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Query: UMLS:C0030193 (
pain
)
261,466
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The most common cause of
pain
in the region of the temporomandibular joint is occluso-muscle imbalance. This results most often from disharmony between the articulation of the teeth and the centric relation of the condyles.
Muscle tenderness
of palpation indicates that muscle is involved. An examination must then be done to determine the cause of the muscle tenderness. Before the condyle-occlusion relationship can be evaluated, an accurate centric relation must be determined and verified. The condyles are in centric relation when they are in the most superior position possible in the fossae. From that apex of force position, the condyle can travel neither forward nor backward without moving downward. This position can be located with careful bilateral manipulation and then verified if it can resist firm pressure with no tension or tenderness. Until this correct centric relation is located and verified, it is not possible to properly evaluate the occlusal relationship to the temporomandibular joints. If the occlusion is harmonized to a centric related condyle that can resist firm pressure with pressure with no discomfort, there will be no reason for the muscles to protect either the teeth or the joints. If an occlusion is adjusted to a malrelated condylar position, the occluso-muscle imbalance will be perpetuated and often intensified. Centric relation is the starting point of occlusal contact. Incline interferences in excusive movements must also be eliminated and the occlusion must be harmonized to the envelope of function for each patient. If centric relation is not properly located, occlusal interferences will remain regardless of what procedures are used to record or adjust excursive movements.
...
PMID:Centric relation. Its effect on occluso-muscle harmony. 28 96
The signs and symptoms of 56 patients with myofascial
pain
-dysfunction syndrome were tabulated. Patients were classified by age, sex, education and professional background, frequency of complaints of
pain
, occlusal relationships, oral habits, and specific muscles that were tender on palpation. A coincidence of stress and tension and the onset of myofascial
pain
was observed. It is suggested that myofascial
pain
may be more common in women than in men.
Muscle tenderness
was associated particularly with the masseter, temporal, and lateral and medial pterygoid muscles.
...
PMID:A descriptive survey of signs and symptoms associated with the myofascial pain-dysfunction syndrome. 105 51
The Headache Classification Committee of the International Headache Society recently issued revised diagnostic criteria for headache disorders. According to these criteria, tension-type headache may be subclassified depending upon whether pericranial muscle disorder is found. The presence or absence of pericranial muscle disorder was to be determined by palpating the muscles for tenderness or by measuring electromyographic (EMG) activity. In this study, pericranial muscles were palpated, and EMG activity was measured in 27 episodic tension-type headache patients and 32 headache-free controls. All testing was done while the subjects were in a headache-free state.
Muscle tenderness
was positively associated with the diagnosis of tension-type headache. Headache subjects exhibited significantly higher levels of temporal EMG activity compared to controls, but EMG data were of little use in assigning individual subjects to diagnostic groups. Measures of muscle tenderness and hyperactivity were only weakly associated. Pericranial muscle tenderness and elevated EMG activity may index different aspects of abnormal muscle function.
Pain
1992 May
PMID:The use of electromyography and muscle palpation in the diagnosis of tension-type headache with and without pericranial muscle involvement. 160 44
1. The effect of muscle length on the development of muscle pain and fatigue has been studied. 2. Eight normal young adults performed maximal eccentric contractions of the elbow flexors. The muscles of one arm were exercised at short length, and the contralateral muscle at long length. Each contraction lasted approximately 1 s, and was repeated once every 10 s for 30 min. 3. Muscle strength and frequency-force characteristics were measured from isometric contractions before, immediately after and at 24 h intervals for the next 4 days.
Muscle tenderness
was assessed daily. 4. The muscle strength was reduced by approximately 10% by exercise at short length, and by 30% by exercise at long length. 5. The 20:100 ratio (force generated by stimulation at 20 Hz/force generated at 100 Hz) fell by 30% after exercise at short length and had recovered after 24 h. Exercise at long length reduced this ratio by 65% and the muscles had not fully recovered 4 days later. 6. Muscle pain developed after both exercise regimens, but was slightly worse after that at long length. 7. It is concluded that there is a length-dependent component in the development of
pain
and fatigue after eccentric exercise, which had previously been thought to be caused solely by high force generation.
