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PIRIFORMIS SYNDROME: A CLINICAL REVIEW

DOI:10.14260/jemds/568
Authors:
Samarjit Dey at All India Institute of Medical Sciences, Mangalagiri
Samarjit Dey
  • All India Institute of Medical Sciences, Mangalagiri
Saurav Das
Saurav Das
Saurav Das
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Prithwis Bhattacharyya at North Eastern Indira Gandhi Regional Institute of Health & Medical Sciences
Prithwis Bhattacharyya
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Abstract

Piriformis Syndrome is a cause for Low back pain whi ch is most of the times misdiagnosed as it may mimic with various other con ditions. Abnormal condition of the Piriformis muscle such as hypertrophy, inflammation, or anatomic variations may lead to this condition. Reported incidence rates for Piriformis S yndrome among patients with low back pain vary widely, from 5% to 36%. Etiology of Piriformis Syndrome is also variable. It can be primary due to anatomical problems or secondary due to vario us other causes like trauma, local ischemia, limb-length discrepancy etc. Diagnosis of Piriformis Syndrome is complex. History with various clinical tests along with MRI, EMG (El ectromyography) and Diagnostic blocks may help to diagnose this condition. Here is a review of Piriformis syndrome for better understanding of the problem so that the diagnosis a nd management are appropriate. KEY WORDS:Piriformis Syndrome.
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REVIEW ARTICLE
Journal of Evolution of Medical and Dental Sciences/ Volume 2/ Issue 15/ April 15, 2013 Page-2502
PIRIFORMIS SYNDROME: A CLINICAL REVIEW.
Samarjit Dey, Saurav Das, Prithwis Bhattacharyya
1. Senior Resident. Department of Anaesthesiology
North Eastern Indira Gandhi Regional Institute of
Hospital and Medical Sciences (NEIGRIHMS), Shilong.
2. Senior Resident. Department of Anaesthesiology
North Eastern Indira Gandhi Regional Institute of
Hospital and Medical Sciences (NEIGRIHMS), Shilong.
3. Professor. Department of Anaesthesiology
North Eastern Indira Gandhi Regional Institute of Hospital and
Medical Sciences (NEIGRIHMS), Shilong.
CORRESPONDING AUTHOR:
Dr Samarjit Dey,
Department of Anaesthesiology,
NEIGRIHMS, Shillong-793018,
Meghalaya.
E-mail: drsamar0002@gmail.com
ABSTRACT: Piriformis Syndrome is a cause for Low back pain which is most of the times
misdiagnosed as it may mimic with various other conditions. Abnormal condition of the
Piriformis muscle such as hypertrophy, inflammation, or anatomic variations may lead to this
condition. Reported incidence rates for Piriformis Syndrome among patients with low back pain
vary widely, from 5% to 36%. Etiology of Piriformis Syndrome is also variable. It can be primary
due to anatomical problems or secondary due to various other causes like trauma, local
ischemia, limb-length discrepancy etc. Diagnosis of Piriformis Syndrome is complex. History
with various clinical tests along with MRI, EMG (Electromyography) and Diagnostic blocks may
help to diagnose this condition. Here is a review of Piriformis syndrome for better
understanding of the problem so that the diagnosis and management are appropriate.
KEY WORDS: Piriformis Syndrome.
INTRODUCTION: Piriformis Syndrome is often a misdiagnosed cause of Low Back Pain and
Sciatica secondary to sciatic nerve entrapment in Piriformis muscle at the greater sciatic notch.
Abnormal condition of the Piriformis muscle such as hypertrophy, inflammation, or anatomic
variations may lead to this condition.
1
Piriformis Syndrome occurs most frequently during the
fourth and fifth decades of life and affects individuals of all occupations and activity levels.
2-
4
Reported incidence rates for Piriformis Syndrome among patients with low back pain vary
widely, from 5% to 36%.
4,5
Piriformis Syndrome is more common in women than men, possibly
because of biomechanics associated with the wider quadriceps femoris muscle angle (i.e., “Q
angle”) in the os coxae (pelvis) of women.
6
Barr’s work correlating clinical features with
operative and histological findings , the dominant opinion for decades on the cause of sciatica
was nerve root compression by a herniated intervertebral disc. An alternative cause,
compression of the nerve trunk by the piriformis muscle, was proposed by Freiberg and Vinke
and developed by Robinson, who is credited with coining the term Piriformis Syndrome.
