Technical field
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This utility model belongs to medical instruments field, relates to physiotherapy table, is specifically related to a kind of ultrasound wave quasiconductor comprehensive physiotherapy appearance.
Background technology
General said naturopathy, mainly be physical agent (acousto-optic magnetic water-cooled electrothermal forces), utilization human physiology principle rule etc. by occurring in nature, dysfunction or pathological changes at body local or general, bestow suitable Noninvasive, non-medication and treat and handle patient body and do not accommodate the pain therapy mode, make it recover its original physiological function as much as possible.
Naturopathy is the very important ingredient in modern and the traditional medicine.In traditional Chinese therapeutics, the record of massage, massage, acupuncture, stone needle, fumigation and wash method is arranged very early, in fact all belong to the category of naturopathy.Physiotherapy table is exactly a series of apparatuses that Applied Physics treatment principle is treated patient.Physical therapy apparatus is auxiliary as a kind of clinical treatment and life health care, and, application little because of its side effect makes things convenient for, the adaptation population is extensive, and the approval that obtains broad masses is accepted.But, analyze the numerous physiotherapy table on the market, mainly there is three point problem: the one, be confined to the notion of doctor trained in Western medicine physical therapy more, bias toward the application of sound, light, electricity, these physical agents of magnetic, do not bring into play the speciality of Chinese medicine; The 2nd, do not consider with medicine mostly to combine application, can not give full play to the dual function of medicine and physical factor; The 3rd, function ratio is more single, and the scope of application is narrower, and curative effect is not good enough yet.
In clinical everyday work, fumigation and wash method and to apply ointment or plaster be treatment injury from falling down, pain numbness, quadriplegia, the dyskinesia, and the conventional means of inside and outside disease such as hyperosteogeny also is the therapy commonly used of functional rehabilitation.According to the state of an illness, want to reach ideal effect, to satisfy such condition in general:
(1), needs the difform medicated bag of applying ointment or plaster according to body part shape difference;
(2) want cold compress to want hot compress sometimes sometimes;
(3) keep steady temperature;
(4) can both carry out effective fumigation and wash method to any case position.
Tradition the applying ointment or plaster of the traditional Chinese medical science, fumigation and wash method method and general physiotherapy table or can not satisfy above-mentioned requirements or not have corresponding function.
The utility model content
The inventor is in being engaged in physical study research, in conjunction with social practice, find that existing physiotherapy table exists above-mentioned defective, through exchanging, explore with the traditional Chinese medical science, doctor trained in Western medicine circle, purpose is to propose a kind of ultrasound wave quasiconductor comprehensive physiotherapy appearance, can overcome these defectives of existing physiotherapy table preferably, satisfy clinical demand, for people's treatment and functional rehabilitation are applied.
Technical solution adopted in the utility model is a kind of ultrasound wave quasiconductor comprehensive physiotherapy appearance of design, and its structure comprises casing, supersonic generator is set by conduit serial connection supersonic flow amount controller and liquid ware in casing; The semiconductor cold-hot generator is set, cold flow end and hot-fluid end are respectively by conduit serial connection two-ways regulation valve and temperature controller, temperature controller is connected with liquid ware, small blast fan respectively, be communicated with external tube head after the small blast fan, external tube head is connected with corresponding physical therapy device by conduit.
In said structure, corresponding physical therapy device can be the hypersonic air flow cleaning device, as the shower nozzle that differs in size; Can be the hot and cold air cosmetic device, as skullcap, face shield, or straight tube; Or the stifling device of liquid medicine, as make the bag that difformity can be fixed in corresponding body part with rubber, adding prescription medicinal liquid or skin care liquid are fumigated in the liquid ware as required; Or firmware medicament plaster device, as make the difform pad of applying ointment or plaster with rubber, the health corresponding site is carried out hot packing; Or other suitable terminal physical therapy devices.
