statistically significant differences in cerebrospinal fluid drug concentrations among different treatment cycles in 40 and 50 mg groups ( F=0.28, P=0.837; F=3.57, P=0.066) . Conclusion:Reversed phase high performance liquid chromatography method can effectively detect the pemetrexed concentration in cerebrospinal fluid; dynamic monitoring of cerebrospinal fluid pemetrexed concentration can provide a basis for the dosage and the treatment cycle of intrathecal injection chemotherapy in LM patients with lung adenocarcinoma.
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BACKGROUND@#Leptomeningeal metastasis (LM) is one of the most common causes of death in patients with advanced non-small cell lung cancer (NSCLC), which is defined as malignant cells spreading to meninges and cerebrospinal fluid (CSF). Therefore, early diagnosis and timely treatment are essential. CSF cytology is the gold standard for LM diagnosis, however, it has a low sensitivity for diagnosis and can't be used to evaluate the treatment effect. The aim of this study was to assess the clinical value of serum and CSF tumor markers (TM) in the diagnosis and treatment of NSCLC patients with LM.@*METHODS@#Nineteen patients with NSCLC-LM and 27 patients with nonmalignant neurological diseases (NMNDs) were included. We tested the levels and positive rates of carbohydrate antigen (CEA), carbohydrate antigen-125 (CA125), cytokeratin 19 fragments (CYFRA21-1) and neurone specific enolase (NSE) in CSF and serum, compared the sensitivity and specificity in the diagnosis of LM between different groups, and analyzed the correlation of detection between serum and CSF. Finally, we measured serum and CSF TM dynamically in 2 patients with NSCLC developing LM in an attempt to correlate these with the treatment response of extracranial and intracranial, respectively.@*RESULTS@#The levels and positive rates of TM in CSF and serum in LM group were higher than those in NMNDs (P0.05). In CSF, CYFRA21-1 has the highest sensitivity (88.2%) and CEA has the best specificity (92.3%) to distinguish patients between LM and NMNDs. For combined detection of CEA, CA125, CYFRA 21-1 and NSE in CSF, when at least CEA or NSE was positive in patients with LM, the sensitivity and negative predictive value were 100.0%, and the specificity was 74.1%. When both CYFRA21-1 and NSE were positive, the specificity and positive predictive value were 100.0%, and the sensitivity was 78.9%. Furthermore, subgroup analysis showed that the detection rates of TM in CSF cytology positive population was higher than that in typical abnormalities magnetic resonance imaging population, but there was no statistical difference (P>0.05). The detection of TM between serum and CSF in LM patients had no significant correlation. Moreover, biochemical properties of CSF from ventricle and lumbar puncture are similar, therefore evaluating the levels of TM in serum and CSF dynamically can be used to assess the extracranial and intracranial treatment effect, respectively.@*CONCLUSIONS@#Our study demonstrates that Serum and CSF TM can work as an auxiliary clinical diagnostic tool, which has a potential value in early diagnosis of NSCLC patients with LM. Serial measurement of TM may play an important role in the clinical management of NSCLC patients with LM, which is worthy of further promotion and clinical application.
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Leptomeningeal metastasis (LM) is one of the most severe complications of non-small-cell lung cancer (NSCLC), and its incidence is increasing gradually with the progress of targeted therapies. There are currently no standard guidelines for the therapy of LM. Intrathecal chemotherapy is the mainstay of treatment for NSCLC patients with LM, but the optimal drug, administration route and mode, and dosage remain unclear. We report a case of LM from NSCLC, who received the intrathecal chemotherapy with pemetrexed by Ommaya reservoir after prior targeted therapies. This local treatment improved the quality of life, and obtained the clearing of CSF cytology and stable lesions of LM without any notable side effects. After confirmation of LM, the patient has survived 17 months until now. Here we report the first case to demonstrate the potential effectiveness of intrathecal pemetrexed by Ommaya reservoir for the treatment of LM of NSCLC, summarize the safety and effectiveness of intrathecal chemotherapy in combination with related literatures, and provide a new strategy for local treatment of LM in clinical. .
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Objective:To observe the clinical characteristics of elderly patients with liver failure complicated with fungal infection,and to analyze the factors influencing the prognosis.Method:117 cases of elderly patients with liver failure,who were treated in our hospital from May 2013 to May 2015,were selected as object,according to whether combined with fungal infection,the patients were divided into Fungal infection group (57 cases) and non fungal infection group (60 cases).The differences of liver function index,treatment effective rate and mortality were observed between the two groups;To compare the prognosis of patients with different clinicopathological features,and to explore the factors influencing the prognosis of patients.Results:The scores of ALT,AST and DBIL in patients with fungal infection were significantly higher than those without fungal infection,and the difference was statistically significant (P<0.05);The effective rate of the treatment group was significantly lower than that of the non fungal infection group,the mortality rate was higher than that of the non fungal infection group,the difference was statistically significant (P<0.05);The death rate of patients with age was more than or equal to 70 years of age,with diabetes,with fungal infection were higher (P<0.05);Logistic regression analysis showed that combined with diabetes mellitus,combined with fungal infection was an independent prognostic factor for elderly patients with liver failure (OR=2.982,4.817,P<0.05).Conclusion:Liver function injury is severe in elderly patients with liver failure,the mortality rate is high,and fungal infection is more serious,and diabetes and fungal infection are risk factors for mortality.