Multi-Level Reversible Data Anonymization via Compressive Sensing and Data Hiding

Recent advances in intelligent surveillance systems have enabled a new era of smart monitoring in a wide range of applications from health monitoring to homeland security. However, this boom in data gathering, analyzing and sharing brings in also significant privacy concerns. We propose a Compressive Sensing (CS) based data encryption that is capable of both obfuscating selected sensitive parts of documents and compressively sampling, hence encrypting both sensitive and non-sensitive parts of the document. The scheme uses a data hiding technique on CS-encrypted signal to preserve the one-time use obfuscation matrix. The proposed privacy-preserving approach offers a low-cost multi-tier encryption system that provides different levels of reconstruction quality for different classes of users, e.g., semi-authorized, full-authorized. As a case study, we develop a secure video surveillance system and analyze its performance.publishedVersionPeer reviewe

Assessment of Permeability in Barrier Type of Endothelium in Brain Using Tracers: Evans Blue, Sodium Fluorescein, and Horseradish Peroxidase

Blood-brain barrier (BBB) constituted primarily by the capillary endothelial cells functions to maintain a constant environment for the brain, by preventing or slowing down the passage of a variety of blood-borne substances, such as serum proteins, chemical compounds, ions, and hormones from the circulation into the brain parenchyma. Various diseases such as brain tumors, epilepsy, and sepsis disturb the BBB integrity leading to enhanced permeability of brain microvessels. In animal models, a variety of experimental insults targeted to the BBB integrity have been shown to increase BBB permeability causing enhanced passage of molecules into the brain paranchyma by transcellular and/or paracellular pathways. This alteration can be demonstrated by intravascular infusion of exogenous tracers and subsequent detection of extravasated molecules in the brain tissue. A number of exogenous BBB tracers are available, and they can be used for functional and structural analysis of BBB permeability. In this chapter, we aimed to highlight the basic knowledge on the use of three most commonly performed tracers, namely Evans blue dye, sodium fluorescein, and horseradish peroxidase. The experimental methodologies that we use in our laboratory for the detection of these tracers by macroscopy, spectrophotometry, spectrophotofluorometry, and electron microscopy are also discussed. While tracing studies at the morphological level are mainly aimed at the identification and characterization of the tracers both in the barrier related cells and brain parenchyma, spectrophotometric and spectrophotofluorometric assays enable quantification of BBB permeability. The results of our studies that we performed using the mentioned tracers indicate that barrier type of endothelial cells in brain play an important role in paracellular and/or transcytoplasmic trafficking of macromolecules across BBB under various experimental settings, which may provide new insights in both designing approaches for the management of diseases with BBB breakdown and developing novel trans-BBB drug delivery strategies

A Case Study of Intractable Diarrhea Due to Neonatal Microvillous Inclusion Disease

Background: Microvillous inclusion disease (MVID) is one of the most severe congenital diarrhea disorders, caused by a genetic defect in enterocyte differentiation and polarization. Case report: We describe a neonate who presented with severe weight loss, hypernatremic dehydration and metabolic acidosis due to intractable diarrhea due to MVID, confirmed by electron microscopy. Conclusion: MVID can present with severe weight loss, hypernatremic dehydration and metabolic acidosis that is life threatening. The diagnosis is made by typical findings on light microscopy and electron microscope of small bowel biopsies. The only therapeutic options at this time are total parenteral nutrition and bowel rest and intestinal transplantation

Ultrastructural Alterations in the Epidermis of Patients with Tinea Pedis

Objective: Tinea pedis is the most common superficial fungal infection of the foot. Although light microscopic characteristics of tinea pedis have already been described and are well known, electron microscopic data is still lacking. In this study, we aimed to examine the ultrastructural changes in the epidermis of patients diagnosed with tinea pedis

Chorda tympani nerve analysis with electron microscopy in chronic suppurative otitis media

Conclusion: Chronic suppurative otitis media causes some disturbance to the chorda tympani nerve (CTN), which may affect the facial nerve. It is not possible to perform a biopsy of the main truncus of the facial nerve, therefore studies of the CTN might show possible pathologic or physiologic changes of the facial nerve in the future. Objectives: The specific aim of this study was to investigate the effects of chronic suppurative otitis media on the CTN. Methods: The tympanic segments of CTNs were collected for ultrastructural investigations in patients with chronic suppurative otitis media who underwent canal wall-down tympanoplasty. The study population comprised 10 patients, 7 males, 3 females; the age range was 16-66 years, and the mean age was 38. Qualitative and semiquantitative evaluations were performed on the specimens of CTN by electron microscopy. Results: Our histopathologic examinations showed that there were changes of varying severity in all the CTNs such as scarcity of unmyelinated nerve fibers, Schwann cell nucleus condensation, scarcity of Schwann cell cytoplasm, adaxonal vacuolation and edema, myelin sheath disintegration, shrunken electron-dense axoplasm, increased collagen fibers, adaxonal circular lamellar complex, interstitial edema, and vacuolation of Schwann cell cytoplasm

Participation of CD45, NKR-P1A and ANK61 antigen in rat hepatic NK cell (pit cell)mediated target cell cytotoxicity.

AIM:Several triggering receptors have been described to be involved in natural killer (NK) cell-mediated target cytotoxicity. In these studies, NK cells deriv ed from blood or spleen were used. Pit cells are liver-specific NK cells that possess a higher level of natural cytotoxicity and a different morphology when compared to blood NK cells. The aim of this study was to characterize the role of the NK triggering molecules NKR P1A, ANK61 antigen, and CD45 in pit cell medi ated killing of target cells.METHODS:( 51) Crrelease and DNA fragmentation were used to quantify target cell lysis and apoptosis, respectively.RESULTS:Flow cytometric analysis showed that pit cells expressed CD45, NK R P1A, and ANK61 antigen. Treatment of pit cells with monoclonal antibody (mAb)to CD45 (ANK74) not only inhibited CC531s or YAC 1 target lysis but also apopt osis induced by pit cells. The mAbs to NKR P1A (3.2.3) and ANK61 antigen (ANK61 )had no effect on pit cell mediated CC531s or YAC 1 target cytolysis or apopto sis, while they did increase the Fcgamma receptor positive (FcgammaR(+)) P815 cytolysi s and apoptosis. This enhanced cytotoxicity could be inhibited by 3,4 dichloroi socoumarin, an inhibitor of granzymes.CONCLUSION:These results indicate that CD45 participates in pit cell med iated CC531s and YAC-1 target cytolysis and apoptosis. NKR-P1A and ANK61 antigen on pit cells function as activation structures against Fc gammaR( +) P 815 cells, which was mediated by the perforin/granzyme pathway.JOURNAL ARTICLEinfo:eu-repo/semantics/publishe

On the cell biology of pit cells, the liver-specific NK cells.

JOURNAL ARTICLEinfo:eu-repo/semantics/publishe