Ex) Article Title, Author, Keywords
Ex) Article Title, Author, Keywords
Int J Pain 2024; 15(2): 51-54
Published online December 31, 2024 https://doi.org/10.56718/ijp.24-025
Copyright © The Korean Association for the Study of Pain.
Soyoung Kwak, Min Cheol Chang
Correspondence to:Min Cheol Chang, Department of Physical Medicine and Rehabilitation, Yeungnam University College of Medicine, 170 Hyeonchung-ro, Nam-gu, Daegu 42415, Republic of Korea. Tel: +82-53-620-4682, E-mail: wheel633@gmail.com
Keywords: amyotrophic lateral sclerosis, diagnosis, pain.
Amyotrophic lateral sclerosis (ALS) is a rapidly progressive neurodegenerative disorder that affects the motor neurons in the cerebral motor cortex, brainstem, and spinal cord. The first description of ALS dates to the mid-19th century, when it was reported as progressive muscle weakness accompanied by muscle atrophy [1]. ALS is not a rare disease, with an incidence of approximately 1-2.6 cases per 100,000 persons annually and a prevalence of approximately 6 cases per 100,000 [2]. Although the dominant features of ALS are motor symptoms—such as limb weakness, dysphagia, dysarthria, and respiratory insufficiency that ultimately lead to death—ALS is no longer considered a pure motor disorder. It is now perceived as a multisystem disease with various non-motor symptoms, including cognitive and behavioral changes, neuropsychiatric disturbances, sleep disruption, sialorrhea, hypermetabolism, bladder and bowel dysfunction, changes in bone health, olfactory and somatosensory impairment, and pain [3]. Although new disease-modifying agents, including gene therapies utilizing antisense oligonucleotides, are being actively developed [4], there is currently no cure for ALS, a disease for which palliative care is very important, similar to cancer [5]. However, unlike in cancer care, pain management has not received much attention in patients with ALS.
Pain impairs the quality of life and causes distress to patients and caregivers. Although there are differences among studies, up to 85% of patients with ALS experience pain [6], and a recent meta-analysis estimated the pooled prevalence of pain to be 60% [7]. Pain in ALS is mostly nociceptive, which means that it arises from non-neuronal tissue damage or activation of peripheral nociceptors in response to mechanical stress or other noxious stimuli [8]. Joint pain is common among patients with ALS, particularly in the shoulders and hips, and is often associated with muscle weakness and atrophy, leading to reduced joint support [8]. Lack of support can result in pain and discomfort. Additionally, immobility can lead to skin pressure, which may be perceived as pain in patients with ALS. In patients with ALS, primary pain occurs, including neuropathic pain and pain due to spasticity or cramps [8]. The sources of pain associated with ALS are summarized in Fig. 1, and the management according to its etiologies are summarized in Table 1 [8].
Table 1 Interventions for the management of pain in people with ALS according to the etiology of pain
Self-management | Professional management | |
---|---|---|
Muscle cramps | Massage, stretching | Quinine sulphate |
Aromatherapy | Magnesium | |
Drink tonic water (contains quinine) | Vitamin E | |
Bananas, oranges, and citrus fruit juices (to address magnesium imbalance) | Vitamin D | |
Heat | ||
Spasticity | Positioning | Physiotherapy |
Passive exercise | Tizanidine | |
Active within limitations | Baclofen | |
Heat | Hydrotherapy | |
Pressure above and below joint | Botulinum toxin | |
Stretching | ||
Constipation | Review of dietary intake | Laxatives |
Review of fluid intake | Movicol | |
Review of current medications | Senna and lactulose | |
Exercise-passive | Dulcolax | |
Regular review of bowel habits, monitor or change | Laxatives on commencement of opioids | |
Abdominal massage | ||
Linseed seeds | ||
Spasm | Exercise-passive | Baclofen |
Positioning | Dantrolene | |
Diazepam | ||
Sublingual lorazepam | ||
Tizanidine | ||
Skin pressure | Positioning | Pressure mattresses/cushions |
Regular turning | Appropriate beds/chairs | |
Correct moving and handling techniques | Use of hoists | |
Preventative measures | Diclofenac sodium | |
Morphine | ||
Amitriptyline | ||
Musculoskeletal | Exercise-passive prior to transfer for immobile individuals, ROM | Physiotherapy |
Preventative measures | Hydrotherapy | |
Positioning | NSAIDs | |
Correct moving and handling techniques | Paracetamol | |
Tramadol | ||
Joint injections | ||
Morphine | ||
Orthotics, splints | ||
Collars | ||
TENS | ||
Complementary/alternative therapy |
NSAIDs: non-steroid anti-inflammatory drugs.
