{"id":18862,"date":"2020-01-26T12:02:11","date_gmt":"2020-01-26T11:02:11","guid":{"rendered":"https:\/\/live.hasomed.de\/?page_id=18862"},"modified":"2020-06-10T07:24:39","modified_gmt":"2020-06-10T05:24:39","slug":"references","status":"publish","type":"page","link":"https:\/\/hasomed.de\/en\/company\/references\/","title":{"rendered":"References & Studies"},"content":{"rendered":"
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Arm Studio to intensify upper limb rehabilitation after stroke: Concept, acceptance, utilization and preliminary clinical results.<\/strong> Buschfort, R., Brocke, J., He\u00df, A., Werner, C., Waldner, A. und Hesse, S. 2010. J Rehabil Med, Volume 42: 310-314.<\/p>\n

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Effect on arm function and coast of robot-assisted group therapy in subacute patients with stroke and a moderately to severely affected arm: a randomized controlled trial.<\/strong> Hesse, S., He\u00df, A., Werner, C., Kabbert, N. und Buschfort, R. 2014. Clinical Rehabilitation, Volume 28: 637-647.<\/p>\n

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A new electromechanical trainer for sensorimotor rehabilitation of paralysed fingers: A case series in chronic and acute stroke patients.<\/strong> Hesse, S., Kuhlmann, H., Wilk, J., Tomelleri, C. und Kirker, S. GB. 2008. Journal of NeuroEngineering and Rehabilitation, Volume 5.<\/p>\n

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Neurology<\/h3>

Cerebral lesions<\/h4>

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Comprehensive cognitive training improves attention and memory in patients with severe or moderate traumatic brain injury<\/strong> Le\u015bniak MM, Iwa\u0144ski S, Szutkowska-Hoser J, Seni\u00f3w JApplied Neuropsychology 2019 Mar: Adult, DOI: 10.1080\/23279095.2019.1576691<\/p>\n

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Improving Everyday Memory Performance After Acquired Brain Injury: An RCT on Recollection and Working Memory Training<\/strong> KM Richter, C M\u00f6dden, P Eling and H Hildebrandt
\nOnline First Publication, April 26, 2018., doi.org\/10.1037\/neu0000445<\/p>\n

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Effectiveness of a Computer-Based Training Program of Attention and Memory in Patients with Acquired Brain Damage<\/strong> Fernandez E, Bergado Rosado JA, Rodriguez Perez D, Salazar Santana S, Torres Aguilar M, Bringas ML
\nBehavioral Sciences (Basel). 2017 Dec 30;8(1). pii: E4. doi: 10.3390\/bs8010004<\/p>\n

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Clinical Efficacy of Acupuncture Treatment in Combination With RehaCom Cognitive Training for Improving Cognitive Function in Stroke: A 2 \u00d7 2 Factorial Design Randomized Controlled Trial<\/strong> Jiang C, Yang S, Tao J, Huang J, Li Y, Ye H, Chen S, Hong W, Chen L
\nJ Am Med Dir Assoc. 2016 Aug 31. pii: S1525-8610(16)30299-7. doi: 10.1016\/j.jamda.2016.07.021. Epub 2016 Aug 31<\/p>\n

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Effects of neurofeedback and computer-assisted cognitive rehabilitation on relative brain wave ratios and activities of daily living of stroke patients: a randomized control trial<\/strong> Cho HY, Kim KT, Jung JH
\nJ Phys Ther Sci. 2016 Jul; 28(7): 2154\u20132158. Published online 2016 Jul 29. doi: 10.1589\/jpts.28.2154<\/p>\n

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Recovery after brain damage: Is there any indication for generalization between different cognitive functions?<\/strong> Richter KM, M\u00f6dden C, Hanken K, Hildebrandt H
\nJ Clin Exp Neuropsychol. 2015;37(6):571-80. Doi: 10.1080\/13803395.2015.1030358.Epub 2015 Jun 10<\/p>\n

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Effect of computerized cognitive rehabilitation program on cognitive function and activities of living in stroke patients<\/strong> Yoo C, Yong MH, Chung J, Yang Y
\nJ Phys Ther Sci. 2015 Aug;27(8):2487-9. doi: 10.1589\/jpts.27.2487. Epub 2015 Aug 21.<\/p>\n

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Working memory training and semantic structuring improves remembering future events, not past events.<\/strong> Richter KM, MSc, M\u00f6dden C, MSc, Eling P, PhD, Hildebrandt H, Prof.
\nNeurorehabil Neural Repair. 2015 Jan; 29(1):33-40. doi: 10.1177\/1545968314527352. Epub 2014 Apr 2.<\/p>\n

