Your search keyword '"van Ooteghem, K."' showing total 32 results

1. Adaptation of gait termination on a slippery surface in Parkinson's disease

Author

Oates, A.R., Van Ooteghem, K., Frank, J.S., Patla, A.E., and Horak, F.B.

Published

2013

2. Time to disengage: holding an object influences the execution of rapid compensatory reach-to-grasp reactions for recovery from whole-body instability

Author

Van Ooteghem, K., Lakhani, B., Akram, S., Miyasike Da Silva, V., and McIlroy, W. E.

Published

2013

3. Peripheral Oxidative Stress Markers Are Related To Vascular Risk Factors And Subcortical Small Vessel Disease

Author

Warrick, N., Seitz, D., Prorok, J., Shawcross, D., Mahootchi, T., Esensoy, A., Yu, D., Danieli, E., Pushpakumar, D., Tony, J., Jacob, K., Dong, J., Javed, F., D’Souza, A., Mollayeva, T., Colantonio, A., Schulz, M., Burhan, A., Naidu, A. Srinivasan, Sarquis-Adamson, Y., Montero-Odasso, M., Cooper, N., Sekhon, H., Launay, C., Allali, G., Chabot, J., Beauchet, O., Watson, B., Lin, T., Korczak, A., Bartha, C., Best, S., Truemner, J., Borrie, M., Cammer, A., Whiting, S., Morgan, D., Newman, K., Duong, J. A., Mok, A., Wang, A. H., Lavoie, M., Bier, N., Macoir, J., Adlimoghaddam, A., Turner, R. S., Cadonic, C., Albensi, B. C., Davis, J., Lewis, V.-L., Pacione, J., Skanes, C., Feltz, N., Loncar, A., Naglie, G., Sanford, S., Stasiulis, E., Rapoport, M., Vrkljan, B., Tuokko, H., Porter, M., Polgar, J., Moorhouse, P., Mazer, B., Marshall, S., Gelinas, I, Crizzle, A, Belchior, P., Bedard, M, Kokorelias, K., Cameron, J., Gignac, M., Bechard, L., Beaton, D., McGilton, K.A., Tartaglia, M. C., Black, S., Mirza, S., Mutsaerts, H.-J., Cash, D., Bocchetta, M., Thomas, D., Dick, K., van Swieten, J., Borroni, B., Galimberti, D., Rowe, J., Bethell, J., Pringle, D., Commisso, E., Chambers, L., Cohen, C., Cowan, K., Fehr, P., Szeto, P., McGilton, K., Shaw, C., Okamura, H., Otani, M., Shimoyama, N., Fujii, T., Lusk, J., Punzalan, M., Dove, E., Cotnam, K., Astell, A., Chow, A. Froehlich, Bayly, M., Kosteniuk, J., Elliot, V., O’Connell, M. E., Kirk, A., Stewart, N., Holroyd-Leduc, J., Daku, J., Kennett-Russill, D., Hack, T., Dilara, A., Astell, A. J., Hernandez, A., Divine, A., Hunter, S., Jacova, C., Alexander, C., Joseph, J. T., Alvarez, A., Smith, E., Woo, S. M. S., Chan, P., Wilkins-Ho, M., Blackburn, P., Fernando, N., Mehra, A., Vasser, E., Musacchio, M., Waxman, R., Fischler, I., Ghaffar, O., DeBay, D. R., Macdonald, I. R., Reid, G. A., Pottie, I. R., Maxwell, S. P., Cash, M. K., Martin, E., Bowen, C. V., Darvesh, S., MacPhee, J., Jorgensen, M., Fogarty, J., Phillips, N., Diprospero, C., Parent, A., Whitehead, V., Campbell, T., Mohades, Z., Chertkow, H., Wong, S., Wilchesky, M., McCusker, J., Champoux, N., Vu, T.T. M., Ciampi, A., Monette, J., Lungu, O., Ballard, S. A., Belzile, E., Carmichael, P.-H., Voyer, P., Cetin-Sahin, D., Gore, B., Peretti, M., Gore, G., Landry, V., Yetman, L., MacDonald, E., McGibbon, C., MacNeil, D., Jarrett, P., Iaboni, A., Andrews, J., Hafezi, S., Marshall, C., Tsokas, M., Martin, L. Schindel, Van Ooteghem, K., Mansfield, A., Marcil, M., Gold, D., Musselman, K., Flint, A., Finger, E., Feldman, H., Cummings, J., Coleman, K., Boxer, A., Berry, S., Hsiung, R., Curtis, A., Zhang, K., Davidson, H. R., Boccone, G., Camicioli, R., Masellis, M., Tierney, M., Dolatabadi, E., Taati, B., Jonas-Simpson, C., Donovan, L., Cross, N., Keren, R., Shan, R., Holley, J., Waisman, Z., Katchaluba, J., Wimhurst, C., Steele, M., Loganathan, P., Gural, P., Shearer, T., Reardon, J., Pilgrim, J., Pitawanakwat, K., Jones, L., Piriano, E., Blind, M., Otowadjiwan, J., Makela, R., Spicer, B., Bretzlaff, M., Jacklin, K., McKay, Kristy, Graham, N., Tang-Wai, D., Leonard, C., Mitchell, S., Laird, L., Rochon, E., Maclagan, L., Maxwell, C., Guan, J., Campitelli, M., Herrmann, N., Lapane, K., Hogan, D., Amuah, J., Gill, S., Bronskill, S., Ebert, P., Kwok, J., Watt, A., Garrett, S., Hoefling, L., Ellery, C., Leggieri, M., Fornazzari, L., Thaut, M., Munoz, D., Barfett, J., Fischer, C., Schweizer, T., Yogaparan, T., Dallaire-Théroux, C., Potvin, O., Dieumegarde, L., Duchesne, Simon, Amini, A.E. Ebrahim, Amini, A.Z. Ebrahim, Dao, E., Barha, C. K., Best, J. R., Hsiung, G.-Y. R., Tam, R., Liu-Ambrose, T., Sztramko, R., Wurster, A., Papaiouannou, A., Cowan, D., St. Onge, J., Allaby, C., Harrison, L., Cimino, C., Marr, S., Patterson, C., Woo, T., Levinson, A., Fisher, S., Mojaverian, N., Hsu, A., Taljaard, M., Manuel, D., Tanuseputro, P., Park, E., Liu, L., VanderPloeg, K., Black, A., Bartha, R., Rabin, J., Yang, H.-S., Schultz, A., Hanseeuw, B., Marshall, G., Hedden, T., Rentz, D., Johnson, K., Sperling, R., Chhatwal, J., Desmarais, P., Miville, C., Keith, J., Lanctôt, K., Thomas, N., Mattek, N., Riley, T., Witter, P., Reynolds, C., Austin, J., Sharma, N., Kaye, J., Bechard, L. E., Mitchell, C. M., Regan, K., Bergelt, M. D., Middleton, L.E., Hewston, P., Kennedy, C., Merom, D., Trainor, L., Grenier, A., Ioannidis, G., Lee, J., Papaioannou, A., Qian, W., Churchill, N., Kumar, S., Rajji, T., Ojeda-López, C., Milán-Tomás, Á., Lam, B., Gao, F. Q., Cumberbatch, S., Gies, S., Tomas, A. Milan, Ojeda-Lopez, C., Lim, A. S., Black, S. E., Sharma, M. J., Ramirez, J., Holmes, M. F., Gao, F., Varatharajah, B., Yhap, V., Appel, L., Bogler, O., Appel, E., Wiseman, M., Cohen, L., Hill, D., Abrams, H., Campos, J., Sapkota, S., Adamo, S., Stuss, D. T., Martinez, M., Multani, N., Anor, C. J., Fox, S., Lang, A. E., Marras, C., Compagnone, J., Li, J., Freedman, M., Kleiner-Fisman, G., Kennedy, J., Chen, R., Lang, A., Sévigny-Dupont, P., Bocti, C., Joannette, M., Lavallée, M. M., Joubert, S., Knoefel, F., Goubran, R., Baker, A., Fraser, S., Allard, B., Wallace, B., Stroulia, E., Guana, V., Masson, P., Alli, S., Kolla, N., De Luca, V., Bouvier, L., Monetta, L., Vitali, P., Laforce, R., Martel-Sauvageau, V., Talebzadeh, A., Ashourinia, K., Moy, S., Lake, A., Cockburn, A., Krisman, D., Sadasivan, B., Sit, W., Stoops, S., McCurbin, S., Cullen, S., Carroll, S., Tasmim, S., Kapoor, E., Callahan, B., Sharma, M., Bierstone, D., Stuss, D., Kapadia, M., Mian, F., Ma, D., Rosa, E., Michalski, B., Zovkic, I., Forsythe, P., Sakic, B., Fahnestock, M., Baxter, J., Peloso, S., Tung, J., Cox, L., Benjamin, S., An, H., Ho, J., Turcotte, V., Parent, C., Gauthier-Beaupré, A., Biss, R., Sultana, A., Chu, C. H., Sun, W., Bartfay, E., Smye, V., Newton, D., Pepin, M., Biswas, S., Madahey, H., Crawford, S. J., Gutmanis, I., Blake, C., Duchesne, S., Hudon, C., Mah, L., Ali, A., Shorey, C., Szabuniewicz, C. M., Anderson, N. D., Verhoeff, N. P. L. G., Cheers, S., Penko, M., Gevaert, V., Yang, Y., Law, J., Modarresi, S., Grahn, J., Overend, T., Amini, D., Thiruparanathan, T., Cheung, T., Iskandar, S., Arone, Y., Young, C., Berezuk, C., and Zakzanis, K.

