Zobrazeno 1 - 10
of 82
pro vyhledávání: '"Daubaris G"'
Autor:
Bartusis, L., Zakelis, R., Daubaris, G., Ragauskas, A., Rutkauskas, Saulius, Matijošaitis, Vaidas, Preikšaitis, Aidanas, Kauno technologijos universitetas
Publikováno v:
Elektronika ir elektrotechnika, Kaunas : KTU, 2012, Nr. 6, p. 45-48
Theoretical and experimental validity of ophthalmic artery (OA) as a sensor for non-invasive absolute intracranial pressure (aICP) measurement electronic system is presented in this paper. Because of OA similarity with gravimetric scales which can co
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::40737397dca9d4bc5ac577fa7ac18ca6
https://library.lsmuni.lt/LSMU:ELABAPDB5536718&prefLang=en_US
https://library.lsmuni.lt/LSMU:ELABAPDB5536718&prefLang=en_US
Autor:
Ragauskas, A., Kalvaitis, E., Petkus, V., Daubaris, G., Depreitere, B., Kauno technologijos universitetas
Pressure reactivity index (PRx), which is a moving linear correlation (or Pearson’s correlation) between slow waves of ABP and ICP is used as an estimator of the human brain cerebrovascular autoregulation state. Slow ICP and IBP waves were modeled
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::fb04d865a89f7c40a24bab898a586977
https://doi.org/10.5755/j01.eee.114.8.687
https://doi.org/10.5755/j01.eee.114.8.687
Autor:
Ragauskas, A., Daubaris, G., Žakelis, R., Rutkauskas, Saulius, Krutulytė, Gražina, Kalasauskienė, Aurija, Kauno technologijos universitetas
An objective is to develop an innovative non-invasive absolute ICP meter which does not need calibration of the system “individual patient - non-invasive absolute ICP meter” and to perform healthy volunteer studies in order to prove the clinical
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=dedup_wf_001::a937bb719d23d387a7d94ffddae67a2a
https://vb.ktu.edu/KTU:ELABAPDB5263007&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB5263007&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Deksnys, V., Guzaitis, J., Kauno technologijos universitetas
Innovative non-invasive technologies for human brain physiological monitoring which are based on the ultrasonic time-of-flight (TOF) method require zero crossing detection of ultrasound signals. A new zero crossing detection algorithm has been propos
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3368::421c7ca37dd618db7e13bf5eab366d86
https://vb.ktu.edu/KTU:ELABAPDB6083753&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB6083753&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Chomskis, R., Šliteris, R., Deksnys, V., Guzaitis, J., Lengvinas, G., Rugaitis, A., Kauno technologijos universitetas
New non-invasive ultrasonic technology and Vittamed 105 monitor for monitoring of intracranial volumetric trends and pulse wave has been created and clinically tested. The clinical investigations of new technology show the similarity between the inva
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3368::0cf9807a327309ee9fefe5a44e6bef01
https://vb.ktu.edu/KTU:ELABAPDB2908666&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB2908666&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Chomskis, R., Šliteris, R., Deksnys, V., Guzaitis, J., Lengvinas, G., Rugaitis, A., Kauno technologijos universitetas
Studies have shown that transintracranial time-of-flight (TTF) sonography displays non-invasively and in real-time the relative changes in ultrasound velocity which occur in the intracranial parenchyma and reflects the intracranial pressure (ICP) wav
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3368::0d163b31bf7a1905e1a96628b123aa27
https://vb.ktu.edu/KTU:ELABAPDB2897547&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB2897547&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Chomskis, R., Šliteris, R., Deksnys, V., Guzaitis, J., Lengvinas, G., Rugaitis, A., Kauno technologijos universitetas
New non-invasive ultrasonic technology for CA monitoring has been created which uses both intracranial slow wave and respiratory wave methodologies. The technology provides information about the intracranial blood volume dynamics in the smallest vess
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3368::23e61c226777d89b485ecb5ca9b19ede
https://vb.ktu.edu/KTU:ELABAPDB6084025&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB6084025&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Chomskis, R., Šliteris, R., Deksnys, V., Guzaitis, J., Lengvinas, G., Kauno technologijos universitetas
This review paper describes innovative methods and technology for non-invasive human brain physiological monitoring based on measuring the acoustic properties of the brain parenchyma. The clinical investigation of new technology shows the similarity
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3368::f38d6f085ca0ed2912853dfeb78c7ea2
https://vb.ktu.edu/KTU:ELABAPDB6084249&prefLang=en_US
https://vb.ktu.edu/KTU:ELABAPDB6084249&prefLang=en_US
Autor:
Ragauskas, A., Daubaris, G., Petkus, V., Raišutis, R., Chomskis, R., Šliteris, R., Deksnys, V., Guzaitis, J., Lengvinas, G., Rugaitis, A.
Publikováno v:
Elektronika ir elektrotechnika, ISSN 1392-1215, 2008, Nr. 5 (85), p. 93-96
Sukurta nauja ultragarsinė technologija cerebrovaskuliarinės autoreguliacijos monitoringui atlikti. Ji remiasi intrakranijinių lėtųjų bangų ir kvėpavimo bangų metodologijomis. Ši technologija teikia informaciją apie intrakranijinės terpė
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______1338::3fefe9221507255b989af26a01a7730e
http://vddb.laba.lt/fedora/get/LT-eLABa-0001:J.04~2008~ISSN_1392-1215.N_5_85.PG_93-96/DS.002.1.01.ARTIC
http://vddb.laba.lt/fedora/get/LT-eLABa-0001:J.04~2008~ISSN_1392-1215.N_5_85.PG_93-96/DS.002.1.01.ARTIC
Autor:
Ragauskas A, Matijosaitis V, Zakelis R, Petrikonis K, Rastenyte D, Piper I, Daubaris G, Ragauskas, A, Matijosaitis, V, Zakelis, R, Petrikonis, K, Rastenyte, D, Piper, I, Daubaris, G
Publikováno v:
Neurology; 5/22/2012, Vol. 78 Issue 21, p1684-1691, 8p