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The effectiveness of computer-assisted cognitive rehabilitation in brain-damaged patients<\/strong> \u0141ojek E, Bolewska A
\nPolish Psychological Bulletin 2013, vol. 44(1), 31-39 DOI -10.2478\/ppb-2013-0004<\/p>\n

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Clinical Impact of RehaCom Software for Cognitive Rehabilitation of Patients with Acquired Brain Injury International Neurological Restoration Center (CIREN 2012)<\/strong> Fern\u00e1ndez E, Bringas ML, Salazar S, Rodr\u00edguez D, Garc\u00eda ME, Torres M.
\nMEDICC Rev. 2012 Oct; 14(4):32-5.<\/p>\n

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A Randomized Controlled Trial Comparing 2 Interventions for Visual Field Loss With Standard Occupational Therapy During Inpatient Stroke Rehabilitation<\/strong> FM\u00f6dden C, Behrens M, Damke I, Eilers N, Kastrup A, Hildebrandt H
\nNeurorehabil Neural Repair. 2012 Jun;26 (5):463-9. doi: 10.1177\/1545968311425927. Epub 2011 Dec 2<\/p>\n

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Is the Neuropsychological Treatment of Memory Specific or Unspecific? \u2013 Comparing Treatment Effects on Memory and Attention.<\/strong> Spahn V, Kulke H, Kunz M, Th\u00f6ne-Otto A, Schupp W, Lautenbacher S
\nSource, 2010; Zeitschrift f\u00fcr Neuropsychologie, 21 (4), 2010, 239-245<\/p>\n

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Attention remediation following traumatic brain injury in childhood and adolescence.<\/strong> Galbiati S, Recla M, Pastore V, Liscio M, Bardoni A, Castelli E, Strazzer S
\nNeuropsychology. 2009 Jan;23(1):40-9. doi: 10.1037\/a0013409. <\/p>\n

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The Effects of a Computer-assisted Cognition Training Program (RehaCom\u00ae) in Stroke Patients<\/strong> Sung Hun Shin, M.D., Ji Sung Kim, M.D. and Yong Kyun Kim, M.D.
\nBrain & NeuroRehabilitation Vol. 1, No. 2, September, 2008<\/p>\n

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Evaluation of a Neuropsychological Training of Attentional Functions for Brain Damaged Outpatients<\/strong> Eidenm\u00fcller A, Kallus KW, Fr\u00f6hlich H, Bieber K, Poimann H
\nZeitschrift f\u00fcr Neuropsychologie (2006), 12, pp. 160-172. doi.org\/10.1024\/\/1016-264X.12.2.160.<\/p>\n

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Meta-analyses<\/br>
\nEvidence-Based Cognitive Rehabilitation: Systematic<\/h5>

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Review of the Literature From 2009 Through 2014<\/strong> Cicerone KD, Goldin Y, Ganci K, Rosenbaum A, Wethe JV, Langenbahn DM, Malec JF, Bergquist TF, Kingsley K, Nagele D, Trexler L, Fraas M, Bogdanova Y, Harley JP.
\nArch Phys Med Rehabil. 2019 Aug;100(8):1515-1533. doi: 10.1016\/j.apmr.2019.02.011.<\/p>\n

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Can impaired working memory functioning be improved by training?<\/strong> A meta-analysis with a special focus on brain injured patients
\nWeicker J, Villringer A, Th\u00f6ne-Otto A
\nNeuropsychology. 2016 Feb;30(2):190-212. doi: 10.1037\/neu0000227<\/p>\n

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Multiple sclerosis<\/h4>

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Do Secondary Progressive Multiple Sclerosis Patients Benefit From Computer- Based Cognitive Neurorehabilitation? A Randomized Sham Controlled Trial<\/strong> Lambros Messinis, Mary H Kosmidis, Grigorios Nasios, Spyridon Konitsiotis, Aikaterini Ntoskou, Christos Bakirtzis, Nikolaos Grigoriadis, Panayiotis Patrikelis, Elias Panagiotopoulos, Philippos Gourzis, Sonia Malefaki, Panagiotis Papathanasopoulos
January 2020, online ahead of print<\/p>\n

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New aspects of symptomatic MS treatment: Part 6 – cognitive dysfunction and rehabilitation<\/strong> Henze T, Feneberg W, Flachenecker P, Seidel D, Albrecht H, Starck M, Meuth SG
Der Nervenarzt, April 2018, Volume 89, Issue 4, pp 453–459<\/p>\n

