SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4213048345> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W4213048345 endingPage "854" @default.
W4213048345 startingPage "845" @default.
W4213048345 abstract "With the percentage of the population above age 65 expected to double by 2030, the healthcare costs across neurodegenerative diseases will in all likelihood significantly increase. As such, disease-modifying, preventive strategies are urgently needed. However, despite major technological advances and massive concerted efforts, we still fall short of disease prevention, delayed progression or reversal when it comes to neurodegenerative diseases. An increasing wealth of information has come to formally demonstrate that exercise serves as one of the best strategies for coping with neurodegeneration. Herein, we review the available evidence on how and to which extent physical activity can expand one's motor reserve in the settings of neuropathology and ageing. Individuals who attain higher levels of functionality via lifelong experience develop a higher motor reserve throughout life and clinically relevant symptoms only later in life. The higher the motor reserve, the higher the degree of resilience and the better individuals can cope with a given level of neuropathology. Physical exercise is an efficacious and efficient way of strengthening one's motor reserve, allowing for an increased ability to cope with neuropathology throughout life and resulting in delayed disease onset and progression. Motor learning, and not necessarily motor performance, seems to be the key when aiming at maximizing the benefits of physical exercise in the context of motor reserve. As a result, a variety of challenging activities are to be recommended and maintained throughout life." @default.
W4213048345 created "2022-02-24" @default.
W4213048345 creator A5004705739 @default.
W4213048345 creator A5023031123 @default.
W4213048345 date "2022-10-01" @default.
W4213048345 modified "2023-10-18" @default.
W4213048345 title "Motor reserve: How to build neuronal resilience against ageing and neurodegeneration?" @default.
W4213048345 cites W1530229763 @default.
W4213048345 cites W1631652290 @default.
W4213048345 cites W1765478011 @default.
W4213048345 cites W1799533372 @default.
W4213048345 cites W1855610705 @default.
W4213048345 cites W1911060607 @default.
W4213048345 cites W1920983895 @default.
W4213048345 cites W1967333325 @default.
W4213048345 cites W1973914344 @default.
W4213048345 cites W1977750438 @default.
W4213048345 cites W1986689197 @default.
W4213048345 cites W2008597451 @default.
W4213048345 cites W2012809636 @default.
W4213048345 cites W2017322846 @default.
W4213048345 cites W2025379006 @default.
W4213048345 cites W2030104468 @default.
W4213048345 cites W2031293980 @default.
W4213048345 cites W2031427673 @default.
W4213048345 cites W2032696832 @default.
W4213048345 cites W2033818057 @default.
W4213048345 cites W2036035023 @default.
W4213048345 cites W2040682445 @default.
W4213048345 cites W2044074582 @default.
W4213048345 cites W2048251539 @default.
W4213048345 cites W2048970699 @default.
W4213048345 cites W2049273156 @default.
W4213048345 cites W2054879991 @default.
W4213048345 cites W2056658942 @default.
W4213048345 cites W2056859952 @default.
W4213048345 cites W2059668400 @default.
W4213048345 cites W2061195971 @default.
W4213048345 cites W2062767903 @default.
W4213048345 cites W2065003979 @default.
W4213048345 cites W2068440136 @default.
W4213048345 cites W2072371192 @default.
W4213048345 cites W2078238654 @default.
W4213048345 cites W2079163316 @default.
W4213048345 cites W2088886189 @default.
W4213048345 cites W2100114973 @default.
W4213048345 cites W2100809123 @default.
W4213048345 cites W2111447855 @default.
W4213048345 cites W2114897600 @default.
W4213048345 cites W2117914711 @default.
W4213048345 cites W2118902477 @default.
W4213048345 cites W2121050628 @default.
W4213048345 cites W2121489597 @default.
W4213048345 cites W2122687322 @default.
W4213048345 cites W2124756645 @default.
W4213048345 cites W2124815272 @default.
W4213048345 cites W2125463914 @default.
W4213048345 cites W2125970178 @default.
W4213048345 cites W2129167248 @default.
W4213048345 cites W2132724157 @default.
W4213048345 cites W2132740963 @default.
W4213048345 cites W2136451283 @default.
W4213048345 cites W2139581313 @default.
W4213048345 cites W2144907160 @default.
W4213048345 cites W2147659195 @default.
W4213048345 cites W2148658472 @default.
W4213048345 cites W2152874184 @default.
W4213048345 cites W2155669954 @default.
W4213048345 cites W2157464285 @default.
W4213048345 cites W2157587268 @default.
W4213048345 cites W2168684970 @default.
W4213048345 cites W2179857445 @default.
W4213048345 cites W2195234723 @default.
W4213048345 cites W2224220568 @default.
W4213048345 cites W2278395369 @default.
W4213048345 cites W2296360649 @default.
W4213048345 cites W2547847606 @default.
W4213048345 cites W2601571152 @default.
W4213048345 cites W2606330717 @default.
W4213048345 cites W2749911026 @default.
W4213048345 cites W2762186704 @default.
W4213048345 cites W2764237245 @default.
W4213048345 cites W2888876543 @default.
W4213048345 cites W2901519529 @default.
W4213048345 cites W2902426544 @default.
W4213048345 cites W2913804853 @default.
W4213048345 cites W2921974752 @default.
W4213048345 cites W2956926267 @default.
W4213048345 cites W2972444194 @default.
W4213048345 cites W2979686975 @default.
W4213048345 cites W3004671348 @default.
W4213048345 cites W3008233012 @default.
W4213048345 cites W3009613001 @default.
W4213048345 cites W3108890876 @default.
W4213048345 cites W4233832921 @default.
W4213048345 cites W4376849352 @default.
W4213048345 doi "https://doi.org/10.1016/j.neurol.2021.12.012" @default.
W4213048345 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35183365" @default.