TY  - CONF
AU  - Antić, Dunja
AU  - Sitarica, Pavle
PY  - 2023
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4795
AB  - Пандемија корона вирусa и изолација током овог периода су допринеле повећању преваленце анксиозних и депресивних поремећаја у адолесценцији, која представља посебно осетљив период за социјални стрес.
AB  - The COVID19 pandemic and isolation during this period have contributed to an increase in the prevalence of anxiety and depressive disorders during adolescence, which is a particularly vulnerable period for social stress.
T1  - Социјална изолација током адолесценције узрокује повећану генерализовану анксиозност код мужјака пацова и смањену социјалну анксиозност код мужјака и код женки пацова
T1  - Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats
UR  - https://hdl.handle.net/21.15107/rcub_farfar_4795
ER  - 

@conference{
author = "Antić, Dunja and Sitarica, Pavle",
year = "2023",
abstract = "Пандемија корона вирусa и изолација током овог периода су допринеле повећању преваленце анксиозних и депресивних поремећаја у адолесценцији, која представља посебно осетљив период за социјални стрес., The COVID19 pandemic and isolation during this period have contributed to an increase in the prevalence of anxiety and depressive disorders during adolescence, which is a particularly vulnerable period for social stress.",
title = "Социјална изолација током адолесценције узрокује повећану генерализовану анксиозност код мужјака пацова и смањену социјалну анксиозност код мужјака и код женки пацова, Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats",
url = "https://hdl.handle.net/21.15107/rcub_farfar_4795"
}

Antić, D.,& Sitarica, P.. (2023). Социјална изолација током адолесценције узрокује повећану генерализовану анксиозност код мужјака пацова и смањену социјалну анксиозност код мужјака и код женки пацова. .
https://hdl.handle.net/21.15107/rcub_farfar_4795

Antić D, Sitarica P. Социјална изолација током адолесценције узрокује повећану генерализовану анксиозност код мужјака пацова и смањену социјалну анксиозност код мужјака и код женки пацова. 2023;.
https://hdl.handle.net/21.15107/rcub_farfar_4795 .

Antić, Dunja, Sitarica, Pavle, "Социјална изолација током адолесценције узрокује повећану генерализовану анксиозност код мужјака пацова и смањену социјалну анксиозност код мужјака и код женки пацова" (2023),
https://hdl.handle.net/21.15107/rcub_farfar_4795 .

TY  - CONF
AU  - Manojlović, Marina
AU  - Milosavljević, Filip
AU  - Atanasov, Andrea
AU  - Batinić, Bojan
AU  - Sitarica, Pavle
AU  - Jukić, Marin
PY  - 2022
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4728
AB  - Background: Due to the COVID-19 pandemic, the prevalence of anxiety and
depression disorders increased by approximately 25-30% [1]. Reasons behind
this are likely associated with the increased average daily level of stress, especially during social isolation. Since one of the main adolescence hallmarks is
formation of meaningful social and love relationships, it represents a particularly
vulnerable period for social stress [2]. The aim of this study was to evaluate
whether isolation stress during the adolescence causes general and social anxiety
in rats.
Methods: Sprague-Dawley rats of both sexes were used for the adolescence social
isolation experiment. From the fourth postnatal week, 24 rats were single caged
and therefore subjected to the social isolation stress, while 24 non-stressed
control rats remained in groups of four per cage and were handled three times a
week. All rats were handled daily for one week and weighted before behavioural
tests. From eleventh week, rats were subjected to the open field, elevated plus
maze, and three-chamber sociability tests, with two-day gap between different
tests. In open field test, time spent in the centre was measured, while in the
elevated plus maze test, the time spent in open arms, normalized to time spent in
all arms was measured; reduction in values of these parameters was interpreted
as general anxiety. In the social preference test, social preference ratio was
calculated for each animal, according to the previously published protocol [3],
and reduction in this ratio was interpreted as social anxiety. 2-way ANOVA, with
sex and isolation stress as factors, was used for parametric data analysis, and
Fischer’s post hoc test was used to detect statistically significant between group
differences. Kruskal-Wallis test was used for non-parametric data analysis, and
Mann-Whitney post hoc test with multiple comparison correction was used to
detect statistically significant between group differences.
Results: Compared to control rats, time spent in the centre of open field (-44%
[95%CI: -76%, -12%] p¼0,008) and total distance travelled (-17% [95%CI:
-32%, -2%], p¼0.028) were decreased in isolated males, but not in females
(p>0.1). In elevated plus maze test, time spent in the open arms was significantly
decreased in male isolated rats (isolated: [median: 0.76, IQR: 0.00 – 2.06] vs
control: [median: 4.96, IQR: 2.04 – 17.75], p¼0.034); however, this change did
not remain significant after multiple comparisons corrections. In sociability tests,
both male and female isolated rats exhibited increase in social preference ratio
(+32% [95%CI: 12%, 51%], p¼0.002) and preference for novel animal over
familiar one (+48% [95%CI: 10%, 86%], p¼0.015), compared to control rats.
Body weight, measured after six weeks of social isolation at week ten, was
increased in isolated male compared to control rats (+19% [95%CI: 14%, 24%],
p<0.001), while there was no such difference observed in female rats.
Conclusion: Social isolation caused increase in general anxiety in male, but not
female rats. In addition, both male and female rats exhibited robust increase in
preference for social interaction and novel social stimulus, which is the result
opposite from the expected social anxiety as initially hypothesized.
PB  - Elsevier
C3  - Neuroscience Applied
T1  - Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats
VL  - 1
IS  - Supplement 2
SP  - 19
EP  - 19
DO  - 10.1016/j.nsa.2022.100149
ER  - 