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Improving Everyday Memory Performance After Acquired Brain Injury: An RCT on Recollection and Working Memory Training<\/strong>
KM Richter, C Mödden, P Eling and H Hildebrandt
Online First Publication, April 26, 2018., doi.org\/10.1037\/neu0000445
Abstract »<\/p>\n

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A Randomised Controlled Trial of Efficacy of Cognitive Rehabilitation in Multiple Sclerosis: A Cognitive, Behavioural, and MRI Study<\/strong> Campbell J, Langdon D, Cercignani M, Rashid W
\nHindawi Publishing Corporation Neural Plasticity Volume 2016, Article ID 4292585, 9 pages<\/p>\n

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Two Years Follow up of Domain Specific Cognitive Training in Relapsing Remitting Multiple Sclerosis: A Randomized Clinical Trial<\/strong> Mattioli F, Bellomi F, Stampatori C, Provinciali L, Compagnucci L, Uccelli A, Pardini M, Santuccio G, Fregonese G, Pattini M, Allegri B, Clerici R, Lattuada A, Montomoli C, Corso B, Gallo P, Riccardi A, Ghezzi A, Roscio M, Tola MR, Calanca C, Baldini D, Trafficante D, Capra R;
\nFront Behav Neurosci. 2016 Feb 23;10:28. doi: 10.3389\/fnbeh.2016.00028.<\/p>\n

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Cognitive Rehabilitation in Multiple Sclerosis: The Role of Plasticity<\/strong> Chiaravalloti ND, Genova HM, DeLuca J
\nFront Neurol. 2015; 6: 67. Published online 2015 Apr 2. doi: 10.3389\/fneur.2015.00067<\/p>\n

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Persistence of the effects of attention and executive functions intensive rehabilitation in relapsing remitting multiple sclerosis<\/strong> Mattioli F, Stampatori C, Scarpazza C, Parrinello G, Capra R
\nMultiple Sclerosis and Related Disorders 2012 Oct;1(4):168-73. doi: 10.1016\/j.msard.2012.06.004.<\/p>\n

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Computer-Assisted Cognitive Rehabilitation of Attention Deficits for Multiple Sclerosis: A Randomized Trial With fMRI Correlates<\/strong> Cerasa A, Gioia MC, Valentino P, Nistic\u00f2 R, Chiriaco C, Pirritano D, Tomaiuolo F, Mangone G, Trotta M, Talarico T, Bilotti G, Quattrone A.;
\nNeurorehabil Neural Repair. 2013 May; 27(4):284-95. doi: 10.1177\/1545968312465194. Epub 2012 Nov 27.<\/p>\n

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Cognitive Rehabilitation in Multiple Sclerosis<\/strong> Barbosa F, Sousa C, Nogueira-Silva L, Jos\u00e9 S\u00e1 M
\nSinapse, Vol. 11, No. 1, May 2011<\/p>\n

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Efficacy and Specificity of intensive cognitive Rehabilitation of Attention and executive Functions in Multiple Sclerosis<\/strong> Mattioli F, Stampatori C, Zanotti D, Parrinello G, Capra R
\nJ Neurol Sci. 2010 Jan 15; 288(1-2):101-5. doi: 10.1016\/j.jns.2009.09.024. Epub 2009 Oct 13.<\/p>\n

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Computer-assisted memory retraining of patients with multiple sclerosis<\/strong> Mendozzi L, Pugnetti L, Motta A, Barbieri E, Gambini A, Cazzullo CL
\nThe Italian Journal of Neurological Sciences; November 1998, Volume 19, Supplement 6, pp S431\u2013S43<\/p>\n

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Parkinson<\/h4>
Meta-analysis<\/h5>

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Cognitive training in Parkinson disease: A systematic review and meta-analysis<\/strong> Leung IH, Walton CC, Hallock H, Lewis SJ, Valenzuela M, Lampit A
\nNeurology published online October 30, 2015 DOI 10.1212\/WNL.0000000000002145<\/p>\n

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Psychiatrie<\/h3>

Schizophrenia<\/h4>

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The efficacy of computer-based cognitive training for executive dysfunction in schizophrenia<\/strong> Leung IH, Mak M, Tyburski E, Starkowska A, Karabanowicz E, Samochowiec A, Samochowiec J
\nPsychiatry Res. 2019 Jul 1;279:62-70. doi: 10.1016\/j.psychres.2019.06.041<\/p>\n