Subjects

Abstracts

Published

2018

4. INTRODUCTION

Author

Muscedere, John, Bebenek, Sarah Grace, Stockley, Denise, Kinderman, Laura, Barrie, Carol, Salim, S., Warkentin, L., Gallivan, A., Churchill, T., Baracos, V., Khadaroo, R., McCullough, J., Keller, H., Vesnaver, E., Marcus, H., Lister, T., Nasser, R., Belley, L., Laur, C., Gainer, R., Moorhouse, P., Mallery, L., Hirsch, G., Hamilton, G., Wheeler, K., Di Michelle, J., Lalu, M.M, McIsaac, D. I, Mallery, K., Theou, O., Goldstein, J., Armstrong, J., Webb, J., Greene, J., Doyle, E., Douglas, B., Lee, J., Rockwood, K., Whitty, R., Koo, E., Porter, S., Battu, K., Kalocsai, C., Reid, J., Kho, M., Molloy, A., Herridge, M. S, Karachi, T., Fox-Robichaud, A., Koo, K. KY, Lo, V., Mathur, S., McCaughan, M., Pellizzari, J., Rudkowski, J., Figueiredo, S., Morais, J., Mayo, N., Meffen, K., Penner, C., Meyyappan, R., Sandoval, R., Broderick, J., Hoffer, A., Chambers, S., Ball, I., Martin, C., Awan, S., Rajji, T., Uranis, C., Kim, D., Burhan, A., Ting, R., Ito, H., Graff, A., Gerretsen, P., Woo, V., Mulsant, B., Davies, S., Paul, L. Read, Spice, R., Sinnarajah, A., Ho, G., Webb, M., Uniacke, J., Linsey, J., Kettle, J., Salmon, C., Mohammed, R., Whitby, C., Cowie, B., Wang, S., Sawatzky, R., Chan, E., Wolfs, D., Harding, W., Laforest, E., Schick-Makaroff, K., King, G., Cohen, S. R., Neufeld, C., Lett, J., Voth, J., Durepos, P., Wickson-Griffiths, A., Hazzan, A. Abiola, Kaasalainen, S., Vastis, V., Battistella, L., Papaioannou, A., Asselin, G., Klein, D., Tan, A., Kendell, C., Burge, F., Kotecha, J., Marshall, E., Cash, C., Tschupruk, C., Urquhart, R., Cottrell, L., Erbacker, L., Pesut, B., Duggleby, W., Bui, M., Te, A., Brazil, E., Sussman, T., Team, SPA-LTC, Delicaet, K., MacDonald, J., Hartwick, M., des Ordons, A. Roze, Myers, J., Pereira, J., Simon, J., Abdul-Razzak, A., Sharma, A., Ogilvie, L., Downar, J., Choukou, M.A., Holroyd-Leduc, J. M., Kazanjian, A., Durand, P. J, Straus, S. E, Légaré, F., Turgeon, A. F., Tourigny, A., Dumont, S., Mc Giguere, A., Lounsbury, K., Friesen, D., Bitschy, A., Donald, E. E, Stajduhar, K., Knapp, A., Klinger, C., Wentlandt, K., Urowitz, S., Walton, T., Chahal, M., Zwicker, V., Cohen, T., Morales, M. López, Miller, K., Duggan, K., Barnett-Cowan, M., Kortes-Miller, K., Kelley, M. Lou, Nayfeh, A., Marcoux, I., Jutai, J., Virag, O., Khakoo, A., Incardona, N., Workentin, K., Maxwell, C., Stock, K., Hogan, D. B., Tyas, S. L., Bronskill, S. E., Morris, A. M., Bell, C. M., Jeffs, L., Gandhi, S., Blain, J., Toubasi, S., Andrew, M., Ashe, M., Atkinson, E., Ayala, A. P., Bergman, H., Ploeg, J., McGilton, K., Patten, S. B., Maxwell, C. J., Delleman, B., Chan, D., Siu, H., Howard, M., Mangin, D., Akioyamen, L., Hoben, M., Estabrooks, C., McArthur, C., Gibbs, J. C., Patel, R., Neves, P., Killingbeck, J., Hirdes, J., Milligan, J., Berg, K., Giangreogrio, L., Adekpedjou, R., Stacey, D., Brière, N., Freitas, A., Marjolein, M., Garvelink, Turcotte, S., Heyer, M., Boscart, V., Heckman, G., Zahradnik, M., Jeffs, L. P., Mainville, C., Maione, M., Morris, A., Bell, C., Bronskill, S., Tscheng, D., Sever, L., Hyland, S., Emond, J., Garvelink, M., Menear, M., MacLeod, T., LeBlanc, C., Allen, M., McLean-Veysey, P., Rodney-Cail, N., Steeves, B., Bezanson, E., Van Ooteghem, K., Trinh, A., Cowan, D., Kwok, L., Fels, D., Meza, M., Fels-Leung, S., Ouellette-Kuntz, H., McKenzie, K., Martin, L., Bark, D., Hanafi, S., Gibson, W., Wagg, A., Tanel, M., Laing, A., Weaver, T., Lupo, J., Giangregorio, L., Payne, A., Sheets, D., Beach, C., Elliott, J., Stolee, P., Stinchcombe, A., Bédard, M., Enright, J., Wilson, K., Ozen, L., Silman, J., Gibbons, C., McKinnon, T., Timble, J., Willison, K., Boland, L., Perez, M. Margarita Becerra, McIsaac, D., Edmond, J., Brown, K., Leigh, J. Parsons, Buchner, D., Stelfox, H. T., Aziz, J., Crake, D., Ren, Z., Grant, T., Goubran, R., Knoefel, F., Sveistrup, H., Bilodeau, M., Oliver, J., Chidwick, P., Booi, L., Magyar, T., Martin, M., Ko, J. Hyun, Shannon, J., Wilson-Pease, E., Kephart, G., Babin, N., Malik, H., Maximos, M., Seng, S., Vandenberg, G., Dal Bello-Haas, V., Lagrotteria, A., Sullivan, K., Mihaylova, A., Lu, C., Koh, J., Hamielec, C., Steer, M., Jimenez, C., Woo, K., Julian, P., Martin, L. Schindel, McLelland, V., Ryan, D., Wilding, L., Chang, C. E., van Schooten, K. S, Wong, F., Robinovitch, S. N, Balasubramanaiam, B., Chenkin, J., Snider, T. G., Melady, D., Lee, J. S., Petrella, A., Heath, M., Shellington, E., Laguë, A., Voyer, P., Ouellet, M., Boucher, V., Pelletier, M., Gouin, É., Daoust, R., Berthelot, S., Giroux, M., Sirois, M., Émond, M., Bergstrom, V., Tate, K., Lee, S., Reid, C., Rowe, B., Cummings, G., Holroyd-Leduc, J., El-Bialy, R., Zhao, B., Baumbusch, J., Busson, C., Kohr, R., Donovan, J., Philpott, K., Kingston, J., Rickards, T., Weiler, C., Lanovaz, J., Arnold, C., Chiu, K., Cuperfain, A., Zhu, K., Zhao, X., Zhao, S., Iaboni, A., Perrella, A., Chau, V., Hu, C. Dong, Farooqi, M., Patel, S., Bauer, J., Lee, L., Schill, C., Patel, T., Mroz, L., Kryworuchko, J., Carter, R., Spencer, L., Barwich, D., Roy, N., Després, C., Leyenaar, M., McLeod, B., Poss, J., Costa, A., Blums, J., Costa, I. Geraldina, Tregunno, D., Kirkham, J., Seitz, D., Velkers, C., Krawczyk, M., Garland, E., Michaud, M., Pakzad, S., Bourque, P. E., Eamer, G., Gibson, J. A, Gillis, C., Hsu, A. T, MacDonald, E., Whitlock, R., Khadaroo, R. G, Brisebois, R., Clement, F., Hathaway, J., Bagheri, Z. S., Costa, I. G., Schinkel-Ivy, A., Rodney, P. (Paddy), Varcoe, C., Jiwani, B., Fenton, T., Gramlich, L., Tangri, N., Eng, F., Bohm, C., Komenda, P., Rigatto, C., Brar, R., McCloskey, R., Keeping-Burke, L., Donovan, C., Verma, A., Razak, F., Kwan, J., Lapointe-Shaw, L., Rawal, S., Tang, T., Weinerman, A., Guo, Y., Mamdani, M., McNicholl, T., Valaitis, R., Tarraf, R., Boakye, O., Suter, E., Boulanger, P., Birney, A., Sadowski, C. A, Gill, G., Mrklas, K., Plaisance, A., Noiseux, F., Francois, R., LeBlanc, A., McGinn, C. A., Tapp, D., Archambault, P. M., Begum, J., Wikjord, N., Roy, P., Reimer-Kirkham, S., Doane, G., Hilliard, N., Giesbrech, M., Dujela, C., Harerimana, B., Forchuk, C., Booth, R., Vasudev, A., Isaranuwatchai, W., Seth, P., Ramsey, D., Rudnick, A., Heisel, M., Reiss, J., Lee, E., Mate, K., Aubertin-Leheude, M., Fiore, J., Auais, M., Moriello, C., Scott, S., Wilson, M., McDonald, E., Lee, T., Arora, N., Hanvey, L., Elston, D., Heyland, R., Heyland, D., Langevin, J., Fang, Q., Price, D., Nowak, C., Fang, H., Richardson, J., Phillips, S., Gordon, C., Xie, F., Adachi, J., Tang, A., Swinton, M., Winhall, M., Clark, B., Sinuff, T., Abelson, J., You, J., Shears, M., Takaoka, A., Tina, M., Amanda, H., Surenthar, T., Li, G., Rochwerg, B., Woo, T., Bagshaw, S., Johnstone, J., Cook, D., Beaton, D., Drance, E., Leblanc, M.E., O’Connor, D., Ono, E., Phinney, A., Reid, R. C., Rodney, P. A., Tait, J., Ward-Griffin, C., Millen, T., Clarke, F., Thabane, L., Dogba, M. J., Rivest, L.l, Durand, P. J., Fraser, K., Bourassa, H., Embuldeniya, G., Farmanova, E., Auguste, D., Witteman, H. O, Kröger, E., Beaulieu, É., MC Giguere, A., Paragg, J., Swindle, J., Webber, T., Porterfield, P., Husband, A., Kryworucko, J., Trenaman, L., Bryan, S., Cuthbertson, L., Bansback, N., de Grood, C., Dodek, P., Fowler, R., Forster, A., Boyd, J., Stelfox, H., Kruger, S., Steinberg, M., Quinn, K., Yarnell, C., Fu, L., Manuel, D., Tanuseputro, P., Stukel, T., Pinto, R., Scales, D., Laupacis, A., Varughese, R., Huang, A., Famure, O., Chowdhury, N., Renner, E., Kim, J., MacIver, J., Singer, L., Gali, B., Brewster, P., Asche, C., Mitz, A., Hundza, S., MacDonald, S., Kaechele, N., Donald, E., Kaur, S., Fernandes, P., Pauloff, K., Gordon, A., Kallan, L., Grinman, M., Human, T., Ying, I., Pattullo, A., Wong, H., Feldman, S., Moffat, D., Zjadewicz, K., McIntosh, C. J., Alghamdi, M., McComb, A., Ferrone, A., Geng, W., Weeks-Levy, C., and Menon, C.