...
PMID:Muscle fatigue and pain after eccentric contractions at long and short length. 337 Sep 23
Stiffness and
pain
occurring after eccentric exercise have been studied in human elbow flexor muscles. Increased muscle stiffness and flexion deformities of the elbow developed immediately after the exercise and were greatest 1-4 days later.
Muscle tenderness
and
pain
experienced during elbow extension developed more slowly but were both maximal at the same time as the muscle stiffness. EMG recordings at times when there was
pain
and flexion deformity showed the biceps to be electrically silent. This demonstrates that the
pain
was not due to sustained electrical activity in the muscle and the flexion was a consequence of shortening of non-contractile elements, presumably the connective tissue. It is suggested that some response to damaged connective tissue may cause increased mechanical sensitivity of muscle receptors which, in turn, gives rise to
pain
when the muscle is stretched or pressed.
Pain
1987 Aug
PMID:Skeletal muscle stiffness and pain following eccentric exercise of the elbow flexors. 367 Aug 75
A number of studies have reported abnormalities in the muscles of fibromyalgia patients. The early studies, some of which indicated morphologic abnormalities, had major problems with patient selection and lacked adequate control groups. More recent studies of morphology have shown only nonspecific or mild changes, perhaps consistent with subtle metabolic abnormalities, especially at tender point sites. Studies of muscle metabolism, however, particularly the more rigorous studies using MR spectroscopy, have failed to confirm abnormalities in muscle metabolism, both at tender and nontender point locations. The abnormalities detected in earlier studies appear to have been confounded by subtle metabolic changes resulting from muscle deconditioning. Studies of muscle blood flow also demonstrate abnormalities that can be explained by deconditioning alone. Studies of muscle strength that show differences between patients and controls can be explained by lack of voluntary effort. A popular theory of the genesis of
pain
in fibromyalgia syndrome was that excessive muscle tension led to increased excitability of nociceptors in muscle leading to muscle hypertension and chronic pain. Furthermore, defective sympathetic control was proposed to result in disturbed microcirculation and nociceptor excitation. In aggregate, however, studies using EMG techniques show no evidence of excessive muscle tension or defective sympathetic nervous function. Therefore, although muscular
pain
has been a central feature of fibromyalgia syndrome, controlled studies of muscle fail to support a convincing role for muscle in the pathophysiology of the condition.
Muscle tenderness
in fibromyalgia cannot be explained on the basis of primary muscle abnormalities, either structural or functional. Future pathophysiologic studies in fibromyalgia should focus on central mechanisms.
...
PMID:Is there muscle pathology in fibromyalgia syndrome? 886 Jul 98
Thirty patients with whiplash injuries were examined 1 to 55 months after the accidents.
Pain
had appeared on the day of the accident in 24 (80%) of the patients and with different delays in the remainder. The mean
pain
intensity was 43 mm (SD 26) on a visual analogue scale (VAS). All patients had
pain
in the neck, 17-33% had headache and 6-17% had
pain
in various regions of the arms. Thirteen patients (43%) suffered from constant
pain
, while 17 (57%) had
pain
-free periods.
Muscle tenderness
was higher at all tested sites compared with controls. The tolerance level to pressure
pain
in the index finger as well as grip strength and neck mobility was reduced compared with controls. The whiplash patients showed poorer mental well-being compared with a reference group representing the general population and compared with a group of tension-type headache patients.
...
PMID:Prolonged functional impairments after whiplash injury. 888 36
Spasmodic torticollis (cervical dystonia) is frequently a painful condition but little is known of the characteristics of the
pain
. We assessed 39 patients with spasmodic torticollis for the presence or absence, location, and quality of
pain
, as well as its correlation to postural abnormality.
