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Patient with Transverse Myelitis and Physiotherapy Management: A Case Study

Article Information

Md. Emran Hossain1, Ganesh Dey1, Nazmun Nahar Munna4, Saddam Hossain5, Zakia Rahman3, Tamanna Tasmim6, Md. Saiyed Hossain7, Md. Atiar Rahman7, Asma Islam2*

1Lecturer, Department of Physiotherapy, Bangladesh Health Professions Institute (BHPI), CRP, Dhaka, Bangladesh

2Assistant Professor, Department of Physiotherapy, Bangladesh Health Professions Institute (BHPI), CRP, Dhaka, Bangladesh

3Lecturer, Department of Physiotherapy, SAIC College of Medical Science and Technology, Dhaka, Bangladesh

4Chief physiotherapist, Cumilla Medical College Hospital, Cumilla, Bangladesh

5Course coordinator at Japan Bangladesh Friendship College of Physiotherapy and Health Science, Dhaka, Bangladesh

6Masters of Social Science (MSS) in Clinical Social Work. or (MSS in Clinical Social Work), Institute of Social Welfare and Research, University of Dhaka, Dhaka, Bangladesh

7Clinical Physiotherapist, Centre for the Rehabilitation of the Paralysed (CRP).

*Corresponding Author: Asma Islam, Assistant Professor, Department of Physiotherapy, Bangladesh Health Professions Institute (BHPI), CRP, Dhaka, Bangladesh.

Received:  13 August 2024; Accepted: 20 August 2024; Published: 26 September 2024

Citation: Md. Emran Hossain, Ganesh Dey, Nazmun Nahar Munna, Saddam Hossain, Zakia Rahman, Tamanna Tasmim, Md. Saiyed Hossain, Md. Atiar Rahman, Asma Islam. Patient with Transverse Myelitis and Physiotherapy Management: A Case Study. Archives of Clinical and Medical Case Reports. 8 (2024): 190-196.

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Abstract

Background: Transverse myelitis (TM) is a neurological disorder characterized by inflammation of the spinal cord, resulting in sensory, motor, and autonomic dysfunction. Individuals with TM often experience challenges with dynamic sitting balance, impacting their functional independence and quality of life. While no definitive cure exists for TM, evidence-based physiotherapy interventions have been shown to improve functional outcomes and enhance overall well-being.

Objectives: This case-based study aims to describe the evidence-based physiotherapy management for a patient diagnosed with transverse myelitis, focusing on interventions aimed at improving dynamic sitting balance. Intervention: The physiotherapy intervention consisted of a tailored program designed to address the specific impairments and functional limitations associated with TM. Key components included exercises targeting lower limb strength and flexibility, core stabilization, balance training, gait retraining, and education on assistive devices. Functional task-oriented training was also emphasized, with a focus on activities aimed at enhancing dynamic sitting balance.

Outcomes: Following a four-week intervention comprising twelve 30-minute sessions, the patient demonstrated notable improvements in mobility and balance. Specifically, the patient exhibited enhanced dynamic sitting balance, reflected in improved performance on functional tasks.

Conclusion: This evidence-based physiotherapy program highlights the potential for improving dynamic sitting balance and overall functional capacity in individuals with transverse myelitis. Regular participation in targeted interventions may help mitigate the impact of TM on daily activities and enhance quality of life.

Keywords

Transverse myelitis; Evidence-based physiotherapy; Dynamic sitting balance; Neurological rehabilitation; Functional outcomes

Transverse myelitis articles; Evidence-based physiotherapy articles; Dynamic sitting balance articles; Neurological rehabilitation articles; Functional outcomes articles

Article Details

Background

Transverse myelitis (TM) is distinguished by localized inflammation along the spinal cord, which leads to various complications including autonomic disturbances such as bowel and bladder dysfunction and neurological dysfunction including paralysis. A higher incidence of idiopathic or secondary causes may be identified during the diagnostic process; the age distribution is bimodal. TM may present with acute or subacute onset, exhibiting a range of severity levels and prognostic factors [1].