7
ANATOMY OF THE PIRIFORMIS MUSCLE AND THE SCIATIC NERVE: The Piriformis muscle
originates from the anterior surface of the S2–S4 sacral vertebrae, the capsule of the sacroiliac
joint, and the gluteal surface of the ileum near the posterior surface of the iliac spine. It runs
laterally through the greater sciatic foramen, becomes tendinous, and inserts into the piriformis
REVIEW
Journal of Evolution of Medical and Dental Sciences/
fossa at the medial aspect of the greater trochanter of the femur. The Pirifor
innervated by the branches of L5, S1, and S2 spinal nerves. The sciatic nerve, posterior femoral
cutaneous nerve, gluteal nerves, and the gluteal vessels pass below the Piriformis muscle.
There are various anatomical variations in the
nerve. In 120 cadaver dissections Beason and Anson
was the undivided nerve passing below the Piriformis muscle (84%) followed by the divisions
of the sciatic nerve betwee
n and below the muscle (12%). This finding was confirmed by
Pecina.
9
Figure 1: Anatomy of Piriformis muscle.
ETIOLOGY:
There are two types of Piriformis Syndrome
Piriformis Syndrome has an anatomic cause, such as a split
or an anomalous sciatic nerve path. Secondary Piriformis Syndrome occurs as a result of a
precipitating cause, including macrotrauma, microtrauma, ischemic mass effect, and local
ischemia. Among patients with pirifo
causes.
10
A history of trauma is usually elicited in approximately 50% of the cases: The trauma is
usually not dramatic and may occur several months before the initial symptoms. It may occur
after total h
ip replacement surgery or laminectomy.
Trauma to the buttock leads to inflammation and spasm of the muscle. Inflammatory
substances such as prostaglandin, histamine, bradykinin, and serotonin are released from the
inflamed muscle and may irritate the scia
irritation cycle. The stretched, spastic, and inflamed piriformis muscle may compress the sciatic
nerve between the muscle and the pelvis, with the compression occurring between the
tendinous portion of the mu
scle and the bony pelvis.
The real cause of this particular syndrome does not only depend on the relation sciatic
nerve-
piriformis muscle, because the incidence of the anatomical anomalies of these entities is
definitely superior to those treated in t
ARTICLE
Journal of Evolution of Medical and Dental Sciences/
Volume
2
/
Issue
1
5
/
April
15
, 2013
fossa at the medial aspect of the greater trochanter of the femur. The Pirifor
mis muscle is
innervated by the branches of L5, S1, and S2 spinal nerves. The sciatic nerve, posterior femoral
cutaneous nerve, gluteal nerves, and the gluteal vessels pass below the Piriformis muscle.
There are various anatomical variations in the
relationship of Piriformis muscle and Sciatic
nerve. In 120 cadaver dissections Beason and Anson
8
found that the most common arrangement
was the undivided nerve passing below the Piriformis muscle (84%) followed by the divisions
n and below the muscle (12%). This finding was confirmed by
Figure 1: Anatomy of Piriformis muscle.
There are two types of Piriformis Syndrome
primary and secondary. Primary
Piriformis Syndrome has an anatomic cause, such as a split
Piriformis muscle, split sciatic nerve,
or an anomalous sciatic nerve path. Secondary Piriformis Syndrome occurs as a result of a
precipitating cause, including macrotrauma, microtrauma, ischemic mass effect, and local
ischemia. Among patients with pirifo
rmis syndrome, fewer than 15% of cases have primary
A history of trauma is usually elicited in approximately 50% of the cases: The trauma is
usually not dramatic and may occur several months before the initial symptoms. It may occur
ip replacement surgery or laminectomy.
7
Trauma to the buttock leads to inflammation and spasm of the muscle. Inflammatory
substances such as prostaglandin, histamine, bradykinin, and serotonin are released from the
inflamed muscle and may irritate the scia
tic nerve resulting in pain–spasm–
inflammation
irritation cycle. The stretched, spastic, and inflamed piriformis muscle may compress the sciatic
nerve between the muscle and the pelvis, with the compression occurring between the
scle and the bony pelvis.
11-13
The real cause of this particular syndrome does not only depend on the relation sciatic
piriformis muscle, because the incidence of the anatomical anomalies of these entities is
definitely superior to those treated in t
he reported cases.
14
Page
-
2503
mis muscle is
innervated by the branches of L5, S1, and S2 spinal nerves. The sciatic nerve, posterior femoral
cutaneous nerve, gluteal nerves, and the gluteal vessels pass below the Piriformis muscle.
