Something useful might be in here if your doctor can read between the lines. Assuming your doctor reads research at all.
Recent Advances in Clinical Nutrition in Stroke Rehabilitation
Center for Sarcopenia and Malnutrition
Research, Kumamoto Rehabilitation Hospital, 760 Magate, Kikuyo-Town,
Kikuchi-County, Kumamoto 869-1106, Japan
Nutrients 2022, 14(6), 1130; https://doi.org/10.3390/nu14061130
Received: 14 February 2022
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Revised: 25 February 2022
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Accepted: 28 February 2022
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Published: 8 March 2022
(This article belongs to the Special Issue Recent Advances in Clinical Nutrition in Stroke Rehabilitation)
Stroke is a common cause of death and disability
worldwide. Malnutrition is prevalent in stroke rehabilitation patients,
and has serious negative effects on outcomes. In addition, there is
growing interest in new concepts related to malnutrition, such as
sarcopenia, frailty, cachexia, chronic inflammation, dysphagia, and oral
problems, all of which contribute to a poor prognosis. Therefore, it is
necessary to assess nutritional status early and, if needed, provide
appropriate nutritional intervention to improve patient outcomes. A
multidisciplinary approach is strongly recommended in this setting; as
such, high-quality clinical evidence regarding clinical nutrition in
stroke rehabilitation is needed.
This Special
Issue updates our knowledge of clinical nutrition for stroke patients
and includes interesting studies on topics including nutrition and
weight management in the early stages of stroke, the relationship
between frailty and improved physical function, weight gain by providing
stored energy, physical activity and diet quality, L-carnitine and
cognitive level, and the prediction of stroke prognosis using temporal
muscles.
Aggressive nutritional management at
the early stages of stroke onset may be effective in improving
prognosis. In a retrospective cohort study, Sato et al. showed that
high-energy nutritional intake during the first week post-stroke was
associated with high rates of discharge from the hospital to home [1].
Additionally, Kishimoto et al. showed that weight maintenance or gain
in post-stroke patients during the early phases of convalescence
rehabilitation is independently associated with improvements in physical
function [2].
Furthermore, Yoshimura et al. conducted a retrospective cohort study of
underweight patients aged ≥70 years with a body mass index of less than
20.0 kg/m2 undergoing convalescent rehabilitation after
stroke. The study found that providing stored energy contributed to
weight gain and increased skeletal muscle mass [3],
and that it took approximately 9600 kcal of energy to gain 1 kg of body
weight in underweight patients. These findings emphasize the importance
of not only exercise therapy [4] and correction of polypharmacy [5], but also of aggressive nutritional support at the early stages to improve prognosis post-stroke.
Physical
activity is also important in the rehabilitation of stroke patients.
Nguyen et al. showed that physical activity and diet quality
significantly modified the negative impacts of comorbidity on disability
in stroke patients [6].
Comorbidities in stroke patients are strongly associated with poor
prognosis, death, increased levels of disability, and worse functional
outcomes post-stroke. Therefore, it is important to assess comorbidities
early and increase physical activity and diet quality for appropriate
treatment and rehabilitation. Furthermore, Nozoe et al. showed that
pre-stroke frailty was associated with declines in physical function
several months post-stroke [7].
These findings indicate that preventing frailty reduces functional
disability, and that maintaining high physical function is associated
with a better post-stroke quality of life.
Another
interesting finding is that L-carnitine may serve a neuroprotective
role against white matter microstructural damage and cognitive
impairment in hemodialysis patients, according to Ueno et al. [8].
Long-term administration of carnitine may ameliorate damage to white
matter microstructure by suppressing neuroinflammation and improving the
executive function and attention associated with the protection of
several candidate fiber tracts. Long-term administration of carnitine
may be a novel treatment for vascular dementia. However, as this study
is based on hemodialysis patients, further studies are needed to
validate the neuroprotective effects of L-carnitine in post-stroke
patients.
Katsuki et al. outlined reports on
temporal muscle thickness (TMT) and stroke. TMT is associated with
nutritional status and risk of sarcopenia after stroke. It is also a
useful prognostic marker for dysphagia in patients with subarachnoid and
cerebral hemorrhage. In recent years, there has been a rapid increase
in the number of reports on TMT and stroke, as TMT is considered one of
the most important clinical factors [9].
Sarcopenia and malnutrition are frequently observed in stroke patients
and are associated with impaired rehabilitation outcomes. Instruments
such as bioelectrical impedance analysis and dual energy X-ray
absorptiometry are required to evaluate skeletal muscle mass in
diagnosing sarcopenia. However, if TMT can be quantified simply by echo,
it may be widely applied in daily stroke rehabilitation clinical
practice.
The current Special Issue presents
recent advances in clinical nutrition in stroke rehabilitation,
highlighting the importance of nutritional management and physical
activity in improving functional outcomes after stroke. The advances
shown are of great interest from a clinical perspective, with a growing
number of stroke patients around the world, and may act as the basis for
future research.
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