Your search keyword '"Fatimah Mohd Nor"' showing total 4 results

1. A Prospective Multicenter Randomized Controlled Trial to Evaluate the Efficacy of Chitosan Hydrogel Paste in Comparison to Commercial Hydroactive Gel as a Wound Bed Preparation

Author

Nur Azida Mohd Nasir, Arman Zaharil Mat Saad, Nor Sa'adah Bachok, Ahmad Hazri Ab Rashid, Zanariah Ujang, Kartini Noorsal, Norimah Yusof, Kamaruddin Hashim, Fatimah Mohd Nor, Farrah-Hani Imran, Nazri Mohd Yusof, Mohd Ariff Sharifudin, and Ahmad Sukari Halim

Subjects

chitosan dressing, full-thickness wound, cavity wounds, granulation, Surgery, RD1-811

Abstract

Background This clinical trial aimed to evaluate the clinical efficacy of chitosan derivative hydrogel paste (CDHP) as a wound bed preparation for wounds with cavities. Methods This study enrolled 287 patients, with 143 patients randomized into the CDHP group (treatment) and 144 patients randomized into the commercial hydroactive gel (CHG) group (control). The granulation tissue, necrotic tissue, patient comfort, clinical signs, symptoms, and patient convenience during the application and removal of the dressing were assessed. Results The study was completed by 111 and 105 patients from the treatment and control groups, respectively. Both groups showed an increasing mean percentage of wound granulation over time when the initial wound size and comorbidity were adjusted (F(10,198) = 4.61; p

Published

2023

2. Fabrication of Adipose-Derived Stem Cell-Based Self-Assembled Scaffold under Hypoxia and Mechanical Stimulation for Urethral Tissue Engineering

Author

Zahra Rashidbenam, Mohd Hafidzul Jasman, Guan Hee Tan, Eng Hong Goh, Xeng Inn Fam, Christopher Chee Kong Ho, Zulkifli Md Zainuddin, Reynu Rajan, Rizal Abdul Rani, Fatimah Mohd Nor, Mohamad Aznan Shuhaili, Nik Ritza Kosai, Farrah Hani Imran, and Min Hwei Ng

Subjects

adipose-derived stem cell, self-assembled scaffold, extracellular matrix, hypoxic condition, tissue engineering, autologous urethral graft, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Long urethral strictures are often treated with autologous genital skin and buccal mucosa grafts; however, risk of hair ingrowth and donor site morbidity, restrict their application. To overcome this, we introduced a tissue-engineered human urethra comprising adipose-derived stem cell (ASC)-based self-assembled scaffold, human urothelial cells (UCs) and smooth muscle cells (SMCs). ASCs were cultured with ascorbic acid to stimulate extracellular matrix (ECM) production. The scaffold (ECM) was stained with collagen type-I antibody and the thickness was measured under a confocal microscope. Results showed that the thickest scaffold (28.06 ± 0.59 μm) was achieved with 3 × 104 cells/cm2 seeding density, 100 μg/mL ascorbic acid concentration under hypoxic and dynamic culture condition. The biocompatibility assessment showed that UCs and SMCs seeded on the scaffold could proliferate and maintain the expression of their markers (CK7, CK20, UPIa, and UPII) and (α-SMA, MHC and Smootheline), respectively, after 14 days of in vitro culture. ECM gene expression analysis showed that the ASC and dermal fibroblast-based scaffolds (control) were comparable. The ASC-based scaffold can be handled and removed from the plate. This suggests that multiple layers of scaffold can be stacked to form the urothelium (seeded with UCs), submucosal layer (ASCs only), and smooth muscle layer (seeded with SMCs) and has the potential to be developed into a fully functional human urethra for urethral reconstructive surgeries.

Published

2021

3. Fabrication of Adipose-Derived Stem Cell-Based Self-Assembled Scaffold under Hypoxia and Mechanical Stimulation for Urethral Tissue Engineering

Author

Farrah Hani Imran, Reynu Rajan, Zulkifli Md Zainuddin, Mohamad Aznan Shuhaili, Zahra Rashidbenam, Guan Hee Tan, Eng Hong Goh, Rizal Abdul Rani, Fatimah Mohd Nor, Min Hwei Ng, Mohd Hafidzul Jasman, Xeng Inn Fam, Christopher Chee Kong Ho, and Nik Ritza Kosai