This ultrasound wave quasiconductor comprehensive physiotherapy appearance of the present utility model, utilize ultrasound wave, semi-conductive principle, set ultrasonic device and semiconductor device, give full play to the function of ultrasound wave and semi-conductive atomizing, cleaning, extraction, pyrogenicity, refrigeration, and in conjunction with the outer treating method of traditional medicine, integrate that medicine imports, applies ointment or plaster, the numerous functions of fumigation and wash method, be therapeutic device be again care appliance.The principle of this utility model utilization modern medicine naturopathy and traditional medicine outer treating method, several adnexa ends have been designed, a tractor serves several purposes, complex physiotherapy has overcome problems such as the general physiotherapy table scope of application is narrower, function singleness, curative effect is not good enough, given full play to the speciality that integrative therapy is learned, medicine and physical factor dual function have been gathered the treatment and health function of ripple, heat, hot and cold air, solid drugs, liquid medicine, skincare liquid or the like factor.Wherein the fumigation and wash method device and the device of applying ointment or plaster can be fixed on any pathogenic site of health because of making different shapes, improve therapeutic effect.In sum, this utility model both can be used as the auxiliary facilities of hospitalize disease, also can be used as the health therapy instrument of family, was with a wide range of applications and the basis, should be able to receive good economic benefit and social benefit.
Description of drawings
Fig. 1 represents the structure connection diagram of utility model ultrasound wave quasiconductor comprehensive physiotherapy appearance.
The specific embodiment
In conjunction with the accompanying drawings and embodiments, further specify the concrete structure of this utility model ultrasound wave quasiconductor comprehensive physiotherapy appearance, its feature and advantage are clearer.
This utility model ultrasound wave quasiconductor comprehensive physiotherapy appearance embodiment, referring to Fig. 1, its structure comprises: casing 1 is provided with supersonic generator 2, by conduit serial connection supersonic flow amount controller 3 and liquid ware 4 in casing 1; Semiconductor cold-hot generator 5 is set in casing 1, its cold flow end 5.1, hot-fluid end 5.2 are respectively by conduit serial connection two-ways regulation valve 6 and temperature controller 7, temperature controller 7 upstreams are communicated with liquid ware 4, the downstream is communicated with small blast fan 8 and external tube head 9, as this utility model main frame, according to clinical needs, select for use and change corresponding physical therapy device, as hypersonic air flow cleaning shower nozzle 10, or hot and cold air beauty mask 11, or the stifling bag 12 of liquid medicine, or the solid drugs multiple suitable terminal physical therapy devices such as pad 13 of applying ointment or plaster.Supersonic generator 2 behind the loading power, produces ultrasound wave, derive via liquid ware 4 with conduit, when liquid ware 4 had liquid, ultrasound wave made the atomization of liquid, mix to export to the fumigation and wash method device with the semiconductor heat air-flow, the health corresponding site is fumigated washed, play health protection and therapeutic action; When exporting to when end of applying ointment or plaster, the ultrasonic heat air-flow can add the Hot medicine bag Chinese medicine, and effective ingredient fully extracts proposition, and curative effect is better; When exporting to cleaning end, can clean scale removal to corresponding position.Semiconductor cold-hot generator 5, behind the loading power, cold flow end 5.1 produces cold airflow, and hot-fluid end 5.2 produces thermal current, is controlled the derivation of hot and cold air by control valve according to the needs of treatment and health.Supersonic flow amount controller 3 is installed on the supersonic generator conduit, the may command ultrasonic flow.Two-ways regulation valve 6 connects and the hot and cold air conduit, can adjust the cold size that goes out the hot and cold heat as required.Liquid ware 4 connects ultrasonic waveguide and airflow duct, carrying liquid and ultrasound wave is arranged or thermal current by the time, atomization of liquid evaporation is derived.Temperature controller 7 is regulated the control output temperature, keeps constant temperature.Small blower 8, be connected in outside the temperature controller 7, hot and cold air and atomized liquid pressurization are derived, human body multi-section position is carried on the back as face, head, skin, mouth and nose, neck shoulder breast abdomen, physical therapy is carried out at positions such as extremities joint, both be applicable to that hospital as the treatment auxiliary facilities, also can be used as the health therapy instrument of family.
In this study, we found no statistically significant differences between INIT and IASTM in VAS and ANDI posttreatment, but there were differences between INIT and STT group and IASTM and STT group.
