Abstract
The primary care provider can manage various aspects of care for the patient with chronic pain. This is a multidisciplinary approach. Management of chronic pain involves the coordination of care from various organ specialists, physical therapists, and behavioral health specialists. It also involves the psychosocial aspects of pain which the primary care provider can address. Goal settings, expectation setting, positive affect interventions can be done in the primary care setting. Identifying negative affects such as depression, catastrophizing, and solicitous relationships can also be done by the primary care provider. Lastly, the primary care provider can refer to various pain specialists which may recommend procedures to improve chronic pain. Pain management techniques and interventions can be summarized as the combination of three components: a stimulus that alters nerve function, a delivery method, and a nervous system target (i.e. brain, spinal cord, or peripheral nerve).
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Keywords
- Multidisciplinary management
- Chronic pain
- Biopsychosocial management
- Goal setting
- Catastrophizing
- Interventional pain management
- Nonpharmacological management
- Physical therapy
- Exercise
- Diet
Introduction
Besides prescribing medication, one of the key roles of the primary care provider is the coordination of specialists and nonpharmacological aspects of care. Management of the patient with chronic pain requires a multidisciplinary approach. Key aspects that require managing include goal setting, exercise and physical therapy, psychological and social factors, specialists and interventional pain procedures.
Goal Setting
Setting appropriate goals and expectations of treatment is included in the CDC Guideline for prescribing opioids for chronic pain [1]. Usually this centers around what is important to the patient. Many suggested goals, examples of which can be found at “mytopcare.org [2],” center around patient activities of daily living and function. Mytopcare.org is a free website with various resources on opioid prescribing. It was founded by Leibshutz and others at Boston Medical Center in order to facilitate safe and effective opioid prescribing in primary care.
Currently, however, there is limited evidence or instruction on how to set goals with patients with chronic pain. One study elicited outcomes important to patients with chronic pain, as if they were participating in an experimental study on a new pain medication. Most of the commonly cited endpoints were decrease pain, decrease opioid dose, decrease frequency of scheduled doses, increased ability to function, and improved sleep [3]. Another interesting study focused on soliciting two to five behavioral goals (as opposed to pain relief goals) from patients and categorizing them [4]. This study on veterans found that the more goals patients accomplished, the less they rated their pain intensity and depressive symptom severity. It suggested that perhaps if patients had more easier goals to accomplish, they would perhaps experience less pain and depression. It found the most common goal was improving the physical activity of walking. It also used a standardize script to help patients formulate their behavioral goals:
We would like you to set some goals that you can work toward over the next few weeks. These should be goals that you can reasonably achieve over the course of therapy. Goals can be any positive behavior that you would like to increase. For example, they can be something you have done in the past but would like to do more often, something you have been meaning to do but have been putting off, or something you have never done, but would like to try. Use the goal setting form below to come up with at least 2 goals for treatment.
In this study, cognitive behavioral therapists worked with patients to ensure that their goals were:
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a behavior within the participant’s control
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goal was measurable
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not primarily focused on pain reduction (i.e., reduce pain totally or by a specific amount)
Consequently, a take home point is to make practical goals, which are measurable. These goals often specify an action and frequency:
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Being able to do one load of laundry once a week
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Being able to walk 10 minutes 3× a week
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Take grandkids to the park for 30 minutes once per week
However, decreased pain is still a significant goal, especially in the context of chronic opioid therapy, given the risks involved. Risks of oversedation, overdose, and death are a reality for those on chronic opioid therapy (COT). In order to determine if opioid therapy is meeting goals, goals must be specific and measurable. Many studies use pain relief of 30% (moderate pain relief) and 50% (substantial pain relief) to determine if pain therapy is effective [5,6,7]. Interesting to note that clinical pain relief does not entail the complete eradication of pain. Currently, complete pain relief in those with chronic pain appears to be an unrealistic goal. Proper goal setting involves the expectation that pain, unfortunately, cannot be eliminated, but rather, managed in order to accomplish patient goals. It is helpful therefore to quantitatively assess pain before and during treatment in order to determine if pain relief goals are being met. For those on any therapy including opioids, if treatment is not successfully providing pain relief, dosages should be modified or stopped. The fact that ineffective therapies (where benefits do not outweigh risks) will be tapered should also be emphasized in the goals and expectations of treatment.
That being said, lately, there has been a trend towards making behavioral or functional goals as opposed to pain intensity goals [8, 9]. This is because there is often a disconnect between pain intensity and pain pathology. At the same time, there is a correlation of patients with high pain intensity scores and feeling overwhelmed and unable to cope [8]. Returning the ability to enjoy life by restoring function, despite pain, seems to be an important outcome to these patients. It may even lead to reduction in pain intensity in the end [4].