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The implementation of cognitive remediation interventions in Campania<\/strong> Palumbo D, Patriarca S, Mucci A, De Angelis M, Di Crosta I, Piegari G, Galderisi S
\nJOURNAL OF PSYCHOPATHOLOGY, 2018; 24:98-103<\/p>\n

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Preliminary study of a rehabilitation program based on attentional processes to treat auditory hallucinations<\/strong> L\u00f3pez-Luengo B, Muela-Mart\u00ednez JA
\nCogn Neuropsychiatry. 2016 Jul;21(4):315-334. Epub 2016 Jul 18.<\/p>\n

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The effectiveness of computerized cognitive rehabilitation training program in improving cognitive abilities of schizophrenia clients<\/strong> Mohammadi MR, Keshavarzi Z, Talepasand S
\nIran J Psychiatry. 2014 Oct;9(4):209-15.<\/p>\n

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The efficacy of cognitive neurorehabilitation with RehaCom program in schizophrenia patients<\/strong> Mak M, Tybura P, Bie\u0144ikowski P, Karakiewicz B, Samochowiec J
\nPsychiatr Pol. 2013 Mar-Apr;47(2):213-23<\/p>\n

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How can cognitive remediation therapy modulate brain activations in schizophrenia? An fMRI study<\/strong> Bor J, Brunelin J, d\u2018Amato T, Costes N, Suaud-Chagny M, Saoud M, Poulet E
\nJune 30, 2011 Volume 192, Issue 3, Pages 160\u2013166<\/p>\n

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A randomized, controlled trial of computer-assisted cognitive remediation for schizophrenia<\/strong> d\u2018Amato T, Bation R, Cochet A, Jalenques I, Galland F, Giraud-Baro E, Pacaud-Troncin M, Augier-Astolfi F, Llorca PM, Saoud M, Brunelin J
\nSchizophr Res. 2011 Feb; 125(2-3):284-90. doi: 10.1016\/j.schres.2010.10.023. Epub 2010 Nov 19.<\/p>\n

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Depression<\/h4>

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Efficacy of Neurocognitive Remediation Therapy During an Acute Depressive Episode and Following Remission: Results From Two Randomised Pilot Studies<\/strong> Semkovska M, Ahern E, Lonarg\u00e1in DO, Lambe S, McLaughlin DM
\nEuropean Psychiatry, Volume 30, Supplement 1, 28\u201331 March 2015, Pages 403<\/p>\n

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Children and Youth<\/h3>

ADHD<\/h4>

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Evaluation of a computer-based neuropsychological Training in Children with Attention-Deficit Hyperactivity Disorder (ADHD)<\/strong> Amonn F, Fr\u00f6lich J, Breuer D, Banaschewski T, Doepfner M
\nNeuroRehabilitation. 2013;32(3):555-62. doi: 10.3233\/NRE-130877<\/p>\n

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Cognitive disorders in childhood
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The efficacy of cognitive training programs in children and adolescents: a meta-analysis
\n<\/strong> Karch D, Albers L, Renner G, Lichtenauer N, von Kries R
\nDtsch Arztebl Int. 2013 Sep;110(39):643-52. doi: 10.3238\/arztebl.2013.0643. Epub 2013 Sep 27.<\/p>\n

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Geriatrics<\/h3>

Dementia <\/h4>

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Beneficial Effect of Multidomain Cognitive Training on the Neuropsychological Performance of Patients with Early-Stage Alzheimer\u2019s Disease<\/strong> Nousia A, Siokas V, Aretouli E, Messinis L, Aloizou AM, Martzoukou M, Karala M, Koumpoulis C, Nasios G, Dardiotis EHindawi, Neural Plasticity, Volume 2018, Article ID 2845176, doi.org\/10.1155\/2018\/2845176 <\/p>\n

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The Effects of Cognitive Rehabilitation Training on Cognitive Function of Elderly Dementia Patients
\n<\/strong> Oh BH, Kim YK, Kim JH, Shin YS
\nJ Korean Neuropsychiatr. Assoc. 2003, Vol 42, No 4, 514-519<\/p>\n

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Computerized Cognitive Training in Older Adults With Mild Cognitive Impairment or Dementia: A Systematic Review and Meta-Analysis
\n<\/strong> Hill NT, Mowszowski L, Naismith SL, Chadwick VL, Valenzuela M, Lampit A
\nThe American journal of psychiatry 2017 Apr 1;174(4):329-340. doi: 10.1176\/appi.ajp.2016.16030360<\/p>\n

