Page 132 - Petelin, Ana, in Helena Skočir. 2020. Ur. Raziskovanje za znanje, znanje za zdravje. Zbornik prispevkov z recenzijo. Koper: Založba Univerze na Primorskem.
P. 132
iskovanje za znanje, znanje za zdravje Da bi preverili učinkovitost uporabe OST tudi v Sloveniji, bi bilo potrebno
narediti obsežno in poglobljeno raziskavo na večjem vzorcu oseb z upošte-
vanjem originalnega protokola izvedbe OST. Pridobljene rezultate bi bilo po-
trebno primerjati še z ocenami pridobljenimi po šestih mesecih ali daljšem
časovnem obdobju po izvedenem protokolu obravnav, da bi odgovorili na
vprašanje ali se učinki OST po daljšem časovnem obdobju ohranijo.
Literatura
BRUNNER, I.C., SKOUEN, J.S. in STRAND, L.I., 2012. Is modified constraint-induced move-
ment therapy more effective than bimanual training in improving upper arm motor
function in the subacute phasepost stroke? A randomized controlled trial. Clinical Re-
habilitation, 26 (12), str. 1078–1086. doi: 10.1177/0269215512443138.
CORBETTA, D., SIRTORI, V., CASTELLINI, G., MOJA, L. in GATTI, R., 2015. Constraint-induced
movement therapy for upper extremities in people with stroke. Cochrane database
systematic reviews, 10 (3), str. 3–29. doi: 10.1002/14651858.CD004433.pub3.
DROMERICK, A.W., LANG, C.E., BIRKENMEIER, R.L., WAGNER, J.M., MILLER, J.P., VIDEEN, T.O.,
POWERS, W.J., WOLF, S.L. in EDWARDS, D.F., 2009. Very Early Constraint-Induced Move-
ment during Stroke Rehabilitation (VECTORS): A single-center RCT Neurology, vol. 73
(3), str. 195–201. doi: 10.1212/WNL.0b013e3181ab2b27.
HANSEN, G.M., SVENDSEN, S.W., BRUNNER, I. in NIELSEN, J.F., 2018. Predicting shoulder
function after constraint induced movement therapy: a retrospective cohort study.
Topics Stroke Rehabilitation, 25 (4), str. 281–287. doi: 10.1080/10749357.2018.1440508.
HIGGINS, P.T. in GREEN, S., 2011. Cochrane Handbook for Systematic Reviews of Interven-
tions Version 5.1.0. The Cochrane Collaboration. Pridobljeno 16. 1. 2019 s www.hand�-
book.cochrane.org.
KAGAWA, S., KOYAMA, T., HOSOMI , M., TAKEBAYASHI, T., HANADA, K., HASHIMOTO, F. in
DOMEN, K., 2013. Effects of Constraint-induced Movement Therapy on Spasticity in
Patients with Hemiparesis after Stroke. Journal of Stroke and Cerebrovascular Diseases,
22 (4), str. 364–370. doi:10.1016/j.jstrokecerebrovasdis.2011.09.021.
KELLY, K.M., BORSTAD, A.L., KLINE, D. in GAUTHIER, L.V., 2018. Improved quality of life fol-�
lowing constraint-induced movement therapy is associated with gains in arm use,
but not motor improvement. Topics in Stroke Rehabilitation, 25 (7), str. 467–474. doi:
10.1080/10749357.2018.1481605.
KIM, D.G., CHO, Y.W., HONG, J.H., SONG, J.C., CHUNG, H.A., BAI, D.S., LEE, C.H. in JANG,
S.H., 2008. Effect of constraint- induced movement therapy with modified opposi-
tion restriction orthosis in chronic hemiparetic patients with stroke. NeuroRehabilita-
tion, 23(3): 239-244.
KITAGO, T., LIANG, J., HUANG, V.S., HAYES, S., SIMON, P., TENTEROMANO, L., LAZAR,
R.M., MARSHALL, R.S., MAZZONI, P., LENNIHAN, L., et al., 2013. Improvement Af-
ter Constraint-Induced Movement Therapy: Recovery of Normal Motor Control or
Task-Specific Compensation. Neurorehabilitation and Neural Repair, 27 (2), str. 99–109.
doi:10.1177/1545968312452631.
KOTNIK , S. in GOLJAR, N., 2013. Z omejevanjem spodbujajoča terapija v kroničnem ob-
dobju po možganski kapi: Prikaz primera. Rehabilitacija, (Ljubljana) 12 (2), str. 76–82.