In the within-group analysis, there was a statistically significant decrease in VAS, ANDI, and RMS% values within each group with favor to INIT. In PPT and MDF, there was a significant increase within each group with regard to INIT as P value <.05. In the between-group analysis at posttreatment, the results reported a statistically significant difference between INIT and STT, and also between IASTM and STT in all variables. Between INIT and IASTM, there was no statistically significant difference in VAS and NDI, but there was a statistically significant difference in PPT, RMS%, and MDF. The post hoc test reported improvement in all variables in all groups, with more favor to the INIT group in PPT and electrophysiological properties only.
We performed a pre-post prospective randomized controlled trial on 90 participants with nonspecific chronic neck pain. The participants were chosen randomly from physical therapy out-patient clinics in the Giza governorate and allocated randomly by permuted block to the following 3 groups: Group A received INIT on the upper trapezius in addition to supervised traditional therapy (STT) as hot pack, stretching and strengthening exercises, Group B received IASTM on the upper trapezius in addition to STT, and Group C received STT only. Treatment was 3 times per week for 4 weeks. Pain intensity by visual analog scale (VAS), pressure pain threshold (PPT) by commander algometer, neck disability by Arabic Neck Disability Index (ANDI), and electrophysiological properties in the form of muscle amplitude by root mean square (RMS), and fatigue by median frequency (MDF) were measured at baseline and after 4 weeks.
Therefore, the purpose of this study was to compare the effects of IASTM vs INIT on pain intensity, pressure pain threshold (PPT), neck disability, and electrophysiological properties in patients with NCNP. It was hypothesized that the IASTM and INIT could improve pain, function, and electrophysiological properties more than supervised traditional therapy (STT) in patients with NCNP.
Various techniques are used to treat neck pain, but few are both efficient and inexpensive. For researchers, determining the most appropriate intervention for individuals with NCNP remains a priority. According to the literature, IASTM and INIT were effective as well as non-exhaustive treatment methods for patients experiencing mechanical neck pain, 19 , 20 but there was a lack of literature that compared IASTM and INIT, so this study was conducted to compare INIT and IASTM in patients with NCNP.
One of these methods is the integrated neuromuscular inhibition technique (INIT), which is a combination of METs, IC, and strain counter strain (SCS) techniques that can be an effective way to deactivate and treat TrPs. 19 Instrument-assisted soft tissue mobilization (IASTM) with the M2T blade (M2T-Blade: IASTM Technology, Hamilton, ON, Canada) is a multifunctional instrument. Instrument-assisted soft tissue mobilization is inexpensive and has a variety of planes that can be used in treatment. Many studies have demonstrated its effectiveness in alleviating patients symptoms. 20
The primary goals of treating neck pain and MTrPs are to resolve the spasm, ease the pain, and deactivate the TrPs. Many studies have been conducted to assess the efficacy of various modalities and techniques in treating patients with NCNP and TrPs, 1 such as spray and stretch techniques, 12 ultrasound, 13 laser, 14 and heat packs. 15 Manual interventions include muscle energy techniques (METs), 16 ischemic compressions (ICs), 17 and pressure release therapy. 18
When an MTrP is compressed, it causes tenderness, referred sensations, motor dysfunction, and autonomic symptoms. 7 An MTrP is classified as active or latent based on its ability to reproduce clinical symptoms. When compressed, an active trigger point (TrP) partially or completely reproduces a familiarized symptom experienced by the patient. However, latent MTrPs do not reproduce any familiarized clinical presentation experienced by the patient. 8 A study using electromyography (EMG) has detected differences in cervical muscle activity between patients with NCNP and healthy individuals. 9 Impaired function of the upper trapezius (UT) may cause or prolong neck pain. It transfers loads from the shoulder girdle to cervical structures with low pain tolerance as a result of its superior attachments. 10 Moreover, neck pain is often associated with guarding muscle spasms, resulting in a reduction of blood flow to this muscle and increased pain. Also, weakness of the superficial and deep cervical spine extensors is common in patients with neck pain. 11
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Nonspecific chronic neck pain (NCNP) is a common disorder with symptoms lasting more than 12 weeks. 1 Pain is felt in the lateral and dorsal aspects of the neck and may radiate to the extremities, but no pathogenic signs or symptoms are present. 2 The prevalence of neck pain is about 70% of the general population. 3 Neck pain affects women more than men due to a lack of exercise and psychological factors. 4 , 5 Inactivity and abnormal loading cause the formation of small nodular taut bands with oversensitive painful focus in the musculature around the neck, known as myofascial trigger points (MTrPs), resulting in a musculoskeletal imbalance in the upper quarter of the body. 6
All of the measurement variables (age, weight and height, BMI, VAS, PPT, ANDI, MDF, and RMS) were investigated by the Shapiro-Wilk test, and all of them were normally distributed. One-way ANOVA was used to clarify the difference between groups demographic data and baseline measurements of all dependent variables. For clarification of the difference between time (pre and post) and treatments (groups), two-way multivariate ANOVA was used. The F value depends on Wilks lambda test. A post hoc test was used to investigate the difference between pre and post within every group and detect the difference between groups at pretreatment and posttreatment variables. A partial eta square (η 2 ) was used to identify the magnitude of the difference (effect size) between groups. The χ 2 test was used to clarify the difference between groups on 6 variables. The SPSS program (version 23; IBM Corp, Armonk, New York) was used, and the significance level (α) was 0.05. To account for the missing data from the 1-month measurement, an intention to treat analysis using multiple imputations was performed.
