Your search keyword '"Abusalah, Mai Abdel Haleem"' showing total 7 results

1. The Microbial Sources of Bioactive Compounds: Potential Anticancer Therapeutic Options.

Author

Ahmed, Naveed, Abusalah, Mai Abdel Haleem A., Absar, Muhammad, Nasir, Muhammad Hassan, Farzand, Anam, Ahmad, Ijaz, Sohail, Zaineb, Singh, Kirnpal Kaur Banga, Baig, Atif Amin, and Yean, Chan Yean

Subjects

*BACTERIAL ecology, *MICROBIAL ecology, *GENETIC vectors, *CANCER treatment, *TUMOR microenvironment

Abstract

Chemotherapy and other traditional anticancer treatments are losing their efficacy in the battle against cancer. As a result, cancer treatment strategies must be continually adjusted to meet the rising demand for alternative medicines. Several viral and non-viral vectors have been used previously. However, it has been shown that microorganisms are a strong contender for successfully combating cancer. They are a remarkable source of toxins, polysaccharides, tumor-specific anticancer genes, nanodrugs and gene-delivery vectors. One of the emerging key players in cancer therapy is bacteria. It has been demonstrated that traditional methods of altering the microbiome, such as antibiotics, probiotics and microbiota transplants, can sometimes increase the effectiveness of cancer therapies. However, problems with these methods, such as consistency and collateral damage to the commensal microbiota, spur the development of new technologies specifically aimed at the microbiome-cancer interface. In light of nanotechnology’s success in transforming cancer diagnostics and treatment, nanotechnologies with the capacity to control interactions that occur across microscopic and molecular length scales in the microbiome and the tumor microenvironment have the potential to provide innovative methods for cancer treatment. The relationship between nanotechnology, the microbiome and cancer offers tremendous potential. This paper highlights the contributions of significant bacterial groups to several anticancer research fields. [ABSTRACT FROM AUTHOR]

Published

2024

2. Carbon-based Nanomaterials as Multifunctional Particles for Cancer Diagnosis and Treatment.

Author

Ahmed, Naveed, Abusalah, Mai Abdel Haleem A., Absar, Muhammad, Noor, Muhammad Sajid, Bukhari, Bakhtawar, Anjum, Saira Ali, Singh, Kirnpal Kaur Banga, and Yean, Chan Yean

Subjects

*CARBON-based materials, *TARGETED drug delivery, *BIOMEDICAL engineering, *QUANTUM dots, *CANCER treatment

Abstract

Carbon-based nanomaterials (NMs) are a specific class of materials used in biomedical applications, such as the delivery of therapeutics, biomedical imaging, biosensors, tissue engineering, and genetic engineering. Carbon-based NMs are interesting tools with specific qualities, including strong mechanical structure, good conductivity, appealing visual qualities and great chemical versatility. Among these carbon-based NMs, graphene and carbon nanotubes (CNTs) are of great biological importance. In this paper, we discuss about graphene, CNTs, fullerene and carbon quantum dots (CQDs), the structure, properties, toxicity, mechanism of action and applications in cancer treatment and diagnosis. Graphene, fullerene, CNTs and CQDs are allotropic forms of carbon. The circle of biomedical engineering is increasing daily, and in recent years, carbon-based NMs have played a vital role as biomaterials. Carbon-based NMs attracted the attention of a wide range of researchers due to their multifunctional properties. In this paper, we discuss the function of carbon-based NMs in the detection and treatment of cancer and explore their role in controlling tumor-causing cells and damaging cancer-causing cells. If we use their derivatives as a source for cancer treatment and diagnosis, we can cease tumor growth to a tremendous level. [ABSTRACT FROM AUTHOR]

Published

2024

3. Prognostic Epstein-Barr Virus (EBV) miRNA biomarkers for survival outcome in EBV-associated epithelial malignancies: Systematic review and meta-analysis.

Author

Abusalah, Mai Abdel Haleem, Irekeola, Ahmad Adebayo, Hanim Shueb, Rafidah, Jarrar, Mu'taman, and Yean Yean, Chan

Subjects

*EPSTEIN-Barr virus, *SURVIVAL rate, *MICRORNA, *OVERALL survival, *META-analysis, *PROGNOSIS, *NASOPHARYNX cancer, *SURVIVAL analysis (Biometry)

