Dryopteris fragrans (L.) Schott is a fern growing on the surface of hot rocks and lava. It is exposed to sunlight directly and bears local hot environment. We sequenced the complete nucleotide sequence of its chloroplast (cp) genome. The cp genome was 151,978 bp in length, consisting of a large single-copy region (85,332 bp), a small single-copy region (31,947 bp) and a pair of inverted repeats (17,314 bp). The cp genome contained 112 genes and 345 RNA editing sites in protein-coding genes. Simple sequence repeats (SSRs) and long repeat structure pairs (30–55 bp) were identified. The number and percent of repeat structures are extremely high in ferns. Thermal denaturation experiments showed its cp genome to have numerous, dispersed and high GC percent repeat structures, which conferred the strongest thermal stability. This repeat-heavy genome may provide the molecular basis of how D. fragrans cp survives its hot environment.
As a marker of eosinophilic airway inflammation, fractional exhaled nitric oxide (FeNO) was widely used in clinical practice. NIOX VERO (VERO) and SUNVOU-CA2122 (CA2122) are two commonly used eNO analyzers in China. However, what’s the difference and agreement between the two devices and whether the two types of devices can be replaced by each other in the application of common respiratory diseases have not been reported. The purpose of this study was to compare the two types of devices and to evaluate the difference between them in clinical use and whether they could be replaced. FeNO levels in 244 respiratory patients (including asthma, chronic obstructive pulmonary disease, chronic cough) were measured by CA2122 analyzer and VERO analyzer, respectively. The FeNO values obtained by the two devices were compared and the differences were analyzed. The success rate, the number of attempts and the total time required for a successful measurement by CA2122 and VERO were compared. The FeNO values measured by CA2122 online and offline were also compared. FeNO values obtained by CA2122 were slightly higher than those of VERO [median(range): 29.0(9–271) parts per billion (ppb) vs 25.5 (5–263) ppb, P = 0.000]. There was a high correlation between FeNO values measured by the two types of devices (r = 0.964, P = 0.000). By comparison, there was a high degree of agreement between the FeNO values measured by two devices, in all patients with different respiratory diseases. FeNO values measured online and offline by CA2122 were highly correlated and there was a high degree of agreement between online and offline methods. The success rate of CA2122 was higher than VERO, and the number of attempts (2.1 vs 2.4) and the total time (110.5 ± 35.7 vs 117.5 ± 48.1 s) required for a successful measurement by CA2122 were lower than those of VERO. CA2122 and VERO can be replaced by each other, and FeNO values can be converted if necessary. CA2122 has some advantages in success rate, the mean attempts and time required for successful measurement of FeNO.
Background: Torsade de pointes (TdP) is a malignant arrhythmia that can be induced by QT internal prolongation due to a variety of factors. Here we report an elderly patient with advanced non-small cell lung cancer (NSCLC) had sudden TdP during hospitalization, which was caused by multiple factors such as osimertinib, moxifloxacin and patient self-factors. Case presentation: An 85-year-old man with advanced NSCLC with brain andbone metastasis was initially treated with gefitinib targeted therapy. After 4 months treatment, the patient developed drug resistance and a second genetic testing revealed that the T790M mutation was positive. And the patient was then changed to targeted therapy with osimertinib, followed by adverse reactions of varying severity such as diarrhea, electrolyte imbalance, decreased cardiac function, leukopenia, and prolonged QTc interval. Six months after the administration of osimertinib, the patient was admitted to the hospital, chest CT showed the lesion progressed again, and during which hospital-acquired infection occurred. After concomitant use of moxifloxacin, the patient had sudden TdP, and finally died of this cardiac event. Conclusions: It is suggested that clinicians need to identify patients with high risk factors of TdP, and consider comprehensively in concomitant medication to avoid such events to the greatest extent.
There are very limited reports about childhood acute promyelocytic leukemia (APL), especially about arsenic trioxide (ATO) treatment in both induction and post-remission regimens. 35 newly diagnosed APL patients received ATO treatment in our center and the clinical course as well as the outcome of them was investigated. The dose of intravenous ATO was 0.15-0.17 mg/kg per day, only one patient got 0.33 mg/kg per day, maximum dose was 10 mg per day in induction therapy with minimal chemotherapy treatment (CT) for hyperleukocytosis. Anthracycline or anthracycline-based CT was used for consolidation therapy and followed by 0.10-0.15 mg/kg per day ATO treatment in maintenance therapy. The continuous detection for morphology of bone marrow and PML-RARa were necessary for administrating CT or not. 3 patients died during induction therapy for intracranial hemorrhage, leukocytosis and septic shock. Total of 30 patients achieved complete remission (CR) and were followed-up for 10-108 months. The overall survival (OS) for all patients was 82.7%, whereas the OS for patients obtained CR was 95.8%. The event-free survival for 5 years was 80.3%. Disseminated intravascular coagulation could be under control to reduce induction mortality with adequate supportive care, especially in the first 2 weeks. The side effects of ATO were mild and transient. This regimen of ATO treatment both in induction and post-remission therapy was effective and safe for childhood APL to get long-term survival.
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