Subjects

Abstracts, Canadian Frailty Network Abstracts from the Meeting in Toronto, September 27–29, 2015, Canadian Frailty Network Abstracts from the Meeting Held in Toronto, April 23–24, 2017

Published

2017

5. Compensatory postural adaptations during continuous, variable amplitude perturbations reveal generalized rather than sequence-specific learning

Author

Van Ooteghem, K., Frank, J. S., Allard, F., Buchanan, J. J., Oates, A. R., and Horak, F. B.

Published

2008

6. 053 POSTURAL MOTOR LEARNING IN HEALTHY OLDER ADULTS

Author

Van Ooteghem, K., primary, Frank, J.S., additional, Allard, F., additional, and Horak, F.B., additional

Published

2010

7. 9.19 “learning” to balance: Changes in postural control as a function of experience

Author

van Ooteghem, K., primary, Frank, J.S., additional, and Horak, F.B., additional

Published

2005

8. Advances in mobility aid use reporting: situational context and objective measurement improve understanding of daily aid use in older adults.

Author

Thomson S, Cornish BF, Pun A, McIlroy WE, and Van Ooteghem K

Subjects

Humans, Cross-Sectional Studies, Standing Position, Walking, Aged, 80 and over, Observational Studies as Topic, Accidental Falls, Fear

Abstract

Background: Understanding mobility aid use has implications for falls risk reduction and aid prescription. However, aid use in daily life is understudied and more complex than revealed by commonly used yes/no self-reporting., Aims: To advance approaches for evaluating mobility aid use among older adults using a situational (context-driven) questionnaire and wearable sensors., Methods: Data from two cross-sectional observational studies of older adults were used: (1) 190 participants (86 ± 5 years) completed tests of standing, sit-to-stand, walking, grip strength, and self-reported fear of falling and (2) 20 participants (90 ± 4 years) wore two body-worn and one aid-mounted sensors continuously for seven days to objectively quantify aid use during walking. Situational and traditional binary reporting stratified participants into aid dependency levels (0-4) and aid-user groups, respectively. Physical performance and fear of falling were compared between aid users, and dependency levels and sensor-derived walking behaviors were compared to reported aid use., Results: Physical performance and fear of falling differed between aid-user groups (P < 0.05). Sensor-derived outputs revealed differences in walking behaviors and aid use when categorized by dependency level and walking bout length (P < 0.05). Walking bout frequency (rho(18) = - 0.47, P = 0.038) and aid use time (rho(13) = .72, P = 0.002) were associated with dependency level., Discussion: Comparisons of situational aid dependency revealed heterogeneity between aid users suggesting binary aid use reporting fails to identify individual differences in walking and aid use behaviors., Conclusions: Enhanced subjective aid use reporting and objective measurements of walking and aid use may improve aid prescription and inform intervention to support safe and effective mobility in older adults., (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2023

9. Emotional state as a modulator of autonomic and somatic nervous system activity in postural control: a review.

Author

Hall KJ, Van Ooteghem K, and McIlroy WE

Abstract

Advances in our understanding of postural control have highlighted the need to examine the influence of higher brain centers in the modulation of this complex function. There is strong evidence of a link between emotional state, autonomic nervous system (ANS) activity and somatic nervous system (somatic NS) activity in postural control. For example, relationships have been demonstrated between postural threat, anxiety, fear of falling, balance confidence, and physiological arousal. Behaviorally, increased arousal has been associated with changes in velocity and amplitude of postural sway during quiet standing. The potential links between ANS and somatic NS, observed in control of posture, are associated with shared neuroanatomical connections within the central nervous system (CNS). The influence of emotional state on postural control likely reflects the important influence the limbic system has on these ANS/somatic NS control networks. This narrative review will highlight several examples of behaviors which routinely require coordination between the ANS and somatic NS, highlighting the importance of the neurofunctional link between these systems. Furthermore, we will extend beyond the more historical focus on threat models and examine how disordered/altered emotional state and ANS processing may influence postural control and assessment. Finally, this paper will discuss studies that have been important in uncovering the modulatory effect of emotional state on postural control including links that may inform our understanding of disordered control, such as that observed in individuals living with Parkinson's disease and discuss methodological tools that have the potential to advance understanding of this complex relationship., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Hall, Van Ooteghem and McIlroy.)

