5 results on '"Aswin, Ahmad"'
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2. A REVIEW ON LABORATORY PROCEDURES MANUAL AND MEDICAL APPLICATION OF STEM CELL ON DEGENERATIVE DISEASES:AN OPTIMIZATION AND COMPARATIVE STUDY.
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Setyawan, Muhamad Frendy, Muhammad Ansori, Arif Nur, Dela Cruz, Mark Vincent P., Aswin, Ahmad, and Nugraha, Alexander Patera
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STEM cells ,DEGENERATION (Pathology) ,REGENERATIVE medicine ,COLLAGENASES ,CELLULAR therapy - Abstract
Stem cell therapy has become a frontier in medical practice. It led to the conception of regenerative medicine that utilizes cell-based approaches in the treatment and management of degenerative diseases such as type 1 diabetes mellitus, Parkinson’s disease, and cardiac-related diseases. Known for being undifferentiated and for their regenerative capacities, stem cells can help promote cell replacement in organs that are damaged beyond their ability to self-repair. A plethora of strong proofs of their potentials has led to numerous studies on isolation techniques–enzymatic and non-enzymatic approaches. This review compares enzymatic approaches in stem cell isolation, specifically on the use of trypsin and collagenases, and also as part of basic laboratory manual procedures. Non-enzymatic approaches such as ultrasonic cavitation method is briefly discussed. Moreover, current applications of stem cells on terminally differentiated organs in the body and their challenges in the clinical setting are also discussed. [ABSTRACT FROM AUTHOR]
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- 2020
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3. Protein characterization of an Indonesian isolate of foot and mouth disease virus inactivated with formaldehyde and binary ethylenimine.
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Kurniawan, Yudha, Tyasningsih, Wiwiek, Rahmahani, Jola, Puspitasari, Yulianna, Kusnoto, Kusnoto, Azzahra, Fadia, Tobing, Talenta Miracle, Aswin, Ahmad, Diyantoro, Diyantoro, Maulana, Firdausy Kurnia, Susilowati, Helen, Kuncorojakti, Suryo, and Rantam, Fedik Abdul
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FOOT & mouth disease virus , *VIRAL proteins , *COMMUNICABLE diseases , *FOOT & mouth disease , *VIRUS inactivation - Abstract
Background and Aim: Foot-and-mouth disease (FMD) is a highly contagious viral disease of cloven-footed animals. It is a major threat to livestock production worldwide, causing significant economic losses. Inactivation of FMD virus (FMDV) is crucial for vaccine development and control of outbreaks. However, traditional inactivation methods can sometimes damage the viral protein, affecting vaccine efficacy. Therefore, finding new inactivating agents that effectively inactivate the virus while preserving the integrity of its proteins is an important research area. This study investigated the optimal materials (0.04% formaldehyde, 0.001 M binary ethylenimine [BEI], or a combination) for inactivating and preserving the specific molecular weight of Serotype O FMDV protein. Materials and Methods: This study used serotype O FMDV isolated from several areas of East Java. The virus was inoculated into baby hamster kidney-21 cells, and the titer was calculated using the TCID50 Assay. The virus was inactivated using 0.04% formaldehyde, 0.001 M BEI, or a combination of 0.04% formaldehyde and 0.001 M BEI. Inactive viral proteins were characterized using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and western blotting. Results: Serotype O FMDV can be inactivated using 0.04% formaldehyde while preserving specific FMDV proteins, specifically VP0 and VP3 with a molecular weight (MW) of 36 kDa and VP3 with a MW of 24 kDa. Serotype O FMDV can be inactivated by 0.001 M BEI while preserving specific FMDV proteins, specifically VP0 with a MW of 35 kDa, VP3 with a MW of 28 kDa, and VP1 with a MW of 23 kDa. FMDV serotype O can be inactivated using a combination of 0.04% formaldehyde and 0.001 M BEI while preserving specific FMDV proteins, specifically VP0 and VP3 with a MW of 36 kDa and VP3 with a MW of 24 kDa. Conclusion: This study found that 0.04% formaldehyde, alone or in combination with 0.001 M BEI, was effective for inactivating and preserving the specific molecular weight of Serotype O FMDV protein. The limitation of this study was the inactivations of the virus have not yet been tested for their potency on experimental animals. Further research is warranted to investigate the inactivation kinetics of these materials, including their potency on experimental animals. Additionally, a comparison of the inactivation rates between 0.04% formaldehyde alone and the combination with BEI would help to determine the optimal inactivation agent for future applications. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Inactivation of an Indonesian isolate of foot-and-mouth disease virus using formaldehyde.