An uncommon spinal cord condition is transverse myelitis which is caused by inflammation and destruction to the myelin sheath of spinal cord neurons in one or more spinal segments. This disrupts nerve signal transmission, causing motor, sensory, and autonomic disorders. A specific sensory level is markedly disturbed. Infections and immune system disorders may produce idiopathic or secondary inflammation [2].

Causes of transverse myelitis can include demyelinating diseases, systemic inflammatory autoimmune disorders, neurosarcoidosis, viral infections, bacterial infections, fungal infections, parasitic infections, paraneoplastic syndromes, atopic myelitis, drugs/toxins, or can be considered idiopathic. Transverse myelitis is referred to by multiple names in the literature including myelitis, acute transverse myelitis, partial myelitis, or partial transverse myelitis. For the purpose of this case study, the term transverse myelitis will be used consistently [3]. The Transverse Myelitis Collaboration Working Group estimates that approximately 1 & 4 per million people worldwide suffer from acute TM, with peak ages of 10 to 19 and 20 to 39 years old. About 0.2 per 100,000 children get acute TM annually [4].

Calis et al. [5] in 2011 propose that the inclusion of physical rehabilitation is necessary in the treatment of TM. Nevertheless, there is a lack of comprehensive research on the physiotherapy treatment of transverse myelitis symptoms.

In a case study, Han-Hung, et al. detailed their hospital-based physical therapy treatment plan for a patient with transverse myelitis. Although the stay was brief—just five days, the group concentrated on dissecting functional actions into strengthening exercises before moving on to walking, sit-to-stand transitions, etc. Their standards for grading from strengthening to functional motions were not made public. Walking was the sole recorded functional movement during the five-day stay, and that too only on day five. To address the dearth of studies on transverse myelitis and physical therapy, this case report offers an example of a patient who tolerated early functional exercises with positive development noted.

Obtain any available published case reports regarding the use of physiotherapy in treating acute TM. These reports should focus on the positive effects of physiotherapy on various clinical and functional outcomes, including spasticity, range of motion, functional independence, ambulation, and quality of life [6].

The rationale for examining physiotherapy interventions in treating transverse myelitis (TM) is rooted in the potential to enhance patient outcomes and improve their overall quality of life. While intravenous steroids are commonly used to address acute TM, many patients still grapple with lingering deficits and functional limitations. There is still a large literature gap on the best physiotherapy management techniques specialized to the needs of each patient in the setting of transverse myelitis (TM), a rare neurological disease marked by inflammation of the spinal cord. Although many therapeutic approaches have been investigated, there are few thorough case studies that show how well particular physiotherapy protocols work to address the wide range of motor, sensory, and functional deficits linked to TM. Closing this gap will advance knowledge of customized rehabilitation strategies that maximize results and raise the standard of living for TM patients. Furthermore, with limited existing research in this area, exploring physiotherapy's impact on TM presents an opportunity to fill critical knowledge gaps and strengthen the evidence base for comprehensive TM management protocols. Ultimately, investing in physiotherapy research for TM aligns with the objective of delivering personalized, multidisciplinary care approaches tailored to the diverse needs of TM patients.

Case Assessment

Mr. X, a 65-year-old individual, came with a medical history of transverse myelitis (TM). The initial occurrence took place on December 03, 2023. He was admitted to various hospitals for medical treatment. Following the initial TMattack, he underwent medical treatment at a hospital located in Dhaka. After medical interventions, Mr. X persisted in experiencing weakness in both lower limbs and impaired sensation. Following that, to receive additional rehabilitation for enhanced functionality, he was admitted to Savar, CRP Hospital. Being a non-smoker and elderly, his medical history was further complicated by the presence of Diabetes. The three members of his family played an extremely important part in supporting him throughout his medical journey. At Savar CRP, a specialized hospital, he began a comprehensive rehabilitation program with the goal of maximizing his mobility and functional outcome.

