Postoperative Cognitive Dysfunction (POCD) refers to the condition of neurocognitive decline following surgery in a cognitive and sensory manner. There are several risk factors, which may be life-threatening for this condition. Neuropsychological assessment of this condition is very im-portant. In the present review, we discuss the association of apolipoprotein epsilon 4 (APOE ?4) and few miRNAs with POCD, and highlight the clinical importance for prognosis, diagnosis and treatment of POCD. Microarray is a genome analysis that can be used to determine DNA abnormalities. This current technique is rapid, efficient and high-throughout. Microarray techniques are widely used to di-agnose diseases, particularly in genetic disorder, chromosomal abnormalities, mutations, infectious diseases and disease-relevant biomarkers. MicroRNAs (miRNAs) are a class of non-coding RNAs that are widely found distributed in eukaryotes. Few miRNAs influence the nervous system development, and nerve damage repair. Microarray approach can be utilized to understand the miRNAs involved and their pathways in POCD development, unleashing their potential to be considered as a diagnostic marker for POCD. This paper summarizes and identifies the studies that use microarray based approaches for POCD analysis. Since the application of microarray in POCD is expanding, there is a need to review the current knowledge of this approach. 2020 Bentham Science Publishers.

At high altitude, low oxygen partial pressure predisposes human body to hypobaric hypoxia that may lead to high-altitude illness. Currently, singing had been used for rehabilitation of patients with lung diseases but its role in high-altitude low oxygen environment is still scarce. This study aims to examine the effect of singing in improving oxygen saturation at different levels of high altitudes in a hypobaric chamber. Eight healthy volunteers were assigned to three interventions at three simulated altitudes (sea level, 3000 m and 5000 m). The oxygen saturation (SpO2) was measured via pulse oximetry under three conditions: no singing (NS), singing aloud (SA), and singing silently (SS). The “birthday song” was used as the standard song for 4 minutes. At sea level, mean NS SpO2 was 97.75% ± 1.04%. With SS, the level increased to 98.25% ± 1.04%. Mean SA SpO2 increased to 98.38% ± 0.92% (P < 0.05). At 3000 m, mean NS SpO2 was 92.75% ± 3.73% and rose to 94.50% ± 2.51% and 94.63% ± 2.00% respectively with SA and SS (P < 0.05). At 5000 m, NS level of 79.88P ± 3.60% increased to 82.13 ± 5.87 and 82.88% ± 7.12% with SA and SS respectively (P < 0.05). The repeated measure ANOVA showed significant difference for altitude (P < 0.001) and intervention (P = 0.05). In conclusion, singing both either “aloud” or “silently” significantly increased the level of SpO2 in simulated high altitude at 3000 m and above. The study suggests that singing as a potential intervention to improve oxygen saturation at high altitudes. Study with larger sample in hypobaric chamber as well as in real environment is recommended. © 2020 The Voice Foundation