Comparative study of linear and curvilinear ultrasound probes to assess quadriceps rectus femoris muscle mass in healthy subjects and in patients with chronic respiratory disease

Introduction Ultrasound measurements of rectus femoris cross-sectional area (RFCSA) are clinically useful measurements in chronic obstructive pulmonary disease (COPD) and critically ill patients. Technical considerations as to the type of probe used, which affects image resolution, have limited widespread clinical application. We hypothesised that measurement of RFCSA would be similar with linear and curvilinear probes. Methods Four studies were performed to compare the use of the curvilinear probe in measuring RFCSA. Study 1 investigated agreement of RFCSA measurements using linear and curvilinear probes in healthy subjects, and in patients with chronic respiratory disease. Study 2 investigated the intra-rater and inter-rater agreement using the curvilinear probe. Study 3 investigated the agreement of RFCSA measured from whole and spliced images using the linear probe. Study 4 investigated the applicability of ultrasound in measuring RFCSA during the acute and recovery phases of an exacerbation of COPD. Results Study 1 showed demonstrated no difference in the measurement of RFCSA using the curvilinear and linear probes (308±104 mm2 vs 320±117 mm2, p=0.80; intraclass correlation coefficient (ICC)>0.97). Study 2 demonstrated high intra-rater and inter-rater reliability of RFCSA measurement with ICC>0.95 for both. Study 3 showed that the spliced image from the linear probe was similar to the whole image RFCSA (308±103.5 vs 263±147 mm2, p=0.34; ICC>0.98). Study 4 confirmed the clinical acceptability of using the curvilinear probe during an exacerbation of COPD. There were relationships observed between admission RFCSA and body mass index (r=+0.65, p=0.018), and between RFCSA at admission and physical activity levels at 4 weeks post-hospital discharge (r=+0.75, p=0.006). Conclusions These studies have demonstrated that clinicians can employ whole and spliced images from the linear probe or use images from the curvilinear probe, to measure RFCSA. This will extend the clinical applicability of ultrasound in the measurement of muscle mass in all patient groups.

[1]  Sally J. Singh,et al.  Bedside assessment of quadriceps muscle by ultrasound after admission for acute exacerbations of chronic respiratory disease. , 2015, American journal of respiratory and critical care medicine.

[2]  Thierry Troosters,et al.  The PROactive instruments to measure physical activity in patients with chronic obstructive pulmonary disease , 2015, European Respiratory Journal.

[3]  G. Rafferty,et al.  Ultrasound for the Assessment of Peripheral Skeletal Muscle Architecture in Critical Illness: A Systematic Review , 2015, Critical care medicine.

[4]  W. Man,et al.  Rehabilitation after an exacerbation of chronic respiratory disease , 2014, BMJ : British Medical Journal.

[5]  Sally J. Singh,et al.  An early rehabilitation intervention to enhance recovery during hospital admission for an exacerbation of chronic respiratory disease: randomised controlled trial , 2014, BMJ : British Medical Journal.

[6]  Chibeza C. Agley,et al.  Acute skeletal muscle wasting in critical illness. , 2013, JAMA.

[7]  Alfred C. Gellhorn,et al.  Inter-rater, intra-rater, and inter-machine reliability of quantitative ultrasound measurements of the patellar tendon. , 2013, Ultrasound in medicine & biology.

[8]  Thierry Troosters,et al.  Validity of physical activity monitors during daily life in patients with COPD , 2013, European Respiratory Journal.

[9]  Sally J. Singh,et al.  Ultrasound assessment of lower limb muscle mass in response to resistance training in COPD , 2012, Respiratory Research.

[10]  Thierry Troosters,et al.  Validity of Six Activity Monitors in Chronic Obstructive Pulmonary Disease: A Comparison with Indirect Calorimetry , 2012, PloS one.

[11]  M. Stokes,et al.  Ultrasound transducer shape has no effect on measurements of lumbar multifidus muscle size. , 2012, Manual therapy.

[12]  M. Polkey,et al.  Quadriceps wasting and physical inactivity in patients with COPD , 2012, European Respiratory Journal.

[13]  C. English,et al.  Reliability of real-time ultrasound for measuring skeletal muscle size in human limbs in vivo: a systematic review , 2012, Clinical rehabilitation.

[14]  Z. Puthucheary,et al.  P66 Inter-observer reliability of ultrasound to measure rectus femoris cross-sectional area in critically ill patients , 2011, Thorax.

[15]  J. L. Whittaker,et al.  Induced transducer orientation during ultrasound imaging: effects on abdominal muscle thickness and bladder position. , 2009, Ultrasound in medicine & biology.

[16]  Christina Routsi,et al.  Electrical muscle stimulation preserves the muscle mass of critically ill patients: a randomized study , 2009, Critical care.

[17]  J Moxham,et al.  Ultrasound measurement of rectus femoris cross-sectional area and the relationship with quadriceps strength in COPD , 2009, Thorax.

[18]  J. Cecatti,et al.  Inter- and intra-observer variability in Sonographic measurements of the cross-sectional diameters and area of the umbilical cord and its vessels during pregnancy , 2008, Reproductive health.

[19]  P. Calverley,et al.  Lower limb activity and its determinants in COPD , 2008, Thorax.

[20]  M. Stokes,et al.  Comparison of curvilinear and linear ultrasound imaging probes for measuring cross-sectional area and linear dimensions , 2008, Journal of medical engineering & technology.

[21]  J. Mcmeeken,et al.  The relationship between EMG and change in thickness of transversus abdominis. , 2004, Clinical biomechanics.

[22]  T. Howe,et al.  The reliability of measuring quadriceps cross-sectional area with compound B ultrasound scanning. , 1995, Physiotherapy research international : the journal for researchers and clinicians in physical therapy.

[23]  H. J. Anderson,et al.  Chronic Respiratory Disease , 1952 .

[24]  M. Tobin,et al.  Validity and reliability of rectus femoris ultrasound measurements: Comparison of curved-array and linear-array transducers. , 2014, Journal of rehabilitation research and development.

[25]  Joshua E Markowitz Probe Selection , Machine Controls , and Equipment , 2011 .

[26]  Constantinos N. Maganaris,et al.  Ultrasonographic assessment of human skeletal muscle size , 2003, European Journal of Applied Physiology.

[27]  N. Pride,et al.  Size and strength of the respiratory and quadriceps muscles in patients with chronic asthma. , 1997, The European respiratory journal.