Muscle tenderness
was evaluated by manual palpation and pressure algometry. Measurements were made on muscles either actively maintaining or opposing abnormal head posture, as well as on muscles not contributing to it. Control measurements were made in 18 healthy subjects. Two-thirds of patients reported continuous or intermittent recurrent
pain
.
Pain
was reported widespread and diffuse over the neck and shoulders, with some radiation, predominantly on the side toward which the head was twisted. There were no differences between study groups when compared for pressure algometry and only moderate differences when compared for manual palpation. No correlation was found between the severity of motor signs and
pain
. Degenerative changes seen on X-rays were similar in painful and
pain
-free patients. These findings suggest that
pain
associated with spasmodic torticollis does not arise in muscles alone, and we hypothesise that central mechanisms are also involved.
Pain
1997 Feb
PMID:Pain in spasmodic torticollis. 908 2
Increased pericranial muscle tenderness is connected with tension-type headache in adults. In children, the importance of muscle tenderness in the pericranial or neck-shoulder region in the pathogenesis of different types of headache is unknown. The present study evaluated muscle tenderness in the pericranial and neck-shoulder region in children with migraine, those with tension-type headache and those without headache. An unselected population-based questionnaire study concerning headache was carried out in 1135 Finnish schoolchildren aged 12 years. Of them, 183 children were randomly selected for a face-to-face interview and a clinical examination.
Muscle tenderness
was recorded by manual palpation and dolorimeter. Children with migraine had increased overall tenderness, recorded by manual palpation, compared with those without headache. They also self-reported tenderness in the neck-shoulder region during daily activities more often than the children of the other groups.
Muscle tenderness
was not associated with paediatric tension-type headache. The mean pressure
pain
thresholds did not differ among the three groups. However, a negative correlation between the total tenderness score and the dolorimeter score was found in each group. In conclusion, children with migraine had increased muscle tenderness at palpation of the pericranial and neck-shoulder muscles and they also reported
pain
symptoms in the neck-shoulder region most frequently. Instead, increased pericranial and neck-shoulder muscle tenderness was not associated with tension-type headache in children.
...
PMID:Muscle tenderness in pericranial and neck-shoulder region in children with headache. A controlled study. 1211 Jan 9
Muscle tenderness
and
pain
during movements are prominent symptoms associated with persistent jaw muscle pain. However, there is virtually no information on how trigeminal neurons respond to jaw movements (JM) or muscle palpation in the presence of muscle tissue injury or myositis. In this study, we investigated the effects of innocuous JM in the presence of acute masseteric inflammation on postsynaptic responses in the trigeminal brainstem nuclei by examining the expression of c-fos. In one group of rats, unilateral injections of an inflammatory substance, mustard oil (MO: 20%, 25 microl) were made into a masseter muscle. In another group, controlled and systematic JM were provided following MO injection. Three additional groups of rats were used to control for anesthetic, JM, and injection procedure. MO injected in the masseter muscle induced a high level of Fos protein expression in four principal trigeminal regions: the subnucleus caudalis (Vc), the ventral and dorsal regions of the Vc/Vi (subnucleus interpolaris) transition zone, and the paratrigeminal nucleus (PTN). Movements following MO injection consistently produced a significantly greater level of Fos expression in all these areas, especially in the Vc/Vi transition region and caudal Vc on the ipsilateral side. Importantly, movements also induced a significantly greater level of Fos expression in the caudal Vc on the contralateral side. The present results provide the first documentation that innocuous JM in the presence of muscle inflammation significantly increase the MO-induced c-fos expression in the trigeminal brainstem nuclei, which may explain the greater
pain
experienced during movement of inflamed or injured muscles.
Pain
2003 Aug
PMID:Innocuous jaw movements increase c-fos expression in trigeminal sensory nuclei produced by masseter muscle inflammation. 1292 26
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