31 research outputs found
Bio-Fabrication of Human Amniotic Membrane Zinc Oxide Nanoparticles and the Wet/Dry HAM Dressing Membrane for Wound Healing
Publication history: Accepted - 25 June 2021; Published online - 28 July 2021.The preparation of unique wet and dry wound dressing products derived from
unprocessed human amniotic membrane (UP-HAM) is described. The UP-HAM was
decellularized, and the constituent proteins were cross-linked and stabilized before
being trimmed and packed in sterile Nucril-coated laminated aluminium foil pouches
with isopropyl alcohol to manufacture processed wet human amniotic membrane (PWHAM). The dry type of PD-HAM was prepared by decellularizing the membrane, UV
irradiating it, lyophilizing/freeze-drying it, sterilizing it, and storing it at room temperature.
The UP-HAM consists of a translucent yellowish mass of flexible membranes with an
average thickness of 42 µm. PW-HAM wound dressings that had been processed,
decellularized, and dehydrated had a thinner average thickness of 30 µm and lacked
nuclear-cellular structures. Following successful decellularization, discrete bundle of
fibrous components in the stromal spongy layers, microvilli and reticular ridges were
still evident on the surface of the processed HAM, possibly representing the location of
the cells that had been removed by the decellularization process. Both wet and dry HAM
wound dressings are durable, portable, have a shelf life of 3–5 years, and are available
all year. A slice of HAM dressing costs 1.0 US/cm2
. Automation and large-scale
HAM membrane preparation, as well as storage and transportation of the dressings,
can all help to establish advanced technologies, improve the efficiency of membrane
production, and reduce costs. Successful treatment of wounds to the cornea of the
eye was achieved with the application of the HAM wound dressings. The HAM protein
analysis revealed 360 µg proteins per gram of tissue, divided into three main fractions
with MWs of 100 kDa, 70 kDa, and 14 kDa, as well as seven minor proteins, with the
14 kDa protein displaying antibacterial properties against human pathogenic bacteria.
Frontiers in Bioengineering and Biotechnology | www.frontiersin.org 1 July 2021 | Volume 9 | Article 695710
fbioe-09-695710 July 22, 2021 Time: 16:39 # 2
Ramasamy et al. HAMP-ZnO Nanoparticles HAM Wound Dressing
Wet and dry wound dressings were
produced. HAM proteins were
purified and analysed. The zinc
oxide nanoparticles (HAMP-ZnO
NP) made from HAM proteins
were characterised and tested for
their antibacterial activity.
Wounds to the cornea of the eye
healed easily when treated with
HAM wound dressings.
Fresh human Amniotic
membrane, Serological
screening, selection of
disease-free HAM, reome
stromal layer, preparation of
HAM.
UNPROCESSED HAM
Cuboidal epithelial cells, basement
membrane, compact layer, stromal
and spongy layers containing
scatted fibroblast cells are visible in
hsitological analysis.
The flow chart depicts the
methods for processing, and
preparation of wet (PWHAM) and dry (PD-HAM)
wound healing dressings.
HAM proteins, Nanoparticle
synthesis (HAMP-ZnO NP) and
analysis.
Antibacterial analysis show
Inhibition of growth and biofilm
formation of pathogenic bacteria .
Processed HAM
lacked a nuclear-cellular
epithelium, but it did have a
distinct fibrous elements in
basement membrane, stromal
and spongy layers.
Processed PW-HAM (Light
&SEM) showed smooth
epithelial surface topography
with microvilli,.
HAM dressing, wet/dry, packed,
labelled, sterilised and processed. They
are durable, portable, have long
shelf life . A slice of HAM dressing
costs US 1.0 / cm² . The wound
dressings are ready to be applied.
The dermal wounds and conjunctival
surface can be successfully repaired
using processed HAM wound dressings
GRAPHICAL ABSTRACT | Flow chart depicting the methods, preparing, and characterizing, by histological, and scanning electron microscopy, of wet (PW-HAM)
and dry (PD-HAM)of wound healing dressing, and preparation of nanoparticles (HAMP ZnO NP); and application of HAM wound dressing.