  1. Primary concerns and symptoms of the patient: The individual, a 65-year-old male, arrived with a sudden onset of weakness in his right upper and lower limbs, poor sitting balance and poor coordination, unable to walk and poor trunk control.
  2. Medical, family, and history along with relevant past interventions and outcomes: The patient had a medical history marked by diabetes effectively managed with medication. No familial history of stroke or neurological ailments was identified. Past interventions involved medication compliance and lifestyle adjustments, resulting in stabilized blood pressure and cholesterol levels.
  3. Differential diagnosis: X's medical history presenting with recurrent episodes of transverse myelitis (TM) and current complaints of diabetics, several potential differential diagnoses could be considered. These include degenerative disc disease (DDD), spinal cord compression, transient ischemic attack (TIA), intracerebral hemorrhage, and metabolic abnormalities like hypoglycemia. These alternative conditions must be considered during the diagnostic process to ensure accurate diagnosis and appropriate management. But the imaging and other medical conditions confirm the diagnosis of Mr. X as Transverse Myelitis.
  4. Significant physical examination and crucial clinical findings: Upon examination, the patient displayed shoulder symmetry, trunk slouched, poor balance.

Assessment area

Initial

Discharge

(1st Week)

(After 3 months)

Upper limb

Lower limb

Upper limb

Lower limb

Right

left

Right

Left

Right

Left

Right

Left

Muscle tone (Ashworth)

1+

0

0

0

4

3

2

3

Sensation (Thermal)

Intact

Fair

Poor

Fair

Good

Good

Fair

Good

Proprioception (Joint Sense)

Poor

Poor

Poor

Poor

Good

Good

Fair

Good

Selective movement (FIM)

Fair

Poor

Poor

Poor

Good

Fair

Good

Fair

Co-ordination (Finger to Nose Touch)

Poor

Fair

Poor

Poor

Good

Fair

Fair

Good

Table 1: Upper limb and lower limb functions.

limb

Joint

AROM initial (1st Week)

AROM Discharge (After 3 months)

Strength initial (Oxford Grade) (1st Week)

Strength Discharge (Oxford Grade) (After 3 months)

Rt

Lt

Rt

Lt

Rt

Lt

Rt

Lt

Upper limb

Shoulder

âROM

âROM

Full

Full

G-2

G-2

G-4

G-4

Elbow

âROM

Full

Full

Full

G-2

G-2

G-4

G-4

Wrist

âROM

âROM

Full

Full

G-2

G-2

G-4

G-4

Hands

âROM

âROM

Full

Full

G-3

G-3

G-4

G-5

Lower limb

Hip

âROM

Full

Full

Full

G-0

G-2

G-4

G-5

Knee

âROM

Full

Full

Full

G-0

G-1

G-4

G-5

Ankle

âROM

âROM

âROM

Full

G-1

G-2

G-3

G-5

Feet

âROM

âROM

âROM

Full

G-0

G-2

G-3

G-5

Table 2: Physical examination (Upper and lower limbs ROM and strength).

Test

Measurement points

Initial (1st Week)

Discharge (After 3 months)

Higher function

Starting up down

UTA

Fair

Fast walking

UTA

Fair

Running

UTA

Fair

Mobility and balance outcome measures

10 meter walk test

Number of steps

UTA

48

Time

UTA

9min

6 minute walk test

Number of distances

UTA

30

1st rest (Distance)

UTA

40

Total distance

UTA

250

Upper limb activities

Gross grasp ability

Good

Good

Gross release ability

Good

Good

To hold glass, cup and pen, manage buttons, write etc.

Good

Good

Table 3: Functional test measurement.

