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Ka-Young Lee 2 Articles
Physiological Responses During the Lower Body Positive Pressure Supported Treadmill Test
Ka-Young Lee, Jae-Young Han, Ji-Hyun Kim, Dong-Ju Kim, In-Sung Choi
Ann Rehabil Med 2016;40(5):915-923.   Published online October 31, 2016
DOI: https://doi.org/10.5535/arm.2016.40.5.915
Objective

To quantify changes in cardiopulmonary function using a lower body positive pressure supported (LBPPS) treadmill during the exercise tolerance test (ETT) in healthy subjects before applying the LBPPS treadmill in patients with gait problems.

Methods

We evaluated 30 healthy subjects who were able to walk independently. The ETT was performed using the Modified Bruce Protocol (stages 1–5) at four levels (0%, 40%, 60%, and 80%) of LBPPS. The time interval at each level of the LBPPS treadmill test was 20 minutes to recover to baseline status. We measured systolic blood pressure, diastolic blood pressure, peak heart rate (PHR), rating of perceived exertion (RPE), metabolic equivalents (METs), and oxygen consumption rate (VO2) during each LBPPS condition.

Results

Systolic blood pressure increased as the LBPPS level was increased (40% to 80%). PHR, RPE, METs, and VO2 were negatively associated with the LBPPS condition, although they were not always significant different among the LBPPS levels. The equation from a random effect linear regression model was as follows: VO2 (mL/kg/min)=(2.75×stage)+(–0.14×LBPPS level)+11.9 (r2=0.69).

Conclusion

Detection of the changes in physiological parameters during a submaximal ETT using the LBPPS system may be helpful for applying the LBPPS treadmill in patients who cannot perform the ETT due to gait problems, even at submaximal intensity.

Citations

Citations to this article as recorded by  
  • A preliminary study on the effect of loaded and unloaded exercise on N-propeptide of type II collagen and serum cartilage oligomeric matrix protein activity of articular cartilage in healthy young adults
    Bruna Mavignier de Vasconcelos, Jason D. Peeler, Trisha Scribbans, Stephen M. Cornish
    Applied Physiology, Nutrition, and Metabolism.2023; 48(12): 954.     CrossRef
  • Dose-response relationship between ambulatory load magnitude and load-induced changes in COMP in young healthy adults
    S. Herger, W. Vach, A.-M. Liphardt, C. Egloff, C. Nüesch, A. Mündermann
    Osteoarthritis and Cartilage.2019; 27(1): 106.     CrossRef
  • A pilot study of metabolic fitness effects of weight-supported walking in women with obesity
    Ellen M. Godwin, Anthony D. Uglialoro, Andaleeb Ali, Leah Yearwood, Mary Ann Banerji, John G. Kral, Victoria J. Vieira-Potter
    PLOS ONE.2019; 14(2): e0211529.     CrossRef
  • Physiological and Biomechanical Responses of Highly Trained Distance Runners to Lower-Body Positive Pressure Treadmill Running
    Kyle R. Barnes, Jessica N. Janecke
    Sports Medicine - Open.2017;[Epub]     CrossRef
  • An Erratum to Correct Typographical Errors

    Annals of Rehabilitation Medicine.2016; 40(6): 1151.     CrossRef
  • 6,389 View
  • 94 Download
  • 6 Web of Science
  • 5 Crossref
Successful Treatment of Phantom Limb Pain by 1 Hz Repetitive Transcranial Magnetic Stimulation Over Affected Supplementary Motor Complex: A Case Report
Jong-Hoo Lee, Jeong-Hyun Byun, Yu-Ri Choe, Seung-Kyu Lim, Ka-Young Lee, In-Sung Choi
Ann Rehabil Med 2015;39(4):630-633.   Published online August 25, 2015
DOI: https://doi.org/10.5535/arm.2015.39.4.630

A 37-year-old man with a right transfemoral amputation suffered from severe phantom limb pain (PLP). After targeting the affected supplementary motor complex (SMC) or primary motor cortex (PMC) using a neuro-navigation system with 800 stimuli of 1 Hz repetitive transcranial magnetic stimulation (rTMS) at 85% of resting motor threshold, the 1 Hz rTMS over SMC dramatically reduced his visual analog scale (VAS) of PLP from 7 to 0. However, the 1 Hz rTMS over PMC failed to reduce pain. To our knowledge, this is the first case report of a successfully treated severe PLP with a low frequency rTMS over SMC in affected hemisphere.

