Retinopathy of Prematurity Clinical Trial
Official title:
A Randomized Controlled Trial on the Effectiveness of Inhaled Nitrous Oxide for Pain Relief During ROP Screening Exam in the Pre-term Infant
The primary objective of the proposed study is to show that inhaled equimolar mixture of
oxygen and nitrous oxide (EMONO) will reduce pain associated with retinal exam in the
preterm infant, as compared to the current standard treatment (oral sucrose and topical
anaesthesia).
The investigators also aim to show that EMONO can be used safely in preterm neonates
undergoing retinal exam, and will not result in any increase in apnea, bradycardia, or
desaturation in the 24 hours following the exam. Finally, the investigators aim to show that
EMONO will keep the infant calm, and make retinal examination easier and less traumatic.
Methods
1. Study population:
Eligible patients will be healthy preterm infants born at 30 0/7 or less than weeks of
gestation, or weigh less than 1500 grams at birth, requiring retinopathy of prematurity
(ROP) screening examination as indicated by AAP guidelines.
2. Recruitment:
Patients will be recruited at the Royal Victoria Hospital Neonatal Intensive Care Unit.
Subjects will be enrolled after written informed consent has been obtained from a parent or
legal guardian. Although a single patient may require multiple retinal exams, each infant
will only be studied once under this protocol. Total number of eligible patients, as well as
consent refusals will be recorded during the study period.
The study will be conducted in two phases. A pilot phase, comprising 9 infants, will be
performed first. The purpose of the pilot study is to establish the safety of EMONO for this
indication, evaluate the technical feasibility of administering EMONO in the NICU setting,
and determining the optimal nasal interface for inhalation. All subjects during the pilot
phase will receive EMONO.
40 babies will be recruited for the second phase of the study, and will be randomized to
either the therapeutic group (EMONO), or the placebo group (50% oxygen/50% nitrogen).
3. Gas administration:
All 9 patients in the pilot phase, and patients randomized to the intervention group will
receive EMONO. The mixture will be obtained by using hospital compressed oxygen and a tank
of N2O (Praxair Canada Inc, Mississauga, ON). N2O and oxygen will be mixed via a Bird low
flow nitrous oxide blender (Summit Technologies, Burlington, ON) to obtain a mixture of 50%
O2 and 50% N2O. Subjects in the control group will receive a mixture of 50% O2 and 50% N2.
This will be produced by mixing hospital air and oxygen through a blender.
Before the study, a respiratory therapy technician will open both gas valves and one of them
will be randomly connected to the patient's inhalation device. The research team at the
bedside will not be able to see which gas output the patient is connected too.
Study or control gas will be administered by one of three devices during the pilot phase of
the study: nasal cannula (Airlife Infant Cushion Nasal Cannula, Cardinal Health, McGraw
Park, IL), a clear plastic infant resuscitation mask, or a clear plastic non-rebreather mask
(Medium concentration infant oxygen mask, Rusch Medical, Duluth, GA). Three patients will be
studied with each device, and different gas flows will be used. The optimal inhalation
device, duration of inhalation, and gas flow will be thus determined and used for the 40
patients in the 2nd phase of the study.
4. Randomization:
The gas administered to each subject will be determined randomly. Sealed opaque envelopes
will be prepared in advance, each containing one infant's assignment. The envelope will be
opened by the respiratory therapy technician who sets up the inhalation circuit.
5. Study protocol:
All studies will be conducted in the Royal Victoria Hospital NICU. Complete neonatal
resuscitation equipment, meeting AAP Neonatal Resuscitation Program standards, will be
available on hand. The following personnel will be present for all studies: a neonatologist
(usually one of the co-investigators), a licensed respiratory therapist in charge of gas
administration, two registered nurses experienced in the care of neonates (one nurse
responsible for restraining the infant and the other for monitoring the baby's vital signs),
an ophthalmologist experienced in ROP screening who will conduct the retinal exam.
Studies will be performed in the morning after routine nursing care of the babies. Infants
will be pre-treated 30 minutes before with phenylephrine 2.5% 1 drop in each eye, and
cyclopentolate 1.5% 1 drop in each as eye, as done routinely in our unit before eye exams.
Infants will be placed on cardio-respiratory monitoring using one of the monitors available
in our unit. All infants will be swaddled and held by a nurse, as is routinely done in our
unit. The inhalation device will be placed on the infant by the respiratory therapist,
allowing control or study gas administration. During the pilot phase ocular manipulations
will not be started until adequate analgesia is obtained, or a maximum of 15 minutes have
passed. This will allow us to determine the duration of inhalation necessary for effective
analgesia, and this duration will then be used for the randomized phase of the trial. All
infants in both groups can receive oral sucrose for pain relief as per unit protocol. A
pharmacy prepared solution of sucrose 24% will be used. Sucrose will be administered orally
in pre-prepared 1mL syringes, and given in 0.1 mL aliquots, up to a maximum of 0.3 mL.
