Abstract
Background & Objective: Neck pain is a very prevalent health condition. Physiotherapists use multiple treatment options for treating mechanical neck pain. We evaluated the effects of upper thoracic spine mobilization and mobility exercise and upper cervical spine mobilization and stabilization exercises in treating patients with mechanical neck pain.
Methodology: A randomized clinical trial was conducted comprising of 36 patients recruited from different clinics of Faisalabad, both genders, ages from 20-40 y, and randomly divided into two groups. Group A underwent upper thoracic mobilization and mobility exercise while Group B underwent upper cervical mobilization with stabilization exercises for 2 times a week for 4 weeks. Pain scores on Numerical Pain Rating Scale (NPRS) and cervical range of movements (ROM) scores were measured before treatment and then weekly for 4 weeks, while Neck Disability Index (NDI) was assessed at baseline and at the end of 4th week. SPSS version. 22 was used to analyze the data. Independent sample t-test was used for between group compression and P ≤ 0.05 (95%) was considered as significant.
Results: There was significant improvement in mean NPRS scores at 1st week, 2nd week, 3rd week and 4th week post-treatment (P < 0.05). There was significant improvement in mean cervical ROM at 2nd week, 3rd week and 4th week post-treatment readings (P < 0.05) and mean NDI score at 4th week (P < 0.05).
Conclusion: Both groups were found effective in improving pain, range of motion and neck function, but significant improvement in outcomes was observed in upper cervical mobilization and stabilization exercises group.
Abbreviations: NPRS - Numerical Pain Rating Scale; ROM - Range of movements; NDI - Neck Disability Index; MNP - Mechanical neck pain;
Key words: Adult; Cervical Vertebrae / physiopathology; Disability Evaluation; Exercise Therapy / methods; Female; Humans; Male; Manipulation, Spinal / methods; Neck / physiopathology; Neck Pain / physiopathology; Neck Pain / rehabilitation; Pain Measurement; Range of Motion, Articular; Thoracic Vertebrae / physiopathology; Treatment Outcome; Young Adult
Citation: Tahir R, Sohail MAA, Ain NU, Aine QU, Mannan H, Maqbool A. Comparative effect of upper thoracic spine mobilization with mobility exercises and upper cervical spine mobilization with stabilization exercises in mechanical neck pain: a randomized clinical trial. Anaesth. pain intensive care 2022;26(4):488-495.
DOI: 10.35975/apic.v26i4.1952
Received: April 11, 2022; Reviewed: June 23, 2022; Accepted: July 14, 2022
Introduction
Mechanical neck pain (MNP) is a distressing condition that arises from the back of the skull and travels towards the neck, shoulder blades and lower cervical spine. The alignment of the vertebrae is disrupted, so they aren't able to utilize their full potential biomechanical advancements that could lead to reduced mobility, resulting in severe discomfort.1 Mechanical neck pain can be defined as pain in neck aggravated by prolonged posture and movement of neck and palpation of neck musculature. Cervical pain is a major health problem which affects 45-54% of general population and can affect life quality by causing pain and disability.2 It can influence any race, age, or sex but more frequently in adults more in females in comparison to males.3 A couple of reasons for neck pain comprise of disc herniation/degeneration, spinal stenosis, joint pain, muscle strain, injury, or malignancy. There may likewise be no known cause.4 It is postulated that most frequent cause of pain in neck is due to cervical spine mechanical dysfunction. Management of this dysfunction is the emphasis of mobilization or manipulation treatment.5,6 Physiotherapists use multiple treatment options for treating mechanical neck pain such as joint mobilization, therapeutic exercises, electrotherapeutic modalities, soft tissue release techniques and joint manipulation.7 The common approach used by physical therapists to treat mechanical neck pain using manual therapy which aims to enhance tissue extensibility, increase range of motion (ROM), mobilize soft tissue or joints, and reduce pain.8 Cervical mobilization has been shown to be an effective treatment for mechanical neck pain.9 Stabilization exercises for the spine, in particular, have been used to activate deeper muscles, and minimize over activity of surface muscles. Stabilization exercises have become increasingly popular in management of spinal pains.10 Regional Interdependence theory proposes that by mobilizing neighboring body segments, a restriction in soft tissue can be broken using instruments for braking adhesions .11 This paradigm has been assessed in various studies where manual therapy of thoracic spine has been shown to help people with neck pain by lowering pain, increasing mobility, and decreasing disability.12 Though, there are multiple researches available on evaluating effects of cervical and thoracic mobilization separately
on neck pain patients, yet literature has not evaluated their comparative effect in addition with exercises.
The primary objective of the study was to evaluate the effects of upper thoracic spine mobilization with mobility exercises and upper cervical spine mobilization with stabilization exercises in reducing pain and improving cervical ROM and secondary objective was to evaluate functional index in patients with mechanical neck pain.
