Blood Pressure Clinical Trial
Official title:
Effect of Posture and Fasting State on Central and Peripheral Blood Pressure in Patients With Stroke
Individuals who experience a stroke or transient ischaemic attack (TIA) are at heightened
risk of subsequent vascular events, including heart attacks and secondary stroke/TIA. Blood
pressure control is considered the most important contributor to positive health outcomes in
stroke patients. The measurement of central blood pressure (cSBP) (the blood pressure which
is being exerted at the heart), may provide clinicians with important diagnostic and
prognostic information over and above that typically obtained from a peripheral blood
pressure measure (the blood pressure in the arm). Central blood pressures may be better than
traditional peripheral blood pressure measures as: i) peripheral blood pressure may not
accurately reflect the effects of peak arterial blood pressure on centrally located organs,
ii) central blood pressures may be 50 % superior to peripheral blood pressures when
predicting cardiovascular events, and iii) information pertaining to central blood pressures
may be more effective in the management of hypertension. While the validity of oscillometric
devices which measure central blood pressures has been demonstrated, further study is
required to determine precision under normal clinical operating conditions (i.e., reflective
of the Hospital/GP practice setting). As such, this study will assess central and peripheral
blood pressures of stroke patients when fasted and nonfasted, and when seated and supine. The
study is interested in identifying the effect of the above parameters (fasted vs. unfasted,
seated vs. supine) on central and peripheral blood pressures in stroke patients.
Participants will take part in three separate assessment sessions, on three separate days,
with a minimum 24 hour recovery between each session. Each assessment is expected to last 90
minutes, with a minimum of eight blood pressures being taken from the left upper arm. As
such, participants will be asked to give up 4.5 hours of their time to the study. During each
assessment participants will be tested in a fasted and non-fasted state, and in a supine
(lying) and seated position. All assessments will take place between 7 and 10am and will be
undertaken following written informed consent.
Stroke is a leading cause of death worldwide, and is a prominent cause of chronic disability,
causing significant physical, cognitive and social impairment. In the United Kingdom, there
are 150,000 strokes each year, with ~900,000 people living with the debilitating effects of
stroke.Individuals who experience a stroke or transient ischaemic attack (TIA; minor stroke)
are at heightened risk of experiencing vascular events in the future, such as myocardial
infarction, stroke and secondary TIAs, and death. Of all the measures of interest, greater
blood pressure control is the most important contributor to positive health outcomes in
stroke patients. However, clinical practice, and research to date concentrate on the
assessment of peripheral blood pressure assessments (the blood pressure as identified from
the arm). The measurement of central haemodynamic parameters, including central systolic
blood pressure (cSBP) and arterial wave reflection (i.e., augmentation index, AIx), hold the
potential to provide clinicians with important diagnostic and prognostic information beyond
that provided by traditional peripheral blood pressure readings. The assessment of central
blood pressure is important as it reflects the stress and loading on the left ventricle and
coronary arteries. Considering the marked differences in pulse pressure between the central
aorta and peripheral limbs, peripheral blood pressure may not accurately reflect the effects
of peak arterial blood pressure on centrally located organs. Previous research has
demonstrated central blood pressures to be 50 % superior to peripheral blood pressures when
predicting cardiovascular events, while in comparison to peripheral blood pressure, central
blood pressure may improve the management of hypertension. Owing to recent technological
advances, central haemodynamic parameters can be obtained quickly and noninvasively using an
automated blood pressure cuff (oscillometer).While the validity of these devices which
measure central haemodynamic parameters has been demonstrated, further study is required to
determine measurement precision (reliability) under normal clinical operating conditions
(i.e. , in the hospital or general practioner setting). As such, this study will assess the
influence of fasting status (fasted vs. nonfasted) and posture (seated vs. supine) on central
and peripheral blood pressure measures in patients diagnosed with stroke. The study will
determine whether these parameters can be reliably assessed and whether stroke severity
(major stroke, minor stroke, TIA) influences the reported results.
Design and setting:
This study is a single centre observational study. All stroke/TIA patients will be recruited
from the Royal Hampshire County Hospital within the Hampshire Hospital NHS Foundation Trust
(HHFT).
Patients will be recruited from the inpatient and outpatient setting. For patients diagnosed
with a major or minor stroke and who have not been discharged from the hospital, recruitment
will take place on the acute stroke ward at the hospital. For these patients, all assessments
will also be undertaken within the hospital as patients will be based in the acute stroke
ward. For those patients identified with minor stroke or TIA within the emergency department
or outpatient setting (i.e., stroke clinics), and who not be staying in the acute stroke
ward, will be recruited from these settings. All assessments with these patients will take
place in the Physiology Laboratory at the University of Winchester. Written informed consent
will be obtained from all participants.
All stroke (minor and major) patients will be assessed using the National Institute of Health
Stroke Severity Scale (NIHSS). All patients with suspected TIA with be assessed with the
ABCD2. Participants will comply with pharmacological treatment as recommended.
