Can Continuous Non-invasive Monitoring Improve Stability of Intraoperative Blood Pressure - A Feasibility Study.

Phase 3

Completed

• Conditions: Myocardial Ischemia; Hypotension on Induction; Acute Kidney Injury; Hip Fractures; Intraoperative Hypotension; Wound Infection; Perioperative/Postoperative Complications
• Interventions: Device: Continuous non-invasive blood pressure monitoring

• Registration Number: NCT04051073
• Lead Sponsor: University Hospital Birmingham NHS Foundation Trust

Brief Summary

Background During anaesthesia for repair of a broken hip, many patients experience low blood pressure. There have been many studies showing that patients who experience low blood pressure during anaesthesia are at increased risk of sustaining kidney or heart damage, strokes, having a post-operative infection, or dying. During anaesthesia, in most cases blood pressure is monitored using a cuff which inflates on the arm (the 'normal' way blood pressure is measured in a GP practice or hospital ward). This gives a reading each time the cuff goes up and down, every 3-5 minutes typically. There is a less well used way to measure blood pressure, using an additional cuff on the finger which gives a constant, continuous measure of blood pressure. We think that using this monitor, rather than the 'standard' monitor, will mean that low blood pressure is recognised more quickly, therefore treated more quickly, and will lead to patients having less exposure to dangerously low blood pressures. If this is the case, we hope that it will reduce how often patients experience kidney or heart damage, have an infection after surgery, suffer a stroke, and reduce the risk of death.

Methodology To test this, we would need to run a large clinical trial comparing the continuous monitor to the standard monitor. This would be expensive and involve a great deal of work in a large number of hospitals, and so first we wish to determine whether the trial we would like to run is practical, and possible to deliver in the real world. To do this we plan to run the trial first on a small-scale feasibility (pilot) study, where we will recruit 30 patients, half of whom will have the standard monitor, and half of whom will have the continuous monitor. We will see what proportion of the patients who could enter the trial actually do so and complete it, and use it as an opportunity to iron out problems with the trial. If we find it is possible to run the trial on a small scale, we will apply for funding to run a full study. This will aim to answer the question of whether the continuous monitor improves the patient outcomes which were agreed during development with the patient public involvement group locally; rate of kidney damage, heart damage, stroke, post-operative infections, risk of death, and hospital length-of-stay.

Expected outcomes and implications. We anticipate we will find the trial to be feasible with amendments to the way it is run, and if this is the case, we will apply to run the full scale trial. If this shows that using the continuous monitor improves the patient outcomes above, then it would represent new, significant evidence that may lead to the NHS adopting it's use as 'standard care' during anaesthesia for repair of a broken hip, and would like lead to similar trials in other operations where patients may benefit in a similar way.

Detailed Description

Not available

Study Timeline

• Study Start: 2019-06-13
• Study First Submitted: 2019-07-26
• Primary Completion: 2019-08-05
• Study Completion: 2019-08-05
• Study First Submitted QC: 2019-08-06
• Study First Posted: 2019-08-09
• Status Verified: 2022-05
• Last Update Submitted: 2022-05-17
• Last Update Posted: 2022-05-18

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

1. Provision of written informed consent
2. Adult patients, undergoing surgical repair of neck of femur fracture
3. Patient can understand and comprehend written and spoken English
4. Patient's consultee can understand written and spoken English

Exclusion Criteria

1. American Society of Anaesthesiologists (ASA) Class I patients
2. Patients with device-specific exclusions; atrial fibrillation, Raynauds syndrome or disease, peripheral vascular disease, scleroderma, an arteriovenous shunt, valvular heart disease.
3. Patients in whom a blood pressure cuff cannot be safely inflated on both arms for any reason (for example, lymphoedema).
4. Patients in whom the treating anaesthetist has judged they will require invasive arterial pressure monitoring.
5. Patients declining consent
6. Patients in whom the treating anaesthetist will use total intravenous anaesthesia (TIVA)
7. Patients in whom there is a >20mmHg difference between non-invasive cuff mean arterial pressure measurements made on opposite arms.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SEQUENTIAL

Arm && Interventions

Group	Intervention	Description
Blinded	Continuous non-invasive blood pressure monitoring	CNAP monitoring applied, but screen and information not visible to treating anaesthetist
Unblinded	Continuous non-invasive blood pressure monitoring	CNAP monitoring applied and available in full to the treating anaesthetist

Primary Outcome Measures

Name	Time	Method
Feasibility Outcome - Proportion of enrolled patients in whom there is a full data set recorded.	Through to study completion, an average of 5-6 weeks per patient.
Feasibility Outcome - Proportion of recruited patients in whom CNAP was successfully applied and full data collected.	Through to study completion, an average of 5-6 weeks per patient.	Proportion of recruited patients in whom CNAP was successfully applied and full data collected.
Feasibility Outcome - Proportion of eligible patients successfully recruited	Through to study completion, an average of 5-6 weeks per patient.	The proportion of all those patients who are eligible during the recruitment period who are successfully enrolled into the trial.
Feasibility Outcome - Proportion of enrolled patients in which we are able to record full follow up data.	Through to study completion, an average of 5-6 weeks per patient.

Secondary Outcome Measures

Name	Time	Method
Post-operative Outcomes - Mortality	Assessed at 30 days post-operatively.
Intraoperative Outcomes - Total dose of vasopressors given	On the day of surgery only.	Broken down into totals of each separate vasopressor used.
Intraoperative Outcomes - Total time spent with a mean arterial pressure <55mmHg	On the day of surgery only.
Intraoperative Outcomes - Total time spent with a mean arterial pressure <65mmHg	On the day of surgery only.
Intraoperative Outcomes - Total volume of intravenous fluids given	On the day of surgery only.
Intraoperative Outcomes - Nadir Blood Pressure	On the day of surgery only.	The lowest mean arterial pressure recorded during surgery using the CNAP monitor
Post-operative Outcomes - Incidence of stroke post-operatively	Assessed up to 30 days post-operatively.	Outcomes as per standardised definitions from the European Perioperative Clinical Outcome standards
Post-operative Outcomes - Incidence of post-operative surgical site infection	Assessed up to 30 days post-operatively.	As per CDC definitions
Health Economic Outcome - Hospital Length of Stay	Assessed at hospital discharge, an average of 10-14 days
Intraoperative Outcomes - Total time spent with a mean arterial pressure <80mmHg	On the day of surgery only.
Post-operative Outcomes - Incidence of acute kidney injury in the 7 days post-operatively	Assessed up to 7 days post-operatively.	Outcomes as per standardised definitions from the European Perioperative Clinical Outcome standards
Post-operative Outcomes - Incidence of myocardial injury in the first 3 days after surgery	Assessed up to 3 days post-operatively.	Outcomes as per standardised definitions from the European Perioperative Clinical Outcome standards

Trial Locations

Locations (1)

MIDRU, Birmingham Heartlands Hospital; 🇬🇧 Birmingham, West Midlands, United Kingdom