Methodology
This single blinded, randomized clinical trial was performed from June 2021 to October 2021, after approved by the Institutional Review Board of The University of Faisalabad. The study was conducted at Faisal Hospital, Mujahid Hospital, Bin Inam Physical Therapy & Chiropractic Rehab Clinic and Pro Health Wellness Center at Faisalabad, through the use of non-probability sampling technique of purposive type. Informed consent was taken from all research participants after explanation of research procedure to them. All subjects were asked about demographic data and medical history, and they underwent physical examination of the cervical and thoracic spines. Sample size of 30 was calculated with 15 subjects in each group by the use of a formula at OpenEpi tool.13,14 By the addition of 20% dropout rate, a sample size of 36 was decided with 18 in each group.
Where *SD = Standard deviation of the variable, d = significant effect size = difference between the mean values, Z α/2 = Z 0.05/2= 1.96 (from Z table), Zβ= Z 0.20 = 0.842 (from Z table) at 80% power.
All of the 36 individuals were randomized to one of the two groups: cervical (n = 18) or thoracic (n = 18) by using online randomization generator software. All participants were told not to share any information regarding their therapy with the other participants (Figure 1). The participants from both genders, ages 20-40 y, patients with primary complaint of neck pain for
the past l2 weeks, pain rating of more than 2 on Numerical Pain Rating Scale (NPRS), reduced cervical ROM in extension, rotation and side bending, Neck Disability Index (NDI) score of 10 points or more on 0 to 50 scale and committed to comply with treatment plans, were included. Participants with previous history of trauma or surgery to cervical or thoracic spine, whiplash injury, presence of neurological deficits, presence of bilateral upper extremity symptoms, cervical myelopathy or nerve root pathology, patients with positive Lhermitte’s sign, vascular diseases of head and neck, presence of any red flags e.g. fracture, tumor, osteoporosis, rheumatoid arthritis, metabolic diseases, blood pressure at rest more than 140/90 mm Hg, chronic history of corticosteroid use, any symptoms of central nervous system (CNS) involvement e.g. hyperreflexia, sensory deficits and muscle atrophy in hands, nystagmus, unsteadiness in gait, loss of visual acuity, abnormal facial sensation, dysgeusia, positive pathological reflexes, patients with psychological disorders or those who couldn’t comprehend given instructions were excluded.
Group A received upper thoracic mobilization and mobility exercise and Group B underwent upper cervical mobilization and stabilization exercises. Both groups received 20 min of hot pack application prior to specific group treatment.15 Initially, Kaltenborn mobilization was given in Grade II and was then progressed into Grade III.16 Patients received upper thoracic spine mobilization in prone position. Therapist placed left index and middle finger on transverse process of caudal vertebrae of targeted segment of patient. Therapist reinforced left index and middle finger by placing lateral side of the right palm on them. Mobilization was given in ventral to caudal direction. While, mobility exercise technique was performed by the patient actively by doing modified prone trunk lift by clenching hands on cervical spine.14
Group B received upper cervical mobilization in seated position on backrest chair. Therapist stabilized lower cervical spine with his right hand and kept his left thumb and index finger on atlas of patient. For giving C0-C1 mobilization, therapist placed his little finger beneath the occipital region and pulled patient’s head towards his body. Atlantoaxial mobilization was given by moving occipital condyle of the patient in backward direction by using torso and left hand of the therapist. Procedure was then repeated on the other side. While, cervical stabilization exercise technique was performed by the patient through breathing in until he got the feel of occipital bone pushing back. Patient sat on a chair with backrest while performing exercise.14 In both groups, 3 sets of exercises were performed with 1 set comprising of 10 repetitions for 10 sec each. A rest period of 5 sec was given for each movement and 30 sec per set. Total exercise time was less than 10 min. In both groups, joint mobilization was given for 30 sec, 3 times for every segment. Mobilization lasted for a total of less than 5 min, with a 10 sec break between mobilizations of each segment. Total time of
intersegmental movement and rest intervals was 30 sec.14 Treatment was provided for 2 times a week17
for 4 weeks for both groups.
NPRS was used to assess neck pain and universal goniometer to measure active cervical ROM.18,19 Cervical spine's normal ROM values for adults are 60° for cervical flexion, 75° for cervical extension, 45° for lateral flexion, and 80° for cervical rotation.20 NDI, original English version and Urdu translated (NDI-U) version has demonstrated excellent reliability to measure neck function in mechanical neck pain patients.18,21 Primary outcome measures including NPRS and cervical ROM scores were measured before treatment and then weekly for 4 weeks, while secondary outcome NDI was assessed at baseline and at end of 4th week
Statistical analysis
Independent variables in the study were age of the patient, treatment group of the patient; while dependent variables were pain, cervical ROM, and neck function. SPSS version V. 22 was used to analyze the data. The normality of the data was checked through skewness, kurtosis and Shapiro Wilk test for all dependent variables before conducting inferential statistics. Data was found normally distributed, then parametric tests were applied. Repeated measure ANOVA was conducted for within group analysis of NPRS and cervical ROM score at 5 time points. Paired sample t-test was conducted for within group analysis of NDI scores at 2 time points. Independent sample t-test was
conducted to find differences in Group A and B at different treatment sessions for all outcome measures.