@conference{
author = "Manojlović, Marina and Milosavljević, Filip and Atanasov, Andrea and Batinić, Bojan and Sitarica, Pavle and Jukić, Marin",
year = "2022",
abstract = "Background: Due to the COVID-19 pandemic, the prevalence of anxiety and
depression disorders increased by approximately 25-30% [1]. Reasons behind
this are likely associated with the increased average daily level of stress, especially during social isolation. Since one of the main adolescence hallmarks is
formation of meaningful social and love relationships, it represents a particularly
vulnerable period for social stress [2]. The aim of this study was to evaluate
whether isolation stress during the adolescence causes general and social anxiety
in rats.
Methods: Sprague-Dawley rats of both sexes were used for the adolescence social
isolation experiment. From the fourth postnatal week, 24 rats were single caged
and therefore subjected to the social isolation stress, while 24 non-stressed
control rats remained in groups of four per cage and were handled three times a
week. All rats were handled daily for one week and weighted before behavioural
tests. From eleventh week, rats were subjected to the open field, elevated plus
maze, and three-chamber sociability tests, with two-day gap between different
tests. In open field test, time spent in the centre was measured, while in the
elevated plus maze test, the time spent in open arms, normalized to time spent in
all arms was measured; reduction in values of these parameters was interpreted
as general anxiety. In the social preference test, social preference ratio was
calculated for each animal, according to the previously published protocol [3],
and reduction in this ratio was interpreted as social anxiety. 2-way ANOVA, with
sex and isolation stress as factors, was used for parametric data analysis, and
Fischer’s post hoc test was used to detect statistically significant between group
differences. Kruskal-Wallis test was used for non-parametric data analysis, and
Mann-Whitney post hoc test with multiple comparison correction was used to
detect statistically significant between group differences.
Results: Compared to control rats, time spent in the centre of open field (-44%
[95%CI: -76%, -12%] p¼0,008) and total distance travelled (-17% [95%CI:
-32%, -2%], p¼0.028) were decreased in isolated males, but not in females
(p>0.1). In elevated plus maze test, time spent in the open arms was significantly
decreased in male isolated rats (isolated: [median: 0.76, IQR: 0.00 – 2.06] vs
control: [median: 4.96, IQR: 2.04 – 17.75], p¼0.034); however, this change did
not remain significant after multiple comparisons corrections. In sociability tests,
both male and female isolated rats exhibited increase in social preference ratio
(+32% [95%CI: 12%, 51%], p¼0.002) and preference for novel animal over
familiar one (+48% [95%CI: 10%, 86%], p¼0.015), compared to control rats.
Body weight, measured after six weeks of social isolation at week ten, was
increased in isolated male compared to control rats (+19% [95%CI: 14%, 24%],
p<0.001), while there was no such difference observed in female rats.
Conclusion: Social isolation caused increase in general anxiety in male, but not
female rats. In addition, both male and female rats exhibited robust increase in
preference for social interaction and novel social stimulus, which is the result
opposite from the expected social anxiety as initially hypothesized.",
publisher = "Elsevier",
journal = "Neuroscience Applied",
title = "Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats",
volume = "1",
number = "Supplement 2",
pages = "19-19",
doi = "10.1016/j.nsa.2022.100149"
}

Manojlović, M., Milosavljević, F., Atanasov, A., Batinić, B., Sitarica, P.,& Jukić, M.. (2022). Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats. in Neuroscience Applied
Elsevier., 1(Supplement 2), 19-19.
https://doi.org/10.1016/j.nsa.2022.100149

Manojlović M, Milosavljević F, Atanasov A, Batinić B, Sitarica P, Jukić M. Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats. in Neuroscience Applied. 2022;1(Supplement 2):19-19.
doi:10.1016/j.nsa.2022.100149 .

