Inflammation Clinical Trial
Official title:
Nutritional Status, Eating Pattern and Inflammation Among Patients With Amputation of the Lower Limb - a Longitudinal Cohort Study
Patients with non-traumatic lower limb amputation are characterized by; high age; majority
being men; multimorbidity; and high mortality. The patients comorbidities are related to
diabetes and cardiovascular disorders such as arteriosclerosis.
Major surgery induces a surgical stress response that initiates a catabolic metabolism.
Furthermore, the risk of systemic inflammatory response syndrome (SIRS) both before and
after amputation is high (3) as the most prominent indication for amputation is gangrene,
followed by non-healing or infected wounds. This leads to an impaired immune response and an
increased insulin resistance that also includes a cascade of impaired appetite regulation,
low dietary intake and reduced nutrient uptake form the intestine which increases
inflammation, loss of muscle and risk of severe complications.
Among healthy adults with a normal weight a slow speed of eating will result in a low
nutritional intake due to faster satiety experience.
Low appetite following major surgery is related to the regulation of hormone controlling the
appetite. Especially older patients experience variations in appetite that affect their
eating pattern such as eating speed and intake. It is therefore reasonable to assume that
the speed of eating and the total nutritional intake among older patients, who are exposed
to catabolic metabolism, are associated.
The hypothesis is that major surgery induces a change in patients' current eating pattern
that is measurable and can be identified as a surrogate measurement of the catabolic state
that is related to inflammation.
Eating Patterns are often described in clinical practice without engaging in nutritional
assessment of the patient. Whether the speed of eating is an objective marker of the current
nutritional status has not been established.
This study investigates patients undergoing lower limb amputation and their nutritional
status, eating pattern and inflammation and whether this is linked to the current degree of
disease. The purpose is to describe the development in nutritional status before and after
amputation and to investigate associations between patients eating pattern and nutritional
status to inflammatory and metabolic biomarkers reflecting the degree of disease.
The study is an observational cohort study that includes patients with lower limb amputation
from admission to discharge.
Patients are admitted to a special amputation-unit from the outpatient clinic, the emergency
department or other departments at the hospital. All patients with lower limb amputation are
treated according to a rehabilitation programme that includes a multidisciplinary approach
and a well-defined treatment for pain, fluid, nutrition and mobilisation.
All patients receive a standardised house diet prepared in the hospital kitchen. The diet
consists of 18% protein, 40% lipids and 42% carbohydrate. The house diet is supplemented
with minimum three in-between meals prepared in the dietary kitchen. The use of protein
supplement is also available. Patients´ food and fluid intake are monitored daily.
Data on nutrition and eating pattern
The eating pattern is measured using a digital weight that measure gram per second. The
weight is linked to a raspberry computer that recodes all output from the weight. The
recording start just before the plate is placed on the weight and ends when the meal is
completed. To measure appetite and hunger an arbitrary VAS scale is used to evaluate the
patients´ current desire to eat, how hungry they are, how full they fell, and if they want
to eat more.
The patients´ nutritional status is evaluated using Mini Nutritional Assessment (MNA). MNA
is a valid tool to assess the risk of undernutrition among older people. The MNA consists of
a screening tool (max 14 points, < 11 indicates risk of undernutrition) and an evaluation
tool (max 16 points). A total point < 23,5 indicates a need for nutritional therapy.
The patients´ behaviour regarding eating and food are evaluated using Eating Identity Type
Inventory (EITI). EITI consists of 8 statements that are evaluated by 5 levels of agreement.
The patients´ appetite is evaluated using Simplified nutritional Appetite Questionnaire
(SNAQ). SNAQ is a tool validated to evaluate older patients´ appetite. SNAQ consists of four
questions with five possible answers with a max score of 20 points. A score <14 points
indicates risk of weight loss of 5 %.
Data on Inflammation and metabolism To describe any change in inflammation or metabolic
status, serum and plasma samples will be collected after inclusion, on the day of surgery
and on 1, 3, 5, and 10 postoperative day. A total of 350 ml blood will be collected over a
period of 12 days. The analysis is expecting to consist of inflammatory and metabolic
biomarkers. All samples will be contained at minus 80 degree and minus 135 degree for
immucells.
The degree of diseases will be measured using the biomarker suPAR that is associated with
the degree of disease, LOS and mortality. A clinical difference is 2-3 ng/ml.
Data on protein metabolism To evaluate the protein metabolism, 10 patients undergoing above
ankle amputation will have a bladder catheter inserted on the day of surgery, to collect a
24-hour urine sample. The catheter will hereafter be removed. This will be done on the 1, 5,
and 10 postoperative day.
Demographic and baseline data Data on patients´ sex, age, marital status, residence,
functional mobility, comorbidities, smoking and alcohol use, medications, educational and
working status, and use of homecare services will be collected. The patients´ muscle
strength is measured using handgrip strength on the dominant hand prior to surgery and on
the 5, 10 postoperative day and at discharged.
Complications Complications during hospitalisation will be registered and categorised as;
cardio or respiratory, metabolic, infection and lack of healing, re-amputation or revision
within 30 days, and 30 day mortality.
The analysis of data will include an investigation of: whether suPAR is dependent on
nutritional intake whether; patients' eating pattern can be used as an objective description
of the current nutritional status; inflammation is dependent on nutritional intake;
complications are dependent on nutritional intake. We will also investigate protein
metabolism after lower limb amputation.
Power calculation The aim of the study is to describe the associations between the patients
eating pattern and nutritional status and the degree of disease among older patients
undergoing lower limb amputation.
We calculated that; with a power of 80%; a statically significant level of 5%; a minimum
difference in suPAR at 2,5ng/ml between patients who receive sufficient nourishment or not
(assuming that 50% of all patients achieve sufficient nourishment during hospitalisation)
and a SD at 2.8 ng/ml (suPAR) the number of included patients should be 42. An estimated
dropout set at 20 % (8 patients) results in a inclusion of 50 patients.
The primary outcome is a change in suPAR, a biomarker related to the degree of disease,
hospitalization and death. The outcome will be measured before and 10 days after surgery.
The secondary outcomes are; nutritional intake measured as daily protein (g/kg) and energy
(kilojoule/kg) intake, eating rate measured as g/min, total length of the meal, activity
(activity on the plate compared with intake), biomarkers for inflammation and metabolism;
protein balance measured as urine urea nitrogen in a 24-hour urine sample; revisions and
re-amputation; LOS and 30 day mortality.
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