Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Primary |
Pharmacokinetics (PK) of clonidine; S-concentration |
Clonidine analyses will be performed with LC-MS standard assay on a Waters ultra-pressure liquid chromatography (UPLC)-MS/MS system and then statistically analysed with NONMEM (Non-linear Mixed Effect Modelling) populationbased PK statistics |
Repeated blood samples (5 minutes after the loading dose, just before start of the clonidine infusion and at 1 hour, 24 hours, 48 hours and 72 hours after start of the infusion |
|
| Primary |
Pharmacokinetics (PK) of clonidine; elimination half-time |
Statistical analyses will be performed with NONMEM (Non-linear Mixed Effect Modelling) populationbased PK statistics |
Data from repeated blood samples (5 minutes after the loading dose, just before start of the clonidine infusion and at 1 hour, 24 hours, 48 hours and 72 hours after start of the infusion |
|
| Primary |
Pharmacokinetics (PK) of clonidine; clearance |
Statistical analyses will be performed with NONMEM (Non-linear Mixed Effect Modelling) populationbased PK statistics |
Data from repeated blood samples (5 minutes after the loading dose, just before start of the clonidine infusion and at 1 hour, 24 hours, 48 hours and 72 hours after start of the infusion |
|
| Primary |
Pharmacokinetics (PK) of clonidine; volume of distribution |
Statistical analyses will be performed with NONMEM (Non-linear Mixed Effect Modelling) populationbased PK statistics |
Data from repeated blood samples (5 minutes after the loading dose, just before start of the clonidine infusion and at 1 hour, 24 hours, 48 hours and 72 hours after start of the infusion |
|
| Primary |
Neurophysiologic amplitude-integrated EEG response in relation to PK |
Analyse of single cortical events and their dynamics, based on burst detection and measuring features of individual bursts as well as their mass statistical behaviour over time. |
From 30 minutes before start of treatment until 72 hours after start of treatment. |
|
| Primary |
Neurophysiologic amplitude-integrated EEG response; longer term brain function in relation to PK |
Assessment of longer term brain function using measures of long range correlation and brain activity cycling. |
From 30 minutes before start of treatment until 72 hours after start of treatment. |
|
| Primary |
Neurophysiologic amplitude-integrated EEG response; assessment of global brain network function in relation to PK |
Assessment of global brain network function will be based on Activation Synchrony Index. |
From 30 minutes before start of treatment until 72 hours after start of treatment. |
|
| Secondary |
Change in/association between heart rate in relation to PK . |
The heart rate will be monitored 1/second according to clinical routine in the neonatal intensive care, and concomitantly downloaded into the aEEG (amplitude integrated electroencephalography) monitor. The change will be described as percentage increase/decrease |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Change in/association between blood pressure (systolic, diastolic and mean arterial blood pressure) in relation to PK . |
The blood pressure will be monitored 1/second according to clinical routine in the neonatal intensive care, and concomitantly downloaded into the aEEG (amplitude integrated electroencephalography) monitor. The change will be described as percentage increase/decrease |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Change in/association between peripheral oxygen saturation in relation to PK . |
The peripheral oxygenation will be monitored 1/second according to clinical routine in the neonatal intensive care, and concomitantly downloaded into the aEEG (amplitude integrated electroencephalography) monitor. The change will be described as percentage increase/decrease |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Change in NIRS (near-infrared spectroscopy) response in relation to PK . |
The NIRS registration will be sampled into a USB and downloaded and analysed. The change will be described as percentage increase/decrease |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Change in pain, stress and behavioral state as assessed with a pain scale for continuous pain/stress (Astrid Lindgrens and Lund childrens hospitals Pain and stress assessment scale for Preterm and Sick newborn infants, ALPS-Neo) in relation to PK. |
Change in pain responses as measured by pain assessment scores for continuous pain/stress, The Astrid Lindgren and Lund Children's Hospitals Pain and Stress Assessment Scale for Preterm and sick Newborn Infants (ALPS-Neo) in relation to PK. This scale evaluates facial expression, breathing pattern, tone of extremities, hand/foot activity and level of activity, rated 0-2. Will be assessed hourly according to clinical routine. The relation to PK will be analysed with the help of NONMEM statistics |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Change in pain, stress and behavioral state as assessed with a pain scale for continuous pain/stress (The COMFORT-Neo scale) in relation to PK |
Change in pain responses as measured by pain assessment scores for continuous pain/stress, the Comfort Neo, in relation to PK. This scale evaluates alertness, calmness/agitation, respiratory response, crying, body movement, facial tension and muscle tone, rated 0-5. Will be assessed hourly according to clinical routine. The relation to PK will be analysed with the help of NONMEM statistics |
From 30 minutes before start of treatment until 72 hours. |
|
| Secondary |
Procedural pain response in relation to PK: assessed with change in galvanic skin response |
Procedural pain response at a short standardized pain stimulation; as assessed with change in galvanic skin response in relation to PK. The change will be described as percentage increase/decrease |
At one occasion during the study period (72 hours) when the analgesic treatment has not been changed the last six hours. |
|
| Secondary |
Procedural pain response in relation to PK: change in serum-cortisol |
Procedural pain response at a short standardized pain stimulation; change in serum-cortisol in relation to PK. The relation to PK will be analysed with NONMEM statistics. |
At one occasion during the study period (72 hours) when the analgesic treatment has not been changed the last six hours. |
|
| Secondary |
Procedural pain response in relation to PK as assessed with the Premature Infant Pain Profile - revised, PIPP-R, a scale for assessment of procedural pain. |
Procedural pain response at a short standardized pain stimulation; as scored by a procedural pain assessment scale (Premature Infant Pain Profile - revised, PIPP-R) in relation to PK. The relation to PK will be analysed with NONMEM statistics. |
At one occasion during the study period (72 hours) when the analgesic treatment has not been changed the last six hours. |
|
| Secondary |
Pharmacogenetic profile in relation to PK results how PK phenotypes depend on pharmacogenetic (PG) profiles. |
Whole exome sequencing will be conducted, specific pain related genes investigated and related to PK |
One blood sample during the study period of 72 hours |
|
| Secondary |
Pharmacogenetic profile in relation to PD results |
Whole exome sequencing will be conducted, specific pain related genes investigated and related to pain response as assessed with scores, serum cortisol and skin conductance. |
One blood sample during the study period of 72 hours |
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