The number of participants were identified by calculating the effect size of the primary outcome (pain level) from a pilot study on 15 participants, 5 participants within each group. F tests-multivariate analysis of variance (ANOVA); repeated measures and within and between interactions were used. The effect size was 0.32, type I error was 0.05, and type II error was 1-β = 0.8. The total sample size was equal to 72 participants, and due to the estimation of dropout, 25% increased, so the total sample was 90 participants. The G*Power (version 3.1.9.2, Kiel University) software program 40 was used for detection.
The control group (STT only) received STT 3 times a week for 4 weeks and included 10 minutes of moist heat (hot pack), 37 isometric strengthening exercises for all cervical muscles by applying manual resistance on the side of the head for side bending, the occiput for extension, and the forehead for flexion. 38 The resistance was sustained for 10 seconds and repeated 10 to 15 times, 38 then they received stretching exercises for extensor muscles for 30 seconds and repeated 3 times in every session. 37 Finally, active ROM exercises for the neck and chin were performed. 39
The IASTM group received IASTM + STT 3 times a week for 4 weeks. For IASTM, the M2T blade was used to identify specific parts of the limitation on the right UT. After that, treatment planes 123 were used. Prior to treatment, Vaseline was applied as a lubricant to the skin around the neck area, and an alcohol pad was used to clean the instrument. Then, using an M2T blade at a 45° angle, long, slow strokes over the muscle were performed, beginning at its insertion and ending at its origin, for 2 to 3 minutes ( Fig 4 ). If the participant felt a burning sensation, they were instructed to apply an ice pack. 36
The INIT group received INIT + STT 3 times a week for 4 weeks. For INIT, the participant was in a supine lying position to minimize tension in the UT. During the PPT evaluation process, the site of the TrP was determined and marked. First, intermittent IC ( Fig 1 ) was initiated by using the thumb and index finger to apply a pincer grip to the TrP in the middle of the UT. The pressure would be applied intermittently for 5 seconds on and 5 seconds off, and this pressure was repeated for 90 seconds until the pain subsided. Second, the SCS ( Fig 2 ) began by applying pressure to the trigger point and asking the participants how much pain they were experiencing. The participants heads were passively flexed laterally to the affected side. The therapist then held the participant's forearm and passively moved the shoulder to about 90° of abduction while monitoring the discomfort induced by the TrP,and then asked the patient about the intensity of pain. If the pain decreased by 70% from the start, the position was held for 30 seconds and repeated 2 to 3 times. 35 Third, the MET ( Fig 3 ) begins with one of the investigator's hands stabilizing the affected shoulder and the other on the head side. The participant was asked to move the stabilized shoulder and head in the direction of the other. This contraction lasted 7 seconds and had a maximum voluntary contraction of 20%. After that, the muscle was lengthened for 30 seconds. This technique was done 3 times per session. 35
Following the MVIC assessment, participants were asked to write for 15 minutes; this task was chosen because it is the most common daily task for participants and involves a semi-static load, which aggravates their symptoms. Throughout the examination, the patient sat in a chair with the back completely supported, feet flat and supported on the floor, and hips and knees flexed 90°. The positioning of the head, neck, shoulder, and spine has been standardized in order to minimize their impact on UT activities. 33 The normalized RMS was computed as follows: RMS percent normalized = EMG amplitude during writing task / (average of 3 MVIC trials) × 100. 34 The MDF was calculated from the raw EMG signals.