Manojlović, Marina, Milosavljević, Filip, Atanasov, Andrea, Batinić, Bojan, Sitarica, Pavle, Jukić, Marin, "Social adolescent stress causes increased general anxiety in male rats and reduced social anxiety in both male and female rats" in Neuroscience Applied, 1, no. Supplement 2 (2022):19-19,
https://doi.org/10.1016/j.nsa.2022.100149 . .

TY  - CONF
AU  - Milosavljević, Filip
AU  - Brusini, Irene
AU  - Atanasov, Andrea
AU  - Manojlović, Marina
AU  - Vučić, Marija
AU  - Oreščanin-Dušić, Zorana
AU  - Brkljačić, Jelena
AU  - Sitarica, Pavle
AU  - Miljević, Čedo
AU  - Nikolić-Kokić, Aleksandra
AU  - Blagojević, Duško
AU  - Wang, Chunliang
AU  - Damberg, Peter
AU  - Pešić, Vesna
AU  - Tyndale, Rachel
AU  - Ingelman-Sundberg, Magnus
AU  - Jukić, Marin
PY  - 2022
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4729
AB  - Background: Animal models are essential for understanding aetiology and pathophysiology of movement disorders. Previously, it had been found that mice transgenic for the human CYP2C19 gene, which is expressed in the liver and developing brain, exhibit altered neurodevelopment associated with impairments of their motor function and emotionality [1, 2]. The aim of this study was to characterize motoric phenotype of the CYP2C19 transgenic mouse and validate its potential usefulness as an animal model for ataxia.

Methods: Experiments were performed on CYP2C19 transgenic mice and control wild-type littermate mice. Body weight of mice was measured between the 21st and 42nd postnatal day. Mouse gait was analysed with footprint test [3] in young animals at four time points and once in adult mice. The maximal height of hindpaw elevation while walking was measured offline from the video footage of the footprint test. Motoric function was quantified by the rotarod and beam-walking tests. Structural differences in 20 brain regions of wild-type and transgenic mice were investigated with 9.4T gadolinium-enhanced postmortem neuroimaging. Antioxidative enzyme status was determined in the brain tissue in order to assess potential differences in the brain oxidative-antioxidative balance between wild-type and transgenic mice. When multiple brain regions or multiple antioxidant enzyme activities were analysed, p-values were FDR corrected for multiple comparisons.

Results: CYP2C19 transgenic (TG) animals exhibited approximately 5-10% reduced body weight (p=0.015) during 3rd and 4th postnatal week, while after postnatal day 31, the differences in the body weight were no longer statistically significant. The TG animals exhibited approximately two fold higher maximal hindpaw elevation in young (2.1-fold [CI95%: 2.0, 2.2], p<0.0001) and adult mice (1.9-fold [CI95%: 1.8, 2.1], p<0.0001), compared to wild-types. In the 5th postnatal week, all transgenic mice exhibited increase in elevation of both hindpaws, while after this point they gradually started exhibiting unilateral phenotype until almost all (49 of 51) animals became unilaterally affected in the adulthood. Footprint analysis and rotarod test did not detect significant differences (p>0.1) between TG and control mice in any of the analysed parameters, accounting for all examined time points. CYP2C19 transgenic mice exhibited 14% increase in beam crossing time (14%, [95%CI: 6.4, 22], p=0.0014) and 5.6-fold more paw-slips (p<0.0001, n=89) in the beam-walking test. CYP2C19 transgenic mice exhibited profound reduction in cerebellar volume (-11.8% [95%CI: -14.7, -9.0], q<0.0001, n=59) and moderate reduction in hippocampal volume (-4.2% [95%CI: -6.4%, -1.9%], q=0.015, n=59); compared to the corresponding volumes measured in WT mice. Superoxide dismutase activity was slightly increased (1.14-fold [CI95%: 1.06, 1.23], p=0.0010, q=0.023) in the cerebelli and moderately increased (1.3-fold, [CI95%: 1.18, 1.47], p<0.0001, q=0.0013) in the hippocampi of transgenic mice compared to wild-types, while glutathione reductase activity was significantly increased (1.2-fold [CI95%: 1.13, 1.35], p<0.0001, q=0.0021) in the hippocampi of TG mice.

