Nutritional Status in Subacute Stroke Patients Under Rehabilitation

Completed

• Conditions: Stroke
• Interventions: Device: robotic assisted intervention; Diagnostic Test: biochemical analyses; Device: BIA, hand grip; Diagnostic Test: nutritional assessment, MNA

• Registration Number: NCT04923165
• Lead Sponsor: Fondazione Don Carlo Gnocchi Onlus

Brief Summary

Recently, is becoming more evident a relationship between malnutrition, stroke-related sarcopenia and/or altered systemic oxidative status in patients with subacute stroke .

The aim of this study is the evaluation of nutritional status, the presence of stroke-related sarcopenia and systemic oxidative status in patients with subacute stroke outcomes; another aim is to investigate the correlation of nutritional status, the presence of stroke-related sarcopenia and systemic oxidative status on admission with the rehabilitative outcomes.

Detailed Description

Stroke is the third leading cause of mortality and the second leading cause of permanent disability in adults, and is therefore very expensive. Some patients with stroke outcomes, regardless of baseline motor and cognitive function, for unknown reasons show an unexpectedly worse outcome than others and this suggests other factors, in addition to the degree of initial disability, that influence the response to rehabilitative treatment.

Nutrition is an essential aspect in the overall picture of the stroke patient. Malnutrition in the hospital setting is an important issue that can negatively influence the rehabilitation outcome (Cederholm et al. 2017; 2019).

Malnutrition is also responsible for the increase in complications, negatively affects the results of treatment, reduces the immune response and predisposes to infections, delays healing, compromises the function of organs and systems, reduces muscle mass and strength, induces psychic effects with depression and low interest in food.

All this leads to a demand for greater and more prolonged care, with a delay in the recovery of the performance (National Guidelines for hospital and care catering. Min. of Health, 2015).

A picture of malnutrition also leads to an alteration of biochemical and haematochemical indexes. Our retrospective pilot study on 30 patients with subacute stroke, showed a positive correlation between the reduction of disability following rehabilitation treatment and the calcium at admission (Siotto et al, 2020). In addition, a recent study with 100 patients admitted to a rehabilitation unit showed that the functional status at the time of admission and the improvement following the rehabilitation program were positively influenced by high blood levels of vitamin D (Lelli et al. 2019).

Malnourished patients experience "sarcopenia", which is characterized by the reduction of muscle mass and strength, and is a phenomenon strongly related to age: after the age of 70 years, in fact, there is a loss of 15% of muscle mass. It is a risk factor for falls, fractures, physical disability and mortality and it is a phenomenon dependent on various factors such as metabolic imbalance, inactivity, malnutrition and inflammatory states. Sarcopenia is accompanied by body weight loss, neuro-hormonal activation and a systemic shift towards catabolic over-activation (Knops et al. 2013).

Sarcopenia is frequently found in patients with stroke outcomes and can contribute negatively to the rehabilitation process. A recent study of 267 stroke patients admitted to a rehabilitation unit showed that those with sarcopenia (n=129 48%) had severe lower limb paralysis, lower Body Mass Index (BMI) values and a lower Functional Independence Measure (FIM) score, compared to patients without sarcopenia. In addition, patients with sarcopenia had a longer average stay with less chance of returning home and were less autonomous in walking. Finally, patients with sarcopenia showed a lower recovery of functional autonomy compared to non sarcopenic patients (Matsushita et al. 2019).

In stroke patients there is also "stroke-related sarcopenia" (Scherbakov, Sandek, and Doehner 2015) with distinctive features. The reasons are to be attributed to a complex of pathophysiological reactions including: altered neurovegetative control, alterations in the local and systemic metabolic system, difficulty in nutrition and inflammation (Scherbakov, Sandek, and Doehner 2015).

Some studies have led to hypothesize a correlation between sarcopenia and systemic oxidative stress. The general oxidative state is the result between levels of circulating oxidants (e.g. peroxides) and levels of endogenous or dietary acquired antioxidants (glutathione or vitamins, such as tocopherols, vitamin E, K). Our research team has recently demonstrated that circulating peroxides increase in stroke and are related to clinical severity (Squitti et al., 2018). The measurement of circulating peroxides evaluates the prooxidant state of a subject because it depends on circulating free radicals (Reactive Oxygen Species, ROS); these molecules have a great chemical reactivity, which, in extreme cases, compromises the function of all cellular macromolecules causing cell death; for this reason it is thought that sarcopenia may be at least partly due to an over-regulation of oxidative metabolism that produces high levels of circulating free radicals (Fulle et al. 2004).