7
relationship of Piriformis muscle and Sciatic
found that the most common arrangement
was the undivided nerve passing below the Piriformis muscle (84%) followed by the divisions
n and below the muscle (12%). This finding was confirmed by
primary and secondary. Primary
Piriformis muscle, split sciatic nerve,
or an anomalous sciatic nerve path. Secondary Piriformis Syndrome occurs as a result of a
precipitating cause, including macrotrauma, microtrauma, ischemic mass effect, and local
rmis syndrome, fewer than 15% of cases have primary
A history of trauma is usually elicited in approximately 50% of the cases: The trauma is
usually not dramatic and may occur several months before the initial symptoms. It may occur
Trauma to the buttock leads to inflammation and spasm of the muscle. Inflammatory
substances such as prostaglandin, histamine, bradykinin, and serotonin are released from the
inflammation
irritation cycle. The stretched, spastic, and inflamed piriformis muscle may compress the sciatic
nerve between the muscle and the pelvis, with the compression occurring between the
The real cause of this particular syndrome does not only depend on the relation sciatic
piriformis muscle, because the incidence of the anatomical anomalies of these entities is
REVIEW ARTICLE
Journal of Evolution of Medical and Dental Sciences/ Volume 2/ Issue 15/ April 15, 2013 Page-2504
DIAGNOSIS AND TESTS: Diagnosis of Piriformis Syndrome is by history, which rules out other
differential diagnosis of this condition and clinical tests followed by Imaging and diagnostic
block. Isolated involvement of Piriformis is uncommon, and there may be concomitant presence
of other cause of Low Back Pain and Leg pain.
SYMTOMS
10
– Following are the possible symptoms of pirifomis syndrome.
Pain with sitting, standing, or lying longer than 15 to 20 minutes.
Pain and/or paresthesia radiating from sacrum through gluteal area and down posterior
aspect of thigh, usually stopping above knee.
Pain improves with ambulation and worsens with no movement.
Pain when rising from seated or squatting position.
Change of position does not relieve pain completely.
Contralateral sacroiliac pain.
Difficulty walking (e.g., antalgic gait, foot drop).
Numbness in foot.
Weakness in ipsilateral lower extremity.
Abdominal, pelvic, and inguinal pain.
Dyspareunia in women.
Pain with bowel movements.
SIGNS
10
Following are the possible clinical signs of Pirifomis Syndrome.
Tenderness in region of sacroiliac joint, greater sciatic notch, and Piriformis muscle.
Tenderness over Piriformis muscle.
Palpable mass (? Sausage shaped) in ipsilateral buttock.
Traction of affected limb provides moderate relief of pain.
Asymmetrical weakness in affected limb.
Piriformis sign positive.
Lasègue sign positive.
Freiberg sign positive.
Pace sign (flexion, adduction, and internal rotation Test result) positive.
Beatty test result positive.
Limited medial rotation of ipsilateral lower extremity.
Ipsilateral short leg.
Gluteal atrophy (chronic cases only).
Persistent sacral rotation toward contralateral side with compensatory lumbar rotation.
Through compensatory or facilitative mechanisms, Piriformis Syndrome may contribute to
cervical, thoracic, and lumbosacral pain, as well as to gastrointestinal disorders and headache.
15
According to Parziale et al
16
the following are the six cardinal features of the syndrome:
History of trauma to the sacroiliac and gluteal region.
Pain in the region of the sacroiliac joint, greater sciatic notch, and piriformis muscle,
extending down the leg and causing difficulty in walking.
Acute exacerbation of pain by stooping or lifting and moderately relieved by traction.
Palpable, sausage-shaped mass over the piriformis muscle, which is tender to palpation.
Positive Laseque sign.
Possible gluteal atrophy.
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CLINICAL TESTS
7
-
The following physical examination signs help in confirming the presence of
piriformis syndrome:
Pace sign: pain and weakness on resisted abduction of the hip while the patient is
seated, i.e., the hip is flexed.
Laseque sign: pain on voluntary flexion, adduction, and internal rotation of the hip.
Freiberg sign: pain on forced internal rotation of the extended thigh is due to stretching
of the Piriformis muscle and pressure on the sciatic nerve at the sacrospinous ligament.
The diagnosis of piriformis syndrome is made mostly on clinical grounds. Recent
publications showed the value of electromyography (EMG), computed tomography (CT), and
magnetic resonance imaging (MRI). EMG may detect myopathic and neuropathic changes
including a delay in the H-reflex with the affected leg in a flexed, adducted, and internally
rotated (FAIR) position as compared with the same H-reflex in the normal anatomic position. A
three standard deviation prolongation of the H-reflex has recently been recommended as the
physiological criterion for piriformis syndrome.
17
This EMG finding suggests entrapment of the
nerve by the hip abductor and external rotator, i.e., the Piriformis muscle, under which it passes.
MRI confirms the enlarged Piriformis muscle while CT of the soft tissues of the pelvis may show
an enlarged pirifomis muscle or abnormal uptake by the muscle.
18
DIFFERENTIAL DIAGNOSIS: The differential diagnoses of piriformis syndrome include the
causes of low back pain and sciatica. In contrast to herniated disc or foraminal stenosis, the
patient with Piriformis syndrome usually does not have neurologic deficits. Facet syndrome,
sacroiliac joint dysfunction, trochanteric bursitis, myofascial pain syndrome, pelvic tumor,
endometriosis, and conditions irritating the sciatic nerve should be considered in the
differential diagnoses of piriformis syndrome.
