Digital Holography Microscopy at Lab-on-a-Chip scale: novel algorithms and recording strategies

Il lavoro presentato è mirato allo sviluppo di nuove tecniche di microscopia olografica digitale (Digital Holography Microscopy, DHM), e di opportuni algoritmi numerici per lo studio di biomateriali in ambiente microfluidico. Nello specifico vengono affrontate due problematiche di imaging particolarmente rilevanti nello studio di sistemi Lab-on-a-Chip (LoC). Dapprima è stato studiato il problema della microscopia quantitativa di oggetti biologici osservati attraverso mezzi complessi, come soluzioni torbide e substrati diffondenti, dove la formazione dell’immagine è ostacolata da processi di scattering. Lo studio condotto è stato mirato all’analisi di processi di diffusione da layer statico e da mezzo liquido di tipo colloidale, in regime quasi-statico e dinamico. Sono stati sviluppati a tale scopo dei metodi di registrazione e nuovi algoritmi di ricostruzione dell’immagine olografica (Multi-Look Digital Holography, MLDH) che consentono di fornire un imaging quantitativo dei campioni in esame. Di particolare interesse è il caso di volumi di liquido costituiti da globuli rossi: nel lavoro presentato viene dimostrata la possibilità di studiare, mediante MLDH, processi di adesione cellulare di materiale biologico situato in presenza di flussi di globuli rossi ad alta concentrazione. La possibilità di visualizzare e analizzare quantitativamente materiale biologico all’interno di un capillare o una vena, compensando l’effetto di diffusione del sangue, potrebbe in futuro consentire di studiare la formazione all’interno del vaso di coaguli e placche di colesterolo, sintomatici dell’insorgere di malattie cardiache. La stessa tecnica è in grado di recuperare l’informazione distorta a causa della presenza all’interno del canale di ostacoli statici o quasi-statici (dovuti alla formazione di bio-film o sospensioni batteriche, o causata da processi di fabbricazione del canale microfluidico), aumentando così notevolmente la varietà dei processi biologici analizzabili su piattaforme LoC. Nel lavoro viene anche dimostrato come la presenza di un mezzo torbido possa essere sfruttata vantaggiosamente al fine di migliorare la qualità dell’immagine in sistemi di imaging basati su luce coerente. Parallelamente è stata messa a punto una tecnica interferometrica che, sfruttando il movimento dei campioni nei canali microfluidici, consente di sostituire un sensore convenzionale 2D con un sensore lineare, più compatto e integrabile a bordo del chip, e capace di fornire prestazioni superiori in termini di velocità di acquisizione. Il lavoro presentato descrive il processo di sintesi di un nuovo tipo di ologramma (Space-Time Digital Hologram, STDH), che consente di ottenere un Field-of-View (FoV) illimitato nella direzione del flusso e, quindi, di superare il trade-off esistente tra fattore di ingrandimento e FoV, comune ad ogni tecnica di microscopia convenzionale. Viene inoltre dimostrato che un STDH mantiene le caratteristiche e i vantaggi di un ologramma digitale standard, quali la focalizzazione numerica flessibile, che permette di analizzare contemporaneamente tutti gli oggetti presenti in un volume di liquido, e la possibilità di estrarre la segnatura di fase degli stessi

Role of Dental Implant Homecare in Mucositis and Peri-implantitis Prevention: A Literature Overview