It was performed as described by McLean 32 ; the participants performed isometric shoulder abduction with the arm at 90° of abduction and neutral rotation. Each contraction lasted 7 seconds and was repeated 3 times against manual resistance, with a 30-second rest in between .
Neurosoft's electromyogram device (Neuro-EMG-Micro, Neurosoft, Ivanovo, Russia) was used to assess the electrophysiological properties in the form of muscle amplitude (normalized root mean square [RMS]) and muscle fatigue in the form of median frequency (MDF) for the UT. To reduce skin impedance, the electrode placement sites were hairless and cleaned with a piece of cotton and alcohol. 32 The following electrodes were positioned on each participant's affected side: the active one was placed 2 cm lateral to the center of a line drawn from the C7 spinous process to the posterolateral acromion, whereas the reference electrode was placed over the wrist joint. 32 Prior to filtering, EMG signals with systemic bias were removed, and the full wave was rectified. After that, the linear envelope signals were normalized to maximal voluntary isometric contractions (MVIC).
The Arabic Neck Disability Index (ANDI) was used to assess neck disability. It is a valid and consistent tool with 10 categories. Each category is scored from 0 to 5, with an extreme possible score of 50. 30 Each participant was asked to select 1 reaction that best described the neck function. Numbers were calculated and recorded after participants completed the index. A score of 0 to 4 indicates no disability, a score of 5 to 14 indicates mild disability, a score of 15 to 24 indicates moderate disability, a score of 25 to 34 indicates severe disability, and a score greater than 34 indicates total disability. The lower the overall score, the less affected daily activity performance is. The higher the score, the more restricted daily activities are. 31
Pressure pain threshold was assessed by Commander Algometer (JTECH medical, Midvale, UT). The algometer is a handheld device that uses manual pressure stimulation to assess pain sensitivity in deep structures. It has been widely used and validated. 28 To determine the PPT, the algometer's tip was placed on the target TrP while the patient was in a sitting position. The pressure was increased by 1 kg per second. When the patient expressed distress and confirmed it verbally, the pressure value was documented as kg/cm 2 . This procedure was repeated 3 times at 60-second intervals, and the mean kg/cm 2 value was obtained as the measured PPT. 29
The pain was measured using a visual analog scale (VAS). The VAS is a self-reported measure with a horizontal or vertical line that is typically 10 centimeters in length. It is a valid and reliable tool for measuring the severity of the pain; the line's extremes refer to the pain status as no pain or worst pain. Each patient was asked to draw a line on the spot where they felt the most pain. 27 The minimal clinically important difference is 3.1 points . 28
Ninety participants with NCNP were allocated randomly by a computer-generated block randomization program to the following 3 equal groups: the IASTM group, the INIT group, and the control group that received STT. The size of each block was 9, and the allocation ratio was 1:1:1 to avoid bias between the 3 groups. The first author was responsible for the step of randomization and was not involved in assessment or treatment. The codes of randomization were kept in an opaque sealed envelope to ensure the concealment of the allocation. The third author assessed the participant's outcome measures and was blinded to the allocation and the treatment steps.
The participants with NCNP who were referred by an orthopedist were assessed for eligibility to join this study. The participants were asked to join if they had active TrPs in their UT muscle, pain at rest, a jump sign when pressure is applied, limited range of motion (ROM), and referred pain. 22 Furthermore, the participants reported pain in the posterior or posterior lateral aspect of the neck in the previous 3 months, and their ages ranged from 18 to 30 years, 23 body mass index (BMI) from 18 to 25 kg/m 2 ; participants with BMI of 25 kg/cm 2 were avoided, as there is a correlation between the thickness of skin and fascia and location of MTrPs. 24 Participants were excluded if they showed signs of serious pathology, such as malignancy or infection, history of cervical spine surgery in the previous 6 to 12 months, vascular syndromes such as basilar insufficiency, signs of cervical radiculopathy or myelopathy, or history of trauma or fractures in the cervical spine. 25 All patients were also checked for contraindications to treatment (eg, red flags, including pathologic fractures, neoplasm, systemic inflammatory diseases, infections, cervical myelopathy, and previous neck surgery), and participants with red flags were excluded. The remaining patients who had the diagnosis of NCNP were included in this study. 26
A prospective, single-blinded, randomized clinical trial was reported in accordance with the Consolidated Standards of Reporting Trials checklist and the Helsinki Declaration (). 21 The participants were recruited from Kasr-El Einy, Omm El-Masryyen, and El-Matareyya hospitals, and the study was carried out at the faculty of physical therapy's outpatient clinic from January to December .