Published

2023

10. Association of Dual-Task Gait Cost and White Matter Hyperintensity Burden Poststroke: Results From the ONDRI.

Author

Pieruccini-Faria F, Cornish B, Binns M, Fraser J, Haddad SMH, Sunderland K, Ramirez J, Beaton D, Kwan D, Dilliott AA, Scott C, Sarquis-Adamson Y, Black A, Van Ooteghem K, Casaubon L, Dowlatshahi D, Hassan A, Mandzia J, Sahlas D, Saposnik G, Tan B, Hegele R, Bulman D, Ghani M, Robinson J, Rogaeva E, Farhan S, Symons S, Nanayakkara N, Arnott SR, Berezuk C, Holmes M, Adamo S, Ozzoude M, Zamyadi M, Lou W, Sujanthan S, Bartha R, Black SE, Swartz RH, McIlroy W, and Montero-Odasso M

Subjects

Humans, Aged, Cohort Studies, Brain diagnostic imaging, Brain pathology, Gait, Magnetic Resonance Imaging, White Matter diagnostic imaging, White Matter pathology, Neurodegenerative Diseases pathology, Stroke complications, Stroke diagnostic imaging, Stroke pathology

Abstract

Background: Acute change in gait speed while performing a mental task [dual-task gait cost (DTC)], and hyperintensity magnetic resonance imaging signals in white matter are both important disability predictors in older individuals with history of stroke (poststroke). It is still unclear, however, whether DTC is associated with overall hyperintensity volume from specific major brain regions in poststroke., Methods: This is a cohort study with a total of 123 older (69 ± 7 years of age) participants with history of stroke were included from the Ontario Neurodegenerative Disease Research Initiative. Participants were clinically assessed and had gait performance assessed under single- and dual-task conditions. Structural neuroimaging data were analyzed to measure both, white matter hyperintensity (WMH) and normal appearing volumes. Percentage of WMH volume in frontal, parietal, occipital, and temporal lobes as well as subcortical hyperintensities in basal ganglia + thalamus were the main outcomes. Multivariate models investigated associations between DTC and hyperintensity volumes, adjusted for age, sex, years of education, global cognition, vascular risk factors, APOE4 genotype, residual sensorimotor symptoms from previous stroke and brain volume., Results: There was a significant positive global linear association between DTC and hyperintensity burden (adjusted Wilks' λ = .87, P  = .01). Amongst all WMH volumes, hyperintensity burden from basal ganglia + thalamus provided the most significant contribution to the global association (adjusted β = .008, η 2  = .03; P  = .04), independently of brain atrophy., Conclusions: In poststroke, increased DTC may be an indicator of larger white matter damages, specifically in subcortical regions, which can potentially affect the overall cognitive processing and decrease gait automaticity by increasing the cortical control over patients' locomotion.

Published

2023

11. User-centered design of feedback regarding health-related behaviors derived from wearables: An approach targeting older adults and persons living with neurodegenerative disease.

Author

Van Ooteghem K, Godkin FE, Thai V, Beyer KB, Cornish BF, Weber KS, Bernstein H, Kheiri SO, Swartz RH, Tan B, McIlroy WE, and Roberts AC

Abstract

Objective: There has been tremendous growth in wearable technologies for health monitoring but limited efforts to optimize methods for sharing wearables-derived information with older adults and clinical cohorts. This study aimed to co-develop, design and evaluate a personalized approach for information-sharing regarding daily health-related behaviors captured with wearables., Methods: A participatory research approach was adopted with: (a) iterative stakeholder, and evidence-led development of feedback reporting; and (b) evaluation in a sample of older adults (n  =  15) and persons living with neurodegenerative disease (NDD) (n  =  25). Stakeholders included persons with lived experience, healthcare providers, health charity representatives and individuals involved in aging/NDD research. Feedback report information was custom-derived from two limb-mounted inertial measurement units and a mobile electrocardiography device worn by participants for 7-10 days. Mixed methods were used to evaluate reporting 2 weeks following delivery. Data were summarized using descriptive statistics for the group and stratified by cohort and cognitive status., Results: Participants (n  =  40) were 60% female (median 72 (60-87) years). A total of 82.5% found the report easy to read or understand, 80% reported the right amount of information was shared, 90% found the information helpful, 92% shared the information with a family member or friend and 57.5% made a behavior change. Differences emerged in sub-group comparisons. A range of participant profiles existed in terms of interest, uptake and utility., Conclusions: The reporting approach was generally well-received with perceived value that translated into enhanced self-awareness and self-management of daily health-related behaviors. Future work should examine potential for scale, and the capacity for wearables-derived feedback to influence longer-term behavior change., Competing Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2023.)

Published

2023

12. White matter hyperintensity burden predicts cognitive but not motor decline in Parkinson's disease: results from the Ontario Neurodegenerative Diseases Research Initiative.

Author

Carvalho de Abreu DC, Pieruccini-Faria F, Sarquis-Adamson Y, Black A, Fraser J, Van Ooteghem K, Cornish B, Grimes D, Jog M, Masellis M, Steeves T, Nanayakkara N, Ramirez J, Scott C, Holmes M, Ozzoude M, Berezuk C, Symons S, Mohammad Hassan Haddad S, Arnott SR, Binns M, Strother S, Beaton D, Sunderland K, Theyers A, Tan B, Zamyadi M, Levine B, Orange JB, Roberts AC, Lou W, Sujanthan S, Breen DP, Marras C, Kwan D, Adamo S, Peltsch A, Troyer AK, Black SE, McLaughlin PM, Lang AE, McIlroy W, Bartha R, and Montero-Odasso M

Subjects

Humans, Aged, Ontario, Magnetic Resonance Imaging methods, Cognition physiology, White Matter pathology, Parkinson Disease, Neurodegenerative Diseases pathology, Gait Disorders, Neurologic, Cognitive Dysfunction pathology

Abstract

Background and Purpose: The pathophysiology of Parkinson's disease (PD) negatively affects brain network connectivity, and in the presence of brain white matter hyperintensities (WMHs) cognitive and motor impairments seem to be aggravated. However, the role of WMHs in predicting accelerating symptom worsening remains controversial. The objective was to investigate whether location and segmental brain WMH burden at baseline predict cognitive and motor declines in PD after 2 years., Methods: Ninety-eight older adults followed longitudinally from Ontario Neurodegenerative Diseases Research Initiative with PD of 3-8 years in duration were included. Percentages of WMH volumes at baseline were calculated by location (deep and periventricular) and by brain region (frontal, temporal, parietal, occipital lobes and basal ganglia + thalamus). Cognitive and motor changes were assessed from baseline to 2-year follow-up. Specifically, global cognition, attention, executive function, memory, visuospatial abilities and language were assessed as were motor symptoms evaluated using the Movement Disorder Society Unified Parkinson's Disease Rating Scale Part III, spatial-temporal gait variables, Freezing of Gait Questionnaire and Activities Specific Balance Confidence Scale., Results: Regression analysis adjusted for potential confounders showed that total and periventricular WMHs at baseline predicted decline in global cognition (p < 0.05). Also, total WMH burden predicted the decline of executive function (p < 0.05). Occipital WMH volumes also predicted decline in global cognition, visuomotor attention and visuospatial memory declines (p < 0.05). WMH volumes at baseline did not predict motor decline., Conclusion: White matter hyperintensity burden at baseline predicted cognitive but not motor decline in early to mid-stage PD. The motor decline observed after 2 years in these older adults with PD is probably related to the primary neurodegenerative process than comorbid white matter pathology., (© 2023 European Academy of Neurology.)

Published

2023

13. Wrist Accelerometer Estimates of Physical Activity Intensity During Walking in Older Adults and People Living With Complex Health Conditions: Retrospective Observational Data Analysis Study.

