The Effect of Acupuncture Treatment on Cognitive Functions and Brain Networks for Long COVID

Changes of Digit Span Test scores from baseline to the end of 8 weeks

Digit Span Test consists of forward and backward subtests, that respectively assess attention and executive function through measuring the number of correct digit sequences. The minimum score is 0 , and the maximum scores are respectively 10 and 9 for forward and backward subtests. Higher scores indicate better attention and executive function.

Time frame: Baseline and 8 weeks

Change of Symbol Digit Modality Test score from baseline to the end of 8 weeks

Symbol Digit Modality Test assesses attention through measuring the number of correct responses within 90 seconds. The minimum score is 0, and the maximum score is 110. Higher score indicates better attention.

Time frame: Baseline and 8 weeks

Changes of Trail Making Test scores from baseline to the end of 8 weeks

Trail Making Test includes Part A(TMT-A) and Part B(TMT-B), that respectively evaluates attention and executive function via measuring the time in seconds required for completing each part of the test. Higher scores indicate worse attention and executive function.

Time frame: Baseline and 8 weeks

Changes of Rey Auditory Verbal Learning Test scores from baseline to the end of 8 weeks

Rey Auditory Verbal Learning Test evaluates different aspects of verbal memory through measuring total learning, repetitions, delayed recall, retroactive interference, and proactive interference. Higher scores for total learning and delayed recall indicate better memory, while higher scores for repetitions, retroactive interference, and proactive interference indicate worse memory.

Time frame: Baseline and 8 weeks

Changes of Rey-Osterrieth Complex Figure Test scores from baseline to the end of 8 weeks

Rey-Osterrieth Complex Figure Test evaluates visuospatial construction ability through measuring the accuracy of copy, and evaluates visual memory via measuring the accuracies of immediate and delayed recalls. Higher scores indicate better visuospatial construction and visual memory.

Time frame: Baseline and 8 weeks

Changes of Stroop Test scores from baseline to the end of 8 weeks

Stroop test consists of Stroop word test(Part A), Stroop color test(Part B) and Stroop color word test(Part C), that assess executive function through measuring the time in second required to complete each part and the number of errors for each part. Higher score for each part indicates worse executive function.

Time frame: Baseline and 8 weeks

Change of Category Fluency Test Score from baseline to the end of 8 weeks.

Category Fluency Test assesses language through measuring the number of correct words produced under restricted search condition of category(animals). Higher score for each subtest indicates better language.

Time frame: Baseline and 8 weeks

Change of Action Fluency Test Score from baseline to the end of 8 weeks

Action Fluency Test evaluates language via measures the number of correct words produced under restricted search condition of action(kitchen actions). Higher score for each subtest indicates better language

Time frame: Baseline and 8 weeks

Change of Boston Naming Test score from baseline to the end of 8 weeks

Boston Naming Test includes 30 items and evaluates language through measuring the total of correct responses. The minimum score is 0, and the maximum score is 30. Higher score indicates better language.

Time frame: Baseline and 8 weeks

Change in Fatigue Severity Scale score from baseline to the end of 8 weeks

Fatigue Severity Scale is a self-report questionnaire consisting of 9 items which are devised to evaluate the impact of fatigue on daily functioning, severity of fatigue. The minimum score is 9,and the maximum score is 63. Higher score indicate greater severity of fatigue and impact of fatigue on daily functioning.

Time frame: Baseline and 8 weeks

Change of the Generalized Anxiety Disorde-7 score from baseline to the end of 8 weeks

Generalized Anxiety Disorde-7 is a self-report questionnaire with 7 items, that assesses the level of anxiety in the past two week. The minimum score is 0, and the maximum score is 21. Higher score indicates greater severity of anxiety.

Time frame: Baseline and 8 weeks

Change of Hamilton Depression Scale score from baseline to the end of 8 weeks

Hamilton Depression Scale is the most commonly used instrument for the assessment of depression in clinical practice. It includes 24 items and assesses the level of depression through measuring factors of Anxiety/Somatization, Weight, Cognitive Impairment, Diurnal Variation, Retardation, Sleep Disturbance, and Hopelessness. The total score range is 0 to 76. Higher total score indicates greater level of depression.

