OAR@UM Collection:https://www.um.edu.mt/library/oar/handle/123456789/1439622026-05-03T11:04:17Z2026-05-03T11:04:17ZThe Synapse : the Medical Professionals' Network : volume 21 : issue 2Galea, WilfredEllul, Ian C.https://www.um.edu.mt/library/oar/handle/123456789/1440262026-02-24T10:03:34Z2022-01-01T00:00:00ZTitle: The Synapse : the Medical Professionals' Network : volume 21 : issue 2
Authors: Galea, Wilfred; Ellul, Ian C.
Abstract: Table of contents:; 1/ ELLUL, I. C. - 17 years; 2/ GRECH, E., FARRUGIA BONNICI, G., & HOHMANN, M. - Skin microbiota and body malodour; 3/ GRECH, N., HELWAN, A. CALLEJA AGIUS, J., FALZON, O., CAMILLERI, K., & SCIBERRAS, S. - The non-invasive vital signs monitoring project : engineering meets healthcare innovation; 4/ GRECH, A., & WEST. S. - Transposable elements in human cancer; 5/ VASSALLO, P. - Management of incidentally noted adnexal cystic lesions2022-01-01T00:00:00Z17 yearshttps://www.um.edu.mt/library/oar/handle/123456789/1439992026-02-24T07:07:47Z2022-01-01T00:00:00ZTitle: 17 years
Abstract: Whilst I was starting Junior College, in
October 1996, The Synapse magazine
was being simultaneously launched by Dr
Wilfred Galea. Little would I have imagined
that, in November 2005, I would take the
helm of this publication.2022-01-01T00:00:00ZSkin microbiota and body malodourGrech, EtienneFarrugia Bonnici, GeorgianaHohmann, Martinahttps://www.um.edu.mt/library/oar/handle/123456789/1439982026-02-24T07:04:51Z2022-01-01T00:00:00ZTitle: Skin microbiota and body malodour
Authors: Grech, Etienne; Farrugia Bonnici, Georgiana; Hohmann, Martina
Abstract: Chronic body malodours are often considered to
be universal triggers of distress for many patients.
Various human body malodours relate to the bacterial
transformation of compounds conveyed by sweat on
the skin surfaces and axillae. There is skin microbiome
variation between individuals which typically results
in a change in one's sweat constitution and ultimately
influences the final odour produced. Body malodour
may be managed through good personal hygiene, the
use of antiperspirants, deodorants, zinc emulsions,
antifungals, glycopyrronium tosylate, triclosan body
soaps and povidone-iodine. Moreover, certain lifestyle
modifications, the use of oral probiotics and prebiotics,
alongwithmore invasive medical and surgical procedures,
such as axillary laser therapy, iontophoresis, Botulinum
toxin type A, suction-curettage, elliptical axillary skin
excision as well as transthoracic sympathectomy may
also result in body malodour suppression. In this article,
the relationship between bacterial skin commensals and
body malodour will be discussed.2022-01-01T00:00:00ZThe non-invasive vital signs monitoring project : engineering meets healthcare innovationGrech, NicoleHelwan, AbedelkaderCalleja-Agius, JeanFalzon, OwenCamilleri, Kenneth P.Sciberras, Stephenhttps://www.um.edu.mt/library/oar/handle/123456789/1439762026-02-23T12:44:53Z2022-01-01T00:00:00ZTitle: The non-invasive vital signs monitoring project : engineering meets healthcare innovation
Authors: Grech, Nicole; Helwan, Abedelkader; Calleja-Agius, Jean; Falzon, Owen; Camilleri, Kenneth P.; Sciberras, Stephen
Abstract: In recent years, the concept of contactless and remote
monitoring of patients has gained momentum due to its
multiple advantages over traditional contact monitoring involving leads and wires. The Non-Invasive Vital Signs Monitoring Project (NIVS) aims to extract heart rate data
from both healthy volunteers as well as patients in real-world hospital scenarios using normal red-green-blue (RGB)
and thermal imaging cameras. NIVS aims to overcome the
limitations which exist with current contact systems. This article
describes the underlying scientific principles, the execution
and the potential benefits of such a system in the local
healthcare setting.2022-01-01T00:00:00Z