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Studies with healthy people<\/h3>

Working memory<\/h4>

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WOME: Theory-Based Working Memory Training - A Placebo-Controlled, Double-Blind Evaluation in Older Adults<\/strong> Weicker J, Hudl N, Frisch S, Lepsien J, Mueller K, Villringer A, Th\u00f6ne-Otto A
\nFront Aging Neurosci. 2018 Aug 14;10:247. doi: 10.3389\/fnagi.2018.00247. eCollection 2018<\/p>\n

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Attention and working memory<\/h4>

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Attention and Working Memory Training: The Effect of RehaCom Software on Cognitive Skills in a Non-ClinicalSample
\n<\/strong> Miruna C Barbu, R\u00f3is\u00edn M Furlong, Blanca Poveda and Jen Scotland University of Edinburgh, Edinburgh, UKNHS Lothian, Clinical Neuropsychology Department, Astley Ainslie Hospital, Edinburgh, UK, Published: June 27, 2017<\/p>\n

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Prospective memory<\/h4>

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Stress-related cortisol responsivity modulates prospective memory<\/strong> Glienke K, Piefke MJournal of Neuroendocrinology 2017 Dec;29(12). doi: 10.1111\/jne.12544.<\/p>\n

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Acute social stress before the planning phase improves memory performancein a complex real life-related prospective memory task<\/strong> Glienke K, Piefke MNeurobiol Learn Mem. 2016 Sep;133:171-81. doi: 10.1016\/j.nlm.2016.06.025. Epub 2016 Jun 28.\n<\/p>\n

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Memory<\/h4>

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Memory enhancement in healthy older adults using a brain plasticitybased training program: a randomized, controlled study <\/strong> Mahncke HW, Connor BB, Appelman J, Ahsanuddin ON, Hardy JL, Wood RA, Joyce NM, Boniske T, Atkins SM,
\nMerzenich MM. Proc Natl Acad Sci U S A. 2006 Aug 15;103(33):12523-8. Epub 2006 Aug 3.\n<\/p>\n

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Multisensor Classification System for Triggering FES in Order to Support Voluntary Swallowing.<\/strong> Riebold, B., Nahrstaedt, H., Schultheiss, C., Seidl, R. O., & Schauer, T. (2016).
\nEuropean Journal of Translational Myology, 26(4).<\/p>\n

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Automated Detection and Evaluation of Swallowing Using a Combined EMG\/Bioimpedance Measurement System.<\/strong> Schultheiss, C., Schauer, T., Nahrstaedt, H., & Seidl, R. O. (2014).
\nThe Scientific World Journal, 2014, e405471.<\/p>\n

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Bioimpedance- and EMG-Triggered FES for Improved Protection of the Airway During Swallowing.<\/strong> Nahrstaedt, H., Schultheiss, C., Schauer, T., & Seidl, R. O. (2013).
\nBiomedical Engineering \/ Biomedizinische Technik.<\/p>\n

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Evaluation of an EMG bioimpedance measurement system for recording and analysing the pharyngeal phase of swallowing.<\/strong> Schultheiss, C., Schauer, T., Nahrstaedt, H., & Seidl, R. O. (2013).
\nEuropean Archives of Oto-Rhino-Laryngology, 270(1), 2149\u20132156. <\/p>\n

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Swallow Detection Algorithm Based on Bioimpedance and EMG Measurements.<\/strong> Nahrstaedt, H., Schultheiss, C., Seidl, R. O., & Schauer, T. (2012).
\nIn B. Balazs (Ed.), Biological and Medical Systems (Vol. 8, pp. 91\u201396). Budapest: Elsevier.<\/p>\n

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Bioimpedance based measurement system for a controlled swallowing neuro-prosthesis.<\/strong> Nahrstaedt, H., Schauer, T., & Seidl, R. O. (2010).
\nIn Proc. of 15th Annual International FES Society Conference and 10th Vienna Int. Workshop on FES (pp. 49\u201351).<\/p>\n