7
These conditions can be ruled out by complete
medical history, physical examination and imaging.
TREATMENT: The initial treatments of piriformis syndrome include physical therapy combined
with the use of anti-inflammatory drugs, analgesics, and muscle relaxants to reduce
inflammation, spasm, and pain.
7
CONSERVATIVE TREATMENT : Early conservative treatment is the most effective treatment,
as noted by Fishman et al,
19
who reported that more than 79% of patients with piriformis
syndrome had symptom reduction with use of nonsteroidal anti-inflammatory drugs(NSAIDs),
muscle relaxants, ice, and rest.
The mainstay of treatment, however, is piriformis stretching, which aims to correct the
underlying pathology by relaxing a tight piriformis, and related muscle stretching to relieve
nerve compression. Because the piriformis lies deep in the gluteus maximus, using moist heat or
ultrasound prior to stretching is most often suggested. Stretches can be done in both the
standing and supine positions, and they involve hip and knee flexion, hip adduction, and
internal rotation of the thigh, as in the flexion, adduction, internal rotation position. This may
take some time for patients to tolerate, as this is the same position used to provoke piriformis
pain. After stretching, lumbosacral stabilization, hip strengthening exercises, and myofascial
release are performed.
20
Strengthening of the hip abductors is added to the regimen when the symptoms
improve. Abnormal biomechanics caused by posture, pelvic obliquities, and leg-length
inequalities need to be corrected.
REVIEW ARTICLE
Journal of Evolution of Medical and Dental Sciences/ Volume 2/ Issue 15/ April 15, 2013 Page-2506
Nonsteroidal anti-inflammatory drugs and acetaminophen have been considered the
medications of choice in the management of the many conditions that manifest as low back pain,
including piriformis syndrome. Patients using NSAIDs, compared with those using placebo,
reported global reduction of symptoms after 1 week of treatment. Muscle relaxants are another
frequently prescribed medication for patients with piriformis syndrome. Patients using muscle
relaxants are nearly five times as likely to report symptom improvement by day 14, compared
with patients given placebo. Common adverse effects of muscle relaxants are dryness of mouth,
drowsiness, and dizziness.
21
Few studies have examined the role of narcotic analgesics in managing acute vs. chronic
musculoskeletal pain. However, it is clear that some patients with chronic pain do benefit from
these medications. Narcotics can be helpful in controlling episodes of severe or debilitating pain,
but they should be considered a short-term treatment only. Constipation, gastrointestinal upset,
and sedation are common adverse effects of narcotic medications. In addition, the potential for
addiction should always be considered when initiating treatment with medications from this
drug class.
10
INTERVENTIONAL MANAGEMENT: Fishman and colleagues reported a 10-year study on the
diagnosis, treatment, and outcome of patients with Piriformis syndrome. Each of their patients
received an injection of 1.5 ml of 2% lignocaine and 0.5 ml (20 mg) of triamcinolone acetonide
using a 3.5-inch 23–25G spinal needle followed by a standardized physical therapy protocol.
Other potential treatments for patients with Piriformis syndrome include prolotherapy (i.e.,
sclerotherapy, ligament reconstructive therapy), Osteopathic manipulative treatments.
Participants improved an average of 71.7%, suggesting the efficacy of corticosteroid and
lignocaine injection combined with physical therapy in treating piriformis syndrome, however,
there was no control group in their study.
20
Botulinum Toxin is being used increasingly for the treatment of various musculoskeletal
pain conditions. Exact mechanisms are not known, but Botulinum Toxin presumably relieves
pain by relaxing painfully spastic muscles. Botulinum Toxin A has Patients who do not respond
to the above conservative therapy are candidates for local anesthetic and steroid injections.
20
Surgery may be entertained in recalcitrant cases or when there is documented anatomic
abnormality of the piriformis muscle. The muscle may be excised, divided, or thinned.
7
TECHNIQUE OF PIRIFORMIS MUSCLE INJECTION
7
: Initially, piriformis injections were made
blindly. Newer techniques involve identification of the piriformis muscle with a muscle EMG or
with the use of CT/Ultrasound guidance. In the technique of Fishman et al. fluoroscopy and EMG
are utilized to identify the piriformis muscle. The patient is in the prone position and the
expected position of the piriformis muscle is identified using the greater trochanter of the femur
and lateral border of the sacrum and the sacroiliac joint as landmarks. Correct needle placement
is confirmed with muscle EMG and injection of contrast media. The steroid is then injected into
the piriformis muscle. Although successful in identifying the piriformis muscle, the technique
utilizes a muscle EMG that is not readily available in most pain management centers.
