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SZENT-GYÖRGYI STUDENTS<br />
LILIÁNA KISS<br />
Szeged Scientists Academy, 5 th year<br />
University of Szeged,<br />
Faculty of Medicine, 5 th year<br />
YEAR OF BIRTH:<br />
<strong>19</strong>95<br />
FORMER<br />
SZENT-GYÖRGYI<br />
PUPIL:<br />
yes<br />
SZENT-GYÖRGYI<br />
MENTOR:<br />
Ferenc Peták<br />
JUNIOR MENTOR:<br />
Gergely Fodor<br />
SPECIALIZATION:<br />
Examination the effect<br />
of diabetes mellitus<br />
on pulmonary and<br />
cerebrovascular systems<br />
during intraoperative<br />
phase of open heart surgery<br />
SECONDARY SCHOOL:<br />
Bethlen Gábor Secondary<br />
School, Hódmezővásárhely<br />
NAME OF TEACHER:<br />
Ildikó Linda Csorba,<br />
Ilona Tünde Bereczné Szép<br />
LANGUAGES:<br />
English/intermediate<br />
Arabic/intermediate (oral)<br />
IMPORTANCE, AIMS AND POSSIBLE OUTCOME OF RESEARCH<br />
More than 422 million people have diabetes worldwide, with more than 1 million people<br />
dying each year as a result of diabetes. The incidence of diabetic complications, e.g.<br />
macro and microangiopathies, lower limb amputations, chronic renal failure, retinopathy<br />
is constantly increasing. Although the effects of diabetes on most organs are well<br />
characterized, there is still a lack of information on the pulmonary effects. We examine<br />
patients undergoing elective open-heart surgery (more than 700 patients per year in<br />
Szeged) in a prospective consecutive way. The mechanical properties of the respiratory<br />
tissue and airway compartments are assessed using the forced oscillation technique<br />
(FOT). This method has the advantage of not requiring patient effort, therefore it can be<br />
used during surgical anaesthesia. Our main goal is to detect changes of the respiratory<br />
system related to type-2 diabetes mellitus to allow for a more specialized anaesthetic<br />
care of these patients. Our other objectives include investigating effects of chronic dust<br />
and textile particles exposure to the respiratory system by using the same technique and<br />
exploring the influence of ultrafiltration on the systemic inflammatory response following<br />
cardiopulmonary bypass.<br />
AMBITIONS AND CAREER GOALS<br />
Apart from clinical work, I would like to continue research in a subject related to my<br />
future specialization because I am determined to find out exactly what causes diseases in<br />
humans. With my research I intend to serve my future patients and medicine in general at<br />
the same time.<br />
HONORS AND PRIZES<br />
• 2017/<strong>2018</strong> Scholarship of New National Excellence Program<br />
• 2017 Student Scientific Conference: Liliána Kiss, Roland Fejes Operative Medicine 1 st<br />
Division 3 th Prize<br />
• 2017 Student Scientific Conference: Roland Fejes, Liliána Kiss Pharmacology 2nd<br />
Division 1 st Prize<br />
• <strong>2018</strong> University of Szeged József Sófi Scholarship Program Prize of the Board of Trustees<br />
• <strong>2018</strong> Talent Excellence List Ba / Bsc / Ma / Msc / Unsorted Category Bronze Scholarship<br />
• Young Neonatologists 3 rd Meeting in Kecskemét competition of presentations 2 nd prize<br />
• <strong>2018</strong> Student Scientific Conference: Liliána Kiss, Barnabás Géczi Operative Medicine 2nd<br />
Division 1 st Prize<br />
• 20<strong>19</strong> University of Szeged József Sófi Scholarship Program Prize of the Board of Trustees<br />
PUBLICATIONS<br />
Poles, M.Z., Bódi, N., Bagyánszki, M., Fekete, É., Mészáros, A.T., Varga, G., Szűcs, S., Nászai,<br />
A., Kiss, L., Kozlov, A.V., Boros, M., Kaszaki, J. (<strong>2018</strong>) Reduction of nitrosative stress by<br />
methane: Neuroprotection through xanthine oxidoreductase inhibition in a rat model<br />
of mesenteric ischemia-reperfusion. Free Radic Biol Med. 120: 160-169. doi: 10.1016/j.<br />
freeradbiomed.<strong>2018</strong>.03.024.<br />
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