Results
The mean age, and frequency (percentage) of gender in both groups is shown in Table 1.
The NPRS, cervical ROM and NDI significantly improved at post-treatment readings as compared to the baseline values in both groups A and B (P = 0.00) as shown in Table 2.
There was significant improvement in mean NPRS scores at 1st week, 2nd week, 3rd week and 4th week post-treatment readings with P < 0.05. There was significant improvement in mean cervical flexion, extension, left lateral flexion, right lateral flexion, left rotation and right rotation ROM at 2nd week, 3rd week and 4th week post-treatment readings (P < 0.05). Results showed significant reduction in mean NDI scores at week 4 in subjects of both groups (P < 0.05).
Discussion
This study proved that cervical mobilization along with stabilization exercise was found effective in reducing the pain level, improving the cervical spine ROM, and decreasing functional disability in patients with neck pain. Statistically significant differences in NPRS and cervical ROMs were observed at 2nd week, 3rd week,
and 4th week post-treatment readings between the 2 groups. Statistically significant difference was observed in NDI at 4th week post-treatment readings in both
groups. Statistically significant improvement was observed in the upper cervical spine mobilization with stabilization exercises group for all dependent variables. Celenay et al. demonstrated cervical mobilization with stabilization exercises to be effective in pain reduction, ROM enhancement, and functional improvement in mechanical neck pain patients.22 Farooq et al. also showed positive effects of cervical mobilization with exercises in improving pain scores, cervical ROM, and neck function.23 These findings are in agreement with the results of the current study because cervical mobilization along with stabilization exercise was found beneficial in reducing pain level, increasing the ROM of the cervical spine as well as reducing functional disability. Akhter et al. demonstrated that cervical manual therapy in combination with exercises that involve strengthening, stretching, and general ROM was effective in reducing the pain and improving the function of the cervical spine in neck pain patients.24 The difference with the current study lies in that Akhter used cervical mobilization in conjunction with stabilization exercise. Both treatments reduced the pain and functional disability in neck pain patients. Safdar et al. has shown dissimilar results to the current study. The study showed that cervical mobilization and stretching exercises, combined with or without upper thoracic mobilization in neck pain, demonstrated significant reductions in pain and improved the function of the cervical spine. But ROM of extension and rotation improved more in the upper thoracic spine mobilization group.25 According to the present study, soft tissue mobilization with exercises greatly improves the ROM of the cervical spine and reduces the pain or function of the cervical spine as compared to the exercises alone.26 The current study stated contrary findings that cervical mobilization greatly increases the ROM compared to mobilization in the thoracic area. Kim and Hwang Bo agreed with the current study findings by exhibiting pain reduction in neck pain patients by the treatment of cervical stabilization exercises.27 Another study by Yesil et al. has findings in concordance with this study, as both studies have found cervical stabilization exercises to be beneficial in pain alleviation, ROM improvement, and disability reduction.28 Griswold et al. compared the effects of cervical and upper thoracic spine mobilization with manipulation in patients with mechanical neck pain. Results of the study demonstrated no significant difference between the manipulation and mobilization groups. The study has shown beneficial effects of mobilization in improving pain and enhancing neck ROM and neck function in mechanical neck pain patients, in line with the findings of our study.29 Perveen et al. discovered that manipulation at the thoracic spine reduced pain and improved cervical spine function more than mobilization at the thoracic spine.30 On the contrary, the current study exhibited that cervical mobilization showed more reduction in pain, improved the ROM of the cervical spine, and reduced disability as compared to thoracic spine mobilization in neck pain individuals. Al-Bassiouny and El-Khozamy has demonstrated the beneficial effects of upper thoracic mobilization along with routine therapy in alleviating pain and improving cervical ROM and function.31 Current study also reveals that thoracic mobilization with stabilization exercises reduced the pain, improved the ROM of the cervical spine, and reduced the functional disability.
We evaluated the results of the study for a month and used NDI Urdu version for the ease of patients to report their functional activities accurately. Evidence is scarce about the combination effects of upper cervical mobilization assessed in combination with stabilization exercises or the combination of upper thoracic spine mobilization with mobility exercises in neck pain patients. This comparison is the distinguishing and innovative feature of the current study.
