Your search keyword '"Hamzah H. Ahmed"' showing total 5 results

1. Descaling psoriasis narratives on TikTok: A cross-sectional study.

Author

Ahmed H

Subjects

Humans, Cross-Sectional Studies, Female, Male, Adult, Middle Aged, Narration, Psoriasis psychology

Published

2024

2. Macrophage activation in response to shape memory polymer foam-coated aneurysm occlusion devices.

Author

Chau SM, Herting SM, Noltensmeyer DA, Ahmed H, Maitland DJ, and Raghavan S

Subjects

Animals, Blood Vessel Prosthesis, Macrophage Activation, Platinum, Rabbits, Embolization, Therapeutic, Intracranial Aneurysm surgery, Smart Materials

Abstract

Brain aneurysms can be treated with embolic coils using minimally invasive approaches. It is advantageous to modulate the biologic response of platinum embolic coils. Our previous studies demonstrated that shape memory polymer (SMP) foam coated embolization coils (FCC) devices demonstrate enhanced healing responses in animal models compared with standard bare platinum coil (BPC) devices. Macrophages are the most prevalent immune cell type that coordinate the greater immune response to implanted materials. Hence, we hypothesized that the highly porous SMP foam coatings on embolic coils activate a pro-regenerative healing phenotype. To test this hypothesis, we analyzed the number and type of infiltrating macrophages in FCC or BPC devices implanted in a rabbit elastase aneurysm model. FCC devices elicited a great number of infiltration macrophages, skewed significantly to a pro-regenerative M2-like phenotype 90 days following implantation. We devised an in vitro assay, where monocyte-derived macrophages were placed in close association with FCC or BPC devices for 6-72 h. Macrophages encountering SMP FCC-devices demonstrated highly mixed activation phenotypes at 6 h, heavily skewing toward an M2-like phenotype by 72 h, compared with macrophages encountering BPC devices. Macrophage activation was evaluated using gene expression analysis, and secreted cytokine evaluation. Together, our results demonstrate that FCC devices promoted a pro-regenerative macrophage activation phenotype, compared with BPC devices. Our in vitro findings corroborate with in vivo observations that SMP-based modification of embolic coils can promote better healing of the aneurysm site, by sustaining a pro-healing macrophage phenotype., (© 2022 Wiley Periodicals LLC.)

Published

2022

3. A retrospective analysis of hospitalisation for diseases of the pulp and periapical tissues in NHS Grampian 2011-2015: geographic, socioeconomic and increased primary care availability effects.

Author

Anderson W and Ahmed H

Subjects

Hospitalization, Humans, Primary Health Care, Retrospective Studies, Scotland, Socioeconomic Factors, Periapical Tissue, State Medicine

Abstract

Objectives A study of hospital admissions for diseases of pulp and periapical tissues in NHS Grampian and the effects of socioeconomic, geographic location and primary dental care availability on hospital admissions.Design Retrospective analysis of hospitalisation data from NHS Grampian Health Intelligence database for the five-year period (1 January 2011 to 31 December 2015), if their primary diagnosis was disease of the pulp or periapical tissues. The influence of the Scottish Index of Multiple Deprivation (SIMD) scores on hospital admissions for pulp or periapical diseases were assessed and compared. Data from general dental practitioners (GDPs) providing primary care were obtained from the National Services Scotland practitioner services board.Results There were 963 admissions to NHS Grampian hospitals over the five-year period. The most frequent hospitalisation admission code was K047 'periapical abscess without sinus', accounting for 59.3% of all admissions. Hospital admissions decreased from 185 in 2011 to 122 in 2015, and coincided with a 50% rise in the number of GDPs providing primary care dentistry within the region (171 in 2011 to 256 in 2015). SIMD 5 (least deprived) had the greatest number of admissions (68) in 2011 compared with the most deprived (11). In 2015, SIMD 4 had the most admissions (41) compared to SIMD 1 (12).Conclusion A reduction in hospital admissions for pulp/periapical abscesses appears to coincide with an increase in GDPs providing primary care dental services. Barriers to providing dental treatment in primary care should be minimised to reduce the burden of care on NHS hospitals for preventable dental diseases such as periapical abscesses.

Published

2019

4. Powder Compression Properties of Paracetamol, Paracetamol Hydrochloride, and Paracetamol Cocrystals and Coformers.

Author

Persson AS, Ahmed H, Velaga S, and Alderborn G

Subjects

Crystallization, Elasticity, Oxalic Acid chemistry, Porosity, Powders, Pressure, Pyridines chemistry, Tablets, Acetaminophen chemistry, Analgesics, Non-Narcotic chemistry, Tensile Strength

Abstract

The objective was to study the relationship between crystal structure, particle deformation properties, and tablet-forming ability for the monoclinic form of paracetamol (PRA), 2 cocrystals and a salt crystal of PRA in addition to 2 coformers (oxalic acid and 4,4'-bipyridine). Thus, the structure-property-performance relationship was investigated. Analytical powder compression was used for determination of effective plasticity, as inferred from the Heckel yield pressure and the Frenning parameter, and the elastic deformation was determined from in-die tablet elastic recovery. The plasticity could not be linked to the crystal lattice structure as crystals containing zig-zag layers displayed similar plasticity as crystals containing slip planes. In addition, crystals containing slip planes displayed both high and low plasticity. The mechanical properties could not be linked to the tablet-forming ability as the tablet tensile strength, unexpectedly, displayed a tendency to reduce with increased plasticity. Furthermore, the elastic deformation could not explain the tablet-forming ability. It was concluded that no relationship between structure-property-performance for PRA and its cocrystals and salt could be established. Thus, it was indicated that to establish such a relationship, an improved knowledge of crystallographic structure and interparticle bonding during compaction is needed., (Copyright © 2018 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2018

5. Relationship between mechanical properties and crystal structure in cocrystals and salt of paracetamol.

Author

Ahmed H, Shimpi MR, and Velaga SP

Subjects

Chemistry, Pharmaceutical, Crystallization, Molecular Structure, X-Ray Diffraction, Acetaminophen chemistry, Analgesics, Non-Narcotic chemistry, Hydrochloric Acid chemistry, Oxalic Acid chemistry, Stress, Mechanical

Abstract

Objectives were to study mechanical properties of various solid forms of paracetamol and relate to their crystal structures. Paracetamol form I (PRA), its cocrystals with oxalic acid (PRA-OXA) and 4,4-bipyridine (PRA-BPY) and hydrochloride salt (PRA-HCL) were selected. Cocrystals and salt were scaled-up using rational crystallization methods. The resulting materials were subjected to different solid-state characterizations. The powders were sieved and 90-360 µm sieve fraction was considered. These powders were examined by scanning electron microscopy (SEM) and densities were determined. Tablets were made at applied pressures of 35-180 MPa under controlled conditions and the tablet height, diameter and hardness were measured. Tensile strength and porosity of the tablets were estimated using well known models. Crystal structures of these systems were visualized and slip planes were identified. Cocrystal and salt of PRA were physically pure. Sieved powders had comparable morphologies and particle size. The apparent and theoretical densities of powders were similar, but no clear trends were observed. The tensile strengths of these compacts were increased with increasing pressure whereas tabletability decreased in the order oxalic acid > PRA-HCL ≈ PRA-OXA > BPY > PRA-BPY. Tablet tensile strength decreases exponentially with increasing porosity with the exception of PRY-BPY and BPY. Slip plane prediction based on attachment energies may not be independently considered. However, it was possible to explain the improved mechanical properties of powders based on the crystal structure. Cocrystallization and salt formation have introduced structural features that are responsible for improved tableting properties of PRA.

Published

2017