Clinical Trial Details
— Status: Active, not recruiting
Administrative data
| NCT number |
NCT04206228 |
| Other study ID # |
2019-002037-11 |
| Secondary ID |
|
| Status |
Active, not recruiting |
| Phase |
Phase 2
|
| First received |
|
| Last updated |
|
| Start date |
January 2, 2020 |
| Est. completion date |
March 2023 |
Study information
| Verified date |
October 2021 |
| Source |
Oslo University Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Iron deficiency is a prevalent nutritional deficiency and a common cause of anemia. Although
iron deficiency is traditionally linked to anemia, iron deficiency is prevalent even in the
absence of anaemia and in itself limits function and survival. Iron deficiency is a common
feature of various chronic diseases, and up to 50% of patients with heart failure have iron
deficiency. Iron deficiency is more prevalent the more advanced the disease is and occurs
more frequently in women. Iron deficiency comprises absolute iron deficiency (usually defined
as ferritin < 100 ng/ml) as well as functional iron deficiency, in which iron supply is
inadequate to meet the demand for the production of red blood cells and other cellular
functions despite normal or abundant body iron stores. Iron deficiency is associated with
poor exercise capacity, lethargy and reduced quality of life. Results from our studies have
shown that iron deficiency is prevalent in patients with aortic stenosis. Some of the
symptoms associated with aortic stenosis, such as fatigue, reduced exercise capacity,
dyspnoea and cognitive dysfunction, have traditionally been thought to be caused by the
haemodynamic derangements precipitated by the valvular stenosis. However, similar symptoms
can be brought about by iron deficiency, and the investigators hypothesize that intravenous
iron supplement will improve exercise capacity, muscle strength, cognition, health-related
quality of life and myocardial function in patients with severe aortic stenosis and iron
deficiency. This is a phase 2, double blind, randomised, placebo-controlled trial.
Participants will be randomised in a 1:1 fashion to receive a single intravenous dose of iron
isomaltoside (50 patients) or matching placebo (50 patients). The study is designed to show
superiority with regard to the primary endpoint in patients assigned to active treatment
versus patients allocated to the placebo arm. The main goal is to evaluate the effect of a
single dose of intravenous iron isomaltoside on exercise capacity after transcatheter aortic
valve implantation in patients with severe aortic stenosis and iron deficiency. For this
study, the investigators have defined as serum ferritin < 100 µg/l or ferritin between 100
and 300 µg/l in combination with a transferrin saturation < 20 %.
Description:
Written informed consent must have been provided voluntarily by each subject before any study
specific procedure is initiated.
A physical examination (including examination of heart, lungs, abdomen, neck and assessment
of peripheral circulation and oedema) must be performed; vital signs (blood pressure, and
heart rate); and height and weight must be recorded. A medical history must be obtained, and
age; gender; New York Heart Association (NYHA) functional status; risk factors (hypertension,
smoking, and diabetes); symptom duration, and concomitant disease must be recorded. All
concomitant medication (incl. vitamins, herbal preparation and other "over-the-counter"
drugs) used by the participant within 28 days of treatment start must be recorded in the CRF
by generic name and dose. Blood samples will be obtained to determine haemoglobin; white
blood cell count, platelet count; serum potassium; serum sodium; glucose, glycosylated
haemoglobin; creatinine; ALT; bilirubin; albumin; INR; CRP; N-terminal pro-B-type natriuretic
peptide; total cholesterol; ferritin; transferrin, serum iron and total iron binding
capacity. Blood for efficacy analyses must be drawn and appropriately labelled and stored for
later analysis. A 6 min walk test will be performed in accordance with current guidelines at
baseline. The results of this test will be used for adjustment of the test-result six months
after study drug infusion. The latter result, with adjustment for the baseline result,
constitutes the primary endpoint of the IIISAS trial. Right and left hand grip strengths will
be measured by a hand-held dynamometer. Body composition (weight, total water, total fat,
percent fat, the ratio of extracellular water to intracellular water [measuring oedema], and
visceral fat) will be measured at baseline and after 6 months with the InBody 770 body
composition analyser. Self-reported, health-related quality of life will be gauged with the
SF-36, EQ 5D 3L, EQ-VAS, HAD and the Kansas City Cardiomyopathy Questionnaires. Cognitive
function will be assessed with the Cambridge Neuropsychological Test Automated Battery
(CANTAB).
A physical examination, medical history, all concomitant medication, blood samples, 6 min
walk test, right and left hand grip strengths, body composition, and self-reported,
health-related quality of life as well as cognitive function will be conducted again on
average approximately 3 months after study drug administration, and it is designed to assess
initial efficacy and safety. This will be conducted again 3 months after transcatheter aortic
valve implantation (TAVI).
Patients will be followed for the first year after the TAVI procedure for safety assessment,
including MACE, and all-cause mortality. At 12 months after that TAVI procedure,
approximately 15 months after study drug infusion, a visit to Oslo University hospital, the
local hospital or a telephone interview will be performed to assess NYHA functional class,
adverse events and clinical events.
Patients may be discontinued from study treatment and assessments at any time. Specific
reasons for discontinuing patient follow-up are:
- Voluntary discontinuation: participating patients are free to discontinue his/her
participation in the study at any point in time, without prejudice to further treatment.
- Major protocol deviation
- Incorrect randomisation, i.e. the patient does not meet the required inclusion/exclusion
criteria for the study
- Patient lost to follow-up
- Patient's non-compliance to study treatment and/or procedures
Patient withdrawal must be documented in the CRF as well as in hospital records. If possible,
a final assessment should be obtained (end of study visit). The reason for discontinuation is
recorded. The investigator is obliged to follow up any significant adverse events until the
outcome either is recovered or resolved, recovering/resolving, not recovered/not resolved,
recovered/resolved with sequelae, fatal or unknown. Patients who withdraw will be included in
the intention-to treat analysis.
The whole trial may be discontinued at the discretion of the primary investigator or the
sponsor in the event of any of the following:
- Occurrence of AEs unknown to date in respect of their nature, severity and duration
- Medical or ethical reasons affecting the continued performance of the trial
- Difficulties in the recruitment of patients
- Cancellation of drug development The sponsor and principal investigator will inform all
investigators, the relevant Competent Authorities and Ethics Committees of the
termination of the trial along with the reasons for such action. If the study is
terminated early on grounds of safety, the Competent Authorities and Ethics Committees
will be informed within 15 days.