Background: Correlation between high plaque index and inflammatory lesions around dental implants has been shown and this highlights the importance of patient plaque control. Until now, knowledge of peri-implant home care practices has been based on periodontal devices. Objective: The aim of this overview is to identify the presence of scientific evidence that peri-implant homecare plays a role in mucositis and peri-implantitis prevention. Methods: Different databases were used in order to detect publications reflecting the inclusion criteria. The search looked into peri-implant homecare studies published from 1991 to 2019 and the terms used for the identification of keywords were: Dental implants, Brush, Interproximal brushing, Interdental brushing, Power toothbrush, Cleaning, Interdental cleaning, Interspace cleaning, Flossing, Super floss, Mouth rinses, Chlorhexidine. The type of studies included in the selection for this structured review were Randomized Clinical Trials, Controlled Clinical Trials, Systematic Reviews, Reviews, Cohort Studies and Clinical cases. Results: Seven studies fulfilled all the inclusion criteria: 3 RCTs, one Consensus report, one cohort study, one systematic review and one review. Other 14 studies that partially met the inclusion criteria were analyzed and classified into 3 different levels of evidence: good evidence for RCTs, fair evidence for case control and cohort studies and poor evidence for expert opinion and case report. Conclusion: Not much research has been done regarding homecare implant maintenance. Scientific literature seems to show little evidence regarding these practices therefore most of the current knowledge comes from the periodontal literature. Manual and powered toothbrushes, dental floss and interdental brushes seem to be useful in maintaining peri-implant health. The use of antiseptic rinses or gels does not seem to have any beneficial effects. It can be concluded that to better understand which are the most effective home care practices to prevent mucositis and peri-implantitis in implant- rehabilitated patients, new specific high evidence studies are needed

Recognition and treatment of peri-implant mucositis: Do we have the right perception? A structured review

Peri-implant mucositis is a common inflammatory lesion of the soft tissues surrounding endosseous implants, with no loss of the supporting bone. Its prevention or early diagnosis are vital for dental implant success.The aim of this review was to investigate knowledge strengths and gaps in clinicians'perceptions of periimplant mucositis prevalence and evidence for successful treatment.A literature search for articles published until 2020, reporting on the prevalence of peri-implant mucositis and its treatment was performed in standard online databases. The inclusion criteria were as follows: studies in English; studies with an available abstract; studies on humans with at least 1 dental implant; and studies reporting on the prevalence and/or treatment of peri-implant mucositis. Sixty-five studies fulfilled the inclusion criteria. The included papers were analyzed to identify data on the prevalence and treatment of peri-implant mucositis. The prevalence statistics for peri-implant mucositis had wide ranges in both the patient-based (PB) analysis and the implant-based (IB) analysis; the possible reasons for these wide ranges are discussed. Treatment methods for peri-implant mucositis were analyzed individually and compared to the management of gingivitis.It was determined that the currently available information on the prevalence rates and the standardized therapeutic protocols for peri-implant mucositis are insufficient. Since the mean gingivitis and peri-implant mucositis prevalence rates in the PB analysis were similar, it is possible that peri-implant mucositis is under estimated due to variables related to implant rehabilitation itself

Raman Pumping as an Energy Efficient Solution for NyWDM Flexible-grid Elastic Optical Networks

This paper investigates transparent wavelength routed optical networks using three different fiber types NZDSF, SMF and PSCF - and validates the effectiveness of Hybrid Raman/EDFA Fiber Amplification (HFA) with different pumping levels, up to the moderate 60% pumping regime. Nodes operate on the basis of flexible-grid elastic NyWDM transponders able to adapt the modulation format to the quality-of-transmission of the available lightpath, exploiting up to five 12.5 GHz spectral slots. Results consider a 37- node Pan-European network for variable Raman pumping level, span length and average traffic per node. We show that HFA in moderate pumping regime reduces the power consumption and enhances spectral efficiency for all three fiber types with particular evidence in NZDSF. In essence to that, introduction of HFA is also beneficial to avoid blocking for higher traffic loads

Ghrelin induces proliferation in human aortic endothelial cells via ERK1/2 and PI3K/Akt activation