Author

Weber KS, Godkin FE, Cornish BF, McIlroy WE, and Van Ooteghem K

Abstract

Background: Accurate measurement of daily physical activity (PA) is important as PA is linked to health outcomes in older adults and people living with complex health conditions. Wrist-worn accelerometers are widely used to estimate PA intensity, including walking, which composes much of daily PA. However, there is concern that wrist-derived PA data in these cohorts is unreliable due to slow gait speed, mobility aid use, disease-related symptoms that impact arm movement, and transient activities of daily living. Despite the potential for error in wrist-derived PA intensity estimates, their use has become ubiquitous in research and clinical application., Objective: The goals of this work were to (1) determine the accuracy of wrist-based estimates of PA intensity during known walking periods in older adults and people living with cerebrovascular disease (CVD) or neurodegenerative disease (NDD) and (2) explore factors that influence wrist-derived intensity estimates., Methods: A total of 35 older adults (n=23 with CVD or NDD) wore an accelerometer on the dominant wrist and ankle for 7 to 10 days of continuous monitoring. Stepping was detected using the ankle accelerometer. Analyses were restricted to gait bouts ≥60 seconds long with a cadence ≥80 steps per minute (LONG walks) to identify periods of purposeful, continuous walking likely to reflect moderate-intensity activity. Wrist accelerometer data were analyzed within LONG walks using 15-second epochs, and published intensity thresholds were applied to classify epochs as sedentary, light, or moderate-to-vigorous physical activity (MVPA). Participants were stratified into quartiles based on the percent of walking epochs classified as sedentary, and the data were examined for differences in behavioral or demographic traits between the top and bottom quartiles. A case series was performed to illustrate factors and behaviors that can affect wrist-derived intensity estimates during walking., Results: Participants averaged 107.7 (SD 55.8) LONG walks with a median cadence of 107.3 (SD 10.8) steps per minute. Across participants, wrist-derived intensity classification was 22.9% (SD 15.8) sedentary, 27.7% (SD 14.6) light, and 49.3% (SD 25.5) MVPA during LONG walks. All participants measured a statistically lower proportion of wrist-derived activity during LONG walks than expected (all P<.001), and 80% (n=28) of participants had at least 20 minutes of LONG walking time misclassified as sedentary based on wrist-derived intensity estimates. Participants in the highest quartile of wrist-derived sedentary classification during LONG walks were significantly older (t 16 =4.24, P<.001) and had more variable wrist movement (t 16 =2.13, P=.049) compared to those in the lowest quartile., Conclusions: The current best practice wrist accelerometer method is prone to misclassifying activity intensity during walking in older adults and people living with complex health conditions. A multidevice approach may be warranted to advance methods for accurately assessing PA in these groups., (©Kyle S Weber, F Elizabeth Godkin, Benjamin F Cornish, William E McIlroy, Karen Van Ooteghem. Originally published in JMIR Formative Research (https://formative.jmir.org), 15.03.2023.)

Published

2023

14. Detecting accelerometer non-wear periods using change in acceleration combined with rate-of-change in temperature.

Author

Vert A, Weber KS, Thai V, Turner E, Beyer KB, Cornish BF, Godkin FE, Wong C, McIlroy WE, and Van Ooteghem K

Subjects

Acceleration, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Sedentary Behavior, Temperature, Accelerometry methods, Neurodegenerative Diseases

Abstract

Background: Accelerometery is commonly used to estimate physical activity, sleep, and sedentary behavior. In free-living conditions, periods of device removal (non-wear) can lead to misclassification of behavior with consequences for research outcomes and clinical decision making. Common methods for non-wear detection are limited by data transformations (e.g., activity counts) or algorithm parameters such as minimum durations or absolute temperature thresholds that risk over- or under-estimating non-wear time. This study aimed to advance non-wear detection methods by integrating a 'rate-of-change' criterion for temperature into a combined temperature-acceleration algorithm., Methods: Data were from 39 participants with neurodegenerative disease (36% female; age: 45-83 years) who wore a tri-axial accelerometer (GENEActiv) on their wrist 24-h per day for 7-days as part of a multi-sensor protocol. The reference dataset was derived from visual inspection conducted by two expert analysts. Linear regression was used to establish temperature rate-of-change as a criterion for non-wear detection. A classification and regression tree (CART) decision tree classifier determined optimal parameters separately for non-wear start and end detection. Classifiers were trained using data from 15 participants (38.5%). Outputs from the CART analysis were supplemented based on edge cases and published parameters., Results: The dataset included 186 non-wear periods (85.5% < 60 min). Temperature rate-of-change over the first five minutes of non-wear was - 0.40 ± 0.17 °C/minute and 0.36 ± 0.21 °C/minute for the first five minutes following device donning. Performance of the DETACH (DEvice Temperature and Accelerometer CHange) algorithm was improved compared to existing algorithms with recall of 0.942 (95% CI 0.883 to 1.0), precision of 0.942 (95% CI 0.844 to 1.0), F1-Score of 0.942 (95% CI 0.880 to 1.0) and accuracy of 0.996 (0.994-1.000)., Conclusion: The DETACH algorithm accurately detected non-wear intervals as short as five minutes; improving non-wear classification relative to current interval-based methods. Using temperature rate-of-change combined with acceleration results in a robust algorithm appropriate for use across different temperature ranges and settings. The ability to detect short non-wear periods is particularly relevant to free-living scenarios where brief but frequent removals occur, and for clinical application where misclassification of behavior may have important implications for healthcare decision-making., (© 2022. The Author(s).)

Published

2022

15. Feasibility of a continuous, multi-sensor remote health monitoring approach in persons living with neurodegenerative disease.

Author

Godkin FE, Turner E, Demnati Y, Vert A, Roberts A, Swartz RH, McLaughlin PM, Weber KS, Thai V, Beyer KB, Cornish B, Abrahao A, Black SE, Masellis M, Zinman L, Beaton D, Binns MA, Chau V, Kwan D, Lim A, Munoz DP, Strother SC, Sunderland KM, Tan B, McIlroy WE, and Van Ooteghem K

Subjects

Aged, Feasibility Studies, Female, Humans, Male, Cardiovascular Diseases, Neurodegenerative Diseases, Parkinson Disease, Wearable Electronic Devices

Abstract

Background: Remote health monitoring with wearable sensor technology may positively impact patient self-management and clinical care. In individuals with complex health conditions, multi-sensor wear may yield meaningful information about health-related behaviors. Despite available technology, feasibility of device-wearing in daily life has received little attention in persons with physical or cognitive limitations. This mixed methods study assessed the feasibility of continuous, multi-sensor wear in persons with cerebrovascular (CVD) or neurodegenerative disease (NDD)., Methods: Thirty-nine participants with CVD, Alzheimer's disease/amnestic mild cognitive impairment, frontotemporal dementia, Parkinson's disease, or amyotrophic lateral sclerosis (median age 68 (45-83) years, 36% female) wore five devices (bilateral ankles and wrists, chest) continuously for a 7-day period. Adherence to device wearing was quantified by examining volume and pattern of device removal (non-wear). A thematic analysis of semi-structured de-brief interviews with participants and study partners was used to examine user acceptance., Results: Adherence to multi-sensor wear, defined as a minimum of three devices worn concurrently, was high (median 98.2% of the study period). Non-wear rates were low across all sensor locations (median 17-22 min/day), with significant differences between some locations (p = 0.006). Multi-sensor non-wear was higher for daytime versus nighttime wear (p < 0.001) and there was a small but significant increase in non-wear over the collection period (p = 0.04). Feedback from de-brief interviews suggested that multi-sensor wear was generally well accepted by both participants and study partners., Conclusion: A continuous, multi-sensor remote health monitoring approach is feasible in a cohort of persons with CVD or NDD., (© 2021. Crown.)

Published

2022

16. Standing, Transition, and Walking Ability in Older Adults: The Case for Independently Evaluating Different Domains of Mobility Function.

Author

Thomson S, Badiuk B, Parokaran Varghese J, Thai V, McIlroy WE, and Van Ooteghem K

Subjects

Humans, Aged, Aged, 80 and over, Geriatric Assessment, Walking Speed, Walking, Hand Strength, Frailty

Abstract

Background: Independent mobility is a complex behavior that relies on the ability to walk, maintain stability, and transition between postures. However, guidelines for assessment that details what elements of mobility to evaluate and how they should be measured remain unclear., Methods: Performance on tests of standing, sit-to-stand, and walking were evaluated in a cohort of 135 complex, comorbid, and older adults (mean age 87 ± 5.5 years). Correlational analysis was conducted to examine the degree of association for measures within and between mobility domains on a subset of participants (n = 83) able to complete all tasks unaided. Participants were also grouped by the presence of risk markers for frailty (gait speed and grip strength) to determine if the level of overall impairment impacted performance scores and if among those with risk markers, the degree of association was greater., Results: Within-domain relationships for sit-to-stand and walking were modest (rho = 0.01-0.60). Associations either did not exist or relationships were weak for measures reflecting different domains (rho = -0.35 to 0.25, p &gt; 0.05). As expected, gait speed differed between those with and without frailty risk markers (p &lt; 0.001); however, balance and sit-to-stand measures did not (p ≥ 0.05)., Conclusions: This study highlights the need to independently evaluate different mobility domains within an individual as a standard assessment approach. Modest within-domain relationships emphasize the need to account for multiple, unique control challenges within more complex domains. These findings have important implications for standardized mobility assessment and targeted rehabilitation strategies for older adults., (© 2022 S. Karger AG, Basel.)