Limitations
Study limitations were; there was no follow-up after the discontinuation of the treatment to observe the long-term effects. It was a single blinded study, in which only patient was kept blind.
Recommendations for future researchers include larger sample size, triple blinded study, evaluation of more outcome measures, use of different treatment options alone or in combination to treat neck pain and long term follow up.
Conclusion
Current study concluded that both upper thoracic spine mobilization with mobility exercise and upper cervical spine mobilization with stabilization exercises were significantly effective in improving neck pain, cervical ROM and neck function in patients with mechanical neck pain.
Data availability
The numerical data generated during this research is available with the authors.
Acknowledgement
We gratefully acknowledge the facilitation provided by the Departments of Rehabilitation Science as well as the administrations of the healthcare institutions, which were involved in this study.
Trial Registration ID
IRCT20210630051741N1
Conflict of interest
The study did not involve any grant or funding, from internal or external sources.
Authors’ contribution
RT: Conception and design, Collection and assembly of data, Analysis and interpretation of the data, Drafting of the article, Statistical analysis
MA: Conception and design, Analysis and interpretation of the data, Drafting of the article
NA: Conception and design, Collection and assembly of data
QA: Collection and assembly of data, Manuscript editing
HM: Conception and design, Critical revision of the article for important intellectual content, Final approval and guarantor of the article
AM: Critical revision of the article for important intellectual content, Manuscript editing
References
Background & Objective: Neck pain is a very prevalent health condition. Physiotherapists use multiple treatment options for treating mechanical neck pain. We evaluated the effects of upper thoracic spine mobilization and mobility exercise and upper cervical spine mobilization and stabilization exercises in treating patients with mechanical neck pain.
Methodology: A randomized clinical trial was conducted comprising of 36 patients recruited from different clinics of Faisalabad, both genders, ages from 20-40 y, and randomly divided into two groups. Group A underwent upper thoracic mobilization and mobility exercise while Group B underwent upper cervical mobilization with stabilization exercises for 2 times a week for 4 weeks. Pain scores on Numerical Pain Rating Scale (NPRS) and cervical range of movements (ROM) scores were measured before treatment and then weekly for 4 weeks, while Neck Disability Index (NDI) was assessed at baseline and at the end of 4th week. SPSS version. 22 was used to analyze the data. Independent sample t-test was used for between group compression and P ≤ 0.05 (95%) was considered as significant.
Results: There was significant improvement in mean NPRS scores at 1st week, 2nd week, 3rd week and 4th week post-treatment (P < 0.05). There was significant improvement in mean cervical ROM at 2nd week, 3rd week and 4th week post-treatment readings (P < 0.05) and mean NDI score at 4th week (P < 0.05).
Conclusion: Both groups were found effective in improving pain, range of motion and neck function, but significant improvement in outcomes was observed in upper cervical mobilization and stabilization exercises group.
Abbreviations: NPRS - Numerical Pain Rating Scale; ROM - Range of movements; NDI - Neck Disability Index; MNP - Mechanical neck pain;
Key words: Adult; Cervical Vertebrae / physiopathology; Disability Evaluation; Exercise Therapy / methods; Female; Humans; Male; Manipulation, Spinal / methods; Neck / physiopathology; Neck Pain / physiopathology; Neck Pain / rehabilitation; Pain Measurement; Range of Motion, Articular; Thoracic Vertebrae / physiopathology; Treatment Outcome; Young Adult
Citation: Tahir R, Sohail MAA, Ain NU, Aine QU, Mannan H, Maqbool A. Comparative effect of upper thoracic spine mobilization with mobility exercises and upper cervical spine mobilization with stabilization exercises in mechanical neck pain: a randomized clinical trial. Anaesth. pain intensive care 2022;26(4):488-495.