Exercise and Physical Activity
As part of the comprehensive pain management plan, the primary care provider can also incorporate exercise suggestions. A recent Cochrane review in 2017 found evidence that exercise seems to be beneficial to adults with chronic pain with little adverse effects [10]. Indeed, exercise has recently been recommended as first line therapy (even before medication) for acute and chronic low back pain by the American College of Physicians [11]. Generally exercise has been found to improve function, disability, and sometimes decrease pain scores. Methods in which the primary care provider can encourage exercise include “behavioral control techniques.” These include teaching and demonstrating exercise, promoting self monitoring techniques, and goal setting [12]. Certain conditions may benefit more from exercise or physical activity such as osteoarthritis and low back pain [13,14,15,16,17]. So far, no studies have conclusively shown that one method of exercise is superior to another.
The American Academy of Orthopaedic Surgeons supports the website, “https://www.orthoinfo.org/”. This free website contains ready to print patient handouts on home exercises for various conditions affecting, for instance, the shoulder, hip, knee, and spine. It also contains helpful patient handouts on preventing low back pain.
There are various types of exercise therapy that may be considered in the treatment of chronic pain. Detailed discussion can be found in Chap. 16.
Diet
Currently there is not much evidence to support a certain diet for those with chronic pain. There is evidence that those with chronic pain often do not eat a healthy diet rich in fruits and vegetables [18]. Those with chronic pain often have cardiovascular risk factors which need to be modified [18, 19]. Whether or not correcting their diet will help their pain and function is still in question. Currently there is research interest in anti-inflammatory or plant based diets and their role in reducing pain and improving function [20,21,22]. Seaman, a supporter of anti-inflammatory diet for chronic disease and pain, makes an interesting observation that NSAIDs (nonsteroidal anti-inflammatory drugs) are often used in treatment of chronic pain, and hence infer that an anti-inflammatory diet can also be used to treat chronic pain. Again, there needs to be more evidence before diet can be regarded as an effective treatment for chronic pain.
Heat
Heat (as opposed to cold) therapy has been found to be beneficial in subacute low back pain [23, 24]. There are some small studies showing that superficial heat with or without additional modalities such as exercise and ultrasound, can show promise in improving chronic low back pain and chronic knee pain [25,26,27,28]. Heat wraps are a relatively inexpensive and easy to implement with few adverse effects when used correctly. Because patients can easily implement this therapy on their own, they may feel more self-efficacious and have less negative thought patterns (such as catastrophizing) [27].
Biopsychosocial Management
The biopsychosocial model is a framework that can be used to comprehensively treat chronic pain. It suggests that pain is not just biological or physical, but also that psychological and social factors contribute to chronic pain [29, 30]. When all three realms have been addressed, studies have shown it has been used successfully to manage many chronic pain conditions such as arthritis, fibromyalgia, chronic low back pain, sickle cell, etc. [29, 31] Often termed multidisciplinary rehabilitation, or biopsychosocial rehabilitation, it has been found to be effective in a 2015 Cochrane review for chronic low back pain [32]. Although often requiring a team of specialists from physical therapists, psychologists, etc., the primary care provider can indeed be instrumental in beginning to address the psychological and social aspects of chronic pain [33]. Fully addressing the psychological and social aspects of chronic pain often involves cognitive behavioral therapy. Cognitive behavioral therapy (CBT), a treatment often employed by psychologists or psychiatrists, enables patients to correct negative thinking patterns and thus change behavior. A 2012 Cochrane review concluded that cognitive behavioral therapy is a useful approach to chronic pain [34]. Based on data from 35 randomized controlled trials, this review found that cognitive behavioral therapy can improve mood, weakly improve pain compared to no treatment, has small effects on pain related disability, and decrease negative thought patterns such as catastrophizing. (Studies on psychological therapies for neuropathic pain, however, were few. Consequently a 2015 Cochrane review did not find enough evidence to support use of CBT or psychotherapy for neuropathic pain [35].)
Biopsychosocial Management: Positive Affect Interventions
What can the primary care provider do? Besides educating the patient on the biological aspects of chronic pain and their specific disease, primary care providers can acknowledge the co-existence of negative mood states such as depression, anxiety, emotional distress, etc. Screen chronic pain patients for these comorbidities and treat them. Inform patients that these negative affects have been associated with more pain and disability than those with positive affects. Some studies even show that fostering a positive affect allows decrease in pain intensity and disability [36, 37]. These “positive affect interventions” are activities that primary care providers can easily direct patients to perform in a journal. Some example interventions used are seen in Table 7.1 [36].