Published

2022

17. A systematic review of center of pressure measures to quantify gait changes in older adults.

Author

Mehdizadeh S, Van Ooteghem K, Gulka H, Nabavi H, Faieghi M, Taati B, and Iaboni A

Subjects

Accidental Falls prevention & control, Walking, Gait, Postural Balance

Abstract

Measures of gait center of pressure (COP) can be recorded using simple available technologies in clinical settings and thus can be used to characterize gait quality in older adults and its relationship to falls. The aim of this systematic review was to investigate the association between measures of gait COP and aging and falls. A comprehensive search of electronic databases including MEDLINE, Embase, Cochrane Central Register of Controlled Trials, CINAHL (EBSCO), Ageline (EBSCO) and Scopus was performed. The initial search yielded 2809 papers. After removing duplicates and applying study inclusion/exclusion criteria, 34 papers were included in the review. Gait COP has been examined during three tasks: normal walking, gait initiation, and obstacle negotiation. The majority of studies examined mean COP position and velocity as outcome measures. Overall, gait in older adults was characterized by more medial COP trajectory in normal walking and lower average anterior-posterior and medio-lateral COP displacements and velocity in both gait initiation and obstacle crossing. Moreover, findings suggest that Tai chi training can enhance older adults' balance control during gait initiation as demonstrated by greater COP backward, medial and forward shift in all three phases of gait initiation. These findings should be interpreted cautiously due to inadequacy of evidence as well as methodological limitations of the studies such as small sample size, limited numbers of 'fallers', lack of a control group, and lack of interpretation of COP outcomes with respect to fall risk. COP measures can be adopted to assess fall-related gait changes in older adults but more complex measures of COP that reveal the dynamic nature of COP behavior in step-to-step variations are needed to adequately characterize gait changes in older adults., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

18. Integrating Technology Into Clinical Practice for the Assessment of Balance and Mobility: Perspectives of Exercise Professionals Practicing in Retirement and Long-term Care.

Author

Van Ooteghem K, Mansfield A, Inness EL, Killingbeck J, and Sibley KM

Abstract

Objective: To explore exercise professionals' perspectives on technology integration for balance and mobility assessment practices in retirement and long-term care., Setting: A private residential care organization in Ontario, Canada, with 18 sites providing accommodation and services for older adults., Design: A qualitative descriptive approach was used including semistructured focus group interviews. Open-ended questions explored perceptions of technology integration along with factors influencing its adoption. Analysis involved preliminary coding based on research questions, review and discussion of emerging themes, and final, resultant coding for each category., Participants: Exercise professionals (kinesiologists and exercise therapists) (N=18)., Interventions: Not applicable., Main Outcome Measures: Not applicable., Results: All participants felt that technology could enhance their practice by supporting programming, communication, and/or information management. Potential barriers to technology integration related primarily to the need to accommodate the broad range of complex health conditions present among clients, which would impact (1) their ability to engage with the technology and (2) relevance of technology-derived outcomes. Specific concerns related to individuals with significant cognitive and/or functional impairment. Solutions to these barriers emphasized the need for flexible technology and appropriate normative data to maximize the potential for uptake., Conclusions: The participating exercise professionals working in a retirement and long-term care setting saw technology as a potentially effective addition to current clinical practice. To increase the likelihood for clinical uptake, technology must be maximize flexibility in order to accommodate a wide range of physical and cognitive abilities and meet specific needs related to setting and job responsibilities. The findings emphasize the need for continuous dialogue between technology producers and end users for successful development and implementation., (© 2020 The Authors.)

Published

2020

19. Evaluating Mobility in Advanced Dementia: A Scoping Review and Feasibility Analysis.

Author

Van Ooteghem K, Musselman K, Gold D, Marcil MN, Keren R, Tartaglia MC, Flint AJ, and Iaboni A

Subjects

Activities of Daily Living, Aged, Geriatric Assessment, Humans, Dementia complications, Mobility Limitation

Abstract

Background and Objectives: Mobility decline is a symptom of advanced dementia that affects function, safety, caregiving, and quality of life. Monitoring mobility status is essential for initiating timely and targeted interventions aimed at preventing excess disability in people with dementia (PWD). The physical, cognitive, and behavioral symptoms of dementia however, present unique challenges for mobility assessment. The goals of this review were to (a) identify and describe measures of mobility used for PWD and (b) assess measures' feasibility for use in people with advanced dementia; a group whose degree of cognitive impairment results in severe functional deficits., Research Design and Methods: Electronic searches of Medline, Embase, CINAHL, and PsychInfo databases were conducted using keywords related to dementia, mobility, measurement, and validation. Descriptive characteristics were extracted and measures coded for mobility components. Tools were also evaluated for feasibility of use in advanced dementia and those deemed feasible, screened for psychometric strength., Results: Thirty-eight measures were included and 68% of these tools were performance-based. Elements of mobility evaluated were walking (53% of measures), postural transitions (42%), standing (40%), mobility-related behavioral/psychological symptoms (24%), transfers (10%), bed mobility (5%), and wheeled mobility (3%). 36% of studies included people with advanced dementia. Only 18% of tools received high scores for feasibility., Discussion and Implications: Existing measures provide only partial information regarding mobility and few target elements that become relevant as dementia progresses. Most measures are not feasible for people with advanced dementia, and the psychometric evaluation of these measures is limited. Further research is needed to develop a comprehensive, dementia-specific, mobility assessment tool., (© The Author(s) 2018. Published by Oxford University Press on behalf of The Gerontological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

20. Key factors for the assessment of mobility in advanced dementia: A consensus approach.

Author

Van Ooteghem K, Musselman KE, Mansfield A, Gold D, Marcil MN, Keren R, Tartaglia MC, Flint AJ, and Iaboni A

Abstract

Introduction: Loss of mobility is common in advanced dementia and has important negative consequences related to fall risk, loss of independence, and lack of participation in meaningful activities. The causes of decline are multifactorial, including disease-specific changes in motor function, behavior, and cognition. To optimize clinical management of mobility, there is a need to better characterize capacity for safe and independent mobility. This study aimed to identify key factors that impact on mobility in dementia., Methods: Expert input was gathered using a modified Delphi consensus approach. The primary criterion for participation was specialist knowledge in mobility or dementia, either as a clinician or a researcher. Participants rated elements of mobility for importance and feasibility of assessment in advanced dementia and prioritized items for inclusion in a mobility staging tool. Descriptive statistics and qualitative content analysis were used to summarize responses., Results: Thirty-six experts completed the first survey with an 80% retention rate over three rounds. One-third of 61 items reached consensus for being both important and feasible to assess, representing five categories of elements. Items reaching agreement for a staging tool included walking, parkinsonism, gait, impulsivity, fall history, agitation, transfers, and posture control., Discussion: This study highlights the need for a multidimensional, dementia-specific approach to mobility assessment. Results have implications for development of assessment methods and management guidelines to support the clinical care of mobility impairment in people with dementia.

Published

2019

21. The Value of a Palliative Frame in Advanced Dementia.

Author

Iaboni A, Van Ooteghem K, Flint AJ, Keren R, and Grossman D

Subjects

Accidental Falls, Humans, Palliative Care, Dementia, Long-Term Care

Published

2018

22. A Palliative Approach to Falls in Advanced Dementia.

Author

Iaboni A, Van Ooteghem K, Marcil MN, Cockburn A, Flint AJ, Grossman D, and Keren R

Subjects

Aged, Humans, Male, Accidental Falls prevention & control, Dementia nursing, Palliative Care methods, Quality of Life

Abstract

Falls are viewed as a preventable cause of injury, functional loss, and death in older adults with dementia, and have been used as a marker of quality of care in long-term care facilities. Despite intensive intervention around fall prevention in these settings, falls and injury remain frequent, particularly among residents in the advanced stages of dementia. In this clinical review, we consider the common challenges and pitfalls in both the management of falls and the provision of palliative care in advanced dementia. We then describe a palliative approach to falls in advanced dementia that involves identifying individuals who would benefit from this care approach, framing falls and loss of mobility as a quality of life issue, and devising an individualized symptom assessment and management plan. A palliative approach can lead to recognition and acceptance that recurrent falls are often symptomatic of advanced dementia, and that not all falls are preventable. We conclude that falls in the advanced stage of dementia can be sentinel events indicating the need for a palliative approach to care. Rather than replace falls prevention activities, a palliative approach to falls prompts us to select dementia stage-appropriate interventions with a focus on symptom management, comfort, and dignity., (Copyright © 2017 American Association for Geriatric Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2018

23. Quantitative Mobility Assessment for Fall Risk Prediction in Dementia: A Systematic Review.

Author

Dolatabadi E, Van Ooteghem K, Taati B, and Iaboni A

Subjects

Aged, Aged, 80 and over, Female, Gait, Humans, Male, Mobility Limitation, Postural Balance, Reproducibility of Results, Risk Assessment methods, Risk Assessment standards, Risk Factors, Accidental Falls prevention & control, Dementia complications, Geriatric Assessment methods

Abstract

Background: Impairments of gait and balance often progress through the course of dementia, and are associated with increased risk of falls., Summary: This systematic review provides a critical analysis of the evidence linking quantitative measures of gait and balance to fall risk in older adults with dementia. Various instrumented measures of gait and postural stability including gait speed and non-instrumented performance measures including Timed Up and Go were shown to be capable of distinguishing fallers from non-fallers. Key Messages: Existing reviews indicate that impairments of gait and balance are associated with increased risk of falls in cognitively intact older people. There are inconsistencies, however, regarding the characteristics most predictive of a fall. In order to advance fall prevention efforts, there is an important need to understand the relationship between gait, balance, and fall risk, particularly in high-risk populations such as individuals with dementia., (© 2018 S. Karger AG, Basel.)

