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Frontoparietal-Striatal Network and Nucleus Basalis Modulation in Patients With Parkinson Disease and Gait Disturbance.
Nishida, Akira; Shima, Atsushi; Kambe, Daisuke; Furukawa, Koji; Sakamaki-Tsukita, Haruhi; Yoshimura, Kenji; Wada, Ikko; Sakato, Yusuke; Terada, Yuta; Sawamura, Masanori; Nakanishi, Etsuro; Taruno, Yosuke; Yamakado, Hodaka; Fushimi, Yasutaka; Okada, Tomohisa; Nakamoto, Yuji; Takahashi, Ryosuke; Sawamoto, Nobukatsu.
Afiliação
  • Nishida A; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Shima A; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Kambe D; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Furukawa K; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Sakamaki-Tsukita H; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Yoshimura K; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Wada I; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Sakato Y; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Terada Y; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Sawamura M; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Nakanishi E; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Taruno Y; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Yamakado H; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Fushimi Y; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Okada T; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Nakamoto Y; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Takahashi R; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
  • Sawamoto N; From the Department of Neurology (A.N., A.S., D.K., K.F., H.S.-T., K.Y., I.W., Y.S., Y. Terada, M.S., E.N., Y. Taruno, H.Y., R.T.), Human Brain Research Center (A.S., T.O.), Department of Diagnostic Imaging and Nuclear Medicine (Y.F., Y.N.), and Department of Human Health Sciences (N.S.), Kyoto Univ
Neurology ; 103(3): e209606, 2024 Aug 13.
Article em En | MEDLINE | ID: mdl-38976821
ABSTRACT
BACKGROUND AND

OBJECTIVES:

Neural computations underlying gait disorders in Parkinson disease (PD) are multifactorial and involve impaired expression of stereotactic locomotor patterns and compensatory recruitment of cognitive functions. This study aimed to clarify the network mechanisms of cognitive contribution to gait control and its breakdown in patients with PD.

METHODS:

Patients with PD were instructed to walk at a comfortable pace on a mat with pressure sensors. The characterization of cognitive-motor interplay was enhanced by using a gait with a secondary cognitive task (dual-task condition) and a gait without additional tasks (single-task condition). Participants were scanned using 3-T MRI and 123I-ioflupane SPECT.

RESULTS:

According to gait characteristics, cluster analysis assisted by a nonlinear dimensionality reduction technique, t-distributed stochastic neighbor embedding, categorized 56 patients with PD into 3 subpopulations. The preserved gait (PG) subgroup (n = 23) showed preserved speed and variability during gait, both with and without additional cognitive load. Compared with the PG subgroup, the mildly impaired gait (MIG) subgroup (n = 16) demonstrated deteriorated gait variability with additional cognitive load and impaired speed and gait variability without additional cognitive load. The severely impaired gait (SIG) subgroup (n = 17) revealed the slowest speed and highest gait variability. In addition, group differences were found in attention/working memory and executive function domains, with the lowest performance in the SIG subgroup than in the PG and MIG subgroups. Using resting-state functional MRI, the SIG subgroup demonstrated lower functional connectivity of the left and right frontoparietal network (FPN) with the caudate than the PG subgroup did (left FPN, d = 1.21, p < 0.001; right FPN, d = 1.05, p = 0.004). Cortical thickness in the FPN and 123I-ioflupane uptake in the striatum did not differ among the 3 subgroups. By contrast, the severity of Ch4 density loss was significantly correlated with the level of functional connectivity degradation of the FPN and caudate (left FPN-caudate, r = 0.27, p = 0.04).

DISCUSSION:

These findings suggest that the functional connectivity of the FPN with the caudate, as mediated by the cholinergic Ch4 projection system, underlies the compensatory recruitment of attention and executive function for damaged automaticity in gait in patients with PD.
Assuntos

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Doença de Parkinson / Imageamento por Ressonância Magnética / Tomografia Computadorizada de Emissão de Fóton Único / Transtornos Neurológicos da Marcha Limite: Aged / Female / Humans / Male / Middle aged Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Doença de Parkinson / Imageamento por Ressonância Magnética / Tomografia Computadorizada de Emissão de Fóton Único / Transtornos Neurológicos da Marcha Limite: Aged / Female / Humans / Male / Middle aged Idioma: En Ano de publicação: 2024 Tipo de documento: Article