Time frame: Baseline and 8 weeks

Change of the MOS Item Short From Health Survey subscores from baseline to the end of 8 weeks

The MOS Item Short From Health Survey is a self-report instrument with 36 items, that assesses quality of life through measuring subscales of Physical Function, Role-Physical, Bodily Pain, General Health, Vitality, Social Functioning, Role-Emotional, and Mental Health. Higher subscores indicate better quality of life.

Time frame: Baseline and 8 weeks

Change in clustering coefficient of brain network from baseline to the end of 8 weeks

Clustering coefficient is the average of clustering coefficients across all nodes in a network. Higher value indicates greater density and complexity of the entire network.

Time frame: Baseline and 8 weeks

The change in characteristic path length of brain network from baseline to the end of 8 weeks

Characteristic path length the average of shortest path length (the minimum number of edges required to connect one node to another node) across any pair of nodes in the network. Lower value indicates higher speed of information transmission in the network.

Time frame: Baseline and 8 weeks

The change in global efficiency of brain network from baseline to the end of 8 weeks

Global efficiency is the mean of inverse of the shortest path length between all pairs of nodes in a network. Higher value reflects better functional integration of the network

Time frame: Baseline and 8 weeks

The change in local efficiency of brain network from baseline to the end of 8 weeks.

Local efficiency is the mean of the local efficiency across all nodes in whole network. Higher value suggests greater stability of a local network when the local network is interrupted.

Time frame: Baseline and 8 weeks

The change in normalized clustering coefficient from baseline to the end of 8 weeks.

Normalized clustering coefficient is the ratio of culstring coefficient of network to the culstring coefficient of random network. Higher value indicates greater local modularization and specialization.

Time frame: Baseline and 8 weeks

The change in normalized characteristic path length from baseline to the end of 8 weeks

Normalized characteristic path length is the ratio of characteristic path length of network to characteristic path length of a random network. (the Lp of a random network). Higher value indicates lower global integration effeciency of network.

Time frame: Baselien and 8 weeks

The change in small-worldness of brain network from baseline to the end of 8 weeks.

Small-worldness is the ratio of normalized clustering coefficient to normalized characteristic path length. Higher value indicates greater the balance between local specification and global integration of information transmission.

Time frame: Baseline and 8 weeks

The change in degree centrality of brain network from baseline to the end of 8 weeks

Degree centrality is the number of direct connections attached to a node. Higher value indicates greater the information transmission between a node and other network nodes.

Time frame: Baseline and 8 weeks

The change in nodal efficiency of brain network from baseline to the end of 8 weeks

Nodal efficiency is the average of the inverse of shortest path length between a given node and all other nodes. Higher value indicates greater efficiency of information transmission between a node and other nodes

Time frame: Baseline and 8 weeks

The change in betweenness centrality of brain network from baseline to the end of 8 weeks

Betweenness centrality is the number of times a given node lies on one of the paths between all pairs of nodes in a network. Higher value represents greater influence of a node on the overall flow of information in the network.

Time frame: Baseline and 8 weeks

The change in closeness centrality of brain network from baselien to the end of 8 weeks

Closeness centrality is the reciprocal of the sum of the shortest path lengths from that node to all other nodes. Higher value reflects greater closeness a node to all other nodes in a network

Time frame: Baseline and 8 weeks

The change in nodal clustering coefficient of brain network from baseline to the end of 8 weeks

Nodal clustering coefficient is the number of a node's neighbors (nodes directly connecting the node) that are also connected. Higher value indicates greater cliquishness of the subnetwork where the node is located.

Time frame: Baseline and8 weeks

The change in nodal local efficiency of brain network from baseline to the end of 8 weeks

Nodal local efficiency is inverse of shortest path length between all node pairs in the sub-network formed by a given node and its neighbors. Higher value represents greater between the efficiency of information transmission between the node and its neighbors.

Time frame: Baseline and 8 weeks

The change in nodal shortest path length of brain network from baseline to the end of 8 weeks

Nodal shortest path length is the average of the shortest path length from a single node to all other nodes in a network. Lower value indicates greater efficiency of information transmission of the node

Time frame: Baseline and 8 weeks