Conclusions: Humanized CYP2C19 transgenic mice exhibit altered motoric function, functional motoric impairments and reduced cerebellar volume. CYP2C19 transgenic mice can be a useful tool for the studies focused on understanding the physiology of cerebellar development, as well as aetiology and pathophysiology of cerebellum-related disorders.
PB  - Elsevier
C3  - Neuroscience Applied
T1  - Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia
VL  - 1
IS  - Supplement 2
SP  - 64
EP  - 64
DO  - 10.1016/j.nsa.2022.100236
ER  - 

@conference{
author = "Milosavljević, Filip and Brusini, Irene and Atanasov, Andrea and Manojlović, Marina and Vučić, Marija and Oreščanin-Dušić, Zorana and Brkljačić, Jelena and Sitarica, Pavle and Miljević, Čedo and Nikolić-Kokić, Aleksandra and Blagojević, Duško and Wang, Chunliang and Damberg, Peter and Pešić, Vesna and Tyndale, Rachel and Ingelman-Sundberg, Magnus and Jukić, Marin",
year = "2022",
abstract = "Background: Animal models are essential for understanding aetiology and pathophysiology of movement disorders. Previously, it had been found that mice transgenic for the human CYP2C19 gene, which is expressed in the liver and developing brain, exhibit altered neurodevelopment associated with impairments of their motor function and emotionality [1, 2]. The aim of this study was to characterize motoric phenotype of the CYP2C19 transgenic mouse and validate its potential usefulness as an animal model for ataxia.

Methods: Experiments were performed on CYP2C19 transgenic mice and control wild-type littermate mice. Body weight of mice was measured between the 21st and 42nd postnatal day. Mouse gait was analysed with footprint test [3] in young animals at four time points and once in adult mice. The maximal height of hindpaw elevation while walking was measured offline from the video footage of the footprint test. Motoric function was quantified by the rotarod and beam-walking tests. Structural differences in 20 brain regions of wild-type and transgenic mice were investigated with 9.4T gadolinium-enhanced postmortem neuroimaging. Antioxidative enzyme status was determined in the brain tissue in order to assess potential differences in the brain oxidative-antioxidative balance between wild-type and transgenic mice. When multiple brain regions or multiple antioxidant enzyme activities were analysed, p-values were FDR corrected for multiple comparisons.

Results: CYP2C19 transgenic (TG) animals exhibited approximately 5-10% reduced body weight (p=0.015) during 3rd and 4th postnatal week, while after postnatal day 31, the differences in the body weight were no longer statistically significant. The TG animals exhibited approximately two fold higher maximal hindpaw elevation in young (2.1-fold [CI95%: 2.0, 2.2], p<0.0001) and adult mice (1.9-fold [CI95%: 1.8, 2.1], p<0.0001), compared to wild-types. In the 5th postnatal week, all transgenic mice exhibited increase in elevation of both hindpaws, while after this point they gradually started exhibiting unilateral phenotype until almost all (49 of 51) animals became unilaterally affected in the adulthood. Footprint analysis and rotarod test did not detect significant differences (p>0.1) between TG and control mice in any of the analysed parameters, accounting for all examined time points. CYP2C19 transgenic mice exhibited 14% increase in beam crossing time (14%, [95%CI: 6.4, 22], p=0.0014) and 5.6-fold more paw-slips (p<0.0001, n=89) in the beam-walking test. CYP2C19 transgenic mice exhibited profound reduction in cerebellar volume (-11.8% [95%CI: -14.7, -9.0], q<0.0001, n=59) and moderate reduction in hippocampal volume (-4.2% [95%CI: -6.4%, -1.9%], q=0.015, n=59); compared to the corresponding volumes measured in WT mice. Superoxide dismutase activity was slightly increased (1.14-fold [CI95%: 1.06, 1.23], p=0.0010, q=0.023) in the cerebelli and moderately increased (1.3-fold, [CI95%: 1.18, 1.47], p<0.0001, q=0.0013) in the hippocampi of transgenic mice compared to wild-types, while glutathione reductase activity was significantly increased (1.2-fold [CI95%: 1.13, 1.35], p<0.0001, q=0.0021) in the hippocampi of TG mice.