S/N

Item Description

Initial

Discharge

(1st Week)

(After 3 months)

1

Sitting to standing

0

3

2

Standing unsupported

0

3

3

Sitting unsupported

3

4

4

Standing to sitting

0

4

5

Transfer

1

3

6

Standing with eyes closed

0

3

7

Standing with feet together

0

3

8

Reaching forward with outstretched arm

4

3

9

Retrieving object from floor

4

3

10

Turning to look behind

3

3

11

Turing 360 degrees

1

3

12

Placing alternate foot on stool

0

3

13

Standing with one foot in front

0

3

14

Standing on one foot

0

3

Total

16

40

Table 4: Burg Balance test.

5. Diagnostic testing encompassing laboratory tests and imaging:

Lipid Profile:

  • • Total Cholesterol: 220 mg/dl
  • • LDL Cholesterol: 140 mg/dl
  • • HDL Cholesterol: 50 mg/dl
  • • Triglycerides: 180 mg/dl

Glucose Levels:

  • • Fasting Glucose: 110 mg/dl

Coagulation Parameters:

  • • Prothrombin Time (PT): 12 seconds
  • • International Normalized Ratio (INR): 1.1
  • • Partial Thromboplastin Time (PTT): 28 seconds

Imaging:

  • • MRI scan of the Brain:
  1. Empty sella
  2. Diffuse mild to moderate bilateral symmetric cerebral and cerebellar volume loss.
  3. MRI of the Spine: MRI results supported the presence of low avid hypermetabolic heterogenous osteolytic bony lesion in the sacro-coccygeal bone indenting to sacral canal likely to be inflammation however malignancy could not be ruled.
  4. CT scan of Spine: Diffuse generalized osteopenia of all bones with coarse trabeculae.
fortune-biomass-feedstock

Figure 1: Radiology Imaging of Patient.

  1. Challenges in Diagnosis: Diagnosing transverse myelitis (TM) presents challenges, particularly in regions with limited access to healthcare facilities. Patients, especially those residing in rural areas, may encounter barriers such as distance from diagnostic centers equipped with necessary imaging technology, transportation issues, and financial constraints, all of which can contribute to delays in seeking medical assistance.
  2. Prognosis: While early intervention and rehabilitation efforts may improve functional outcomes for TM patients, there remains the possibility of residual deficits and disability. Continued monitoring and therapy are essential to assess progress and optimize the patient's trajectory towards recovery.
  3. Therapeutic Interventions:

Physiotherapy Management (Table 5):

Therapeutic Intervention

Dosage/Strength

Duration

Outcome measurement

Range of Motion Exercises

10 repetitions per joint

15 minutes/session

Goniometer

Strength Training

60-80% of 1RM

3 times/week

Oxford Grade Scale

Gait Training

Initially 50 meters, progressing to 200 meters

20 minutes/session, 5 times/week

6min walk test & 10 meter walk test

Balance and Coordination Exercises

Progressively increasing difficulty based on patient tolerance, focusing on seated balance exercises

15 repetitions/exercise, 10-15 minutes/session

Berg Balance Scale, Finger to nose and Heel to shin touch

Functional Training

Transfer from bed to chair, reaching for objects while maintaining seated balance

5-10 repetitions/task, 30 minutes/session

FIM Scale

Task-Specific Practice

Writing, dressing, using utensils while maintaining seated balance

10 repetitions/task, 20 minutes/session

Berg Balance Scale

Neuromuscular Reeducation

Proprioceptive Neuromuscular Facilitation (PNF), Bobath Technique emphasizing seated balance control

15 repetitions/technique, 15-20 minutes/session

FIM Scale

Table 5: Physiotherapy Management.

Medication:

  • • Antithrombotic Therapy
  • • Thrombolytic Therapy
  • • Antiplatelet Agents
  • • Anticoagulants
  • • Statins
  • • Antihypertensive Medications
  • • Anticonvulsants
  1. Administration of Therapeutic Interventions: Therapeutic interventions involve specific dosages, strengths, and durations tailored to the patient's condition. For example, range of motion exercises may require twice daily sessions with 10 repetitions per joint for 15 minutes per session.
  2. Changes in Therapeutic Interventions: Therapeutic approaches are adjusted based on ongoing evaluation of the patient's response and progression. Modifications in medication dosage or frequency aim to optimize efficacy while minimizing adverse effects.
fortune-biomass-feedstock

Figure 2: Physiotherapy Interventions.