Published

2018

24. Components of Standing Postural Control Evaluated in Pediatric Balance Measures: A Scoping Review.

Author

Sibley KM, Beauchamp MK, Van Ooteghem K, Paterson M, and Wittmeier KD

Subjects

Exercise Test, Humans, Pediatrics, Psychometrics, Reproducibility of Results, Postural Balance physiology

Abstract

Objective: To identify measures of standing balance validated in pediatric populations, and to determine the components of postural control captured in each tool., Data Sources: Electronic searches of MEDLINE, Embase, and CINAHL databases using key word combinations of postural balance/equilibrium, psychometrics/reproducibility of results/predictive value of tests, and child/pediatrics; gray literature; and hand searches., Study Selection: Inclusion criteria were measures with a stated objective to assess balance, with pediatric (≤18y) populations, with at least 1 psychometric evaluation, with at least 1 standing task, with a standardized protocol and evaluation criteria, and published in English. Two reviewers independently identified studies for inclusion. There were 21 measures included., Data Extraction: Two reviewers extracted descriptive characteristics, and 2 investigators independently coded components of balance in each measure using a systems perspective for postural control, an established framework for balance in pediatric populations., Data Synthesis: Components of balance evaluated in measures were underlying motor systems (100% of measures), anticipatory postural control (72%), static stability (62%), sensory integration (52%), dynamic stability (48%), functional stability limits (24%), cognitive influences (24%), verticality (9%), and reactive postural control (0%)., Conclusions: Assessing children's balance with valid and comprehensive measures is important for ensuring development of safe mobility and independence with functional tasks. Balance measures validated in pediatric populations to date do not comprehensively assess standing postural control and omit some key components for safe mobility and independence. Existing balance measures, that have been validated in adult populations and address some of the existing gaps in pediatric measures, warrant consideration for validation in children., (Copyright © 2017 American Congress of Rehabilitation Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2017

25. Postural motor learning in Parkinson's disease: The effect of practice on continuous compensatory postural regulation.

Author

Van Ooteghem K, Frank JS, and Horak FB

Subjects

Aged, Case-Control Studies, Female, Humans, Male, Middle Aged, Parkinson Disease physiopathology, Parkinson Disease psychology, Psychomotor Performance, Treatment Outcome, Learning physiology, Parkinson Disease rehabilitation, Physical Therapy Modalities, Postural Balance physiology

Abstract

Introduction: Although balance training is considered the most effective treatment for balance impairments in Parkinson's disease (PD), few studies have examined if learning for balance control remains intact with PD. This study aimed to determine if learning for automatic postural responses is preserved in people with PD., Methods: Eleven participants with moderate PD (68±6.4years; H&Y: 2-3) on their usual medication maintained balance on a platform that oscillated forward and backward with variable amplitude and constant frequency. Participants completed 42 trials during one training session, and retention and transfer tests following a 24-h delay. Performance was measured by comparing spatial and temporal measures of whole-body centre of mass (COM) with platform displacements. Learning was compared between participants with PD and previously reported, age-matched older adults (Van Ooteghem et al., 2010)., Results: Although postural responses in participants with PD were impaired compared to control participants, a majority of PD participants improved their postural responses with practice as revealed by reduced COM displacements and improved phase relationships between COM and platform motion. Rates of improvement were comparable between groups demonstrating preserved adaptive capacity for participants with PD. Similar to control participants, the PD group moved toward anticipatory COM control as a strategy for improving stability, exhibited short-term retention of performance improvements, and demonstrated generalizability of the learned responses. Rate of improvement with practice, but not retention, was related to severity of motor impairments., Conclusions: Patients with moderate PD on medication demonstrate retention of improvements in automatic postural responses with practice suggesting that intrinsic postural motor learning is preserved in this group., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

26. Balance Assessment Practices of Saskatchewan Physiotherapists: A Brief Report of Survey Findings.

Author

Oates A, Arnold C, Walker-Johnston J, Van Ooteghem K, Oliver A, Yausie J, Loucks N, Bailey K, Lemieux J, and Sibley KM

Abstract

Purpose: This study was conducted to determine the balance assessment practices of physiotherapists in Saskatchewan. Methods: Practising physiotherapists who assess and treat adults with balance and mobility impairments were eligible to participate in this cross-sectional, online survey. The questions investigated the use of balance assessment measures, the balance components assessed, and practice area. Results: Of the 72 respondents, most reported regularly assessing five or more of the nine balance components listed. Movement observation was the most commonly reported measure used, followed by the Berg Balance Scale, single-leg stance test, and tandem standing/walking. Conclusions: Most physiotherapists in Saskatchewan use a variety of tools to assess balance. Gaps in practices related to fall prevention were noted in the mismatch between the tools used and the components reportedly assessed.

Published

2017

27. Postural Motor Learning Deficits in People With MS in Spatial but Not Temporal Control of Center of Mass.

Author

Gera G, Fling BW, Van Ooteghem K, Cameron M, Frank JS, and Horak FB

Subjects

Adult, Biomechanical Phenomena, Electromyography, Female, Humans, Male, Middle Aged, Posture, Psychomotor Performance, Learning Disabilities etiology, Movement Disorders etiology, Multiple Sclerosis complications, Postural Balance physiology, Sensation Disorders etiology

Abstract

Background: Multiple sclerosis (MS) is associated with balance deficits resulting in falls and impaired mobility. Although rehabilitation has been recommended to address these balance deficits, the extent to which people with MS can learn and retain improvements in postural responses is unknown., Aim: To determine the ability of people with MS to improve postural control with surface perturbation training., Methods: A total of 24 patients with mild MS and 14 age-matched controls underwent postural control training with a set pattern of continuous, forward-backward, sinusoidal, and surface translations provided by a force platform. Postural control was then tested the following day for retention. The primary outcome measures were the relative phase and center-of-mass (CoM) gain between the body CoM and the platform motion., Results: People with MS demonstrated similar improvements in acquiring and retaining changes in the temporal control of the CoM despite significant deficits in postural motor performance at the baseline. Both MS and control groups learned to anticipate the pattern of forward-backward perturbations, so body CoM shifted from a phase-lag (age-matched controls [CS] = -7.1 ± 1.3; MS = -12.9 ± 1.0) toward a phase-lead (CS = -0.7 ± 1.8; MS = -6.1 ± 1.4) relationship with the surface oscillations. However, MS patients were not able to retain the changes in the spatial control of the CoM acquired during training., Conclusions: People with MS have the capacity to improve use of a feed-forward postural strategy with practice and retain the learned behavior for temporal not spatial control of CoM, despite their significant postural response impairments., (© The Author(s) 2015.)

Published

2016

28. Using the systems framework for postural control to analyze the components of balance evaluated in standardized balance measures: a scoping review.