Abstract

Background: The EBV-associated epithelial tumours consist 80% of all EBV-associated cancer, where the nasopharyngeal cancer (NPC) and EBV-associated gastric carcinoma (EBVaGC) are considered as the most frequent EBV-associated epithelial tumours. It has been shown that the BART-encoded miRNAs are abundantly expressed in EBV-associated epithelial tumours, hence, these miRNAs may serve as diagnostic and prognostic biomarkers for EBV-associated epithelial tumours. Therefore, the purpose of this systematic review and meta-analysis is to assess these EBV miRNAs as prognostic biomarkers for NPC and GC. Method: This systematic review was developed based on PRISMA guidelines and utilizing PubMed, Web of Science, Scopus, Cochrane, and Google scholar databases. The retrieved articles were thoroughly screened in accordance with the selection criteria. The hazard ratio (HR) and 95% confidence interval (CI) for patient survival outcomes were used to evaluate EBV miRNA expression levels. To assess the risk of bias, funnel plot symmetry and Egger's bias test were employed. Result: Eleven studies met the selection criteria for inclusion, and four were included in the meta-analysis. Most of the articles considered in this study were from China, with one study from South Korea. The overall pooled effect size estimation (HR) for upregulated EBV miRNAs was 3.168 (95% CI: 2.020–4.969), demonstrating that upregulated EBV miRNA expression enhanced the mortality risk in NPC and GC patients by three times. Conclusion: To the best of our knowledge, this is the first meta-analysis that investigates the significance of EBV miRNAs as prognostic biomarkers in NPC and GC patients. The pooled effect estimates of HR of the various studies revealed that higher EBV miRNA expression in NPC and GC may result in a worse survival outcome. To assess the clinical significance of EBV miRNAs as prognostic biomarkers, larger-scale prospective studies are needed. [ABSTRACT FROM AUTHOR]

Published

2022

4. Nucleic Acid-Based COVID-19 Therapy Targeting Cytokine Storms: Strategies to Quell the Storm.

Author

Abusalah, Mai Abdel Haleem, Khalifa, Moad, Al-Hatamleh, Mohammad A. I., Jarrar, Mu'taman, Mohamud, Rohimah, and Chan, Yean Yean

Subjects

*COVID-19, *CYTOKINE release syndrome, *COVID-19 treatment, *NUCLEIC acids, *SARS-CoV-2, *INFLAMMATORY mediators, *THERAPEUTICS, *VIRAL proteins

Abstract

Coronavirus disease 2019 (COVID-19) has shaken the world and triggered drastic changes in our lifestyle to control it. Despite the non-typical efforts, COVID-19 still thrives and plagues humanity worldwide. The unparalleled degree of infection has been met with an exceptional degree of research to counteract it. Many drugs and therapeutic technologies have been repurposed and discovered, but no groundbreaking antiviral agent has been introduced yet to eradicate COVID-19 and restore normalcy. As lethality is directly correlated with the severity of disease, hospitalized severe cases are of the greatest importance to reduce, especially the cytokine storm phenomenon. This severe inflammatory phenomenon characterized by elevated levels of inflammatory mediators can be targeted to relieve symptoms and save the infected patients. One of the promising therapeutic strategies to combat COVID-19 is nucleic acid-based therapeutic approaches, including microRNAs (miRNAs). This work is an up-to-date review aimed to comprehensively discuss the current nucleic acid-based therapeutics against COVID-19 and their mechanisms of action, taking into consideration the emerging SARS-CoV-2 variants of concern, as well as providing potential future directions. miRNAs can be used to run interference with the expression of viral proteins, while endogenous miRNAs can be targeted as well, offering a versatile platform to control SARS-CoV-2 infection. By targeting these miRNAs, the COVID-19-induced cytokine storm can be suppressed. Therefore, nucleic acid-based therapeutics (miRNAs included) have a latent ability to break the COVID-19 infection in general and quell the cytokine storm in particular. [ABSTRACT FROM AUTHOR]

Published

2022

5. Nanovaccines: A game changing approach in the fight against infectious diseases.

Author

Priyanka, Abusalah, Mai Abdel Haleem, Chopra, Hitesh, Sharma, Abhilasha, Mustafa, Suhad Asad, Choudhary, Om Prakash, Sharma, Manish, Dhawan, Manish, Khosla, Rajiv, Loshali, Aanchal, Sundriyal, Ankush, and Saini, Jyoti

Subjects

*COMMUNICABLE diseases, *TRANSMISSIBLE tumors, *RETICULO-endothelial system, *VIRUS-like particles, *SURFACE charges

Abstract

The field of nanotechnology has revolutionised global attempts to prevent, treat, and eradicate infectious diseases in the foreseen future. Nanovaccines have proven to be a valuable pawn in this novel technology. Nanovaccines are made up of nanoparticles that are associated with or prepared with components that can stimulate the host's immune system. In addition to their delivery capabilities, the nanocarriers have been demonstrated to possess intrinsic adjuvant properties, working as immune cell stimulators. Thus, nanovaccines have the potential to promote rapid as well as long-lasting humoral and cellular immunity. The nanovaccines have several possible benefits, including site-specific antigen delivery, increased antigen bioavailability, and a diminished adverse effect profile. To avail these benefits, several nanoparticle-based vaccines are being developed, including virus-like particles, liposomes, polymeric nanoparticles, nanogels, lipid nanoparticles, emulsion vaccines, exomes, and inorganic nanoparticles. Inspired by their distinctive properties, researchers are working on the development of nanovaccines for a variety of applications, such as cancer immunotherapy and infectious diseases. Although a few challenges still need to be overcome, such as modulation of the nanoparticle pharmacokinetics to avoid rapid elimination from the bloodstream by the reticuloendothelial system, The future prospects of this technology are also assuring, with multiple options such as personalised vaccines, needle-free formulations, and combination nanovaccines with several promising candidates. [Display omitted] • Nanovaccines made up of nanoscale-based particles stimulate the immune system. • They exhibit site-specific antigen delivery and increased antigen bioavailability. • Nanovaccines' size, surface charge, and shape influence immune-regulation. • B-cell clonal bursts are implicated to construct better-engineered nanovaccines. • VLP, LNP, liposomes, nanogels etc., have been used against infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Epigenesis of Salivary Glands Carcinoma: From Field Cancerization to Carcinogenesis.

