There is increasing interest in how thoracic (chest) ultrasound might enhance the management of patients with respiratory failure and breathlessness, particularly in the emergency admissions or intensive care setting. Thoracic ultrasound is already used in a number of clinical settings. It is recognised that a number of lung abnormalities can be identified using thoracic ultrasound, such as consolidation (in pneumonia) or peripheral soft tissue lesions (in lung cancer). Furthermore, thoracic ultrasound offers clinicians a non-invasive diagnostic tool that provides immediate feedback and results. Patients with breathlessness and respiratory failure represent a significant proportion of emergency admissions to hospital and commonly require urgent treatment with limited information available to guide the clinician. The range of diseases that present with breathing difficulties is broad (e.g. pneumonia, heart failure, pulmonary embolus) and difficult to differentiate in patients who often have multiple medical problems. This leads to non-specific treatment in the face of diagnostic uncertainty with the associated risks of treatment complications, increased morbidity and mortality, and distress for patients and relatives. It is in the assessment of these patients with acute respiratory failure where thoracic ultrasound might be of greatest benefit and which this research is designed to address. This is a single centre study (Churchill Hospital, Oxford) recruiting 125 participants over an eight month period. The study will test the reliability of a thoracic ultrasound protocol at identifying lung abnormalities in a stable outpatient population with respiratory disease (chronic obstructive pulmonary disease; interstitial lung disease; patients on haemodialysis to replicate acute pulmonary oedema / heart failure). It is hoped the results of this study will inform further research in acutely unwell patients with respiratory failure and breathlessness to see whether thoracic ultrasound can improve diagnostic and therapeutic decisions.
This is a prospective cohort study and forms part of educational research intended to ultimately contribute towards a higher degree (MD or DPhil). The study is being co-ordinated through the Oxford Respiratory Trials Unit, Churchill Hospital, Oxford and has been developed by the study co-ordinator (Dr Corcoran) and Chief Investigator (Dr Rahman) with support from Professor Gleeson. This study will assess the efficacy of TUS in identifying extravascular lung water (EVLW) through the presence or absence of B-lines (also known as "comet tails") on ultrasound; whilst also determining whether TUS can distinguish between other pulmonary pathologies that may cause both a similar ultrasonographic appearance and respiratory compromise. A TUS protocol will be tested and validated in a stable patient population, concurrently assessing patient and operator satisfaction with the tool. It is intended that the results of this study will inform a larger second-phase study of a modified TUS protocol in the acute clinical setting (medical admissions unit +/- emergency department). Potential participants in this study will be screened from normal clinical care in the relevant departments at the Churchill Hospital, Oxford - i.e. specialist COPD and ILD clinics in the respiratory department; outpatient haemodialysis units in the renal department. Healthy volunteers will also be sought using advertisements placed on noticeboards in the Oxford University Hospitals NHS Trust and selected Oxford University departments. All participants enrolled in the study will undergo CT and thoracic ultrasound scanning as per the study protocol. These are low-risk interventions with no harm expected as a direct consequence of participation in the study. Participants will also undergo baseline spirometry (if not done in the last month) and blood tests for the purposes of the study; these are also considered low-risk interventions with no harm expected as a direct consequence of participation in the study. The study involves only a single visit and therefore it should impose a minimal burden on participants, and for the majority of participants their study visit will be arranged to coincide with a pre-arranged trip to the hospital for normal clinical care (e.g. a regular haemodialysis or outpatient clinic visit).
Study Type
OBSERVATIONAL
Enrollment
86
The CT scan will be performed on a 16 slice GE Discovery 670 SPECT CT scanner. A slice thickness of 0.625mm will be used. Images are acquired during an inspiratory breath hold of up to 20 seconds to minimise movement artefact. The patient will be lying supine and the scan will be a non-contrast study. Using a low dose CT chest protocol (1.7 mSv) will minimise the exposure to ionising radiation of study participants. Participants in the haemodialysis arm of the study will have a CT done before and after haemodialysis. Participants in all other arms will have a single CT scan done during their study "visit".
The ultrasound will be performed by a single operator. The patient's position will ideally be with the patient sitting up at 45°. Ultrasound images and clips will be recorded at 10 points over each hemithorax - the 2nd, 4th and 6th intercostal spaces (ICS) in the mid-clavicular line; the 2nd, 4th and 6th ICS in the mid-axillary line; and the 2nd, 5th, 7th and 9th ICS posteriorly. Ultrasound estimation of the height of the right internal jugular vein will be undertaken. Central venous pressure will be calculated by adding 5cm. Inferior vena cava diameter will also be measured at end-inspiration and expiration. The time taken to perform each ultrasound will be recorded. Control, COPD and ILD groups will be scanned on a single occasion. Haemodialysis group will have 4 scans.
All participants in the study will undergo basic spirometry as specified in the study assessments. This is considered a low-risk intervention and no harm is expected as a consequence of participation in the study.
All participants in the study will undergo blood tests as specified in the study assessments. This is considered a low-risk intervention and no harm is expected as a consequence of participation in the study.
Oxford Respiratory Trials Unit
Oxford, United Kingdom
The total lung ultrasound B-line score.
The total lung ultrasound B-line score (representing the presence of extravascular lung water) and changes in overall fluid status during haemodialysis.
Time frame: At enrollment (1 single visit only)
Lung ultrasound identification of B-lines and differentiation between extravascular lung water
Lung ultrasound identification of B-lines and differentiation between extravascular lung water (EVLW) and other causes of this ultrasonographic appearance.
Time frame: At enrollment (1 single visit only)
The lung ultrasound B-line score at differing anatomical locations around the thoracic cage
The lung ultrasound B-line score (representing the presence of EVLW) at differing anatomical locations around the thoracic cage and changes in overall fluid status during haemodialysis.
Time frame: at enrollment (1 single visit only)
The total lung ultrasound B-line score
The total lung ultrasound B-line score (representing the presence of EVLW) and changes in patient breathlessness as measured by a visual analogue scale during haemodialysis.
Time frame: At enrollment (1 single visit only)
Patient satisfaction with the thoracic ultrasound protocol
Patient satisfaction with the thoracic ultrasound protocol as measured using a Likert-type scale.
Time frame: At enrollment (1 single visit only)
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.