Newborn Clinical Trial
Official title:
Miller vs Macintosh Size 0 Blades for Tracheal Intubation of Infants Under 1 Month: a Randomized Comparative Study
Miller blades are commonly used in pediatric anesthesia; however, there is less evidence-based information on the superiority of Miller blades in the visualization of the laryngeal inlet to Macintosh blades. The aim of the present study is to compare the glottic views with the size 0 Macintosh and Miller laryngoscope blades above and below the epiglottis.
Miller blades are commonly used in pediatric anesthesia; however, there is less
evidence-based information on the superiority of Miller blades in the visualization of the
laryngeal inlet to Macintosh blades (1,2). Therefore prospective randomized comparative
studies on this field is required. Passi et al. (3) have demonstrated that, in 50 children
aged between 6 months and 2 years, optimal laryngeal views could be obtained with either the
Miller size 1 blades lifting the epiglottis or with Macintosh size 1 blades lifting the
tongue base. Another clinical trial compared the laryngoscopic views and tracheal intubation
conditions with Macintosh and Miller blades in children from 1 month to 24 months. In this
study involving 120 children, similar glottic views were obtained with both blades in 43% of
the children while a better view was observed with the Miller blade in 29% of the children
and with the Macintosh blade in 28% (4). Direct laryngoscopy for tracheal intubation in
neonates is a procedure that mostly requires experience and constant practice (5). Neonates
have a number of distinctive airway characteristics. These characteristics include the large
tongue and head, the floppy, narrow U-shaped epiglottis, the larynx that is located more
cephalad, and the vocal cords that are angled in an anterior-caudal position (4). Therefore,
straight laryngoscope blades are recommended for use in children and infants under 2 years
of age.
In neonatal tracheal intubations, Miller blade is the most frequently utilized blade (6).
The reasons for this include the effective displacement of the tongue to the left of the
laryngoscope with the Miller blade and the effective lifting of the long and floppy
epiglottis during laryngoscopy (3). However, there is no prospective randomized and blinded
comparative clinical study on this subject. The aim of the present study is to compare the
glottic views with the size 0 Macintosh and Miller laryngoscope blades above and below the
epiglottis.
Methods:
For the present study, the Ethics Committee approval was be obtained from the Faculty of
Medicine, Istanbul Science University. Written informed consent will be obtained from the
parents of patients undergoing elective surgery. The study will involve ASA I or II patients
under 1 month. Infants with a history of a difficult airway or diagnosed congenital
syndrome, premature infants less than 37 weeks gestational age at birth, and those with
acute or chronic pulmonary or neuromuscular diseases will be excluded from the study. Twenty
five children undergoing elective surgery will be enrolled in the study. Infants will be
randomized (using www.random.com) into two groups, the Miller and Macintosh blade groups,
and whether the assigned blade is inserted above or below the epiglottis first, with
allocation stored within sealed opaque envelopes until consent is obtained.
In a standard monitoring process, electrocardiogram (ECG), oxygen saturation, non-invasive
blood pressure (NIBP), temperature and end-tidal CO2 pressure (EtCO2) will be monitored.
Following the monitoring, anesthesia will be induced with 50% air, 50% oxygen and 8%
sevoflurane. Once intravenous access is obtained, 0.5 mg/kg rocuronium will be administered.
After preoxygenating with 100% oxygen and sevoflurane for 3 minutes, the assigned blade will
be inserted into the mouth. All laryngoscopies will be performed by one of three paediatric
anesthetists. The Miller blade will be inserted into the mouth at the right commissure and
the tongue swept gently to the left. The best laryngeal view will be achieved by optimizing
the head position and applying external pressure to the larynx. As described by Passi et al.
(3), two laryngeal views will be obtained with the same blade in each patient: lifting the
epiglottis or the tongue base. The order of the views (lifting the epiglottis or the tongue
base) will be determined by randomization immediately before laryngoscopy. The laryngeal
views will be photographed each time by an anesthetist using a digital Olympus camera
without using flash. The camera will be optimally positioned before laryngoscopy in order to
capture the best possible views. The photos will be reviewed by a blinded anesthetist using
the percentage of glottic opening (POGO) score (7,8). This anesthetist will be blinded to
the study hypothesis as well as which blade was used and where it was placed. We will photo
the child's name and the randomization code-blade type and which view was taken before and
after each photo of the larynx. Then the photos will be uploaded and the number of the photo
will be recorded in the study record for the child so we will know which photo corresponds
to which blade and position for each child. After all the photos are taken, they will be
randomized and given to the blinded observer to measure the vocal cord span.
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