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Sexual Fluidity in a Malaysian Sample: A Case for the Presence of Facilitative Environments within a Restrictive Sociocultural and Political Landscape

Pinto J, Lai SY, Low WY

J Homosex, 2023 Dec 06;70(14):3399-3420.
PMID: 35771718 DOI: 10.1080/00918369.2022.2094745

This study investigated sexual fluidity in attractions and subsequent fluidity in sexual identities, its associations with sexual orientation identity labels, and self-reported likelihood of future change in sexual identity labels in a sample of same-sex attracted Malaysian women and men. Participants completed an online questionnaire measuring sexual fluidity in attractions and sexual identity, sexual orientation identity labels and likelihood of future change in identity labels. Sexual fluidity in attractions was reported by 72% of women and 64% of men, with 44% of women and 38% of men reporting subsequent fluidity in sexual orientation identities. There were no significant gender differences observed in the frequency of sexual fluidity in attractions and change in sexual identity labels. There were also no significant gender differences in the self-reported likelihood of future change in sexual identity labels. Sexual fluidity was found to be associated with sexual identity labels representing non-exclusive sexual attractions for both men and women. Findings provide preliminary support for the presence of facilitative environments within a largely conservative and restrictive sociocultural and political landscape.
A review on dry-based and wet-based catalytic sulphur dioxide (SO2) reduction technologies

Ng KH, Lai SY, Jamaludin NFM, Mohamed AR

J Hazard Mater, 2022 Feb 05;423(Pt A):127061.
PMID: 34788939 DOI: 10.1016/j.jhazmat.2021.127061

While sulphur dioxide (SO2) is known for its toxicity, numerous effective countermeasures were innovated to alleviate its hazards towards the environment. In particular, catalytic reduction is favoured for its potential in converting SO2 into harmless, yet marketable product, such as elemental sulphur. Therefore, current review summarises the critical findings in catalytic SO2 reduction, emphasising on both dry- and wet-based technology. As for the dry-based technology, knowledge related to SO2 reduction over metal-, rare earth- and carbon-based catalysts are summarised. Significantly, both the reduction mechanisms and important criteria for efficient SO2 reduction are elucidated too. Meanwhile, the wet-based SO2 reduction are typically conducted in reactive liquid medium, such as metal complexes, ionic liquids and organic solvents. Therefore, the applications of the aforesaid liquid mediums are discussed thoroughly in the similar manner to dry-technology. Additionally, the pros and cons of each type of catalyst are also presented to provide valuable insights to the pertinent researchers. Finally, some overlooked aspects in both dry- and wet-based SO2 reduction are identified, with potential solutions given too. With these insights, current review is anticipated to contribute towards practicality improvement of catalytic SO2 reduction, which in turn, protects the environment from SO2 pollution.
Application of high shear-assisted liquid biphasic system for protein extraction from Chlorella sp

Silvanir, Lai SY, Asmawi AA, Chew KW, Ngan CL

Bioresour Technol, 2024 Feb;393:130094.
PMID: 38000640 DOI: 10.1016/j.biortech.2023.130094

Microalgae is a sustainable alternative source to traditional proteins. Existing pretreatment methods for protein extraction from microalgae still lack scalability, are uneconomical and inefficient. Herein, high shear mixing (HSM) was applied to disrupt the rigid cell walls and was found to assist in protein release from microalgae. This study integrates HSM in liquid biphasic system with seven parameters being investigated on extraction efficiency (EE) and protein yield (Y). The highest EE and Y obtained are 96.83 ± 0.47 % and 40.98 ± 1.27 %, respectively, using 30% w/v K3PO4 salt, 60 % v/v alcohol, volume ratio of 1:1 and 0.5 % w/v biomass loading under shearing rate of 16,000 rpm for 1 min.
Photocatalytic remediation of organic waste over Keggin-based polyoxometalate materials: A review

Lai SY, Ng KH, Cheng CK, Nur H, Nurhadi M, Arumugam M

Chemosphere, 2021 Jan;263:128244.
PMID: 33297191 DOI: 10.1016/j.chemosphere.2020.128244

Photocatalytic remediation of industrial water pollution has courted intense attention lately due to its touted green approach. In this respect, Keggin-based polyoxometalates (POMs) as green solid acids in photocatalytic reaction possess superior qualities, viz. unique photoinduced charge-transfer properties, strong photooxidative-photoreductive ability, high chemical and thermal stability, and so forth. Unfortunately, it suffers from a large bandgap energy, low specific surface area, low recoverability, and scarce utilization in narrow absorption range. Therefore, the pollutant degradation performance is not satisfactory. Consequently, multifarious research to enhance the photocatalytic performance of Keggin-based POMs were reported, viz. via novel modifications and functionalizations through a variety of materials, inclusive of, inter alia, metal oxides, transition metals, noble metals, and others. In order to advocate this emerging technology, current review work provides a systematic overview on recent advancement, initiated from the strategized synthetic methods, followed by hierarchical enhancement and intensification process, at the same time emphasizes on the fundamental working principles of Keggin-based POM nanocomposites. By reviewing and summarizing the efforts adopted global-wide, this review is ended with providing useful outlooks for future studies. It is also anticipated to shed light on producing Keggin-based POM nanocomposites with breakthrough visible- and solar-light-driven photocatalytic performance against recalcitrant organic waste.
Fulltext Standardization and experience may influence the survival of laparoscopic radical hysterectomy for cervical cancer

Lee CL, Huang KG, Chua PT, Mendoza MCVR, Lee PS, Lai SY

Taiwan J Obstet Gynecol, 2021 May;60(3):463-467.
PMID: 33966729 DOI: 10.1016/j.tjog.2021.03.013

OBJECTIVE: Minimally invasive radical hysterectomy has been shown to be associated with poorer outcome in an influential prospective, randomized trial. However, many centers worldwide performing minimally invasive radical hysterectomy have data and experience that prove otherwise. We aim to review surgical and oncologic outcomes of patients operated by Laparoscopic Radical Hysterectomy in a tertiary hospital, by experienced surgeons and standardization in radicality, for cervical carcinoma Stage 1A1-1B1 from January 2009 to May 2014.
MATERIALS & METHODS: Standardised surgical technique with Parametrium & Paracolpium resection approach was adopted by qualified and experienced Gynecologic/Gyne-Oncologic Endoscopic & Minimally Invasive Surgeons in performing Laparoscopic Radical Hysterectomy for Cervical Cancer stage 1A1-1B1 from January 2009-May 2014, involving 53 patients. Electronic Medical Record system (EMR) Of Chang Gung Memorial Hospital(Tertiary Referral Centre), Department of Obstetrics & Gynecology was accessed for surgical and oncologic outcomes.
RESULTS: Fifty-Three patients operated from January 2009 to May 2014 were followed up for an average of 96.7 months with longest follow-up at 127 months. There were no cases of recurrence or death reported. 5 Year - Survival Rate and 5 Year Disease-Free Survival Rate were 100%. Two patients received post-operative pelvic radiation concurrent with chemotherapy using Cisplatin due to greater than 1/3 cervical stromal invasion.
CONCLUSION: It is vital to standardize minimally invasive surgical techniques for early stage cervical cancer, with focus on adequate radicality and resection which may contribute to excellent survival outcomes. Further international multi-center randomized trial (Minimally Invasive Therapy Versus Open Radical Hysterectomy In Cervical Cancer) will provide justification for continued practice of MIS in early stage cervical cancer.