Conclusions: Humanized CYP2C19 transgenic mice exhibit altered motoric function, functional motoric impairments and reduced cerebellar volume. CYP2C19 transgenic mice can be a useful tool for the studies focused on understanding the physiology of cerebellar development, as well as aetiology and pathophysiology of cerebellum-related disorders.",
publisher = "Elsevier",
journal = "Neuroscience Applied",
title = "Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia",
volume = "1",
number = "Supplement 2",
pages = "64-64",
doi = "10.1016/j.nsa.2022.100236"
}

Milosavljević, F., Brusini, I., Atanasov, A., Manojlović, M., Vučić, M., Oreščanin-Dušić, Z., Brkljačić, J., Sitarica, P., Miljević, Č., Nikolić-Kokić, A., Blagojević, D., Wang, C., Damberg, P., Pešić, V., Tyndale, R., Ingelman-Sundberg, M.,& Jukić, M.. (2022). Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia. in Neuroscience Applied
Elsevier., 1(Supplement 2), 64-64.
https://doi.org/10.1016/j.nsa.2022.100236

Milosavljević F, Brusini I, Atanasov A, Manojlović M, Vučić M, Oreščanin-Dušić Z, Brkljačić J, Sitarica P, Miljević Č, Nikolić-Kokić A, Blagojević D, Wang C, Damberg P, Pešić V, Tyndale R, Ingelman-Sundberg M, Jukić M. Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia. in Neuroscience Applied. 2022;1(Supplement 2):64-64.
doi:10.1016/j.nsa.2022.100236 .

Milosavljević, Filip, Brusini, Irene, Atanasov, Andrea, Manojlović, Marina, Vučić, Marija, Oreščanin-Dušić, Zorana, Brkljačić, Jelena, Sitarica, Pavle, Miljević, Čedo, Nikolić-Kokić, Aleksandra, Blagojević, Duško, Wang, Chunliang, Damberg, Peter, Pešić, Vesna, Tyndale, Rachel, Ingelman-Sundberg, Magnus, Jukić, Marin, "Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia" in Neuroscience Applied, 1, no. Supplement 2 (2022):64-64,
https://doi.org/10.1016/j.nsa.2022.100236 . .

TY  - CONF
AU  - Sitarica, Pavle
PY  - 2022
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4139
AB  - Увод: CYP2C19 трансгени мишеви показују комплексан емоционални и моторни фенотип, а могу бити корисни за испитивање потенцијалне улоге CYP2C19 ензима у развоју нервног система.
Циљ рада: Карактеризација поремећаја хода код CYP2C19 мишева методом отисака шапа (footprint test) и испитивање потенцијалне корисности примене CYP2C19 мишева као анималног модела церебеларне атаксије.
Материјал и методе: У експерименту су учествовали трансгени (TG) и контролни мишеви. Телесна маса је мерена од 21. до 42. постнаталног дана (P21-P42). Од пете до осме постнаталне недеље, мерена је висина елевације задње шапе и извођен је footprint test након чега су мерени параметри од значаја.
Резултати: TG мишеви показују статистички значајно смањење телесне масе од 13,54% у P21 и 4,60% у P32, након чега нема значајне разлике. ТG мишеви имају приближно два пута већу елевацију задње шапе, при чему се ова разлика не мења током старења. Footprint анализом је утврђено да нема значајне разлике између TG и контролних мишева ни у једном анализираном параметру, када се све испитиване временске тачке узму у обзир.
Закључак: Нису уочене значајне промене у ходу TG у односу на контролне мишеве, изузев израженијег подизања задњих шапа. CYP2C19 мишеви не представљају карактеристичан модел церебеларне атаксије, јер не показују већу ширину задње базе, која се очекује код анималних модела атаксије.
AB  - Introduction: Transgenic CYP2C19 mice exhibit complex emotional and motor phenotype, and may be useful in investigating a potential role of CYP2C19 enzyme in neurodevelopment.
The Aim: Characterization of gait in the CYP2C19 mice by footprint test and evaluation of potential usefulness of the CYP2C19 mice as an animal model for cerebellar ataxia.
Material and Methods: Transgenic (TG) and control mice were involved in the experiment. Body weight was measured from the 21st to 42nd postnatal day (P21-P42). From 5-8 postnatal week, the hind paw elevation height was quantified, footprint test was performed and parameters of interest were measured.
Results: TG mice exhibited a statistically significant reduction in body weight of 13.54% in P21 and 4.60% in P32; after which there wasn’t significant difference. The hind paw elevation was approximately twice higher in the TG compared to control mice, and this difference did not change over time. Footprint analysis showed no significant difference between TG and control mice in any of the analyzed parameters, accounting for all examined time points.
Conclusion: No significant changes were observed in gait of TG mice in comparison to control mice, aside from sibstantially more pronounced hind paw elevation. CYP2C19 mice do not present a prototypical model of cerebellar ataxia, since they do not exhibit greater hind base widths, as animal models of ataxia do.
T1  - Анализа хода трансгених мишева носиоца хуманог CYP2C19 гена
T1  - Gait analysis of the transgenic mice carriers of the human CYP2C19 gene
UR  - https://hdl.handle.net/21.15107/rcub_farfar_4139
ER  - 