Subjects

0301 basic medicine, Proteomics, Scaffold, Biocompatible Materials, Ascorbic Acid, Extracellular matrix, lcsh:Chemistry, 0302 clinical medicine, Tissue engineering, Adipocytes, lcsh:QH301-705.5, Spectroscopy, adipose-derived stem cell, Microscopy, Confocal, integumentary system, Tissue Scaffolds, Chemistry, self-assembled scaffold, Stem Cells, Smooth muscle layer, General Medicine, Cell Hypoxia, Computer Science Applications, Cell biology, surgical procedures, operative, Phenotype, 030220 oncology & carcinogenesis, tissue engineering, Stem cell, extracellular matrix, Myocytes, Smooth Muscle, hypoxic condition, allogeneic urethral graft, Catalysis, Article, Inorganic Chemistry, Dermal fibroblast, 03 medical and health sciences, urethral reconstruction, stomatognathic system, Urethra, Humans, Physical and Theoretical Chemistry, Urothelium, Molecular Biology, Gene Expression Profiling, Organic Chemistry, Fibroblasts, Ascorbic acid, Culture Media, stomatognathic diseases, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, autologous urethral graft

Abstract

Long urethral strictures are often treated with autologous genital skin and buccal mucosa grafts, however, risk of hair ingrowth and donor site morbidity, restrict their application. To overcome this, we introduced a tissue-engineered human urethra comprising adipose-derived stem cell (ASC)-based self-assembled scaffold, human urothelial cells (UCs) and smooth muscle cells (SMCs). ASCs were cultured with ascorbic acid to stimulate extracellular matrix (ECM) production. The scaffold (ECM) was stained with collagen type-I antibody and the thickness was measured under a confocal microscope. Results showed that the thickest scaffold (28.06 ± 0.59 μm) was achieved with 3 × 104 cells/cm2 seeding density, 100 μg/mL ascorbic acid concentration under hypoxic and dynamic culture condition. The biocompatibility assessment showed that UCs and SMCs seeded on the scaffold could proliferate and maintain the expression of their markers (CK7, CK20, UPIa, and UPII) and (α-SMA, MHC and Smootheline), respectively, after 14 days of in vitro culture. ECM gene expression analysis showed that the ASC and dermal fibroblast-based scaffolds (control) were comparable. The ASC-based scaffold can be handled and removed from the plate. This suggests that multiple layers of scaffold can be stacked to form the urothelium (seeded with UCs), submucosal layer (ASCs only), and smooth muscle layer (seeded with SMCs) and has the potential to be developed into a fully functional human urethra for urethral reconstructive surgeries.

Published

2021

4. Dual-Layered Approach of Ovine Collagen-Gelatin/Cellulose Hybrid Biomatrix Containing Graphene Oxide-Silver Nanoparticles for Cutaneous Wound Healing: Fabrication, Physicochemical, Cytotoxicity and Antibacterial Characterisation.

Author

Salleh, Atiqah, Mustafa, Norlaila, Teow, Yeit Haan, Fatimah, Mohd Nor, Khairudin, Fauzul Azim, Ahmad, Ishak, and Fauzi, Mh Busra

Subjects

WOUND healing, SKIN injuries, NANOPARTICLES, GRAPHENE, WATER vapor

Abstract

Tissue engineering products have grown rapidly as an alternative solution available for chronic wound and burn treatment. However, some drawbacks include additional procedures and a lack of antibacterial properties that can impair wound healing, which are issues that need to be tackled effectively for better wound recovery. This study aimed to develop a functionalized dual-layered hybrid biomatrix composed of collagen sponge (bottom layer) to facilitate cell proliferation and adhesion and gelatin/cellulose hydrogel (outer layer) incorporated with graphene oxide and silver nanoparticles (GC-GO/AgNP) to prevent possible external infections post-implantation. The bilayer hybrid scaffold was crosslinked with 0.1% (w/v) genipin for 6 h followed by advanced freeze-drying technology. Various characterisation parameters were employed to investigate the microstructure, biodegradability, surface wettability, nanoparticles antibacterial activity, mechanical strength, and biocompatibility of the bilayer bioscaffold towards human skin cells. The bilayer bioscaffold exhibited favourable results for wound healing applications as it demonstrated good water uptake (1702.12 ± 161.11%), slow rate of biodegradation (0.13 ± 0.12 mg/h), and reasonable water vapour transmission rate (800.00 ± 65.85 gm−2 h−1) due to its porosity (84.83 ± 4.48%). The biomatrix was also found to possess hydrophobic properties (48.97 ± 3.68°), ideal for cell attachment and high mechanical strength. Moreover, the hybrid GO-AgNP promoted antibacterial properties via the disk diffusion method. Finally, biomatrix unravelled good cellular compatibility with human dermal fibroblasts (>90%). Therefore, the fabricated bilayer scaffold could be a potential candidate for skin wound healing application. [ABSTRACT FROM AUTHOR]

Published

2022