Although pain in ALS has attracted more research attention over the past decade, gaps remain in the development of pain assessment tools specific to patients with ALS, effective management strategies, and longitudinal research exploring pain progression changes over time in this population.
Advances in cancer treatment have expanded the scope of cancer-related pain management to include survivors. Similarly, as new disease-modifying treatments and gene therapies for ALS have emerged, effective pain management is more critical than ever. Timely assessments are vital to achieve the ultimate goal of pain management, which is to reduce pain intensity, diminish patient suffering, and enhance the quality of life of patients. In addition, it is necessary to provide treatment tailored to the individual needs of patients based on good clinical practices and information from the management of nonmalignant chronic pain in the current situation, where there are no specific guidelines for controlling pain in ALS.
None.
No potential conflict of interest relevant to this article was reported.
Int J Pain 2024; 15(2): 51-54
Published online December 31, 2024 https://doi.org/10.56718/ijp.24-025
Copyright © The Korean Association for the Study of Pain.
Soyoung Kwak, Min Cheol Chang
Department of Physical Medicine and Rehabilitation, Yeungnam University College of Medicine, Daegu, Republic of Korea
Correspondence to:Min Cheol Chang, Department of Physical Medicine and Rehabilitation, Yeungnam University College of Medicine, 170 Hyeonchung-ro, Nam-gu, Daegu 42415, Republic of Korea. Tel: +82-53-620-4682, E-mail: wheel633@gmail.com
Amyotrophic lateral sclerosis (ALS) is a rapidly progressive neurodegenerative disorder that affects the motor neurons in the cerebral motor cortex, brainstem, and spinal cord. The first description of ALS dates to the mid-19th century, when it was reported as progressive muscle weakness accompanied by muscle atrophy [1]. ALS is not a rare disease, with an incidence of approximately 1-2.6 cases per 100,000 persons annually and a prevalence of approximately 6 cases per 100,000 [2]. Although the dominant features of ALS are motor symptoms—such as limb weakness, dysphagia, dysarthria, and respiratory insufficiency that ultimately lead to death—ALS is no longer considered a pure motor disorder. It is now perceived as a multisystem disease with various non-motor symptoms, including cognitive and behavioral changes, neuropsychiatric disturbances, sleep disruption, sialorrhea, hypermetabolism, bladder and bowel dysfunction, changes in bone health, olfactory and somatosensory impairment, and pain [3]. Although new disease-modifying agents, including gene therapies utilizing antisense oligonucleotides, are being actively developed [4], there is currently no cure for ALS, a disease for which palliative care is very important, similar to cancer [5]. However, unlike in cancer care, pain management has not received much attention in patients with ALS.
Pain impairs the quality of life and causes distress to patients and caregivers. Although there are differences among studies, up to 85% of patients with ALS experience pain [6], and a recent meta-analysis estimated the pooled prevalence of pain to be 60% [7]. Pain in ALS is mostly nociceptive, which means that it arises from non-neuronal tissue damage or activation of peripheral nociceptors in response to mechanical stress or other noxious stimuli [8]. Joint pain is common among patients with ALS, particularly in the shoulders and hips, and is often associated with muscle weakness and atrophy, leading to reduced joint support [8]. Lack of support can result in pain and discomfort. Additionally, immobility can lead to skin pressure, which may be perceived as pain in patients with ALS. In patients with ALS, primary pain occurs, including neuropathic pain and pain due to spasticity or cramps [8]. The sources of pain associated with ALS are summarized in Fig. 1, and the management according to its etiologies are summarized in Table 1 [8].
Table 1 . Interventions for the management of pain in people with ALS according to the etiology of pain.