Biopsychosocial Management: Correct Solicitous Relationships
Another aspect of the biopsychosocial model of pain that the primary care physician can explore is social aspects of pain. Questions to explore include [29]:
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How has pain changed lifestyle/roles at home/employment?
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What is the level of social support?
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Any “solicitous” social interactions?
Solicitous interactions are social interactions in which another person potentially disables the patient by being overly concerned or anxious about the patient’s pain and consequences of pain. They may say things such as, “Don’t go to the party, it’s too exhausting for you and will make your pain worse.” Or they may spend more time helping the patient unnecessarily, “Let me get you the remote control, you can’t be walking around the house in your condition.” Studies show that these relationships can cause the patient to respond by increasing disability, using more opioids [38], and experiencing more pain [39,40,41,42].
These negative interactions can be addressed by involving the spouse in the cognitive behavioral treatment plan. There is some evidence that couple interventions may be effective in reducing pain intensity [43].
Biopsychosocial Management: Minimize Catastrophizing
In addition, the primary care provider can identify catastrophizing thoughts. Catastrophizing is a cognitive and emotional response to pain consisting of three parts [30, 44]:
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Magnification: “I keep thinking the pain will get worse”
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Rumination: “I can’t stop thinking about how much it hurts”
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Helplessness: “I can’t do anything to make it better”, “I don’t think it will ever get better”
Again, catastrophizing is a type of negative thinking that significantly worsens pain and disability. Some say it is the single most important factor that impairs the effectiveness of pain relieving treatments in certain musculoskeletal conditions [45, 46]. Correction of these negative thoughts includes cognitive behavioral therapy (CBT) and acceptance and commitment therapy (a variation of CBT). In addition, physical therapy has been shown to reduce catastrophizing [47]. There is evidence to suggest that a reduction in catastrophizing precedes improved pain outcomes [44]. Catastrophizing can be measured with the Pain Catastrophizing Scale (PCS) [48]. It is a 13 item questionnaire which is available online http://sullivan-painresearch.mcgill.ca/pdf/pcs/Measures_PCS_Adult_English.pdf.
Biopsychosocial Management: Enforce Positive Expectations and Teach Self-Efficacy
On the other hand, expectations of getting well, or being optimistic about treatment and pain, does decrease pain intensity and increase effectiveness of treatment (or placebo). If the primary care provider and patient expects there to be improvement with treatment, then the patient will more likely make progress [30]. Similarly, if patients can do more for themselves, (“self-efficacy”) and feel more capable of tackling pain and achieving certain pain related goals, then they also experience improvements in pain and disability. Increasing self-efficacy can also be mediated through CBT [30]. As primary care providers, we can teach patients how to treat acute pain flareups to improve their self-efficacy [29]. This includes utilizing heat or cold packs, positional changes, massage, or exercise.
Manage Consultants
Another component of pain management is effective involvement of specialists [1]. Experts can not only provide insight on conditions causing pain, but also perform pain management therapies that require special training. For instance, urologists may offer specialized treatments such as DMSO (dimethyl sulfoxide) instillation and bladder hydrodistension for interstitial cystitis. Orthopedic surgeons can offer therapeutic joint injections or surgery.
Interventional Pain Management
Pain specialists, often neurologists, interventional radiologist, or anesthesiologists, can also provide pain relieving procedures targeted at the nervous system. Referrals to these specialists are often made after various treatments recommended by primary care physicians have failed or the patient’s pain and disability is severe. The mechanisms of how these interventions work on a molecular level can be complex, but at the heart of these is that nerve function is altered. Pain is no longer perceived in the same way after these interventions. There are various techniques used to alter nerve function, also known as neuromodulation. These techniques alter the sensation of pain by affecting nerve activity through various stimuli.
There are so many methods to alter nerve function and thus change the conduction of pain signals. The primary care provider can be daunted with the complexity and diversity of these interventions. However, any intervention for pain can be thought of as a combination of three components: a stimulus that alters nerve function, a delivery method, and a nervous system target (Fig. 7.1).
The following is a brief overview of a few types of methods to deliver substances or energy to alter pain sensations. Some are more invasive and thus are surgical procedures, whereas others are noninvasive and not typically thought of as a “procedure”.