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Measuring joint kinematics of treadmill walking and running: Comparison between an inertial sensor based system and a camera-based system.<\/strong> Nüesch, C., Roos, E., Pagenstert, G., & Mündermann, A. (2017). Journal of biomechanics, 57, 32-38.
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Mobile assessment of the lower limb kinematics in healthy persons and in persons with degenerative knee disorders: A systematic review.<\/strong> Van der Straaten, R., De Baets, L., Jonkers, I., & Timmermans, A. (2018). Gait & posture, 59, 229-241.
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Utilization of the Physical and Functional Laboratory in the Physiotherapy of a Lower Leg Patient.<\/strong> Brandt, P., Järvinen, N., & Viinikkala, J. (2018).
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Inertial sensor-based gait and attractor analysis as clinical measurement tool: functionality and sensitivity in healthy subjects and patients with symptomatic lumbar spinal stenosis.<\/strong> Byrnes, S. K., Nüesch, C., Loske, S., Leuenberger, A., Schären, S., Netzer, C., & Mündermann, A. (2018). Frontiers in physiology, 9, 1095.
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Effect of Fear of Falling on Turning Performance in Parkinson’s Disease in the Lab and at Home.<\/strong> Haertner, L., Elshehabi, M., Zaunbrecher, L., Pham, M. H., Maetzler, C., van Uem, J. M., & Liepelt-Scarfone, I. (2018). Frontiers in aging neuroscience, 10, 78.
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A review on accelerometry-based gait analysis and emerging clinical applications.<\/strong> Jarchi, D., Pope, J., Lee, T. K., Tamjidi, L., Mirzaei, A., & Sanei, S. (2018).. IEEE reviews in biomedical engineering, 11, 177-194.
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Decompression surgery improves gait quality in patients with symptomatic lumbar spinal stenosis.<\/strong> Loske, S., Nüesch, C., Byrnes, K. S., Fiebig, O., Schären, S., Mündermann, A., & Netzer, C. (2018).. The Spine Journal, 18(12), 2195-2204.
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Pedobarographie: Abrollverhalten Gangbahn versus Laufband bei orthopädischen Patienten sowie asymptomatischen Probanden.<\/strong> Müller, L. M. (2018). (Doctoral dissertation, Martin-Luther-Universität Halle-Wittenberg).
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THE USE OF WEARING SENSORY IN PHYSICAL THERAPY FOR LOWER LIMB AMPUTED PERSON. Work guide for physiotherapists.<\/strong> Palovesi, A., Piispanen, S., & Ylimäki, S. (2018), Työohje fysioterapeuteille.
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Trainer in a pocket-proof-of-concept of mobile, real-time, foot kinematics feedback for gait pattern normalization in individuals after stroke, incomplete spinal cord injury and elderly patients.<\/strong> Schließmann, D., Nisser, M., Schuld, C., Gladow, T., Derlien, S., Heutehaus, L., & Rupp, R. (2018).. Journal of neuroengineering and rehabilitation, 15(1), 44.
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Möglichkeiten und Grenzen instrumentellen Aktivitätsmonitorings bei medizinischen Interventionen.<\/strong> Türmer, C. S. (2018). (Doctoral dissertation, Technische Universität München).
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A haptic-based perception-empathy biofeedback device that supplements foot pressure pattern during gait in stroke patients.<\/strong> Hayashi, Y., Yasuda, K., Kitaji, Y., Harashima, H., & Iwata, H. (2019, January). In 2019 IEEE\/SICE International Symposium on System Integration (SII) (pp. 124-128). IEEE.
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Dose-response relationship between ambulatory load magnitude and load-induced changes in COMP in young healthy adults.<\/strong> Herger, S., Vach, W., Liphardt, A. M., Egloff, C., Nüesch, C., & Mündermann, A. (2019). Osteoarthritis and cartilage, 27(1), 106-113.
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Measuring joint kinematics of treadmill walking and running: Comparison between an inertial sensor based system and a camera-based system.<\/strong> Nüesch, Roos, Pagenstert, Mündermann.J Biomech. 2017 May 24;57:32-38. doi: 10.1016\/j.jbiomech.2017.03.015. Epub 2017 Mar 21.<\/p>\n

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Validity and reliability of a portable gait analysis system for measuring spatiotemporal gait characteristics: comparison to an instrumented treadmill.<\/strong> Donath L, Faude O, Lichtenstein E, N\u00fcesch C, M\u00fcndermann A
\nJ Neuroeng Rehabil. 2016 Jan 20;13:6. doi: 10.1186\/s12984-016-0115-z..<\/p>\n

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Mobile inertial sensor based gait analysis: Validity and reliability of spatiotemporal gait characteristics in healthy seniors.<\/strong> Donath, Faude, Lichtenstein, Pagenstert, N\u00fcesch, M\u00fcndermann.
\nGait Posture. 2016 Sep;49:371-374. doi: 10.1016\/j.gaitpost.2016.07.269. Epub 2016 Jul 30.<\/p>\n