DOI: 10.35975/apic.v26i4.1952
Received: April 11, 2022; Reviewed: June 23, 2022; Accepted: July 14, 2022
Introduction
Mechanical neck pain (MNP) is a distressing condition that arises from the back of the skull and travels towards the neck, shoulder blades and lower cervical spine. The alignment of the vertebrae is disrupted, so they aren't able to utilize their full potential biomechanical advancements that could lead to reduced mobility, resulting in severe discomfort.1 Mechanical neck pain can be defined as pain in neck aggravated by prolonged posture and movement of neck and palpation of neck musculature. Cervical pain is a major health problem which affects 45-54% of general population and can affect life quality by causing pain and disability.2 It can influence any race, age, or sex but more frequently in adults more in females in comparison to males.3 A couple of reasons for neck pain comprise of disc herniation/degeneration, spinal stenosis, joint pain, muscle strain, injury, or malignancy. There may likewise be no known cause.4 It is postulated that most frequent cause of pain in neck is due to cervical spine mechanical dysfunction. Management of this dysfunction is the emphasis of mobilization or manipulation treatment.5,6 Physiotherapists use multiple treatment options for treating mechanical neck pain such as joint mobilization, therapeutic exercises, electrotherapeutic modalities, soft tissue release techniques and joint manipulation.7 The common approach used by physical therapists to treat mechanical neck pain using manual therapy which aims to enhance tissue extensibility, increase range of motion (ROM), mobilize soft tissue or joints, and reduce pain.8 Cervical mobilization has been shown to be an effective treatment for mechanical neck pain.9 Stabilization exercises for the spine, in particular, have been used to activate deeper muscles, and minimize over activity of surface muscles. Stabilization exercises have become increasingly popular in management of spinal pains.10 Regional Interdependence theory proposes that by mobilizing neighboring body segments, a restriction in soft tissue can be broken using instruments for braking adhesions .11 This paradigm has been assessed in various studies where manual therapy of thoracic spine has been shown to help people with neck pain by lowering pain, increasing mobility, and decreasing disability.12 Though, there are multiple researches available on evaluating effects of cervical and thoracic mobilization separately
on neck pain patients, yet literature has not evaluated their comparative effect in addition with exercises.
The primary objective of the study was to evaluate the effects of upper thoracic spine mobilization with mobility exercises and upper cervical spine mobilization with stabilization exercises in reducing pain and improving cervical ROM and secondary objective was to evaluate functional index in patients with mechanical neck pain.
Methodology
This single blinded, randomized clinical trial was performed from June 2021 to October 2021, after approved by the Institutional Review Board of The University of Faisalabad. The study was conducted at Faisal Hospital, Mujahid Hospital, Bin Inam Physical Therapy & Chiropractic Rehab Clinic and Pro Health Wellness Center at Faisalabad, through the use of non-probability sampling technique of purposive type. Informed consent was taken from all research participants after explanation of research procedure to them. All subjects were asked about demographic data and medical history, and they underwent physical examination of the cervical and thoracic spines. Sample size of 30 was calculated with 15 subjects in each group by the use of a formula at OpenEpi tool.13,14 By the addition of 20% dropout rate, a sample size of 36 was decided with 18 in each group.
Where *SD = Standard deviation of the variable, d = significant effect size = difference between the mean values, Z α/2 = Z 0.05/2= 1.96 (from Z table), Zβ= Z 0.20 = 0.842 (from Z table) at 80% power.
All of the 36 individuals were randomized to one of the two groups: cervical (n = 18) or thoracic (n = 18) by using online randomization generator software. All participants were told not to share any information regarding their therapy with the other participants (Figure 1). The participants from both genders, ages 20-40 y, patients with primary complaint of neck pain for
| for Table 1: Baseline demographics of the study population (n = 36) | |||
| Parameters | Group A | Group B | |
| Age in Y (Mean ± SD) | 28.33 ± 5.19 | 28.38 ± 5.05 | |
| Gender | Male (n = 14) | 6 (33.33%) | 8 (44.44%%) |
| Female (n = 22) | 12 (66.67%) | 10 (55.56) | |
| Group A: Mobilization with Mobility Exercises. Group B: Mobilization with Stabilization Exercises. | |||