Another technique is the perisciatic injection of Hanania and Kitain. In their technique
the patient is in the lateral or semiprone position with the nondependent hip and knee flexed
and the dependent extremity straight. The sciatic nerve is located with a nerve stimulator, the
needle is withdrawn a few centimeters, and then 40 mg methylprednisolone in 5 to 10 mL dilute
local anesthetic is injected. Fluoroscopy was not utilized in their technique. Hanania and Kitain
REVIEW ARTICLE
Journal of Evolution of Medical and Dental Sciences/ Volume 2/ Issue 15/ April 15, 2013 Page-2507
described 6 patients who were previously unresponsive or partially responsive to blind
piriformis muscle injections or epidural steroid injections. Their patients had relief of their pain
for up to 18 months.
A technique was described wherein the lower border of the sacroiliac joint was used as
the landmark.
The patient is prone and the lower border of the sacroiliac joint, greater sciatic foramen,
and the head of the femur are identified by fluoroscopy. The area is prepared and draped, and
anesthetized with local anesthetic. A 15 cm insulated needle connected to a nerve stimulator is
inserted at 1.5 ± 0.8 cm (range: 0.5 to 3 cm) lateral and 1.2 ± 0.6 cm (range: 0.5 to 2 cm) caudal
to the lower border of the sacroiliac joint. The needle is advanced perpendicularly until a motor
evoked response of the sciatic nerve is obtained at a depth of 9.2 ± 1.5 cm (range: 7.5 to 13 cm).
The evoked motor response of the foot can be inversion, eversion, dorsiflexion, or plantar
flexion. The needle is pulled back 0.3 to 0.6 cm, to avoid intraneural injection, and 40 to 60 mg
methylprednisolone in 5 to 6 mL saline is injected. The needle is pulled back another 0.5 to 0.7
cm to place the tip of the needle at the belly of the piriformis muscle. Radiopaque dye (2 to 3
mL) is injected and the muscle is outlined. Methylprednisolone/Triamcinolone (40 to 60 mg) in
6 to 8 mL local anesthetic is injected into the muscle.
Botulinum toxin may be injected into the muscle if the patient has transient response to
the steroid and local anesthetic injection. Botulinum toxin blocks the release of acetylcholine at
the neuromuscular junction resulting in the prolonged relaxation of the muscle.
When examining the piriformis muscle using ultrasound, the patient should first assume the
prone position Placing a pillow or towels between the bed and the patient’s inguinal area can
help increase the pelvic tilt. This allows better visualization of the piriformis muscle via
ultrasound. A curvilinear transducer is placed in a transverse orientation to first identify the
sacral cornue and is then moved toward the greater trochanter until the lateral edge of the
sacrum is observed. The transducer is moved further laterally until the greater trochanter and
ilium are both observed. The piriformis muscle will appear as a hyperechoic band lying between
the lateral edge of the sacrum and the greater trochanter and deep in the gluteus maximus
muscle . The sciatic nerve appears as an oval-shaped hypoechoic structure lying deep in the
piriformis muscle.
22
In a recent study of Manuel Reus et al
23
all the patients received US-guided perisciatic
infiltration satisfactorily. The average time of the procedure was 8 min (range: 5–10 min).Few
patients felt a slight weakness in the lower limb after perisciatic injection, which disappeared
spontaneously a few hours later. No local or general complications were observed after
injection.
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... [3,4] Pain aggravation by sitting is one of the important clinical signs. [3,4,15,16] Tenderness with deep palpation and positive SLR test are important physical examination findings. [3,4] However, these clinical findings may also be positive in pathologies, such as facet syndrome, sacroiliac joint problems and lumbar disc herniation. ...
... These pathologies should definitely be considered in the differential diagnosis. [16] Provocative stretching maneuvers (Frieberg, Pace, Beatty, FAIR) can be used, although their sensitivity and specificity are controversial. [17] MRI can provide useful information about PM and the course of the sciatic nerve and can identify lesions that can be observed and suppress the nerve in that area. ...
An Unusual Case of Piriformis Syndrome: Peroneal Neuropathy
Article
Full-text available
  • Jun 2020
Piriformis syndrome (PS) is a syndrome consisting of symptoms that occur due to compression of the sciatic nerve at the level of the piriformis muscle (PM). The most commonly reported complaints (cardinal features) are radiation to the ipsilateral tight, buttock pain, and reproduction of pain on prolonged sitting. In this study, we report a 64 years old female case presented with peroneal neuropathy symptoms without gluteal pain and sciatica and treated using ultrasound-guided PM injection successfully.
