Pain Clinical Trial
Official title:
Initial Study for the Definition in Heart Rate Changes in Response to Heat Pressure and Neural Stimulation
Pain, a subjective sensation, has been increasingly studied, as it has been recognized as an
important factor in patients' recovery and quality of life. Pain is charted today as one of
the vital signs. For standardization, pain is charted by a number from 0 to 10 indicating
its level. The most common practiced pain assessment tool today is the VAS- Visual Analog
Score (facial or numerical), by which the patient himself indicates the level of the pain he
or she endures. It has been found that the correlation between the reported pain by the
patient and the assessed pain by the caregivers or the medical personnel becomes poor as
pain intensifies.
Objective assessment of anesthesia using the heart rate and its spectral analyses was done
in the past. By using this modality, works on neonatal pain were conducted. In adults, works
have shown that there is possibility to assess pain using this modality, though no repeated
proof for its ability to detect pain was published.
We know that physiological signals such as ECG consist of mixtures of variety of patterns
and phenomena accruing at different patterns and time points. Traditional analysis methods
are designed and optimized to handle signals that include a single class of patterns such as
pure harmonics or piece-wise constant functions. However, such basic operations that use a
single representation method usually yield mediocre results when applied to real complex
biological signals as ECG and EEG especially in the case where the Signal to Noise Ratio
(SNR) is very low. Recent trends in digital signal processing (DSP) use the novel idea of
merging several different representation methods to create a so called over-complete
dictionary, examples of this approach include the Matching Pursuit algorithm and the Basis
Pursuit algorithm. We intend to develop and apply the novel signal processing tools to the
ECG signals for the first time. We believe that such tools have the potential to provide
much better insight of the signal basic components and their relation to pain.
Background:
Pain Assessment:
Whereas temperature, pulse, respirations, and blood pressure are all objectively measured,
pain is inherently subjective. Given this fundamental difficulty, it is no wonder that
failure to properly assess pain is a common cause of its poor control and lack of treatment
in patients in different settings (1). Moreover, pain is multidimensional, with
"sensory-discriminatory, cognitive-evaluative, and affective-motivational" components (2),
or in other words, it affects body, mind, and spirit, and its complexity makes it hard to
measure (1). Since pain has been recognized as an important modality, influencing recovery
and quality of life in patients, it has been termed "the fifth vital sign" and is now being
evaluated and registered in the patients' charts during routine checkups. Pain itself is
repeatedly rated by the patients and the caregivers or the medical personnel, it is followed
and treated.
For routine standardization, pain is charted on a scale of 0(no pain) to 10 (worst pain
possible). At pain intensities of 0 to 4 patients describe the interference with function as
mild (as reflected in daily activities and mood), at 5 to 6 it is described as moderate, and
at 7 to 10 as severe (2). For standard scaling, different assessment tools were developed.
One-dimensional pain scales, in which the patient is asked to describe the intensity of
pain, are the most used tool today (1). These are the VAS- Visual analog Score (e.g., the
patient places a mark on a 10-cm line to indicate the intensity of pain; one end of the line
is labeled "no pain" and the other "the worst possible pain"), the Numeric ("please rate the
intensity of pain on a scale of 1 to 10") and the Categorical ("please rate the pain as
none, mild, moderate, or severe"). These scales are reliable and valid and can be used in
conjunction with the World Health Organization (WHO) analgesic ladder guideline. (3)
The one-dimensional intensity scales can be modified to produce a pain relief scale, a
patient pain satisfaction scale, or a pain management index (4). Moreover, comprehensive
multidimensional pain assessment tools such as the Brief Pain Inventory were developed to
help pain management specialist's measure and assess the effect of pain on mood, activities,
and quality of life—which one-dimensional tools cannot do. (2) These tools are more
difficult for the patients and the medical personnel to complete and are usually not used in
daily practice (1).
In recent years the growing interest in pain and its treatment has generated a greater
number of studies for the assessment of these tools. The tools are basically regarded
reliable but Grossman SA et al (5) have found that the intensity of pain expressed by
patients on self-assessment scales correlates poorly with caregivers' assessments of pain,
and the greater the intensity of the pain, the poorer the correlation between patient and
caregiver. Moreover, patients, who can not communicate with the medical staff such as
unconscious, or sedated patients, young pediatric patients or psychiatric or mentally
retarded patients, are evaluated subjectively by the caregivers or the medical staff, this
with wide variations which do not always assess correctly the pain status of the suffering
patient. For this reason objective pain assessment tools have been suggested in recent past,
for more accurate and comprehensive indication of this modality in patients in different
settings including sedation and anesthesia.
