187 research outputs found
TRANSCRANIAL MAGNETIC STIMULATION MAPPING OF THE MOTOR CORTEX
CILJ ISTRAŽIVANJA: Cilj ovog istraživanja je primijeniti TMS-u u mapiranju primarne motoriÄke kore za reprezentaciju miÅ”iÄa ruke i premotoriÄkog podruÄja kore mozga dominantne hemisfere mozga tijekom motoriÄkog akta pisanja kod zdravih dobrovoljaca.
MATERIJAL I METODE: Istraživanje je provedeno na 10 zdravih ispitanika. Primarno motoriÄko podruÄje m. abductoris pollicis brevis i premotoriÄko podruÄje (posteriorni dio gornjeg frontalnog girusa, posteriorni dio srednjeg frontalnog girusa) se mapiralo modificiranom serijom repetitivnih paketa stimulusa (repetitivna TMS) tijekom motoriÄkog akta pisanja. Elektromiografski odgovori su registrirani iz miÅ”iÄa Å”ake dominantne ruke.
REZULTATI: Stimuliranje primarnog motoriÄkog podruÄja m. abductoris pollicis brevis repetitivnom TMS-om tijekom pisanja je u svih ispitanika izazvalo miÅ”iÄne motoriÄke evocirane potencijale, dok su odgovori duge latencije izazvani u 20% njih te period tiÅ”ine u 30% ispitanika. Stimuliranje premotoriÄkog podruÄja repetivnom TMS-om je kod svih ispitanika izazvalo odgovore duge latencije, s ili bez prethodnih miÅ”iÄnih motoriÄkih evociranih potencijala, uz razliÄite smetnje pisanja. ProsjeÄno trajanje latencije izazvanog odgovora duge latencije je bilo 70.72 ms.
ZAKLJUÄCI: Repetitivnom TMS-om se može mapirati motoriÄki segment funkcije pisanja interferirajuÄi s neuronskom kontrolom gornjih ekstremiteta tijekom pisanja. Stimuliranje lijevog premotoriÄkog podruÄja (posteriorni dio gornjeg frontalnog girusa, posteriorni dio srednjeg frontalnog girusa) repetitivnom TMS-om tijekom motoriÄkog akta pisanja je izazvalo odgovore duge latencije u miÅ”iÄima dominantne Å”ake kod svih ispitanika uz razliÄite smetnje pisanja. Rezultati ovog istraživanja bi mogli doprinijeti daljnjem neurofizioloÅ”kom istraživanju funkcije pisanja te razvoju TMS metodologije u preoperacijskom mapiranju motoriÄkih podruÄja kore mozga za funkciju pisanja u bolesnika s tumorom mozga. Potrebna su daljna istraživanja kako bi se rasvjetili neurofizioloÅ”ki mehanizmi izazivanja odgovora duge latencije u miÅ”iÄima Å”ake tijekom repetitivne TMS-e premotoriÄke kore mozga.OBJECTIVES: The aim of this study is to map the primary motor cortex for hand muscle representation and premotor cortical areas of the brainās dominant hemisphere with TMS in healthy volunteers during motor act of writing.
MATERIAL AND METHODS: The study was conducted on 10 healthy subjects. The mapping of the primary motor cortex for hand muscle (m. abductor pollicis brevis) and premotor cortical areas (posterior part of superior frontal gyrus, posterior part of middle frontal gyrus) was performed by applying a patterned bursts of repetitive TMS (repetitive TMS) during motor act of writing. The evoked responses were recorded by electromygraphic recording.
RESULTS: The repetitive TMS of the primary motor cortex for hand muscle (m. abductor pollicis brevis) during the writing elicited in all subjects muscle motor evoked potentials, with the long latency responses elicited in 20% of subjects and the silent period in 30% of subjects. The repetitive TMS of the premotor cortex elicited long latency responses in hand muscles in all subjects, with or without muscle motor evoked potentials preceding the long latency responses, with different writing interferences. The mean latency of elicited long latency response was 70.72 ms.