Participants will take part in three separate assessment sessions, on three separate days,
with a minimum 24 hour recovery between each session. Before each assessment participants
will undertake an overnight fast (only water is allowed to be consumed prior to the
assessment). Participants will take their medication the morning of each assessment in
accordance with the normal pharmacological management procedures which are used on the acute
stroke ward at the Royal Hampshire County Hospital. Following this, participants will rest
supine for a minimum of 15 minutes. Oscillometric pressure waveforms (using the SphygmoCor
XCEL), recorded on the left upper arm, will assess haemodynamic parameters including central
and peripheral blood pressure, pulse pressure, and augmentation index. Two measurements will
be taken with a three-minute interval. If peripheral blood pressure is > 5 mmHg or
augmentation index is > 4 %, a third measure will be taken. Following this, participants will
be moved to a seated position and remain rested for a further 15 minutes. Identical
procedures to those outlined above will then be used to assess central and peripheral blood
pressure responses. Thereafter, patients will consume their normal breakfast. However,
caffeine cannot be consumed during this time. Thirty-minutes after food consumption
participants will undertake identical procedures as those outlined above in both a
non-fasted-supine and non-fasted-seated conditions.
Identical procedures to those outlined in the first assessment session will be used to assess
central and peripheral blood pressure measures during the second and third assessment day.
Oscillometric pressure waveforms will be recorded on the left upper arm using the SphygmoCor
XCEL device during all assessments, following standard manufacturer guidelines. Each
measurement cycle lasts approximately 60 sec, consisting of a brachial blood pressure
recording and then a 10 sec sub-systolic recording. A corresponding aortic pressure waveform
will then be generated using a validated transfer function, from which central systolic,
diastolic, pulse pressure (cSBP, cDBP, cPP), augmentation pressure (AP), and augmentation
index (AIx) will be derived. The AP is defined as cSBP minus the pressure at the inflection
point, whereby the inflection point is the merging of the forward and reflected waves. The
AIx is defined as the AP expressed as a percentage of cPP. AIx is influenced by heart rate,
and thus an index corrected for a heart rate at 75 beats per minute (AIx@75) will also be
calculated.
Central and peripheral blood pressures will be assessed in the following four conditions
during each of the three assessment sessions: i) fasted, supine, ii) fasted, seated, iii)
non-fasted supine, and iv) non-fasted seated. During each of the above conditions two
measurements will be taken, separated by a three-minute interval. If blood pressure differ by
> 5mmHG a third recording will be taken and the closest recordings will be averaged. Each of
the above conditions will be undertaken following a minimum 15 minutes quite rest.
;
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT03255187 -
Effect of Dietary Supplemental Fish Oil in Alleviating Health Hazards Associated With Air Pollution
|
N/A | |
Completed |
NCT05997303 -
Continuous Norepinephrine Administration and Blood Pressure Stability During Anesthetic Induction
|
N/A | |
Recruiting |
NCT04575194 -
Study of the Cardiometabolic Effects of Obesity Pharmacotherapy
|
Phase 4 | |
Completed |
NCT03918486 -
Caretaker vs. Routine Blood Pressure Sphygmomanometer
|
||
Completed |
NCT03410342 -
The Effects of Types of Fruits and Vegetables on Vascular Function
|
N/A | |
Active, not recruiting |
NCT05062161 -
Sleep Duration and Blood Pressure During Sleep
|
N/A | |
Not yet recruiting |
NCT04087070 -
Blood Pressure Estimation Using Noninvasive Biosignals During Pediatric Anesthesia
|
||
Completed |
NCT03294928 -
Arterial Waveform Analysis Applying Different Positive End-Expiratory Pressure (PEEP) Levels in Healthy Volunteers
|
N/A | |
Completed |
NCT03859934 -
Metabolic Effects of Melatonin Treatment
|
Phase 1 | |
Completed |
NCT03997461 -
Comparison of Arterial Tonometry Sensor With Standard Oscillometric Blood Pressure Monitoring Device
|
N/A | |
Completed |
NCT03290716 -
Diet, ExerCIse and carDiovascular hEalth (DECIDE) - Salt Reduction Strategies for the Elderly in Nursing Homes in China
|
N/A | |
Recruiting |
NCT06460233 -
Blood Pressure Changes After Bariatric Surgery
|
||
Recruiting |
NCT05196048 -
Blood Pressure Sensor of Watch-type Device With ECG Technology
|
||
Terminated |
NCT03325933 -
Resistance Training and Cardiometabolic Health
|
N/A | |
Not yet recruiting |
NCT06405880 -
Pharmacist Case Finding and Intervention for Vascular Prevention Trial
|
N/A | |
Completed |
NCT02924454 -
Effects of Lipid Emulsion on the Pharmacokinetic and Pharmacodynamic Properties of Metoprolol.
|
Phase 4 | |
Completed |
NCT02451059 -
Reducing Socioeconomic Disparities in Health at Pediatric Visits
|
N/A | |
Active, not recruiting |
NCT02670967 -
Effects of Soluble Fiber on Blood Pressure: A Meta-analysis of Randomly-controlled Trials
|
N/A | |
Completed |
NCT02239744 -
Intervention Study on the Health Impact of Air Filters in Chinese Adults
|
N/A | |
Completed |
NCT02271633 -
Nitrate Supplementation; Source
|
Phase 4 |