Objective pain assessment:
Different mathematical tools, mostly the heart rate variability, the heart rate spectral
analysis were studied to assess the depth of anesthesia and pain (6-7). Most of the works
done on human patients were done on pain recognition in neonates ( ). Some works on adult
patients have been done too, trying to define pain using the heart rate and its analysis.
Since the acute effect of pain to increase heart rate is well known, it was hypothesized by
Storella et al. (10), in their work that there may be adaptive effects of chronic pain on
the autonomic regulation of the cardiovascular system that could be reversed by analgesia.
They examined whether the acute relief of chronic pain affects heart rate variability and
concluded their study, based on experimental data that acute relief of chronic pain is
accompanied by an analgesia-specific increase in heart rate variability in many patients.
Ray et al. in their work used this method for ECG signal processing and developed a new
monitor for pain assessment during anesthesia (11). Using the heart rate signal, the R-R
intervals and the spectral analysis were calculated. The output containing the information
about the respiratory cycles from which the RSA (respiratory sinus arrhythmia) was drawn to
which they assumed the level of consciousness was proportional. That study has demonstrated
the feasibility of this method, but their article states many drawbacks and restriction for
this system and clinically this method is not used today.
Methods
Signal processing:
We know that physiological signals such as the ECG and the EEG consist of mixtures of
variety of patterns and phenomena accruing at different patterns and different time points
during each recording. Some occur over very short time intervals, others last longer and
some repeat periodically. Another characteristic of these signals is the presence of a high
leveled noise, both systematic and unsystematic.
Traditional analysis methods are designed and optimized to handle signals that include a
single class of patterns such as pure harmonics (Fourier Representation/ dictionary) or
piece-wise constant functions (Wavelets Representation/ dictionary), in simplified and
unreal case, simple operations such as threshold calculations or filtering in the
appropriate representation space, can be very effective for separation of signal and noise
(denoising), decomposition into basic components, pattern detection and more. However, such
basic operations that use a single representation method usually yield mediocre results when
applied to real complex biological signals as mentioned above especially in the case where
the Signal to Noise Ratio (SNR) is very low. Recent trends in digital signal processing
(DSP) use the novel idea of merging several different representation methods to create a so
called over-complete dictionary, examples of this approach include the Matching Pursuit
algorithm, described by Mallat et al (12) and the Basis Pursuit algorithm, described by
Donoho et. al (13).
The matching pursuit and the basic pursuit can achieve near-optimal solutions for different
kinds of analyses of complex signals provided that the appropriate representation methods
are used. We intend to develop and apply this novel signal processing tools to the ECG
signals for the first time. We believe that such tools have the potential to provide much
better insight of the signal basic components and their relation to different physiological
states than the traditional analysis methods that are practiced today which are based on a
single dictionary.
In this study we intend to apply the advanced supervised learning methods, developed by Elad
(14) in order to adaptively generate optimal dictionaries and representation methods for ECG
signals and use these dictionaries to develop highly effective over complete dictionary
based analysis methods in order to separate the complex ECG signal into its basic components
and noise. We then intend to apply advanced statistical and data mining techniques in order
to relate the basic patterns of the ECG signals to the pain sampled in the designed groups.
Test groups:
In this study we intend to sample the ECG from two groups. The first group will comprise of
20 healthy young adults who voluntarily will be inflicted by thermal, pressure and neural
stimuli pain using the TSA 2000, (this study is to be authorized by the Soroka University
Medical Center IRB Committee); these subjects will be VAS and ECG monitored before, during
and after the thermal pain induction. It is important to state that this instrument inflicts
thermal pain by an authorized protocol, which does not harm or produce any tissue damage.
Hypothesis:
Our hypothesis is that pain can be detected, discriminated from noise and diagnosed by
routine ECG samplings using these processing techniques.
;
Observational Model: Case Control, Time Perspective: Prospective
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