The direct ghrelin (Ghr) involvement in cardiovascular (CV) system homeostasis has been suggested by the expression of its receptor in CV tissues and by evidence that ghrelin mediates CV activities in animals and in humans. Moreover, low Ghr plasma levels have been reported in pathological conditions characterized by high cardiovascular risk. In the present study, we investigated Ghr effect on proliferation of human aortic endothelial cell (HAEC) and involved transduction pathways. Our results indicate that ghrelin elicited proliferation in a dose-dependent manner (EC(50) about of 5 nmol/L) in cultured HAEC, and that this effect was inhibited by the receptor antagonist (D-Lys3)-GHRP-6. Western blot experiments documented an activation of external receptor activated kinases (ERK1/2) and Akt in a dose-dependent fashion, as well as involvement of the cAMP pathway in ERK1/2 phosphorylation. Experiments conducted with appropriate pharmacological inhibitors to investigate Ghr-induced HAEC proliferation confirmed the involvement of ERK1/2 and 13P/Akt pathways, as well as the role of AMP cyclase/PKA pathway in ERK1/2 phosphorylation. Our results indicate that Ghr promotes HAEC proliferation, and thus may be a protective factor against vascular damage. The low ghrelin serum levels reported in insulin-resistant states may not be able to effectively counteract endothelial cell injury. (C) 2008 Elsevier Inc. All rights reserved

Encoding multiple holograms for speckle-noise reduction in optical display.

In digital holography (DH) a mixture of speckle and incoherent additive noise, which appears in numerical as well as in optical reconstruction, typically degrades the information of the object wavefront. Several methods have been proposed in order to suppress the noise contributions during recording or even during the reconstruction steps. Many of them are based on the incoherent combination of multiple holographic reconstructions achieving remarkable improvement, but only in the numerical reconstruction i.e. visualization on a pc monitor. So far, it has not been shown the direct synthesis of a digital hologram which provides the denoised optical reconstruction. Here, we propose a new effective method for encoding in a single complex wavefront the contribution of multiple incoherent reconstructions, thus allowing to obtain a single synthetic digital hologram that show significant speckle-reduction when optically projected by a Spatial Light Modulator (SLM)

Graphene-based absorber exploiting guided mode resonances in one-dimensional gratings

A one-dimensional dielectric grating, based on a simple geometry, is proposed and investigated to enhance light absorption in a monolayer graphene exploiting guided mode resonances. Numerical findings reveal that the optimized configuration is able to absorb up to 60% of the impinging light at normal incidence for both TE and TM polarizations resulting in a theoretical enhancement factor of about 26 with respect to the monolayer graphene absorption (about 2.3%). Experimental results confirm this behaviour showing CVD graphene absorbance peaks up to about 40% over narrow bands of few nanometers. The simple and flexible design paves the way for the realization of innovative, scalable and easy-to-fabricate graphene-based optical absorbers

Graphene-based perfect optical absorbers harnessing guided mode resonances

We numerically and experimentally investigate graphene-based optical absorbers that exploit guided mode resonances (GMRs) achieving perfect absorption over a bandwidth of few nanometers (over the visible and near-infrared ranges) with a 40-fold increase of the monolayer graphene absorption. We analyze the influence of the geometrical parameters on the absorption rate and the angular response for oblique incidence. Finally, we experimentally verify the theoretical predictions in a one-dimensional, dielectric grating and placing it near either a metallic or a dielectric mirror

Microplastic Identification via Holographic Imaging and Machine Learning

Microplastics (MPs) are a major environmental concern due to their possible impact on water pollution, wildlife, and the food chain. Reliable, rapid, and high‐throughput screening of MPs from other components of a water sample after sieving and/or digestion is still a highly desirable goal to avoid cumbersome visual analysis by expert users under the optical microscope. Here, a new approach is presented that combines 3D coherent imaging with machine learning (ML) to achieve accurate and automatic detection of MPs in filtered water samples in a wide range at microscale. The water pretreatment process eliminates sediments and aggregates that fall out of the analyzed range. However, it is still necessary to clearly distinguish MPs from marine microalgae. Here, it is shown that, by defining a novel set of distinctive "holographic features," it is possible to accurately identify MPs within the defined analysis range. The process is specifically tailored for characterizing the MPs' "holographic signatures," thus boosting the classification performance and reaching accuracy higher than 99% in classifying thousands of items. The ML approach in conjunction with holographic coherent imaging is able to identify MPs independently from their morphology, size, and different types of plastic materials