MASSIE, C., MALCOLM, M.P., GREENE, D. in THAUT, M., 2009. The Effects of Constraint-In-�
duced Therapy on Kinematic Outcomes and Compensatory Movement Patterns: An
Exploratory Study. Archives of Physical Medical Rehabilitation, 90 (4), str. 571–579. doi:
10.1016/j.apmr.2008.09.574.
130
narediti obsežno in poglobljeno raziskavo na večjem vzorcu oseb z upošte-
vanjem originalnega protokola izvedbe OST. Pridobljene rezultate bi bilo po-
trebno primerjati še z ocenami pridobljenimi po šestih mesecih ali daljšem
časovnem obdobju po izvedenem protokolu obravnav, da bi odgovorili na
vprašanje ali se učinki OST po daljšem časovnem obdobju ohranijo.
Literatura
BRUNNER, I.C., SKOUEN, J.S. in STRAND, L.I., 2012. Is modified constraint-induced move-
ment therapy more effective than bimanual training in improving upper arm motor
function in the subacute phasepost stroke? A randomized controlled trial. Clinical Re-
habilitation, 26 (12), str. 1078–1086. doi: 10.1177/0269215512443138.
CORBETTA, D., SIRTORI, V., CASTELLINI, G., MOJA, L. in GATTI, R., 2015. Constraint-induced
movement therapy for upper extremities in people with stroke. Cochrane database
systematic reviews, 10 (3), str. 3–29. doi: 10.1002/14651858.CD004433.pub3.
DROMERICK, A.W., LANG, C.E., BIRKENMEIER, R.L., WAGNER, J.M., MILLER, J.P., VIDEEN, T.O.,
POWERS, W.J., WOLF, S.L. in EDWARDS, D.F., 2009. Very Early Constraint-Induced Move-
ment during Stroke Rehabilitation (VECTORS): A single-center RCT Neurology, vol. 73
(3), str. 195–201. doi: 10.1212/WNL.0b013e3181ab2b27.
HANSEN, G.M., SVENDSEN, S.W., BRUNNER, I. in NIELSEN, J.F., 2018. Predicting shoulder
function after constraint induced movement therapy: a retrospective cohort study.
Topics Stroke Rehabilitation, 25 (4), str. 281–287. doi: 10.1080/10749357.2018.1440508.
HIGGINS, P.T. in GREEN, S., 2011. Cochrane Handbook for Systematic Reviews of Interven-
tions Version 5.1.0. The Cochrane Collaboration. Pridobljeno 16. 1. 2019 s www.hand�-
book.cochrane.org.
KAGAWA, S., KOYAMA, T., HOSOMI , M., TAKEBAYASHI, T., HANADA, K., HASHIMOTO, F. in
DOMEN, K., 2013. Effects of Constraint-induced Movement Therapy on Spasticity in
Patients with Hemiparesis after Stroke. Journal of Stroke and Cerebrovascular Diseases,
22 (4), str. 364–370. doi:10.1016/j.jstrokecerebrovasdis.2011.09.021.
KELLY, K.M., BORSTAD, A.L., KLINE, D. in GAUTHIER, L.V., 2018. Improved quality of life fol-�
lowing constraint-induced movement therapy is associated with gains in arm use,
but not motor improvement. Topics in Stroke Rehabilitation, 25 (7), str. 467–474. doi:
10.1080/10749357.2018.1481605.
KIM, D.G., CHO, Y.W., HONG, J.H., SONG, J.C., CHUNG, H.A., BAI, D.S., LEE, C.H. in JANG,
S.H., 2008. Effect of constraint- induced movement therapy with modified opposi-
tion restriction orthosis in chronic hemiparetic patients with stroke. NeuroRehabilita-
tion, 23(3): 239-244.
KITAGO, T., LIANG, J., HUANG, V.S., HAYES, S., SIMON, P., TENTEROMANO, L., LAZAR,
R.M., MARSHALL, R.S., MAZZONI, P., LENNIHAN, L., et al., 2013. Improvement Af-
ter Constraint-Induced Movement Therapy: Recovery of Normal Motor Control or
Task-Specific Compensation. Neurorehabilitation and Neural Repair, 27 (2), str. 99–109.
doi:10.1177/1545968312452631.
KOTNIK , S. in GOLJAR, N., 2013. Z omejevanjem spodbujajoča terapija v kroničnem ob-
dobju po možganski kapi: Prikaz primera. Rehabilitacija, (Ljubljana) 12 (2), str. 76–82.
MASSIE, C., MALCOLM, M.P., GREENE, D. in THAUT, M., 2009. The Effects of Constraint-In-�
duced Therapy on Kinematic Outcomes and Compensatory Movement Patterns: An
Exploratory Study. Archives of Physical Medical Rehabilitation, 90 (4), str. 571–579. doi:
10.1016/j.apmr.2008.09.574.
130