The hypothesis of the study is that there is a negative relationship between malnutrition, stroke-related sarcopenia and/or altered systemic oxidative status in patients on admission and recovery following rehabilitative treatment.

therefore the aims of this study are:

* Evaluation of nutritional status, presence of stroke-related sarcopenia and systemic oxidative status in patients with subacute stroke outcomes;

* the correlation of nutritional status, the presence of stroke-related sarcopenia and systemic oxidative status on admission with the rehabilitative outcome.

Improving the nutritional picture of stroke patients from acute or post-acute wards will lead to a faster and more effective motor recovery and improve their autonomies and quality of life. This may lead to a lower impact of disability on families and caregivers and, more generally, a reduction in health care costs.

Longitudinal prospective multicentric, non-profit, longitudinal observational study conducted in patients with first stroke (ischemic or hemorrhagic) in subacute phase (within six months after the acute event). The study involves the collection of clinical, instrumental and biochemical data that do not deviate from routine clinical practice. Since it is not an experimental study, no specific intervention is planned; patients will be observed before and after the usual rehabilitative intervention.

The study will have a total duration of 18 months starting in January 2021 and a patient enrolment time of 1 year.

Study Timeline

• Study Start: 2020-09-04
• Study First Submitted: 2021-02-22
• Study First Submitted QC: 2021-06-07
• Study First Posted: 2021-06-11
• Primary Completion: 2023-04-10
• Study Completion: 2023-04-10
• Status Verified: 2023-09
• Last Update Submitted: 2023-09-22
• Last Update Posted: 2023-09-26

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 119

Inclusion Criteria

• stroke patients (hemorrhagic or ischemic) documented through Magnetic Resonance Imaging (MRI) or Computed Tomography (CT);
• age between 18 and 85 years;
• latency time within 6 months after the stroke event
• sufficient cognitive and language skills to understand the instructions related to the administration of the assessment scales and to sign informed consent

Exclusion Criteria

• presence of a previous stroke based on the medical history;
• behavioral and cognitive disorders that may interfere with the therapeutic activity;
• other orthopedic or neurological complications that may interfere with the rehabilitation protocol;
• inability to understand and sign informed consent;
• presence of pacemakers (for interference with bioimpedance measures).

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
patients with stroke	biochemical analyses	Inpatients and outpatients admitted to the investigators' rehabilitation facility .
patients with stroke	nutritional assessment, MNA	Inpatients and outpatients admitted to the investigators' rehabilitation facility .
patients with stroke	robotic assisted intervention	Inpatients and outpatients admitted to the investigators' rehabilitation facility .
patients with stroke	BIA, hand grip	Inpatients and outpatients admitted to the investigators' rehabilitation facility .