CONCLUSIONS: Repetitive TMS can be used to map the motor writing function while interfering with the neural control of the upper extremity during the writing performance. Repetitive TMS of the left premotor cortex (posterior part of superior frontal gyrus, posterior part of middle frontal gyrus) during motor act of writing elicited long latency responses in dominant hand muscles in all subjects with different writing interferences. The results of this study might contribute to a further neurophysiological research of writing function and to the development of TMS methodology in preoperative mapping of the motor areas involved in writing function in patients with brain tumour. Further research is needed to uncover the neurophysiologic mechanisms of long latency responses in hand muscles elicited during repetitive TMS of the premotor cortical area
ELECARD STREAMEYE
Naziv zavrÅ”nog rada je ''Elecard streameye''. Ovaj rad bavi se opisom programa Elecard Streameye. Opisane su tehniÄke specifikacije i znaÄajke rada programa uz detaljan opis korisniÄkog suÄelja. Kroz praktiÄan primjer analize video sadržaja pokazuje se rad programa i njegove moguÄnosti. Osim opisa programa i njegovog rada uspostavljaju se pojmovi kvalitete i kompresije videa. TakoÄer se objaÅ”njava postupak kompresije videa i naÄini efikasnije kompresije videa. U zakljuÄku rada daje se miÅ”ljenje o moguÄnosti koriÅ”tenja Elecard streameye-a u laboratorijskim vježbama.The name of this work is ''Elecard streameye''. This work deals with describing of Elecard streameye program. Programs techincal specifications and features are described including detailed description of programs graphical user interface. The programs operation and abilities are shown through a practical example of video analysis. Besides describing the programe and how it works there is also establishing of terms ofvideo quality and video compression. There is also an explanation of video compression processand different methods of more efficient video compression. In the conclusion an opinion is given about the possibility of using Elecard streameye in student laboratory exercise
TRANSCRANIAL MAGNETIC STIMULATION MAPPING OF THE MOTOR CORTEX
CILJ ISTRAŽIVANJA: Cilj ovog istraživanja je primijeniti TMS-u u mapiranju primarne motoriÄke kore za reprezentaciju miÅ”iÄa ruke i premotoriÄkog podruÄja kore mozga dominantne hemisfere mozga tijekom motoriÄkog akta pisanja kod zdravih dobrovoljaca.
MATERIJAL I METODE: Istraživanje je provedeno na 10 zdravih ispitanika. Primarno motoriÄko podruÄje m. abductoris pollicis brevis i premotoriÄko podruÄje (posteriorni dio gornjeg frontalnog girusa, posteriorni dio srednjeg frontalnog girusa) se mapiralo modificiranom serijom repetitivnih paketa stimulusa (repetitivna TMS) tijekom motoriÄkog akta pisanja. Elektromiografski odgovori su registrirani iz miÅ”iÄa Å”ake dominantne ruke.
REZULTATI: Stimuliranje primarnog motoriÄkog podruÄja m. abductoris pollicis brevis repetitivnom TMS-om tijekom pisanja je u svih ispitanika izazvalo miÅ”iÄne motoriÄke evocirane potencijale, dok su odgovori duge latencije izazvani u 20% njih te period tiÅ”ine u 30% ispitanika. Stimuliranje premotoriÄkog podruÄja repetivnom TMS-om je kod svih ispitanika izazvalo odgovore duge latencije, s ili bez prethodnih miÅ”iÄnih motoriÄkih evociranih potencijala, uz razliÄite smetnje pisanja. ProsjeÄno trajanje latencije izazvanog odgovora duge latencije je bilo 70.72 ms.
ZAKLJUÄCI: Repetitivnom TMS-om se može mapirati motoriÄki segment funkcije pisanja interferirajuÄi s neuronskom kontrolom gornjih ekstremiteta tijekom pisanja. Stimuliranje lijevog premotoriÄkog podruÄja (posteriorni dio gornjeg frontalnog girusa, posteriorni dio srednjeg frontalnog girusa) repetitivnom TMS-om tijekom motoriÄkog akta pisanja je izazvalo odgovore duge latencije u miÅ”iÄima dominantne Å”ake kod svih ispitanika uz razliÄite smetnje pisanja. Rezultati ovog istraživanja bi mogli doprinijeti daljnjem neurofizioloÅ”kom istraživanju funkcije pisanja te razvoju TMS metodologije u preoperacijskom mapiranju motoriÄkih podruÄja kore mozga za funkciju pisanja u bolesnika s tumorom mozga. Potrebna su daljna istraživanja kako bi se rasvjetili neurofizioloÅ”ki mehanizmi izazivanja odgovora duge latencije u miÅ”iÄima Å”ake tijekom repetitivne TMS-e premotoriÄke kore mozga.OBJECTIVES: The aim of this study is to map the primary motor cortex for hand muscle representation and premotor cortical areas of the brainās dominant hemisphere with TMS in healthy volunteers during motor act of writing.