  1. Clinician and Patient-Assessed Outcomes: Clinician-assessed improvements include enhancements in motor function, speech clarity, and daily activity performance. Patient-reported outcomes may include perceived improvements in mobility, independence, and overall quality of life.
  2. Follow-Up Diagnostics: Follow-up diagnostic tests, such as MRI or CT scans, are conducted to monitor changes in the size or extent of the lesion. Regular laboratory tests track parameters like lipid levels and glucose control.
  3. Assessment of Intervention Adherence and Tolerability: Adherence to therapeutic regimens is monitored through follow-up appointments and communication with patients and caregivers. Tolerability of medications and therapies is assessed based on patient-reported side effects and clinical evaluations, with adverse events documented and managed accordingly.

3. Discussion

Transverse myelitis (TM) encompasses a diverse range of inflammatory conditions affecting the spinal cord, resulting in varied motor, sensory, and autonomic impairments. Possible causes include demyelination, infections, autoimmune reactions, and cryptogenic factors. This wide spectrum of potential origins often overlaps with non-inflammatory spinal cord disorders, posing considerable diagnostic and therapeutic challenges for clinicians and leading to delays in effective management. Furthermore, the scarcity of longitudinal studies, particularly outside specialized centers, hinders comprehensive understanding of TM. Recent investigations into TM prevalence in the United States have been limited. A study spanning 1960 to 1990 in New Mexico identified 33 cases, estimating an annual incidence rate of 4.6 per 1,000,000 individuals. Another study in Olmsted County, Minnesota, reported a prevalence of idiopathic acute TM at 7.9 cases per 100,000 individuals between 2003 and 2016. International data from Israel and the United Arab Emirates indicated TM prevalences of 1.34 and 0.18 cases per 1,000,000 individuals per year, respectively [7].

Common additional symptoms experienced by TM patients include sexual dysfunction, increased bladder and bowel incontinence, spasticity, fatigue, and depression. Literature indicates diverse recovery patterns following TM diagnosis, ranging from minimal to minor symptoms, moderate levels of permanent disability, to no recovery resulting in severe functional impairment. While rehabilitation following any spinal cord injury generally enhances functional outcomes, TM presents unique challenges that may hinder participation in rehabilitation efforts. Despite the recognized benefits of physical therapy (PT) interventions, there remains a paucity of research detailing specific PT approaches tailored for TM patients. This case study sheds light on the diagnostic process, treatment modalities, and outcomes experienced by a 44-year-old male living with TM, who has adjusted to an alternative lifestyle alongside his family due to his condition [8].

Correct positioning of the lower back and pelvis, achieved by placing a firm pillow beneath the thighs while the patient was lying supine, successfully alleviated the patient's low back and gluteal pain within three days (verbal pain rating scale 0). However, to prevent recurrence of pain, the patient was advised to maintain this supine lying position throughout their admission. After five days, cryotherapy and gentle stroking techniques were implemented to decrease the frequency and intensity of muscle spasms, resulting in the cessation of spasms in the right lower limb and a reduction in the frequency (less than one every 30 minutes) and intensity of spasms in the left lower limb. Subsequently, additional interventions were introduced to address medium-term goals. Soft tissue mobilization techniques, including kneading and wringing, along with sustained gentle passive stretches, were introduced after five days to normalize muscle tone [9]. These interventions were combined with previous strategies of proper positioning, cryotherapy, and gentle stroking. Following three days of combined interventions, the patient's muscle tone decreased significantly. Evaluation using the modified Ashworth scale revealed a score of 0 for the right lower limb, 1+ for the left hip, and 3 for the left knee and ankle. Consequently, the patient achieved full active range of movement in all joints of the right lower limb without difficulty. In the left hip, active mid-range movement and full passive movement were attained [10,11]. However, only a limited active range (approximately 20°) was achieved in the left knee and ankle joints, whereas full passive movement was possible with considerable difficulty. Additionally, the patient reported a reduction in the sensation of shock below the T12 level from 8/10 to 3/10 on the verbal rating scale [1].