A post hoc analysis of posttreatment differences in VAS and ANDI revealed no statistically significant difference between INIT and IASTM, but there were significant differences between the INIT and STT group and also the IASTM and STT group. In PPT, MDF, and RMS, there were statistically significant differences between all groups (P < .05) ( Table 3 ). The partial eta square investigated the magnitude of the difference between groups and reported a large difference between them as η 2 > .14. In VAS posttreatment, there were high differences between groups (η 2 = .51; PPT η 2 =.39; ANDI η 2 =.43; MDF η 2 = .94; and RMS% η 2 = .78).
The post hoc test reported a statistically significant decrease in VAS, ANDI, and RMS% values within each group compared with patients that received INIT. In PPT and MDF, there was a significant increase within each group with regard to INIT (P value <.05) ( Table 2 ).
The general multivariate analysis reported a statistically significant effect at time as Wilks Lambda (ʎ) value = .02, F value = 477.4, and P = . and also for the groups as ʎ =.08, F value = 23.83, and P = .. Finally, the interaction between time and groups was ʎ = .07, F value = 28.75, and P value = .. In the univariate analysis, there were statistically significant effects in the groups for VAS (F = 15.8 and P = .001), PPT (F = 10.6 and P = .001), ANDI (F = 9.69 and P = .001), MDF (F = 181.51 and P = .), and RMS% (P = 69.68 and P = .). The univariate analysis also reported a statistical significant effect at interaction between time and the groups for VAS (F = 31.52 and P = .), PPT (F = 17.71 and P = .), ANDI (F = 23.67 and P = .), MDF (F = 200.62 and P = .), and RMS% (F = 46.52 and P = .).
One hundred participants with NCNP were recruited from outpatient physical therapy clinics, and 10 participants were excluded because they had received treatment in the past 3 months. So, 90 participants entered this study and were allocated randomly to 3 equal groups. Four participants dropped out from the last assessment in this trial; 1 from INIT and the other in the STT-only group because of a busy schedule, and 2 from IASTM due to the COVID-19 virus ( Fig 5 ). Eighty-six participants completed the study with no differences in intervention adherence between the INIT, IASTM, and STT-only groups. The number of attendees was used to determine adherence; the adherence percentage in INIT was 97.2, IASTM was 98.6, and the adherence percentage in the STT-only group was 97.8.
This study compared the effects of INIT and IASTM on pain, function, and electrical activity of the UT in patients with chronic neck pain. The results revealed no statistically significant differences between INIT and IASTM in VAS and ANDI posttreatment, but there were differences between the INIT and STT groups and also the IASTM and STT groups. In PPT, MDF, and RMS, there was a difference between all groups (P < .05). Secondly, the minimal clinically important difference for VAS was 3.1,27 for NDI was 7.5 points41 and finally for PPT was 1.1 kg/cm2,43 so there was no clinically important difference between INIT and IASTM in VAS, NDI, and PPT. Finally, there were no statistically and clinically significant differences between INIT and IASTM in VAS and NDI, but there was only a statistically significant difference between INIT and IASTM in PPT. Minimal clinically important differences depended on previously published studies; however, there were no published studies that calculated for muscle amplitude and fatigue.