MATERIAL AND METHODS: The study was conducted on 10 healthy subjects. The mapping of the primary motor cortex for hand muscle (m. abductor pollicis brevis) and premotor cortical areas (posterior part of superior frontal gyrus, posterior part of middle frontal gyrus) was performed by applying a patterned bursts of repetitive TMS (repetitive TMS) during motor act of writing. The evoked responses were recorded by electromygraphic recording.
RESULTS: The repetitive TMS of the primary motor cortex for hand muscle (m. abductor pollicis brevis) during the writing elicited in all subjects muscle motor evoked potentials, with the long latency responses elicited in 20% of subjects and the silent period in 30% of subjects. The repetitive TMS of the premotor cortex elicited long latency responses in hand muscles in all subjects, with or without muscle motor evoked potentials preceding the long latency responses, with different writing interferences. The mean latency of elicited long latency response was 70.72 ms.
CONCLUSIONS: Repetitive TMS can be used to map the motor writing function while interfering with the neural control of the upper extremity during the writing performance. Repetitive TMS of the left premotor cortex (posterior part of superior frontal gyrus, posterior part of middle frontal gyrus) during motor act of writing elicited long latency responses in dominant hand muscles in all subjects with different writing interferences. The results of this study might contribute to a further neurophysiological research of writing function and to the development of TMS methodology in preoperative mapping of the motor areas involved in writing function in patients with brain tumour. Further research is needed to uncover the neurophysiologic mechanisms of long latency responses in hand muscles elicited during repetitive TMS of the premotor cortical area
ORGANIZACIJA POSLOVNIH PROCESA NA PRIMJERU SPEGRA INŽENJERING d.o.o. : Diplomski rad
Karakteritika danaÅ”njih ekonomskih zbivanja jest promjenjivost i dinamiÄnost okoline. Zbog toga poduzeÄe treba posjedovati struÄan kadar koji je u stanju reagirati na bilo kakve promjene na efikasan i brz naÄin. Tome uz navedeno pridonosi i organizacija poslovanja unutar poduzeÄa. Organizaciju valja karakterizirati brz protok informacija.
U ovom radu objaÅ”njen je naÄin organizacije poslovnih procesa na primjeru tvrtke Spegra inženjering d.o.o. Tvrtka veÄinu svog poslovanja temelji na poslovima dobivenim u procesu javne nabave. Iz rada se da zakljuÄiti kako poduzeÄe Spegra inženjering d.o.o. uspjeÅ”no i efikasno organizira poslovne procese u svom poduzeÄu.Main feature of today's economic movements is variability and dynamism of environment. Therefore, the company should have professional staff who is able to react to any market changes efficiently and expeditiously. The organization of business within the company contributes to it. The organization should be characterized by a rapid flow of information.
This study explains how business processes are organized using the example of the company SPEGRA Engineering Ltd. The company most of their business bases on jobs obtained in the process of public procurement. From the study it can be concluded that company SPEGRA Engineering Ltd. successfully and efficiently organizes the business processes in company
ELECARD STREAMEYE
Naziv zavrÅ”nog rada je ''Elecard streameye''. Ovaj rad bavi se opisom programa Elecard Streameye. Opisane su tehniÄke specifikacije i znaÄajke rada programa uz detaljan opis korisniÄkog suÄelja. Kroz praktiÄan primjer analize video sadržaja pokazuje se rad programa i njegove moguÄnosti. Osim opisa programa i njegovog rada uspostavljaju se pojmovi kvalitete i kompresije videa. TakoÄer se objaÅ”njava postupak kompresije videa i naÄini efikasnije kompresije videa. U zakljuÄku rada daje se miÅ”ljenje o moguÄnosti koriÅ”tenja Elecard streameye-a u laboratorijskim vježbama.The name of this work is ''Elecard streameye''. This work deals with describing of Elecard streameye program. Programs techincal specifications and features are described including detailed description of programs graphical user interface. The programs operation and abilities are shown through a practical example of video analysis. Besides describing the programe and how it works there is also establishing of terms ofvideo quality and video compression. There is also an explanation of video compression processand different methods of more efficient video compression. In the conclusion an opinion is given about the possibility of using Elecard streameye in student laboratory exercise
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