Group A received upper thoracic mobilization and mobility exercise and Group B underwent upper cervical mobilization and stabilization exercises. Both groups received 20 min of hot pack application prior to specific group treatment.15 Initially, Kaltenborn mobilization was given in Grade II and was then progressed into Grade III.16 Patients received upper thoracic spine mobilization in prone position. Therapist placed left index and middle finger on transverse process of caudal vertebrae of targeted segment of patient. Therapist reinforced left index and middle finger by placing lateral side of the right palm on them. Mobilization was given in ventral to caudal direction. While, mobility exercise technique was performed by the patient actively by doing modified prone trunk lift by clenching hands on cervical spine.14
Group B received upper cervical mobilization in seated position on backrest chair. Therapist stabilized lower cervical spine with his right hand and kept his left thumb and index finger on atlas of patient. For giving C0-C1 mobilization, therapist placed his little finger beneath the occipital region and pulled patient’s head towards his body. Atlantoaxial mobilization was given by moving occipital condyle of the patient in backward direction by using torso and left hand of the therapist. Procedure was then repeated on the other side. While, cervical stabilization exercise technique was performed by the patient through breathing in until he got the feel of occipital bone pushing back. Patient sat on a chair with backrest while performing exercise.14 In both groups, 3 sets of exercises were performed with 1 set comprising of 10 repetitions for 10 sec each. A rest period of 5 sec was given for each movement and 30 sec per set. Total exercise time was less than 10 min. In both groups, joint mobilization was given for 30 sec, 3 times for every segment. Mobilization lasted for a total of less than 5 min, with a 10 sec break between mobilizations of each segment. Total time of
intersegmental movement and rest intervals was 30 sec.14 Treatment was provided for 2 times a week17
| Table 2: Within group analysis of NPRS, cervical ROM and NDI. Data given as Mean ± SD | |||||||
| Outcome Measure | Group | Baseline | 1st week | 2nd week | 3rd week | 4th week | P |
| NPRS | Group A | 6.44 ± 1.09 | 5.94 ± 1.47 | 5.44 ± 1.33 | 4.68 ± 1.35 | 4.26 ± 1.09 | 0.00 |
| Group B | 6.16 ± 1.15 | 5.00 ± 1.23 | 3.77 ± 1.26 | 2.55 ± 1.24 | 1.00 ± 0.89 | 0.00 | |
| Cervical Flexion° | Group A | 38.67 ± 4.05 | 41.00 ± 3.97 | 43.11 ± 3.89 | 45.43 ± 3.84 | 47.46 ± 4.12 | 0.00 |
| Group B | 38.83 ± 5.52 | 43.11 ± 5.41 | 47.72 ± 5.19 | 52.11 ± 5.10 | 57.43 ± 4.74 | 0.00 | |
| Cervical
Extension° |
Group A | 37.78 ± 4.26 | 39.61 ± 4.07 | 41.72 ± 3.92 | 43.68 ± 3.59 | 45.60 ± 3.73 | 0.00 |
| Group B | 37.61 ± 5.34 | 41.61 ± 5.54 | 45.83 ± 5.83 | 50.72 ± 5.80 | 56.37 ± 5.46 | 0.00 | |
| Cervical R. Lateral Flexion° | Group A | 26.50 ± 2.97 | 28.05 ± 3.20 | 29.27 ± 3.08 | 30.12 ± 3.13 | 31.20 ± 3.02 | 0.00 |
| Group B | 26.72 ± 3.15 | 29.61 ± 3.18 | 33.83 ± 3.38 | 37.83 ± 3.05 | 41.62 ± 2.96 | 0.00 | |
| Cervical L. Lateral Flexion° | Group A | 27.27 ± 3.13 | 28.61 ± 3.18 | 29.67 ± 3.04 | 30.50 ± 3.07 | 31.53 ± 3.04 | 0.00 |
| Group B | 27.33 ± 3.21 | 30.33 ± 3.18 | 34.11 ± 3.30 | 37.83 ± 3.03 | 41.50 ± 2.98 | 0.00 | |
| Cervical R. Rotation° | Group A | 51.16 ± 5.15 | 53.83 ± 5.03 | 56.05 ± 4.84 | 59.37 ± 4.41 | 63.06 ± 4.75 | 0.00 |
| Group B | 50.56 ± 6.61 | 55.33 ± 6.31 | 60.05 ± 6.25 | 64.83 ± 6.22 | 70.43 ± 5.81 | 0.00 | |
| Cervical L. Rotation° | Group A | 52.72 ± 5.91 | 55.33 ± 6.08 | 58.05 ± 6.13 | 61.31 ± 6.37 | 63.80 ± 5.44 | 0.00 |
| Group B | 51.55 ± 6.53 | 55.72 ± 6.87 | 60.27 ± 7.16 | 65.11 ± 7.53 | 70.56 ± 6.18 | 0.00 | |
| NDI | Group A | 27.27 ± 4.38 | 17.40 ± 5.66 | 0.00 | |||
| Group B | 25.94 ± 5.10 | 5.37 ± 3.46 | 0.00 | ||||
for 4 weeks for both groups.
NPRS was used to assess neck pain and universal goniometer to measure active cervical ROM.18,19 Cervical spine's normal ROM values for adults are 60° for cervical flexion, 75° for cervical extension, 45° for lateral flexion, and 80° for cervical rotation.20 NDI, original English version and Urdu translated (NDI-U) version has demonstrated excellent reliability to measure neck function in mechanical neck pain patients.18,21 Primary outcome measures including NPRS and cervical ROM scores were measured before treatment and then weekly for 4 weeks, while secondary outcome NDI was assessed at baseline and at end of 4th week
Statistical analysis
Independent variables in the study were age of the patient, treatment group of the patient; while dependent variables were pain, cervical ROM, and neck function. SPSS version V. 22 was used to analyze the data. The normality of the data was checked through skewness, kurtosis and Shapiro Wilk test for all dependent variables before conducting inferential statistics. Data was found normally distributed, then parametric tests were applied. Repeated measure ANOVA was conducted for within group analysis of NPRS and cervical ROM score at 5 time points. Paired sample t-test was conducted for within group analysis of NDI scores at 2 time points. Independent sample t-test was
conducted to find differences in Group A and B at different treatment sessions for all outcome measures.
Results
The mean age, and frequency (percentage) of gender in both groups is shown in Table 1.