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... Nosologically, the piriformis syndrome belongs to the group of deep gluteal space problems. In medical practice, the complexity of the piriformis syndrome requires a differential diagnosis that includes sacroiliac joint dysfunction [8], wallet neuritis, leglength discrepancy [32], myofascial gluteal pain syndrome, trochanteric bursitis, the facet syndrome, etc. Unfortunately, the lack of anatomo-topographic data about piriformis frequently results in misunderstandings of pelvic problems related to this muscle. ...
Novel anatomical findings with implications on the etiology of the piriformis syndrome
Article
Full-text available
Purpose The cause of the piriformis-related pelvic and extra-pelvic pain syndromes is still not well understood. Usually, the piriformis syndrome is seen as extra-pelvic sciatica caused by the entrapment of the sciatic nerve by the piriformis in its crossing through the greater sciatic foramen. However, the piriformis muscle may compress additional nerve structures in other regions and cause idiotypic pelvic pain, pelvic visceral pain, pudendal neuralgia, and pelvic organ dysfunction. There is still a lack of detailed description of the muscle origin, topography, and its possible relationships with the anterior branches of the sacral spinal nerves and with the sacral plexus. In this research, we aimed to characterize the topographic relationship of the piriformis with its surrounding anatomical structures, especially the anterior branches of the sacral spinal nerves and the sacral plexus in the pelvic cavity, as well as to estimate the possible role of anatomical piriformis variants in pelvic pain and extra-pelvic sciatica. Methods Human cadaveric material was used accordingly to the Swiss Academy of Medical Science Guidelines adapted in 2021 and the Federal Act on Research involving Human Beings (Human Research ACT, HRA, status as 26, May 2021). All body donors gave written consent for using their bodies for teaching and research. 14 males and 26 females were included in this study. The age range varied from 64 to 97 years (mean 84 ± 10.7 years, median 88). Results three variants of the sacral origin of the piriformis were found when referring to the relationship between the muscle and the anterior sacral foramen. Firstly, the medial muscle origin pattern and its complete covering of the anterior sacral foramen by the piriformis muscle is the most frequent anatomical variation (43% in males, 70% in females), probably with the most relevant clinical impact. This pattern may result in the compression of the anterior branches of the sacral spinal nerves when crossing the muscle. Conclusions These new anatomical findings may provide a better understanding of the complex piriformis and pelvic pain syndromes due to compression of the sacral spinal nerves with their somatic or autonomous (parasympathetic) qualities when crossing the piriformis.
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... The symptoms the piriformis syndrome causes radiating pain below the knee. This clinical entity may be responsible for 0.3% to 6% of all low backache and sciatica cases [1]. The annual prevalence rate of newly diagnosed cases of low back pain and sciatica is 40 million. ...
Treatment approach of Ayurveda for the management of Piriformis Syndrome-A Case Report
Article
Full-text available
  • Jun 2021
Background: Piriformis Syndrome is an abnormal condition characterized by symptoms and signs due to compression of the sciatic nerve by the inflammation of piriformis muscles. The patient with this syndrome generally presents with clinical features such as stiffness in the lower lumber region, radiating pain from the right side of the lumbar region to buttocks & thighs, and difficulty while walking due to compression of the sciatic nerve is mentioned in a classic of modern science. It generally affects the middle-aged person with a 1:6 ratio of male to female. In Ayurveda, it can be compared with Katigata Vata, in which Katishoola is the prime feature. Material and methods: A single case study of 52 years old male patients reported to the outdoor department of Panchkarma with the above-said complaints of Piriformis Syndrome for the last six months. Observation and result: After the successful intervention of a combination of Panchkarma (Kati Basti and Yogavasti) & Shaman Chikitsa, including Punarnavadi Guggulu, Hingwashtak Churna, and tab Shallaki for consecutive ten days, the significant response was found in all clinical features. Discussion: Combination of herbs used for both procedures and palliative treatment with properties such as Vedanasthapana, Shothahara, Bruhana with Ushna Veerya plays a crucial role in breaking the pathogenesis of piriformis Syndrome. Conclusion: The Ayurvedic management with Shodhana and Shaman Chikitsa can effectively manage piriformis syndrome safely and effectively.
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... PS is characterized by the following symptoms: pain during walking (e.g. antalgic gait, foot drop); pain that lasts more than 15-20 minutes when lying, sitting and standing; pain that arises when standing up from a seated or squatting position; pain that is not relieved by change of position; pain in the abdomen, pelvis and inguinal region; and dyspareunia in females [10]. ...