Self-management | Professional management | |
---|---|---|
Muscle cramps | Massage, stretching | Quinine sulphate |
Aromatherapy | Magnesium | |
Drink tonic water (contains quinine) | Vitamin E | |
Bananas, oranges, and citrus fruit juices (to address magnesium imbalance) | Vitamin D | |
Heat | ||
Spasticity | Positioning | Physiotherapy |
Passive exercise | Tizanidine | |
Active within limitations | Baclofen | |
Heat | Hydrotherapy | |
Pressure above and below joint | Botulinum toxin | |
Stretching | ||
Constipation | Review of dietary intake | Laxatives |
Review of fluid intake | Movicol | |
Review of current medications | Senna and lactulose | |
Exercise-passive | Dulcolax | |
Regular review of bowel habits, monitor or change | Laxatives on commencement of opioids | |
Abdominal massage | ||
Linseed seeds | ||
Spasm | Exercise-passive | Baclofen |
Positioning | Dantrolene | |
Diazepam | ||
Sublingual lorazepam | ||
Tizanidine | ||
Skin pressure | Positioning | Pressure mattresses/cushions |
Regular turning | Appropriate beds/chairs | |
Correct moving and handling techniques | Use of hoists | |
Preventative measures | Diclofenac sodium | |
Morphine | ||
Amitriptyline | ||
Musculoskeletal | Exercise-passive prior to transfer for immobile individuals, ROM | Physiotherapy |
Preventative measures | Hydrotherapy | |
Positioning | NSAIDs | |
Correct moving and handling techniques | Paracetamol | |
Tramadol | ||
Joint injections | ||
Morphine | ||
Orthotics, splints | ||
Collars | ||
TENS | ||
Complementary/alternative therapy |
NSAIDs: non-steroid anti-inflammatory drugs..
Although pain in ALS has attracted more research attention over the past decade, gaps remain in the development of pain assessment tools specific to patients with ALS, effective management strategies, and longitudinal research exploring pain progression changes over time in this population.
Advances in cancer treatment have expanded the scope of cancer-related pain management to include survivors. Similarly, as new disease-modifying treatments and gene therapies for ALS have emerged, effective pain management is more critical than ever. Timely assessments are vital to achieve the ultimate goal of pain management, which is to reduce pain intensity, diminish patient suffering, and enhance the quality of life of patients. In addition, it is necessary to provide treatment tailored to the individual needs of patients based on good clinical practices and information from the management of nonmalignant chronic pain in the current situation, where there are no specific guidelines for controlling pain in ALS.
None.
No potential conflict of interest relevant to this article was reported.
Table 1 Interventions for the management of pain in people with ALS according to the etiology of pain
Self-management | Professional management | |
---|---|---|
Muscle cramps | Massage, stretching | Quinine sulphate |
Aromatherapy | Magnesium | |
Drink tonic water (contains quinine) | Vitamin E | |
Bananas, oranges, and citrus fruit juices (to address magnesium imbalance) | Vitamin D | |
Heat | ||
Spasticity | Positioning | Physiotherapy |
Passive exercise | Tizanidine | |
Active within limitations | Baclofen | |
Heat | Hydrotherapy | |
Pressure above and below joint | Botulinum toxin | |
Stretching | ||
Constipation | Review of dietary intake | Laxatives |
Review of fluid intake | Movicol | |
Review of current medications | Senna and lactulose | |
Exercise-passive | Dulcolax | |
Regular review of bowel habits, monitor or change | Laxatives on commencement of opioids | |
Abdominal massage | ||
Linseed seeds | ||
Spasm | Exercise-passive | Baclofen |
Positioning | Dantrolene | |
Diazepam | ||
Sublingual lorazepam | ||
Tizanidine | ||
Skin pressure | Positioning | Pressure mattresses/cushions |
Regular turning | Appropriate beds/chairs | |
Correct moving and handling techniques | Use of hoists | |
Preventative measures | Diclofenac sodium | |
Morphine | ||
Amitriptyline | ||
Musculoskeletal | Exercise-passive prior to transfer for immobile individuals, ROM | Physiotherapy |
Preventative measures | Hydrotherapy | |
Positioning | NSAIDs | |
Correct moving and handling techniques | Paracetamol | |
Tramadol | ||
Joint injections | ||
Morphine | ||
Orthotics, splints | ||
Collars | ||
TENS | ||
Complementary/alternative therapy |
NSAIDs: non-steroid anti-inflammatory drugs.
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