The NPRS, cervical ROM and NDI significantly improved at post-treatment readings as compared to the baseline values in both groups A and B (P = 0.00) as shown in Table 2.
There was significant improvement in mean NPRS scores at 1st week, 2nd week, 3rd week and 4th week post-treatment readings with P < 0.05. There was significant improvement in mean cervical flexion, extension, left lateral flexion, right lateral flexion, left rotation and right rotation ROM at 2nd week, 3rd week and 4th week post-treatment readings (P < 0.05). Results showed significant reduction in mean NDI scores at week 4 in subjects of both groups (P < 0.05).
Discussion
This study proved that cervical mobilization along with stabilization exercise was found effective in reducing the pain level, improving the cervical spine ROM, and decreasing functional disability in patients with neck pain. Statistically significant differences in NPRS and cervical ROMs were observed at 2nd week, 3rd week,
| Table 3: Between group analysis of NPRS, cervical ROM and NDI (baseline to 4th week). | ||||
| Outcome Measure | Session | Group A | Group B | P |
| NPRS | Baseline | 6.44 ± 1.09 | 6.16 ± 1.15 | 0.46 |
| 1st week | 5.94 ± 1.47 | 5.00 ± 1.23 | 0.04 | |
| 2nd week | 5.44 ± 1.33 | 3.77 ± 1.26 | 0.00 | |
| 3rd week | 4.68 ± 1.35 | 2.55 ± 1.24 | 0.00 | |
| 4th week | 4.26 ± 1.09 | 1.00 ± 0.89 | 0.00 | |
| Cervical Flexion° | Baseline | 38.67 ± 4.05 | 38.83 ± 5.52 | 0.91 |
| 1st week | 41.00 ± 3.97 | 43.11 ± 5.41 | 0.19 | |
| 2nd week | 43.11 ± 3.89 | 47.72 ± 5.19 | 0.00 | |
| 3rd week | 45.43 ± 3.84 | 52.11 ± 5.10 | 0.00 | |
| 4th week | 47.46 ± 4.12 | 57.43 ± 4.74 | 0.00 | |
| Cervical Extension° | Baseline | 37.78 ± 4.26 | 37.61 ± 5.34 | 0.91 |
| 1st week | 39.61 ± 4.07 | 41.61 ± 5.54 | 0.22 | |
| 2nd week | 41.72 ± 3.92 | 45.83 ± 5.83 | 0.01 | |
| 3rd week | 43.68 ± 3.59 | 50.72 ± 5.80 | 0.00 | |
| 4th week | 45.60 ± 3.73 | 56.37 ± 5.46 | 0.00 | |
| Cervical R. Lateral Flexion° | Baseline | 26.50 ± 2.97 | 26.72 ± 3.15 | 0.82 |
| 1st week | 28.05 ± 3.20 | 29.61 ± 3.18 | 0.15 | |
| 2nd week | 29.27 ± 3.08 | 33.83 ± 3.38 | 0.00 | |
| 3rd week | 30.12 ± 3.13 | 37.83 ± 3.05 | 0.00 | |
| 4th week | 31.20 ± 3.02 | 41.62 ± 2.96 | 0.00 | |
| Cervical L. Lateral Flexion° | Baseline | 27.27 ± 3.13 | 27.33 ± 3.21 | 0.95 |
| 1st week | 28.61 ± 3.18 | 30.33 ± 3.18 | 0.11 | |
| 2nd week | 29.67 ± 3.04 | 34.11 ± 3.30 | 0.00 | |
| 3rd week | 30.50 ± 3.07 | 37.83 ± 3.03 | 0.00 | |
| 4th week | 31.53 ± 3.04 | 41.50 ± 2.98 | 0.00 | |
| Cervical R. Rotation° | Baseline | 51.16 ± 5.15 | 50.56 ± 6.61 | 0.75 |
| 1st week | 53.83 ± 5.03 | 55.33 ± 6.31 | 0.43 | |
| 2nd week | 56.05 ± 4.84 | 60.05 ± 6.25 | 0.03 | |
| 3rd week | 59.37 ± 4.41 | 64.83 ± 6.22 | 0.00 | |
| 4th week | 63.06 ± 4.75 | 70.43 ± 5.81 | 0.00 | |
| Cervical L. Rotation° | Baseline | 52.72 ± 5.91 | 51.55 ± 6.53 | 0.57 |
| 1st week | 55.33 ± 6.08 | 55.72 ± 6.87 | 0.85 | |
| 2nd week | 58.05 ± 6.13 | 60.27 ± 7.16 | 0.03 | |
| 3rd week | 61.31 ± 6.37 | 65.11 ± 7.53 | 0.00 | |
| 4th week | 63.80 ± 5.44 | 70.56 ± 6.18 | 0.00 | |
| NDI | Baseline | 27.27 ± 4.38 | 25.94 ± 5.10 | 0.40 |
| 4th week | 17.40 ± 5.66 | 5.37 ± 3.46 | 0.00 | |
| Group A: Mobilization with Mobility Exercises. Group B: Mobilization with Stabilization Exercises. Data given as Mean ± SD. | ||||
groups. Statistically significant improvement was observed in the upper cervical spine mobilization with stabilization exercises group for all dependent variables. Celenay et al. demonstrated cervical mobilization with stabilization exercises to be effective in pain reduction, ROM enhancement, and functional improvement in mechanical neck pain patients.22 Farooq et al. also showed positive effects of cervical mobilization with exercises in improving pain scores, cervical ROM, and neck function.23 These findings are in agreement with the results of the current study because cervical mobilization along with stabilization exercise was found beneficial in reducing pain level, increasing the ROM of the cervical spine as well as reducing functional disability. Akhter et al. demonstrated that cervical manual therapy in combination with exercises that involve strengthening, stretching, and general ROM was effective in reducing the pain and improving the function of the cervical spine in neck pain patients.24 The difference with the current study lies in that Akhter used cervical mobilization in conjunction with stabilization exercise. Both treatments reduced the pain and functional disability in neck pain patients. Safdar et al. has shown dissimilar results to the