Proparacaine HCl 0.5% eye drops will be instilled and retinal examination will be performed
by the ophthalmologist, while the infant is held by the bedside nurse. Both nurses present
will separately score the infant's pain response, before the beginning of examination,
during the examination, and 2 hours after. Only the first eye examined will be scored, since
both eyes are examined in rapid succession and the PIPP score will not have time to decrease
in between both eyes. After completing the exam, the infant will be returned to standard
nursing care. All infants will be monitored continuously by pulse oximetry 24 hours before
and after the exam. Additionally, infants in the pilot study phase will undergo a full 24
hour sleep study after the exam.
6. Measurements:
* Primary outcome: The primary objective is to show decrease of pain response in the
treatment group as measured by the PIPP (Premature Infant Pain Profile) score. The PIPP
score is a multidimensional composite pain score developed for evaluating acute procedural
pain preterm neonates. Its use has been validated in clinical settings, with high intra and
inter-rater reliability. It measures 7 different elements including physiological
parameters, facial expression, behaviour and gestational age. Each is evaluated on a scale
of 0 to 3, yielding a combined score ranging from 0 to 21. In the initial validations
studies, baseline mean scores in infants were 4.9 ± 1.0, non painful events yielded mean
scores of 9.0 ± 0.8, while painful heelsticks were measured at 11.0 ± 1.3. All nurses in our
unit are fully trained in the use of the PIPP score.
* Secondary outcomes: After each exam, the ophthalmologist will evaluate the ease of
performing the procedure, as well as the degree of agitation in the infant using a simple
ordinal scale.
Heart and respiratory rate will be monitored using one of our NICU integrated monitors:
Draeger Infinity Gamma XL (Draeger Medical Canada Inc, Richmond Hill, ON), or HP Agilent
V29C/HP 895 (Hewlett Packard Company, Palo Alto, CA).
Continuous pulse oximetry will be performed with a Masimo Radical pulse oximeter (Masimo
Corp., Irvine, CA), and data will be analyzed using ProFox oximetry software (Escondido,
CA).
Infants in the pilot study will undergo a full cardiorespirogram, with continuous
measurement of heart rate, respiratory impedance, thermistor nasal airflow, and pulse
oximetry (Eden Trace II and Eden Trace Analysis Software, Mallinckrodt Co, St-Louis, MO).
Data will sampled at 4 Hz and recorded on a personal computer. Apnea will be defined as
absence of airflow for 15 seconds or more. Drops in oxygen saturation will be measured as
total time spent below 88% and number of episodes below 88%. It is the policy in our unit to
maintain all oxygen saturation levels between 88% and 92% for preterm infants.
7. Data collection:
The following data will be collected and recorded for all study infants, using patient
charts, maternal charts, nursing records, and respiratory therapy data sheets: sex,
birthweight, gestational age at birth, current weight, relevant maternal history and
antenatal risk factors, previous respiratory care including modes and duration of
ventilatory support, frequency of apnea and bradycardia, major neonatal complications
(hyaline membrane disease, persistent ductus arteriosus, bronchopulmonary dysplasia,
necrotizing enterocolitis, intra-ventricular hemorrhage), medications received including
opiates and caffeine. The CRIB II score (Clinical Risk Index for Babies) at admission will
be computed for infants in the study.
All patient data related to the study will be kept in a locked filing cabinet, in a locked
office at the Royal Victoria Hospital. Only the co-investigators will have access to this
data.
8. Sample size calculation:
For the pilot study, a total number 9 patients was chosen, to allow three patients to be
studied with each different nasal inhalation device.
For the randomized trial portion, data on PIPP scores was reviewed for all eye exams
performed between September 2006 and February 2007 in our unit. A total of 16 eligible exams
with complete data were identified. Mean PIPP score was 13.4 ± 3.4. A 25% reduction would
bring the PIPP score down to 10, which is below the average for painful events as described
by Ballantyne et al, and is also a clinically reasonable and meaningful target. We calculate
that it would take approximately 20 patients in each group, control and placebo, to show a
reduction in PIPP score from 13.4 to 10 using a two sample t-test. A two-tailed alpha level
of 0.05 was used, with a power of 0.8.
Data for the Royal Victoria Hospital NICU show approximately 85 infants < 32 0/7 weeks or <
1500g are admitted per year. We would estimate enrollment in the study would take
approximately 1 year.
9. Statistics:
Continuous numerical data between control and intervention groups will be compared using the
two-sample t-test for normally distributed variables. The Wilcoxon rank sum test will be
used for data not distributed normally. Categorical data will be compared using the
chi-squared test.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Treatment
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