A wide range of antibacterial activity was observed after treatment with 75 µg/ml zinc
oxide nanoparticles derived from human amniotic membrane proteins (HAMP-ZnO NP),
including dose-dependent biofilm inhibition and inhibition of Gram-positive (S. aureus,
S. mutans, E. faecalis, and L. fusiformis) and Gram-negative bacteria (S. sonnei, P.
aeruginosa, P. vulgaris, and C. freundii).PR has acknowledged Sree Balaji Medical College and Hospital for providing the article processing charges of the journal, and moral and technical support. The support of Cologenesis Health Care Pvt. Ltd. for a study on “Human amniotic membrane for ocular and dermal applications” is sincerely appreciated
Improved diagnosis by automated macro‐ and micro‐anatomical region mapping of skin photographs
Background: The exact location of skin lesions is key in clinical dermatology. On one hand, it supports differential diagnosis (DD) since most skin conditions have specific predilection sites. On the other hand, location matters for dermatosurgical interventions. In practice, lesion evaluation is not well standardized and anatomical descriptions vary or lack altogether. Automated determination of anatomical location could benefit both situations.
Objective: Establish an automated method to determine anatomical regions in clinical patient pictures and evaluate the gain in DD performance of a deep learning model (DLM) when trained with lesion locations and images.
Methods: Retrospective study based on three datasets: macro-anatomy for the main body regions with 6000 patient pictures partially labelled by a student, micro-anatomy for the ear region with 182 pictures labelled by a student and DD with 3347 pictures of 16 diseases determined by dermatologists in clinical settings. For each dataset, a DLM was trained and evaluated on an independent test set. The primary outcome measures were the precision and sensitivity with 95% CI. For DD, we compared the performance of a DLM trained with lesion pictures only with a DLM trained with both pictures and locations.
Results: The average precision and sensitivity were 85% (CI 84-86), 84% (CI 83-85) for macro-anatomy, 81% (CI 80-83), 80% (CI 77-83) for micro-anatomy and 82% (CI 78-85), 81% (CI 77-84) for DD. We observed an improvement in DD performance of 6% (McNemar test P-value 0.0009) for both average precision and sensitivity when training with both lesion pictures and locations.
Conclusion: Including location can be beneficial for DD DLM performance. The proposed method can generate body region maps from patient pictures and even reach surgery relevant anatomical precision, e.g. the ear region. Our method enables automated search of large clinical databases and make targeted anatomical image retrieval possible
Removal of Toluidine blue in water using green synthesized nanomaterials
Green synthesis is a simple, eco-friendly, and emerging approach to synthesizing nanoparticles and is currently attracting the scientific community worldwide. The objective of the present study was to synthesize green titanium dioxide NPs and evaluate their performance for the photocatalytic treatment of textile wastewater after the secondary treatment process. TiO2 NPs were synthesized using leaf extracts of asausage tree (Kigelia Africana) in asingle step. The green synthesized TiO2 NPs were characterized by Scanning Electron Microscopy (SEM), Energy Dispersive X-ray spectroscopy (EDX), X-Ray Diffraction (XRD), Fourier-Transform Infrared spectroscopy (FT-IR), Diffuse Light Scattering spectroscopy (DLS), Transmission Electron Microscopy (TEM). The findings validated the synthesis of the spherical-shaped TiO2 NPs and their anatase phase. The green-produced TiO2 NPs were used for the treatment of textile effluent. During the photocatalytic treatment of aself-designed dye solution, 99.59% removal of Toluidine blue(TB) dye was achieved within 60 minupon the treatment of green synthesized TiO2 NPs studied by a UV–Visible spectrophotometer. Therefore, the green TiO2NPs that were developed have been examined for the treatment of wastewater, and the catalyst has reusability make it more efficient and affordable, and it might be used to remove organic dyes from textile industrie
Removal of Nickel(II) from Aqueous Solutions by Adsorption with Modified ZSM- 5 Zeolites
The sorptive removal of nickel ion from aqueous solutions using modified ZSM-5 zeolites was investigated. Experiments were carried out as a function of solute concentration and different temperatures. Mesoporous material of ZSM-5 zeolite was modified with phosphoric acid by wet method. The modified zeolite was converted to Na+ form using aqueous NaHCO3 solution. The Na+ form of modified zeolite, represented as PNa2--ZSM-5 was characterized by XRD, BET, SEM and AAS techniques. It was then tested for ion exchange with aqueous Ni(SO4) solution. The Ni2+ content of the solution was analyzed by AAS. Phosphoric acid modified PNa2--ZSM-5 zeolite shows higher adsorption capacity than the parent Na-Y zeolite. Equilibrium modeling data were fit to linear Langmuir model then the Freundlich model. These parameter confirmed that sorption of Ni2+ is feasible spontaneous and endothermic