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Tobing, Talenta Miracle, Rantam, Fedik Abdul, Widiyatno, Thomas Valentinus, Tacharina, Martia Rani, Rahmahani, Jola, Triakoso, Nusdianto, Kuncorojakti, Suryo, Puspitasari, Heni, Susilowati, Helen, Diyantoro, Diyantoro, Azzahra, Fadia, Kurniawan, Yudha, Aswin, Ahmad, and Susila, Edy Budi
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FOOT & mouth disease , *VIRUS diseases , *COMMUNICABLE diseases , *FORMALDEHYDE , *TISSUE culture , *ECONOMIC impact - Abstract
Background and Aim: Foot-and-mouth disease (FMD) is a highly contagious viral disease that endangers livestock and the environment with significant economic consequences. This study aimed to validate the inactivation of the Indonesian isolate of foot-and-mouth disease virus (FMDV) with various formaldehyde concentration. Materials and Methods: The experiment started with FMDV being adapted on BHK-21 cells until cytopathic effects (CPE) appeared. The biological titer of the virus was determined using the 50% tissue culture infectious dose (TCID50) assay. The virus was inactivated by exposing the isolate to different formaldehyde (FA) concentrations (0.025%, 0.05%, 0.1%, and 0.2%) at 37 °C for 24 h, and residual infectivity was assessed using CPE scoring of reinoculated BHK-21 cells. Results: 72 h post-inoculation, the virulence of the FMDV isolate was indicated by complete CPE on BHK-21 monolayer cells, with a TCID50 value of 109/mL; CPE scoring did not signify significant differences (p < 0.05) among 0.025%, 0.05%, 0.1%, 0.2% FA, and the negative control. All treatment groups showed significant differences (p < 0.05) from the positive control (C+). FA concentrations inactivated the FMDV isolate under the given conditions. 0.025% and 0.05% FA continued to display CPE through the third passage, while 0.2% FA did not significantly differ from 0.1% FA (p > 0.05). 0.1% FA is the optimal concentration for safely and effectively inactivating FMDV. Conclusion: All of the formaldehyde concentrations can completely inactivate the FMDV isolate, with the most optimal and safe concentration being 0.1%. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Acceleration of wound healing using adipose mesenchymal stem cell secretome hydrogel on partial-thickness cutaneous thermal burn wounds: An in vivo study in rats.
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Kuncorojakti S, Pratama AZA, Antujala CA, Harijanto CTB, Arsy RK, Kurniawan PA, Tjahjono Y, Hendriati L, Widodo T, Aswin A, Diyantoro D, Wijaya AY, Rodprasert W, and Susilowati H
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Background and Aim: The intricate healing process involves distinct sequential and overlapping phases in thermal injury. To maintain the zone of stasis in Jackson's burn wound model, proper wound intervention is essential. The extent of research on the histoarchitecture of thermal wound healing and the application of mesenchymal stem cell (MSC)-free-based therapy is limited. This study aimed to assess the efficacy of MSC-secretome-based hydrogel for treating partial-thickness cutaneous thermal burn wounds., Materials and Methods: Eighteen male Wistar rats were divided into three groups, namely the hydrogel base (10 mg), hydrogel secretome (10 mg) and Bioplacenton™ (10 mg) treatment groups. All groups were treated twice a day (morning and evening) for 7 days. Skin tissue samples from the animals were processed for histological evaluation using the formalin-fixed paraffin-embedded method on days 3 and 7., Results: This study's findings showed that secretome hydrogel expedited thermal burn wound healing, decreasing residual burn area, boosting collagen deposition and angiogenesis, guiding scar formation, and influencing the inflammation response facilitated by polymorphonuclear leukocytes and macrophages., Conclusion: The secretome hydrogel significantly improves healing outcomes in partial-thickness cutaneous thermal burn wounds. The administration of secretome hydrogel accelerates the reduction of the residual burn area and promotes fibroblast proliferation and collagen density. The repairment of histo-architecture of the damaged tissue was also observed such as the reduction of burn depth, increased angiogenesis and epidermal scar index while the decreased dermal scar index. Furthermore, the secretome hydrogel can modulate the immunocompetent cells by decreasing the polymorphonuclear and increasing the mononuclear cells. Thus, it effectively and safely substitutes for thermal injury stem cell-free therapeutic approaches. The study focuses on the microscopical evaluation of secretome hydrogel; further research to investigate at the molecular level may be useful in predicting the beneficial effect of secretome hydrogel in accelerating wound healing., Competing Interests: The authors declare that they have no competing interests., (Copyright: © Kuncorojakti, et al.)
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- 2024
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