Author

Sibley KM, Beauchamp MK, Van Ooteghem K, Straus SE, and Jaglal SB

Subjects

Biomechanical Phenomena, Disability Evaluation, Humans, Physical Therapy Modalities, Psychometrics, Reproducibility of Results, Postural Balance physiology

Abstract

Objective: To identify components of postural control included in standardized balance measures for adult populations., Data Sources: Electronic searches of MEDLINE, EMBASE, and CINAHL databases using keyword combinations of postural balance/equilibrium, psychometrics/reproducibility of results/predictive value of tests/validation studies, instrument construction/instrument validation, geriatric assessment/disability evaluation, gray literature, and hand searches., Study Selection: Inclusion criteria were measures with a stated objective to assess balance, adult populations (18y and older), at least 1 psychometric evaluation, 1 standing task, a standardized protocol and evaluation criteria, and published in English. Two reviewers independently identified studies for inclusion. Sixty-six measures were included., Data Extraction: A research assistant extracted descriptive characteristics and 2 reviewers independently coded components of balance in each measure using the Systems Framework for Postural Control, a widely recognized model of balance., Data Synthesis: Components of balance evaluated in these measures were underlying motor systems (100% of measures), anticipatory postural control (71%), dynamic stability (67%), static stability (64%), sensory integration (48%), functional stability limits (27%), reactive postural control (23%), cognitive influences (17%), and verticality (8%). Thirty-four measures evaluated 3 or fewer components of balance, and 1 measure-the Balance Evaluation Systems Test-evaluated all components of balance., Conclusions: Several standardized balance measures provide only partial information on postural control and omit important components of balance related to avoiding falls. As such, the choice of measure(s) may limit the overall interpretation of an individual's balance ability. Continued work is necessary to increase the implementation of comprehensive balance assessment in research and practice., (Copyright © 2015 American Congress of Rehabilitation Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2015

29. Role of peripheral vision in rapid perturbation-evoked reach-to-grasp reactions.

Author

Akram SB, Miyasike-daSilva V, Van Ooteghem K, and McIlroy WE

Subjects

Adolescent, Adult, Electromyography, Eye innervation, Female, Hand physiology, Humans, Male, Reaction Time physiology, Time Factors, Young Adult, Evoked Potentials, Visual, Hand Strength physiology, Movement physiology, Psychomotor Performance physiology, Vision, Ocular physiology, Visual Perception physiology

Abstract

Onset and execution of compensatory reaches are faster than the most rapid voluntary reaches. With onset latencies near 100 ms, it is proposed that initial control of compensatory reaches cannot rely on visual information obtained after perturbation onset; rather, they rely on a visuospatial map acquired prior to instability. In natural conditions, it is not practical to direct gaze toward every potential support surface in preparation for a perturbation, suggesting that peripheral vision may be uniquely important. This study aimed to determine whether visuospatial mapping achieved using only peripheral visual information could be used to control reach-to-grasp reactions. Participants sat in an unstable chair. Whole body perturbations were used to evoke rapid reach-to-grasp reactions. A handle was positioned at midline or to the right of the participant. Gaze was directed toward the center or right to view the handle in peripheral or central visual fields. Electromyographic and kinematic data were recorded. Peripheral information acquired prior to perturbation was sufficient for successful execution of reach-to-grasp without delay. Differences in reach kinematics, however, did exist between vision conditions (e.g., maximum lateral wrist displacement and magnitude of hand overshoot relative to the handle were greater for peripheral vs. central vision). Handle location led to target-specific differences in initial muscle recruitment revealing information acquired prior to perturbation were used to guide initial limb trajectory. Results reveal the capacity to rely on a visuospatial map constructed from peripheral visual information for compensatory reaching but also highlight limitations leading to more conservative reach trajectories.

Published

2013

30. Does the movement matter?: determinants of the latency of temporally urgent motor reactions.

Author

Lakhani B, Van Ooteghem K, Miyasike-Dasilva V, Akram S, Mansfield A, and McIlroy WE

Subjects

Acoustic Stimulation, Adult, Autonomic Nervous System physiology, Female, Humans, Male, Muscles physiology, Reference Values, Time Factors, Young Adult, Arousal physiology, Postural Balance physiology, Psychomotor Performance physiology, Reaction Time physiology

Abstract

Background: Extremely rapid movements are frequently executed in response to novel, potentially threatening stimuli. The mechanism by which these sophisticated responses are generated is a topic of debate. The current study investigates: 1) the importance of stimulus-response congruence in rapid responses and 2) the relationship between the autonomic nervous system (ANS) and response time., Methods: Sixteen participants were seated in a chair that could tilt backwards 13°. Participants were instructed to react as fast as possible in response to either an auditory cue (AUD) or balance perturbation (chair tilt) (PERT) and completed one of three different tasks: reach-to-grasp a fixed handle (FIXED), reach-to-grasp a free moving handle (FREE) or plantar flex the left foot (FOOT). Electromyography and electrodermal activity were recorded., Results: For all tasks, muscle onset latency was shorter and muscle response amplitude was greater following the PERT cue compared to the AUD cue. In contrast, there were no differences in onset latency between motor response conditions. Electrodermal response amplitude was greater in the FIXED and FREE conditions than in the FOOT condition., Discussion: Even in situations where the stimulus was incongruent with the response, muscle onset latencies were evoked faster following the perturbation. The response latencies were determined by stimulus characteristics and the most rapid responses were not reliant on stimulus-response congruence. It remains unclear how it is possible to achieve such rapid response latencies to whole body perturbations but we speculate there may exist similar pathways that are uniquely facilitated by a stimulus dependent ANS response., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

31. Aging does not affect generalized postural motor learning in response to variable amplitude oscillations of the support surface.

Author

Van Ooteghem K, Frank JS, Allard F, and Horak FB

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Orientation physiology, Physical Stimulation, Posture physiology, Reaction Time physiology, Task Performance and Analysis, Young Adult, Aging physiology, Learning physiology, Motor Skills physiology, Postural Balance physiology

Abstract

Postural motor learning for dynamic balance tasks has been demonstrated in healthy older adults (Van Ooteghem et al. in Exp Brain Res 199(2):185-193, 2009). The purpose of this study was to investigate the type of knowledge (general or specific) obtained with balance training in this age group and to examine whether embedding perturbation regularities within a balance task masks specific learning. Two groups of older adults maintained balance on a translating platform that oscillated with variable amplitude and constant frequency. One group was trained using an embedded-sequence (ES) protocol which contained the same 15-s sequence of variable amplitude oscillations in the middle of each trial. A second group was trained using a looped-sequence (LS) protocol which contained a 15-s sequence repeated three times to form each trial. All trials were 45 s. Participants were not informed of any repetition. To examine learning, participants performed a retention test following a 24-h delay. LS participants also completed a transfer task. Specificity of learning was examined by comparing performance for repeated versus random sequences (ES) and training versus transfer sequences (LS). Performance was measured by deriving spatial and temporal measures of whole body center of mass (COM) and trunk orientation. Both groups improved performance with practice as characterized by reduced COM displacement, improved COM-platform phase relationships, and decreased angular trunk motion. Furthermore, improvements reflected general rather than specific postural motor learning regardless of training protocol (ES or LS). This finding is similar to young adults (Van Ooteghem et al. in Exp Brain Res 187(4):603-611, 2008) and indicates that age does not influence the type of learning which occurs for balance control.

Published

2010

32. Practice-related improvements in posture control differ between young and older adults exposed to continuous, variable amplitude oscillations of the support surface.

Author

Van Ooteghem K, Frank JS, and Horak FB

Subjects

Adult, Aged, Aged, 80 and over, Ankle Joint innervation, Ankle Joint physiology, Disability Evaluation, Female, Humans, Leg physiology, Male, Middle Aged, Muscle, Skeletal physiology, Neuropsychological Tests, Orientation physiology, Physical Stimulation, Postural Balance physiology, Proprioception physiology, Reaction Time physiology, Task Performance and Analysis, Teaching, Young Adult, Adaptation, Physiological physiology, Aging physiology, Learning physiology, Motor Skills physiology, Muscle Contraction physiology, Posture physiology

Abstract

Healthy older adults were repeatedly exposed to continuous, variable amplitude oscillations of the support surface to determine (1) whether age affects the capacity for postural motor learning under continuous perturbation conditions with limited predictability and (2) whether practice leads to modifications in the control strategy used to maintain balance in older adults. During training, a translating platform underwent 45-s trials of constant frequency (0.5 Hz) and seemingly random amplitude oscillations (range +\- 2 to 15 cm). The middle 15 s of each trial contained the same sequence of oscillation amplitudes. This repeated middle segment was the same as the repeated segment used in Van Ooteghem et al. (Exp Brain Res 187(4): 603-611, 2008) and was therefore used for analyses. To examine learning, participants performed a retention test following a 24-h delay. Kinematic data were used to derive spatial and temporal measures of whole body centre of mass (COM), trunk, thigh, and shank segment orientation, and ankle and knee angle from performance during the repeated middle segment. Results showed that with training, older adults maintained the capacity to learn adaptive postural responses in the form of improved temporal control of the COM and minimization of trunk instability a a rate comparable to young adults. With practice, however older adults maintained a more rigid, 'platform-fixed' control strategy which differed from young adults who shifted towards 'gravity-fixed' control and decreased COM motion. This study provides important insight into the ability of older adults to demonstrate longer-term improvements in postural regulation.

Published

2009