One of the more common interventions for pain is injections of various compounds such as anesthetics and steroids. These include epidural injections and other spinal injections [49], intercostal nerve blockage, and other peripheral nerve injections. These injections often use anesthetics to block pain signals and steroids to reduce inflammation with reliable short term relief. Evidence for long lasting effects of pain injections for low back pain is, however, lacking [50]. In addition, literature is mixed on the efficacy of these injections on spinal stenosis, and other conditions associated with back pain [50, 51].
Other methods include sympathetic nerve blocks. This technique is typically used to treat phantom limb, complex regional pain syndrome, and pain syndromes of the head and neck [52].
Botulinum toxin is a neurotoxin that is best known for inhibiting muscle contraction for the treatment of wrinkles. It has also been useful for the treatment of chronic migraine. A recent review discusses the myriad of pain diagnoses that may benefit from botulinum toxin [53]. Temporal mandibular joint disorders, myofascial pain, neuropathic pain, trigeminal neuralgia are just a few conditions in which botulinum toxin has been used to ameliorate chronic pain [53].
Injection of neurolytic substances have also been documented to treat chronic pain conditions. Such substances include adriamycin (a chemotherapeutic agent), alcohol, glycerol, etc.
Lastly, there is intrathecal drug delivery, so called, “pain pumps”. These are surgically implanted devices that allow for the continuous delivery of morphine, baclofen, zicotinide (an analgesic acting on the calcium channel blocker) and other compounds to the spinal cord.
Radiofrequency ablation or denervation, another interventional technique used for the treatment of chronic pain, delivers thermal energy to block sensory nerves innervating the area of pain [54,55,56]. For instance, for knee pain, the genicular nerves are targeted. Electrical current is delivered to the tip of an insulated needle directed at the peripheral nerve. An electric field is produced at the tip of the needle which causes molecular movement and heat. At a certain temperature, the heat will cause a lesion in the nerve and is thought to be responsible for disruption of the pain signal. It has been used in conditions such as chronic low back pain, knee pain, trigeminal neuralgia, and other conditions. There is some evidence suggesting the effectiveness of these techniques in various chronic low back pain conditions and knee pain [55,56,57]. There are also cryoablative methods as well [58].
Invasive Neurostimlation Techniques
Invasive neuromodulating techniques include deep brain stimulation [59], spinal cord stimulation [52, 60], and peripheral nerve stimulation [61]. Deep brain stimulation is an invasive neurosurgical procedure where electrodes are implanted in various brain structures. Pain is replaced often by pleasant paraesthesia or warming sensation and analgesia depending on which brain structures are targeted [59]. It can be used for post-stroke syndrome. Spinal cord stimulation uses implanted electrodes to provide electrical stimulation to the spinal cord. It replaces pain with paraesthesia. It is commonly used in failed back surgery syndrome and neuropathic pain. Peripheral nerve stimulation is direct electrical stimulation of named nerves that send pain signals from the region of pain. It also requires the use of electrodes surgically implanted next to the nerve and is commonly used to treat postherpetic neuralgia, neuropathies after surgery or trauma, complex regional pain syndrome, and various migraine and headache syndromes [61].
Noninvasive Neurostimulation
Noninvasive neurostimulation techniques act on the nervous system externally. These include transcranial current or magnetic stimulation [59] for the brain, and transcutaneous electrical nerve stimulation (TENS) for the peripheral nerves. A recent Cochrane review concluded that there is very low quality evidence that transcranial magnetic stimulation and transcranial direct current stimulation may affect chronic pain and improve quality of life in the short term, but measured effects were minimal [62]. As for TENS, electrodes are applied via adhesives to the skin so that pulsed electrical stimulation can be delivered to the area of pain. Although often used as an adjunctive to the treatment of chronic pain, a recent Cochrane review was unable to find conclusive evidence that TENS is harmful or beneficial to people with chronic pain [63]. Lastly, there is ongoing research into different methods for neuromodulation including the use of ultrasound on both the brain and peripheral targets.
Conclusion
In conclusion, the primary care provider can offer so much more than prescription drugs for chronic pain. In every office visit, the primary care provider can reassess goals and expectations, encourage positive affects, and identify negative affects. They can also encourage self-efficacy and correct negative affects and social interactions via referral to a specialist trained in CBT. Teaching exercises or referral to physical therapy is another aspect of care the primary care provider can manage. In addition, the primary care provider can also coordinate care with specialists that can provide pain relieving interventions.
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Hall, B.H. (2020). Management of Chronic Pain: Nonpharmacological and Multidisciplinary Approach. In: Hall, B.H. (eds) Evaluation and Management of Chronic Pain for Primary Care. Springer, Cham. https://doi.org/10.1007/978-3-030-47117-0_7
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