Effects of ELDOA and post-facilitation stretching technique on pain and functional performance in patients with piriformis syndrome: A randomized controlled trial
Article
  • Aug 2020
Background: Piriformis syndrome (PS) is a neuro-muscular condition, which is often underdiagnosed in clinical settings. This study will determine the effects of myofascial stretching Elongation Longitudinaux Avec Decoaption Osteo Articulaire (ELDOA) and post-facilitation stretching of the piriformis muscle in patients with PS. Objective: We aimed to compare the effects of ELDOA and post-facilitation stretching of the piriformis muscle on pain, muscle length and functional performance in patients with PS. Methods: A randomized clinical trial was conducted with 40 PS patients including both males and females, between the ages of 30-70. Patients were randomly assigned to the ELDOA or post-facilitation group after assessments with the Numeric Pain Rating Scale (NPRS), Lower Extremity Functional Scale (LEFS), Piriformis Length Test and Straight Leg Raise (SLR). The assessments were done at baseline and at the end of the sixth week of treatment. Results: The patients treated with ELDOA demonstrated significant improvement in pain (pre = 7.00 ± 2.75, post = 3.00 ± 1.75), piriformis length (pre = 27.6 ± 5.54, post = 36.8 ± 3.13), SLR (pre = 36.40 ± 7.24, post = 67.5 ± 8.36) and LEFS (pre = 26.90 ± 12.24, post = 58.10 ± 8.62), as compared with the group treated with post-facilitation stretching: pain: pre = 6.00 ± 1.00, post = 2.00 ± 1.50; piriformis length: pre = 28.55 ± 4.03, post = 38.8 ± 2.70; SLR: pre = 40.60 ± 7.48, post = 74.25 ± 5.19, and LEFS: pre = 25.20 ± 7.66, post = 66.30 ± 7.27). Conclusion: It can be concluded that the post-facilitation stretching technique shows more improvement in pain, muscle length, SLR, and LEFS in patients with PS as compared to ELDOA.
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... All of which cause a cycle of pain-spasm-inflammation-irritation. 15 The type of pain that occurs in our study respondents was chronic pain. Chronic pain caused by continuous C-fiber stimulation, tissue inflammation, and peripheral nerve injury. ...
Prevalence and risk factor of piriformis syndrome among online motorcycle taxis in Denpasar, Bali
Article
Full-text available
  • Jul 2020
Objective: the purpose of this study was to find out the prevalence and risk factors of Piriformis syndrome in online motorcycle taxis in Denpasar Methods: This study was an observational study with cross-sectional study design. The total sample was 87 respondents, and the sampling method used a purposive sampling technique. Results: research result showed prevalence and risk factor of piriformis syndrome based on risk factors for work duration: the prevalence of Piriformis syndrome in respondents with a duration of work of more than 8 hours was 48 (55.2%) respondents while 39 respondents (44.8%) in respondents with a duration of work of fewer than 8 hours. Based on the habit of putting a wallet in the back pocket, there were 33 (37.9%) respondents who had that habit while respondents without that habit had 54 respondents (62.1%). Conclusion: in a conclusion work duration, the habit of putting a wallet in the back pocket becomes a risk factor for piriformis syndrome in an online taxi driver.
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... 3. History of vertebral fracture. 4. Disc pathology and mechanical back pain. 5. History of spinal surgery. ...
Effect of Dry Needling on Sciatic Nerve Compression Arising from Piriformis Syndrome
Article
Full-text available
  • May 2020
Abstract Objective: To show the impact of dry needling in piriformis syndrome-induced sciatic nerve compression. Materials and Techniques: The research was performed in the physiotherapy department at Palestine Ahliya University. Patients with sciatica were randomly gathered. The sample was 20 individuals, 20 - 55 years old. They were split into two groups, Group A with 10 patients, receiving conventional therapy over 2 weeks for 6 sessions. Group B with 10 patients received one single session of dry needling treatment. The resulting measurements were used for pain (VAS), functional evaluation (ODI) and anxiety (HADS). Results: The P-value in group therapy pain after group therapy was 0.052, slightly above 0.05. Therefore, there is no significant difference between the two treatments, but effect size calculations suggest that pain in patients is reduced by the dry needle more than conventional treatment. For (ODI) outcomes, there was no significant difference between groups greater than 0.05 after treatment with P-value = 0.089, but effect size calculations suggest that conventional therapy enhances more than dry needling function for sciatica patients. The test for post-therapy results showed a P value of 0.52 for anxiety results. This value exceeds 0.05, so we deduce that after therapy there is no statistically significant distinction in outcomes of HADS anxiety between group A and group B. However because the pre-scores are not similar, this outcome does not imply much. Conclusion: Dry needling therapy is better than conventional therapy in reducing pain. Keywords: Sciatica; Piriformis Syndrome; Dry Needles; Stretching Exercises
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... The piriformis muscle, the largest short lateral rotator of the hip joint, has a potentially important role in dynamic stabilization of the hip joint during daily activities (Giphart et al., 2012;Retchford et al., 2013). Repetitive movements with increasing demand on the piriformis muscle could result in increased muscle tension, compress the nerves and vessels within the muscle, and lead to the development of piriformis muscle syndrome (PMS) (Broadhurst et al., 2004;Dey et al., 2013a;Fishman et al., 2002a). The prevalence of PMS diverges from 12.2% to 27%. ...