Primary Outcome Measures

Name	Time	Method
change in Body Mass Index	Baseline (T0), Treatment (6 weeks) (T1)	it is a measure of body fat based on height and weight that applies to adult men and women expressed in kg/m²
change in food income detection	Baseline (T0), Treatment (6 weeks) (T1)	detection of food intake by measurement of portion of dish assumed from the patients
change in hand grip strenght test score	Baseline (T0), Treatment (6 weeks) (T1)	it is a test to measure the maximum isometric strenght of the hand and forearm muscles
change in Time Up & Go test (TUG) scores	Baseline (T0), Treatment (6 weeks) (T1)	The Time Up And Go is a test used to assess mobility, balance, and walking in people with balance impairments. The subject must stand up from a chair (which should not be leant against a wall), walk a distance of 3 meters, turn around, walk back to the chair and sit down - all performed as quickly and as safely as possible. Time will be measured using a chronometer.
change in Neuropathic Pain Four Questions (DN4) scores	Baseline (T0), Treatment (6 weeks) (T1)	The DN4 used to evaluate presence of neuropathic pain, and consist of a brief interview of four questions answered yes/no: two on what the patient has conceived and two during the exam for the evaluation of hypoesthesia to the touch or sting and the evaluation of allodynia with the skimming of the skin. For each 'yes' a point is assigned. The total score is given by the sum of the individuals. The cut off for the presence of neuropathic pain is '4'.
change in Mini nutritional Assessment (MNA) scores	Baseline (T0), Treatment (6 weeks) (T1)	it is a questionnaire that evaluates the nutritional status
change in Barthel index (BI) scores	Baseline (T0), Treatment (6 weeks) (T1)	The BI is designed to assess the ability of an individual with a neuromuscular or musculoskeletal disorder to care for him/herself. It ranges from 0 to 100, with a higher number meaning better performance in activities of daily living.
change in Modified Ashworth Scale (MAS) scores	Baseline (T0), Treatment (6 weeks) (T1)	The MAS is a 6 point ordinal scale used for grading hypertonia in individuals with neurological diagnoses. A score of 0 on the scale indicates no increase in tone while a score of 4 indicates rigidity. Tone is scored by passively moving the individual's limb and assessing the amount of resistance to movement felt by the examiner.
change in glucose serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of glucose in mg/dL
change in magnesium serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of magnesium in mg/dL
change in creatinin serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of creatinin in mg/dL
change in iron serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of iron in microg/dL
change in Motricity Index (MI) scores	Baseline (T0), Treatment (6 weeks) (T1)	The MI aims to evaluate lower limb motor impairment after stroke, administrated on both sides.; Items to assess the lower limbs are 3, scoring from 0 to 33 each: (1) ankle dorsiflexion with foot in a plantar flexed position (2) knee extension with the foot unsupported and the knee at 90° (3) hip flexion with the hip at 90° moving the knee as close as possible to the chin. (no movement: 0, palpable flicker but no movement: 9, movement but not against gravity :14, movement against gravity movement against gravity: 19, movement against resistance: 25, normal:33).
change in Six-Minute Walking Test (6MWT) scores	Baseline (T0), Treatment (6 weeks) (T1)	The 6MWT measures the distance a subject covers during an indoor gait on a flat, hard surface in 6 minutes, using assistive devices, as necessary. The test is a reliable and valid evaluation of functional exercise capacity and is used as a sub-maximal test of aerobic capacity and endurance. The minimal detectable change in distance for people with sub-acute stroke is 60.98 meters. The 6MWT is a patient self-paced walk test and assesses the level of functional capacity. Patients are allowed to stop and rest during the test. However, the timer does not stop. If the patient is unable to complete the test, the time is stopped at that moment. The missing time and the reason of the stop are recorded. This test will be administered while wearing a pulse oximeter to monitor heart rate and oxygen saturation, also integrated with Borg scale to assess dyspnea.
change in blood levels of systemic oxidative stress (dROMs)	Baseline (T0), Treatment (6 weeks) (T1)	dROMs test measures circulating hydroperoxides (UCarr)
change in antioxydant capacity of serum (BAP)	Baseline (T0), Treatment (6 weeks) (T1)	BAP test measures total antioxidant status in serum in micromol/L
change haemoglobin serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of haemoglobin g/dL
change in albumine serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of glucose in g/dL
weight change	Baseline (T0), Treatment (6 weeks) (T1)	detection of the weight drop or weight increase
change in Bioimpedance analysis (BIA) measurements	Baseline (T0), Treatment (6 weeks) (T1)	it is a non-invasive measurement of body fat, lean muscle mass and hydration
change in Fugl-Meyer Assessment of Motor Recovery after Stroke for Upper Extremity portion (FMA-UL) scores	Baseline (T0), Treatment (6 weeks) (T1)	The FMA-UL is a stroke-specific, performance-based impairment index. It is designed to assess motor functioning, sensation and joint functioning in patients with post-stroke hemiplegia. The upper limb portion of the FMA-UL ranges from 0 (hemiplegia) to 66 points (normal upper limb motor performance)
change in Numerical Rating Scale (NRS) scores	Baseline (T0), Treatment (6 weeks) (T1)	The Numeric Rating Scale (NRS) is the simplest and most commonly used numeric scale to rate the pain from 0 (no pain) to 10 (worst pain).
change in thiol serum levels (SHp)	Baseline (T0), Treatment (6 weeks) (T1)	SHp test measures the circulating thiolic antioxidants in serum in micromol/L
change in triglycerides serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of triglycerides in mg/dL
change in total cholesterol serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of total cholesterol in mg/dL
change in latent iron binding capacity serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of latent iron binding capacity in microg/dL
change in 10 Meter Walk Test scores	Baseline (T0), Treatment (6 weeks) (T1)	This test will assess the patient's speed during gait. Patients will be asked to walk at their preferred maximum and safe speed. Patients will be positioned 1 meter before the start line and instructed to walk 10 meters, and pass the end line approximately 1 meter after. The distance before and after the course are meant to minimize the effect of acceleration and deceleration. Time will be measured using a stopwatch and recorded to the one hundred of a second (ex: 2.15 s). The test will be recorded 3 times, with adequate rests between them. The average of the 3 times should be recorded.
change in HDL cholesterol serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of HDL cholesterol in mg/dL
change in calcium serum levels	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements of calcium in mg/dL
change in hepatic status serum levels (ALT-GPT)	Baseline (T0), Treatment (6 weeks) (T1)	serum measurements o ALT-GPT in U/L

Trial Locations

Locations (1)

Don Gnocchi Foundation; 🇮🇹 Rome, Italy