The improvement in the INIT group could be attributed to INIT's multiphase (IC, SCS, MET). Intermittent IC increases PPT and inhibits muscle tone by stimulating A-β fibers, which affects and closes the pain gate. Simultaneously, there is an increase in blood flow to the muscles, which undermines the theory of energy crisis and inhibits muscle tone.20,42 In the SCS technique, a nociceptive response is elicited in response to pressure, which can reduce tension and stress in the affected muscle. Reduced muscle tone can result in increased blood circulation subsequently. Furthermore, this technique normalizes the length of sarcomeres in the tissues that house the TrPs by resetting the muscle spindles, potentially reducing pain.43
The MET, which works on autogenic inhibition of muscle, is crucial in achieving tonus release (inhibition). This technique involves applying isometric muscle contraction, which causes the Golgi tendon organ to activate, resulting in muscle relaxation and a decrease in the activity of the muscle.43 According to Fryer and Fossum44, the sequence of muscle and joint mechanoreceptor activation elicits the firing of local somatic efferent. This, in turn, causes sympathoexcitation and activation of the periaqueductal grey matter, which is involved in descending pain modulation.44 These findings were consistent with those of Hidayat et al,45 who investigated the effect of INIT on neck function in UT myofascial pain syndrome. They found that INIT was effective in decreasing the neck disability index score.45
Furthermore, Nagrale et al42, presented the role of INIT on upper fiber trapezius TrPs using VAS, NDI, and ROM as measures. Finally, Saadat et al19 studied the effects of INIT on PPT and the numeric pain scale in participants with UT TrPs. The study included 32 female participants who were randomly assigned into 2 groups. The intervention group received INIT in a single session, while the control group received no treatment. According to the findings, the intervention group's pain intensity was significantly reduced.19
The improvement in IASTM group could be attributed to the ability of IASTM in detecting and removing adhesions within scar tissues. Instrument-assisted soft tissue mobilization can also boost fibroblast proliferation, increase vascular response, and improve collagen fiber matrix remodeling in disordered collagen fibers. Furthermore, the IASTM technique has been shown to result in clinical benefits, such as increased ROM after treatment and strength.20
The findings of our study agreed with those of El-Hafez et al,36 who conducted a study to investigate the effect of IASTM on UT active TrPs. They concluded that IASTM is an effective tool for deactivating TrPs and reducing pain levels.36 Also, Fryer and Hodgson22 investigated the use of IASTM in conjunction with exercises for patients experiencing neck pain. They claimed that combining IASTM with exercises resulted in greater pain and function improvement.22 Gulick25 conducted a study to investigate the effect of IASTM on the UT MTrPs. Pressure pain threshold was measured before and after 3 weeks of application. The results demonstrated that IASTM can effectively increase PPT.25 Furthermore, Emshi et al46 conducted a study on 81 participants with active TrPs in the UT to compare the effects of IASTM and dry needling on pain and function. Their findings indicated that both techniques were useful, with no significant difference in the measured variables.46
There is a lack of literature that supports the use of INIT and IASTM in participants with active TrPs to decrease muscle activity. There were no studies performed to compare our results with theirs. The only study that investigated the effect of MET on resting bioelectrical activity on muscles was reported by Ptaszkowski et al,47 who found no change in resting bioelectrical activity after the application of MET 3 times a day. No improvement in resting bioelectrical activity may be attributed to the short duration of treatment.47 We proposed that improvements in UT electrical activity occur as a result of TrP deactivation, collagen realignment, increased blood supply, and reset of the muscle spindle, which return the muscle to its normal length.
Improvements in pain function and muscle activity were also documented in the STT-only group. The cumulative effect of postural adjustment training (chin-in), cervical extensor stretching, isometric exercise, and moist heat exercise can be due to this refinement. Postural exercises may help to reduce the adverse loads on the cervical joints caused by poor cervical alignment. Also, it has the potential to strengthen the deep postural stabilizing muscles of the spine. If these exercises are performed repeatedly throughout the day, postural patterns will change.48
The improvement in the STT only-group could be attributed to the rapid hypoalgesic effects of isometric exercises in conjunction with stretching exercises, which is generally consistent with the proposed mechanism of action of isometric exercise. These exercises are used to treat cervical pain caused by somatic dysfunction.49 Stretching exercises can also help to relax a spasm. It relaxes muscles by acting on their viscoelastic properties. Applying a constant external load slowly to a shortened muscle causes deformation and increases the target muscle's flexibility.50
Firstly, INIT and IASTM have a clinical role in improving ROM. We did not measure ROM, so this is lacking in this study. Cervical ROM needs to be measured in future research. We did not investigate the long-term effect, so it is unknown how long the treatment benefits lasted. Finally, proprioception and endurance of cervical muscles were not measured in this study. Future research should measure these variables.
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