@conference{
author = "Sitarica, Pavle",
year = "2022",
abstract = "Увод: CYP2C19 трансгени мишеви показују комплексан емоционални и моторни фенотип, а могу бити корисни за испитивање потенцијалне улоге CYP2C19 ензима у развоју нервног система.
Циљ рада: Карактеризација поремећаја хода код CYP2C19 мишева методом отисака шапа (footprint test) и испитивање потенцијалне корисности примене CYP2C19 мишева као анималног модела церебеларне атаксије.
Материјал и методе: У експерименту су учествовали трансгени (TG) и контролни мишеви. Телесна маса је мерена од 21. до 42. постнаталног дана (P21-P42). Од пете до осме постнаталне недеље, мерена је висина елевације задње шапе и извођен је footprint test након чега су мерени параметри од значаја.
Резултати: TG мишеви показују статистички значајно смањење телесне масе од 13,54% у P21 и 4,60% у P32, након чега нема значајне разлике. ТG мишеви имају приближно два пута већу елевацију задње шапе, при чему се ова разлика не мења током старења. Footprint анализом је утврђено да нема значајне разлике између TG и контролних мишева ни у једном анализираном параметру, када се све испитиване временске тачке узму у обзир.
Закључак: Нису уочене значајне промене у ходу TG у односу на контролне мишеве, изузев израженијег подизања задњих шапа. CYP2C19 мишеви не представљају карактеристичан модел церебеларне атаксије, јер не показују већу ширину задње базе, која се очекује код анималних модела атаксије., Introduction: Transgenic CYP2C19 mice exhibit complex emotional and motor phenotype, and may be useful in investigating a potential role of CYP2C19 enzyme in neurodevelopment.
The Aim: Characterization of gait in the CYP2C19 mice by footprint test and evaluation of potential usefulness of the CYP2C19 mice as an animal model for cerebellar ataxia.
Material and Methods: Transgenic (TG) and control mice were involved in the experiment. Body weight was measured from the 21st to 42nd postnatal day (P21-P42). From 5-8 postnatal week, the hind paw elevation height was quantified, footprint test was performed and parameters of interest were measured.
Results: TG mice exhibited a statistically significant reduction in body weight of 13.54% in P21 and 4.60% in P32; after which there wasn’t significant difference. The hind paw elevation was approximately twice higher in the TG compared to control mice, and this difference did not change over time. Footprint analysis showed no significant difference between TG and control mice in any of the analyzed parameters, accounting for all examined time points.
Conclusion: No significant changes were observed in gait of TG mice in comparison to control mice, aside from sibstantially more pronounced hind paw elevation. CYP2C19 mice do not present a prototypical model of cerebellar ataxia, since they do not exhibit greater hind base widths, as animal models of ataxia do.",
title = "Анализа хода трансгених мишева носиоца хуманог CYP2C19 гена, Gait analysis of the transgenic mice carriers of the human CYP2C19 gene",
url = "https://hdl.handle.net/21.15107/rcub_farfar_4139"
}

Sitarica, P.. (2022). Анализа хода трансгених мишева носиоца хуманог CYP2C19 гена. .
https://hdl.handle.net/21.15107/rcub_farfar_4139

Sitarica P. Анализа хода трансгених мишева носиоца хуманог CYP2C19 гена. 2022;.
https://hdl.handle.net/21.15107/rcub_farfar_4139 .

Sitarica, Pavle, "Анализа хода трансгених мишева носиоца хуманог CYP2C19 гена" (2022),
https://hdl.handle.net/21.15107/rcub_farfar_4139 .