Diaphragmatic paralysis after congenital heart disease (CHD) surgery can increase patient mortality and morbidity, especially for the vulnerable pediatric patient. Establishing a diagnosis of this disorder is key for making follow-up decisions such as diaphragm plication. Fluoroscopy as the gold standard has limitations in assessing diaphragmatic paralysis after CHD surgery Objective: To compare diaphragmatic ultrasound with fluoroscopy as the diagnostic method for diaphragmatic paralysis after CHD surgery.
Diaphragmatic paralysis is a common cause of delayed recovery and morbidity after cardiovascular surgery which accounts for 64% of all causes of phrenic nerve lesions. Similarly, congenital heart disease surgery is commonly associated with phrenic nerve injury resulting in diaphragmatic dysfunction in pediatric patients with an incidence of 0.3-5.4%. The phrenic nerve can be injured through various mechanisms such as hypothermia due to ice cold slush for myocardial protection, dissection near the pedicle area of the internal thoracic artery, dissection or conduction of heat along the path or area of the phrenic nerve, etc. Diaphragmatic paralysis is usually transient and not clinically significant in adult, but it is a serious and life-threatening complication that causes respiratory distress in pediatric patient. Various diagnostic techniques can be used to assess diaphragmatic paralysis such as chest X-ray, fluoroscopy, computed tomography (CT), dynamic magnetic resonance imaging (MRI), and electromyography. The fluoroscopy test has been the method of choice to diagnose diaphragmatic paralysis as it is relatively easy to perform. Earlier studies diagnosed unilateral diaphragmatic paralysis by evaluating the dynamic motion of the diaphragm using fluoroscopy. However, there are several disadvantages of fluoroscopy tests such as requiring cooperation from the patient, requiring the patient in an upright position, the difficulty in transporting patients from the ICU to the fluoroscopy room or cath lab, especially in unstable patients who may deteriorate, the cumulative burden of exposure to radiation, and the relatively high costs. Diaphragmatic ultrasound (two-dimensional combined with M-mode) is a fast, simple, cheap, accurate, non-radiation noninvasive study that is widely available and increasingly used both in clinical setting and researches. Bedside ultrasound can be used for immobilized or intensive care patients. The simpler procedure helps assessing diaphragmatic paralysis in pediatric patients. The combination of B-mode and M-mode in ultrasound can quantitatively assess the distance and amplitude of diaphragm motion on both sides so that it may provide objective quantification. Therefore, this study was conducted to compare diaphragmatic ultrasound with fluoroscopy as the diagnostic method of diaphragmatic paralysis after congenital heart disease surgery.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
41
Diaphragmatic ultrasound was performed bedside in the ICU with supine position. Diaphragmatic thickness was measured by placing the ultrasound on 8th-10th intercostal space between anterior and mid-axillary line with marker at 12 o'clock. B-mode ultrasound was used to measure the distance between thoracic and abdominal diaphragm which resulted in the diaphragmatic thickness at inspiration (DTi) and diaphragmatic thickness at expiration (DTe). The ultrasound was then placed on the subcostal area between anterior and mid-axillary line with marker at 12 o'clock to observe the diaphragmatic motion on each side. Measurement of diaphragmatic excursion as well as recording and evaluation of diaphragmatic sliding and motion were performed during both inspiration and expiration using M-mode.
Fluoroscopy test was conducted in cathlab with supine position and anteroposterior (AP) projection for at least 5 breathing cycles. The fluoroscopy recording was then expertised and interpreted by the pediatric cardiologist in charge.
National Cardiovascular Center Harapan Kita
Jakarta, DKI Jakarta, Indonesia
sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV)
Time frame: through study completion, an average of 2 years
Incidence of Diaphragmatic Paralysis after congenital heart disease surgery
Time frame: through study completion, an average of 2 years
Distress Events during Fluoroscopy and Ultrasound test
During both procedures, patients' conditions were documented to monitor any distress event. Distress event was positive if the patients' conditions met one of these criteria: (1) increased heart rate \> 90th percentile based on age according to Pediatric Advanced Life Support (PALS), (2) decreased heart rate \< -90th percentile based on age according to PALS, (3) cardiac arrest, (4) life-threatening arrhythmia, (5) decreased peripheral oxygen saturation \>20% from baseline/preprocedure, (6) increased body temperature \>38oC, and (7) partial or generalized seizure.
Time frame: through study completion, an average of 2 years
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