Author

Mat Lazim, Norhafiza, Yousaf, Anam, Abusalah, Mai Abdel Haleem, Sulong, Sarina, Mohd Ismail, Zul Izhar, Mohamud, Rohimah, Abu-Harirah, Hashem A., AlRamadneh, Tareq Nayef, Hassan, Rosline, and Abdullah, Baharudin

Subjects

*RNA metabolism, *SALIVARY gland tumors, *DISEASE progression, *BIOMARKERS, *DNA methylation, *GENE expression, *CELL cycle, *HISTONES, *EPIGENOMICS

Abstract

Simple Summary: Salivary glands carcinoma are prevalent in head and neck surgical oncology practice. The treatment is challenging due to late diagnosis and high recurrence risk. The epigenetic event is one of the most important etiologies known for this cancer. At present, numerous pathways and epigenetic alteration has been identified. This epigenetic event may serve as a novel avenue for the development of effective diagnostic and therapeutic agents at near future. This will enhance the management of this type of cancer. In this review, we discuss the main epigenetic events in salivary gland carcinogenesis and highlight their roles in the prognostication and refined management of this cancer. Salivary gland carcinomas (SGCs) are a diverse collection of malignant tumors with marked differences in biological activity, clinical presentation and microscopic appearance. Although the etiology is varied, secondary radiation, oncogenic viruses as well as chromosomal rearrangements have all been linked to the formation of SGCs. Epigenetic modifications may also contribute to the genesis and progression of SGCs. Epigenetic modifications are any heritable changes in gene expression that are not caused by changes in DNA sequence. It is now widely accepted that epigenetics plays an important role in SGCs development. A basic epigenetic process that has been linked to a variety of pathological as well as physiological conditions including cancer formation, is DNA methylation. Transcriptional repression is caused by CpG islands hypermethylation at gene promoters, whereas hypomethylation causes overexpression of a gene. Epigenetic changes in SGCs have been identified, and they have been linked to the genesis, progression as well as prognosis of these neoplasms. Thus, we conduct a thorough evaluation of the currently known evidence on the involvement of epigenetic processes in SGCs. [ABSTRACT FROM AUTHOR]

Published

2023

7. Design of InnoPrimers-Duplex Real-Time PCR for Detection and Treatment Response Prediction of EBV-Associated Nasopharyngeal Carcinoma Circulating Genetic Biomarker.

Author

Abusalah, Mai Abdel Haleem, Binti Hassan, Siti Asma, Mat Lazim, Norhafiza, Abdullah, Baharudin, Binti Wan Sohaimi, Wan Fatihah, Husin, Azlan, Cheng, Kueh Yee, and Yean, Chan Yean

Subjects

*NASOPHARYNX cancer, *MEDICAL personnel, *TREATMENT effectiveness, *SENSITIVITY & specificity (Statistics), *BIOMARKERS

Abstract

Nasopharyngeal carcinoma (NPC) is an epithelial tumor with high prevalence in southern China and Southeast Asia. NPC is well associated with the Epstein-Barr virus (EBV) latent membrane protein 1 (LMP1) 30 bp deletion by having its vital role in increased tumorigenicity and decreased immune recognition of EBV-related tumors. This study developed an InnoPrimers-duplex qPCR for detection of NPC blood circulating LMP1 30 bp deletion genetic biomarker for early diagnosis and treatment response prediction of NPC patients. The analytical and diagnostic evaluation and treatment response prediction were conducted using NPC patients' whole blood (WB) and tissue samples and non-NPC cancer patients and healthy individuals' WB samples. The assay was able to detect as low as 20 ag DNA per reaction (equivalent to 173 copies) with high specificity against broad reference microorganisms and archive NPC biopsy tissue and FNA samples. The diagnostic sensitivity and specificity were 83.3% and 100%, respectively. The 30 bp deletion genetic biomarker was found to be a good prognostic biomarker associated with overall clinical outcome of NPC WHO type III patients. This sensitive and specific assay can help clinicians in early diagnosis and treatment response prediction of NPC patients, which will enhance treatment outcome and lead to better life-saving. [ABSTRACT FROM AUTHOR]

Published

2021