Citations

Citations to this article as recorded by  
  • Transcranial magnetic stimulation in the treatment of phantom limb pain: a systematic review
    Gabriel Rocha Santos Knorst, Phamella Rocha de Souza, Armani Gontijo Plácido Di Araújo, Samantha Avanço Ferraz Knorst, Denise Sisterolli Diniz, Hélio Fernandes da Silva Filho
    Arquivos de Neuro-Psiquiatria.2024; 82(01): 001.     CrossRef
  • Non-surgical Management of Phantom Limb Pain: Current and Emerging Clinical Approaches
    Amy L. de Jongh Curry, Morgan E. Hunt, Paul F. Pasquina, Robert S. Waters, Jack W. Tsao
    Current Physical Medicine and Rehabilitation Reports.2023; 11(1): 16.     CrossRef
  • Evidencias actuales sobre las potenciales aplicaciones terapéuticas de la estimulación magnética transcraneal en la esclerosis múltiple: Revisión sistemática de la literatura
    M. León Ruiz, M. Sospedra, S. Arce Arce, J. Tejeiro-Martínez, J. Benito-León
    Neurología.2022; 37(3): 199.     CrossRef
  • Current evidence on the potential therapeutic applications of transcranial magnetic stimulation in multiple sclerosis: a systematic review of the literature
    M. León Ruiz, M. Sospedra, S. Arce Arce, J. Tejeiro-Martínez, J. Benito-León
    Neurología (English Edition).2022; 37(3): 199.     CrossRef
  • A scoping review of current non-pharmacological treatment modalities for phantom limb pain in limb amputees
    Brian Hyung, Catherine Wiseman-Hakes
    Disability and Rehabilitation.2022; 44(19): 5719.     CrossRef
  • Transcranial direct current stimulation in the management of phantom limb pain: a systematic review of randomized controlled trials
    Víctor NAVARRO-LÓPEZ, Manuel DEL-VALLE-GRATACÓS, Diego FERNÁNDEZ-VÁZQUEZ, Pilar FERNÁNDEZ-GONZÁLEZ, María CARRATALÁ-TEJADA, Francisco MOLINA-RUEDA
    European Journal of Physical and Rehabilitation Medicine.2022;[Epub]     CrossRef
  • Nonsurgical Approaches to Neuroma Management
    Yusha Liu, Dennis S. Kao
    Hand Clinics.2021; 37(3): 323.     CrossRef
  • Repetitive Magnetic Stimulation for the Management of Peripheral Neuropathic Pain: A Systematic Review
    Abdullah Aamir, Ayesha Girach, Ptolemaios Georgios Sarrigiannis, Marios Hadjivassiliou, Antonela Paladini, Giustino Varrassi, Panagiotis Zis
    Advances in Therapy.2020; 37(3): 998.     CrossRef
  • Effect of Repetitive Transcranial Magnetic Stimulation on Pain Management: A Systematic Narrative Review
    Seoyon Yang, Min Cheol Chang
    Frontiers in Neurology.2020;[Epub]     CrossRef
  • Phantom limb pain: peripheral neuromodulatory and neuroprosthetic approaches to treatment
    Bailey A. Petersen, Ameya C. Nanivadekar, Santosh Chandrasekaran, Lee E. Fisher
    Muscle & Nerve.2019; 59(2): 154.     CrossRef
  • Noninvasive neuromodulation techniques for the management of phantom limb pain: a systematic review of randomized controlled trials
    Gulseren Akyuz, Esra Giray
    International Journal of Rehabilitation Research.2019; 42(1): 1.     CrossRef
  • Cerebellar Transcranial Direct Current Stimulation (ctDCS) Ameliorates Phantom Limb Pain and Non-painful Phantom Limb Sensations
    Tommaso Bocci, Giuliano De Carolis, Roberta Ferrucci, Mery Paroli, Federica Mansani, Alberto Priori, Massimiliano Valeriani, Ferdinando Sartucci
    The Cerebellum.2019; 18(3): 527.     CrossRef
  • rTMS combined with motor training changed the inter-hemispheric lateralization
    Jing-na Jin, Xin Wang, Ying Li, He Wang, Zhi-peng Liu, Tao Yin
    Experimental Brain Research.2019; 237(10): 2735.     CrossRef
  • Coping with Phantom Limb Pain
    Damien P. Kuffler
    Molecular Neurobiology.2018; 55(1): 70.     CrossRef
  • Evidencias actuales sobre la estimulación magnética transcraneal y su utilidad potencial en la neurorrehabilitación postictus: Ampliando horizontes en el tratamiento de la enfermedad cerebrovascular
    M. León Ruiz, M.L. Rodríguez Sarasa, L. Sanjuán Rodríguez, J. Benito-León, E. García-Albea Ristol, S. Arce Arce
    Neurología.2018; 33(7): 459.     CrossRef
  • Current evidence on transcranial magnetic stimulation and its potential usefulness in post-stroke neurorehabilitation: Opening new doors to the treatment of cerebrovascular disease
    M. León Ruiz, M.L. Rodríguez Sarasa, L. Sanjuán Rodríguez, J. Benito-León, E. García-Albea Ristol, S. Arce Arce
    Neurología (English Edition).2018; 33(7): 459.     CrossRef
  • Noninvasive Brain Stimulation, Maladaptive Plasticity, and Bayesian Analysis in Phantom Limb Pain
    Leon Morales-Quezada
    Medical Acupuncture.2017; 29(4): 220.     CrossRef
  • Repetitive Transcranial Magnetic Stimulation for Phantom Limb Pain: Probably Effective but Understudied
    Arman Taheri, Mahbod Lajevardi, Saghar Arab, Abolfazl Firouzian, Hassan Sharifi
    Neuromodulation: Technology at the Neural Interface.2017; 20(1): 88.     CrossRef
  • 5,439 View
  • 54 Download
  • 17 Web of Science
  • 18 Crossref
Ann Rehabil Med : Annals of Rehabilitation Medicine
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