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Spatiotemporal gait parameters during dual task walking in need of care elderly and young adults. A cross-sectional study.<\/strong> Agner S, Bernet J, Br\u00fclhart Y, Radlinger L, Rogan S
\nZ Gerontol Geriatr. 2015 Dec;48(8):740-6. doi: 10.1007\/s00391-015-0884-1. Epub 2015 Apr 16.<\/p>\n

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Amplitude-oriented exercise in Parkinson's disease: a randomized study comparing LSVT-BIG and a short training protocol.<\/strong> Ebersbach G, Grust U, Ebersbach A, Wegner B, Gandor F, K\u00fchn AA
\nJ Neural Transm (Vienna). 2015 Feb;122(2):253-6. doi: 10.1007\/s00702-014-1245-8. Epub 2014 May 29.<\/p>\n

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Feasibility of visual instrumented movement feedback therapy in individuals with motor incomplete spinal cord injury walking on a treadmill.<\/strong> Schliessmann D, Schuld C, Schneiders M, Derlien S, Gl\u00f6ckner M, Gladow T, Weidner N, Rupp R
\nFront Hum Neurosci. 2014 Jun 12;8:416. doi: 10.3389\/fnhum.2014.00416. eCollection 2014.<\/p>\n

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Can falls be predicted with gait analytical and posturographic measurement systems?
\nA prospective follow-up study in a nursing home population.<\/strong> Schwesig R, Fischer D, Lauenroth A, Becker S, Leuchte S.<\/p>\n

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Inertial sensor based reference gait data for healthy subjects.<\/strong> Ren\u00e8 Schwesig, Siegfried Leuchte, David Fischer, Regina Ullmann, Alexander Kluttig Gait & Posture 33 (2011), Issue 4, 673\u2013678, Elsevier 2011<\/p>\n

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Reliability of the novel gait analysis system RehaWatch<\/strong> Ren\u00e9 Schwesig \/ Ralf Kauert \/ Sylvia Wust \/ Stephan Becker \/ Siegfried Leuchte
\nBiomedizinische Technik\/Biomedical Engineering. ISSN (Online) 1862-278X, ISSN (Print) 0013-5585, DOI: 10.1515\/bmt.2010.025, March 2010<\/p>\n

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Validit\u00e4tsuntersuchung zum neuen, innovativen Ganganalysesystem RehaWatch von Hasomed<\/strong> Dr. phil. S. Derlien, B. B\u00f6hme, L. Leistritz, Prof. Dr. U.C. Smolenski
\nSpringer-Verlag, Manuelle Medizin August 2010, Volume 48, Issue 4 pp 254-259<\/p>\n

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Referenzdatenerhebung mit dem inertialsensorbasierten Ganganalysesystem RehaWatch von Hasomed<\/strong>
Renè Schwesig, Marc Hofmann David Fischer, Till Gladow, Siegfried Leuchte
Orthopädie-Technik, 2010;61(12):874 ISSN:0340-5591<\/p>\n

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Ermittlung eines Sturzindexes bei Pflegeheimbewohnern mittels Ganganalyse und Posturographie<\/strong>
Schwesig R
Forschungsbericht (2010), Matin-Luther-Universität Halle-Wittenberge<\/p>\n

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Reference Values for Gait using Outcomes of the Gait Analysis System RehaWatch<\/strong>
Marc Hofmann, D. Adolf, Wolfgang Liedecke Congress Lecture [3347] Abstract [522], Topic: Related Rehabilitation, 13th ISPO World Congress (2010), Leipzig<\/p>\n

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Der Einfluss des therapeutischen Reitens auf die Haltungsregulation. Haltung & Bewegung<\/strong> Schwesig R., Neumann S., Richter D., Kauert R., Leuchte S.
\n1 (2009) jg 29, 14-22, Bundesarbeitsgemeinschaft f\u00fcr Haltungs- und Bewegungsf\u00f6rderung e.V. (BAG), Wiesbaden<\/p>\n

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Vergleichsstudie zur Genauigkeit der Gangparameterbestimmung mit den Systemen RehaWatch und AMP Dynastream<\/strong>
Renè Schwesig
Forschungsbericht (2008), Martin-Luther-Universität Halle-Wittenberg<\/p>\n

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Gait Analysis System on the Basis of Inertial Sensors.<\/strong>
Kauert R., Wolfgang Liedecke, Peter Weber
Conference-Paper, TAR (2007), Berlin<\/p>\n