Informed Consent: Did the patient give informed consent? Please provide if requested: Yes, the patient provided informed consent for the treatment received.

4. Conclusion

In summary, transverse myelitis (TM) presents with various symptoms, including muscle weakness, sensory deficits, and pain, which significantly affect the patient's well-being. Effective management involves a multidisciplinary approach, incorporating physical therapy interventions tailored to address specific symptoms and promote recovery. This case illustrates the efficacy of interventions such as appropriate positioning, cryotherapy, and gentle stretching in alleviating discomfort and reducing muscle spasms. Despite the challenges associated with TM, the patient's perspective reflects resilience and optimism for improvement. Going forward, ongoing research and exploration of therapeutic strategies are essential to enhance outcomes and support individuals affected by TM. Ultimately, a comprehensive and patient-centered approach is vital for optimizing care and enhancing the quality of life for TM patients.

Patient Perspective:

Patients appreciated how physiotherapy changed their lives when they commented. They might discuss how the physiotherapist personalized the exercises and other treatments to meet their needs and problems. The supportive and encouraging environment during therapy may have also helped them solve their problems and progress. The patient's feedback would likely emphasize how the physiotherapy treatment improved their mobility, strength, and health, emphasizing its importance in their recovery and independence.

References

  1. Onyekere CP, Igwesi-Chidobe CN. Physiotherapy management of acute transverse myelitis in a pediatric patient in a Nigerian hospital: a case report. Journal of Medical Case Reports 16 (2022): 93.
  2. West TW. Transverse myelitis—a review of the presentation, diagnosis, and initial management. Discovery medicine 16 (2013): 167-177.
  3. Beh SC, Greenberg BM, Frohman T, et al. Transverse myelitis. Neurologic clinics 31 (2013): 79-138.
  4. Holroyd KB, Aziz F, Szolics M, et al. Prevalence and characteristics of transverse myelitis and neuromyelitis optica spectrum disorders in the United Arab Emirates: a multicenter, retrospective study. Clinical and Experimental Neuroimmunology 9 (2018): 155-161.
  5. Calis M, Kirnap M, Calis H, et al. Rehabilitation results of patients with acute transverse myelitis. BRATISLAVA Medical Journal-Bratislavske Lekarske Listy 112 (2011).
  6. Schrader C. Physical Therapy Management of a Patient Diagnosed with Transverse Myelitis: A Case Report (Doctoral dissertation, University of Iowa) (2018).
  7. Abbatemarco JR, Galli JR, Sweeney ML, et al. Modern Look at Transverse Myelitis and Inflammatory Myelopathy: Epidemiology of the National Veterans Health Administration Population. Neurology: Neuroimmunology and NeuroInflammation 8 (2021).
  8. Jamison L, Spoonts M, Rosario MG. Effects of Training with Impairment Based Therapeutic Intervention Program for Improvement in Function and Independence in an Individual Diagnosed with Transverse Myelitis. Journal of Rehabilitation Practices and Research 1 (2020).
  9. Ginting PN, Ritarwan K. Case Report: Acute Transverse Myelitis. Open Access Macedonian Journal of Medical Sciences 9 (2021): 182-185.
  10. Buchanan A, Wilkerson KJ, Huang HH. Physical therapy for transverse myelitis: a case report. Journal of Novel Physiotherapy and Rehabilitation 2 (2018): 015-021.
  11. Jamison L, Spoonts M, Rosario MG. Effects of training with impairment based therapeutic interven-tion program for improvement in function and independence in an individual diagnosed with Transverse Myelitis. J Rehab Pract Res 1 (2020): 106.

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