current study. The study showed that cervical mobilization and stretching exercises, combined with or without upper thoracic mobilization in neck pain, demonstrated significant reductions in pain and improved the function of the cervical spine. But ROM of extension and rotation improved more in the upper thoracic spine mobilization group.25 According to the present study, soft tissue mobilization with exercises greatly improves the ROM of the cervical spine and reduces the pain or function of the cervical spine as compared to the exercises alone.26 The current study stated contrary findings that cervical mobilization greatly increases the ROM compared to mobilization in the thoracic area. Kim and Hwang Bo agreed with the current study findings by exhibiting pain reduction in neck pain patients by the treatment of cervical stabilization exercises.27 Another study by Yesil et al. has findings in concordance with this study, as both studies have found cervical stabilization exercises to be beneficial in pain alleviation, ROM improvement, and disability reduction.28 Griswold et al. compared the effects of cervical and upper thoracic spine mobilization with manipulation in patients with mechanical neck pain. Results of the study demonstrated no significant difference between the manipulation and mobilization groups. The study has shown beneficial effects of mobilization in improving pain and enhancing neck ROM and neck function in mechanical neck pain patients, in line with the findings of our study.29 Perveen et al. discovered that manipulation at the thoracic spine reduced pain and improved cervical spine function more than mobilization at the thoracic spine.30 On the contrary, the current study exhibited that cervical mobilization showed more reduction in pain, improved the ROM of the cervical spine, and reduced disability as compared to thoracic spine mobilization in neck pain individuals. Al-Bassiouny and El-Khozamy has demonstrated the beneficial effects of upper thoracic mobilization along with routine therapy in alleviating pain and improving cervical ROM and function.31 Current study also reveals that thoracic mobilization with stabilization exercises reduced the pain, improved the ROM of the cervical spine, and reduced the functional disability.
We evaluated the results of the study for a month and used NDI Urdu version for the ease of patients to report their functional activities accurately. Evidence is scarce about the combination effects of upper cervical mobilization assessed in combination with stabilization exercises or the combination of upper thoracic spine mobilization with mobility exercises in neck pain patients. This comparison is the distinguishing and innovative feature of the current study.
Limitations
Study limitations were; there was no follow-up after the discontinuation of the treatment to observe the long-term effects. It was a single blinded study, in which only patient was kept blind.
Recommendations for future researchers include larger sample size, triple blinded study, evaluation of more outcome measures, use of different treatment options alone or in combination to treat neck pain and long term follow up.
Conclusion
Current study concluded that both upper thoracic spine mobilization with mobility exercise and upper cervical spine mobilization with stabilization exercises were significantly effective in improving neck pain, cervical ROM and neck function in patients with mechanical neck pain.
Data availability
The numerical data generated during this research is available with the authors.
Acknowledgement
We gratefully acknowledge the facilitation provided by the Departments of Rehabilitation Science as well as the administrations of the healthcare institutions, which were involved in this study.
Trial Registration ID
IRCT20210630051741N1
Conflict of interest
The study did not involve any grant or funding, from internal or external sources.
Authors’ contribution
RT: Conception and design, Collection and assembly of data, Analysis and interpretation of the data, Drafting of the article, Statistical analysis
MA: Conception and design, Analysis and interpretation of the data, Drafting of the article
NA: Conception and design, Collection and assembly of data
QA: Collection and assembly of data, Manuscript editing
HM: Conception and design, Critical revision of the article for important intellectual content, Final approval and guarantor of the article
AM: Critical revision of the article for important intellectual content, Manuscript editing
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