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Gait phase detection and step length estimation of gait by means of inertial sensors.<\/strong>
Negaard N.-O., Andres S., Kauert R., Schauer T., Raisch J.
Conference-Paper (2005), Prague, Czech Republic<\/p>\n

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Paraplegia<\/h3>

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FES-Cycling bei Menschen mit Querschnittl\u00e4hmung - Auswirkung auf subjektives Empfinden und Aktivit\u00e4ten des t\u00e4glichen Lebens<\/strong> D. Kuhn, V. Leichtfried, W. Schobersberger, K. R\u00f6hl; 2013 Nov<\/p>\n

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Home-Based Functional Electrical Stimulation Cycling Enhances Quality of Life in Individuals with Spinal Cord Injury<\/strong> David R. Dolbow, Ashraf S. Gorgey, Jessica M. Ketchum, David R. Gater; Top Spinal Cord Inj Rehabil. 2013 Fall; 19(4): 324\u2013329.<\/p>\n

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Feasibility of functional electrical stimulated cycling in subjects with spinal cord injury: an energetic assessment.<\/strong> Perret C, Berry H, Hunt KJ, Donaldson N, Kakebeeke TH.; J Rehabil Med. 2010 Oct;42(9):873-5. doi: 10.2340\/16501977-0611.<\/p>\n

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Cardiorespiratory and power adaptations to stimulated cycle training in paraplegia.<\/strong> Berry HR, Perret C, Saunders BA, Kakebeeke TH, Donaldson Nde N, Allan DB, Hunt KJ.; Med Sci Sports Exerc. 2008 Sep;40(9):1573-80. doi: 10.1249\/MSS.0b013e318176b2f4.<\/p>\n

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Stroke<\/h3>

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Cycling induced by electrical stimulation improves motor recovery in postacute hemiparetic patients: a randomized controlled trial.<\/strong> Ambrosini E, Ferrante S, Pedrocchi A, Ferrigno G, Molteni F.; Stroke. 2011 Apr;42(4):1068-73. doi: 10.1161\/STROKEAHA.110.599068. Epub 2011 Mar 3.\n<\/p>\n

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Funktionelle Elektrostimulation am zyklischen Beinbewegungstrainer (FES-LCE) in der station\u00e4ren Rehabilitation nach zerebralem isch\u00e4mischem Infarkt<\/strong> F. Eigler, A. Nachtmann, G. Huber; 2010 NEUROLOGIE & REHABILITATION, ISSN 0947-2177<\/p>\n

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Effects of a functional electrical stimulation-assisted leg-cycling wheelchair on reducing spasticity of patients after stroke.<\/strong> Lo HC, Tsai KH, Su FC, Chang GL, Yeh CY.; J Rehabil Med. 2009 Mar;41(4):242-6. doi: 10.2340\/16501977-0320.<\/p>\n

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Cycling induced by ES improves muscle strength and the motor con-trol of individuals with post acute stroke<\/strong> S. Ferrante, A. Pedrocchi, G. Ferrigno, F. Molteni; Eur. J. Phys. Rehabil. Med. 2008;44:159-67<\/p>\n

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Cerebral palsy<\/h3>

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Evaluation of Functional Electrical Stimulation to Assist Cycling in Four Adolescents with Spastic Cerebral Palsy<\/strong> Ann Tokay Harrington, CalumG. A. McRae, Samuel C. K. Lee; International Journal of Pediatrics Volume 2012, Article ID 504387, 11 pages doi:10.1155\/2012\/504387<\/p>\n

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Other studies<\/h3>

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Changes in pulmonary function measures following a passive abdominal functional electrical stimulation training program<\/strong> Angus J. McLachlan, Alan N. McLean, David B. Allan, Henrik Gollee; J Spinal Cord Med. 2013 Mar;36(2):97-103. doi: 10.1179\/2045772312Y.0000000031.<\/p>\n

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Recovery of coordinated gait: randomized controlled stroke trial of functional electrical stimulation (FES) versus no FES, with weight-supported treadmill and over-ground training.<\/strong> Daly JJ, Zimbelman J, Roenigk KL, McCabe JP, Rogers JM, Butler K, Burdsall R, Holcomb JP, Marsolais EB, Ruff RL.; Neurorehabil Neural Repair. 2011 Sep;25(7):588-96. doi: 10.1177\/1545968311400092. Epub 2011 Apr 22.<\/p>\n

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