Gait analysis of patients with piriformis muscle syndrome compared to healthy controls
Article
  • May 2020
Background Piriformis muscle syndrome (PMS) is a condition that can causes local buttock pain and tenderness. The symptoms of PMS are related to the hip joint position and may affect repetitive daily tasks such as walking. Objectives What is the difference between the gait characteristics of patients with PMS and those of matched-healthy controls? Design Observational study. Methods Thirty patients with PMS and 30 age-, sex-, and height-matched healthy participants underwent three-dimensional walking analysis. Results The results showed no significant differences in the spatiotemporal characteristics of gait between the groups (p > 0.1). The PMS group flexed the hip joint significantly more (−7.2 [–11.9 to −2.2], p = 0.003) and extended the hip joint to a lesser degree (−2.48 [–4.91 to −0.5], p = 0.04) than the control group. Patients with PMS needed a statistically significantly longer time to reach the peak angles of hip internal (1.3 [1 to 1.9], p = 0.003) and external (5.5 [0.9 to 10.1], p = 0.01) rotations during the gait cycle. Further, the results showed that the sagittal range of motion of the knee joint was significantly lesser in patients with PMS than in controls (3.45 [0.4 to 6.4], p = 0.02). Conclusions Patients with PMS seem to have different kinematic changes during level walking. Changing the peak flexion and extension of the hip joint is considered a strategy to enable pain-free gait in patients with PMS. Further, the knee kinematics are modified consequent to the change of hip joint kinematics.
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Prevalence Of Piriformis Muscle Syndrome Among Individuals with Low Back Pain: Piriformis Muscle Syndrome Among Individuals with Low Back Pain
Article
Full-text available
  • Sep 2022
Piriformis syndrome is a condition in which the piriformis muscle, located in the buttock region, spasms and causes buttock pain. The piriformis muscle also can irritate the nearby sciatic nerve and cause pain, numbness and tingling. Starts at the lower spine and connects the upper surface of each femur (thighbone). Functions to assist in rotating the hip and turning the leg and foot outward Runs diagonally. Objective: To find out the prevalence of piriformis muscle syndrome among individuals with low back pain. Methods: Participation of population from Gujranwala city from various emergency clinics was remembered for this study in view of inclusion and exclusion criteria. The data was collected through non-probability convenient sampling technique. Affirmed instances of low back torment patients were added and get some information about their agony as indicated by VAS (visual simple scale) and outer muscle tests (FAIR test, pace sign, Piriformis stretch (test) were performed on patients. Results: The results have been obtained from 219 participants. The overall Prevalence of piriformis muscle syndrome among individuals with low back pain was 18.3%.The Mean±SD of exact BMI were 27.43±6.859. Out of 219 patients, male and female Pace sign were respectively (85.8% negative and 14.2% positive). (81.7%) Negative and (18.3%) Positive Prevalence of piriformis muscle syndrome in the general population in Age groups chi-square value is (47.753b) and P- Value (<0.001*). Conclusions: In this research, the positive prevalence rate is 18.3%. It demonstrates that several individuals with low back pain have piriformis muscle syndrome.
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Frequency of Piriformis Syndrome among female Physiotherapy students of Gujranwala, Pakistan, A Cross-Sectional Survey
Article
Full-text available
  • Jan 2022
Piriformis syndrome is a neuromuscular disorder that is caused when piriformis muscle compresses the sciatic nerve. Its prevalence is very high in sedentary population and young people have more risk factors of getting affected with piriformis tightness that causes piriformis syndrome and later on lower back pain. Its etiology can be primary or secondary. Primary will be anatomical variation and secondary will be due to any other causes (trauma or local ischemia). It is more common in females with ratio of 3 to 1. Objectives: To determine the prevalence of piriformis syndrome among the female physical therapy students of Gujranwala. Material and methods:It was a cross-sectional study conducted in physical therapy female students of different physiotherapy institutes of Gujranwala. Data was collected from 195 students with Convenient sampling technique. The Diagnostic tool used was Piriformis syndrome diagnostic criteria. Results: Out of 195 female physical therapy students 72 (36.9%) had a high score and had a high probability of having piriformis syndrome. Only (4) 2.1% were unlikely of having piriformis syndrome while in majority of the participants 119 (61%) piriformis syndrome was not considered. Conclusion: This study concludes that female physical therapy students of Gujranwala have a low to moderate probability of having piriformis syndrome, with increased probability of buttock pain associated with prolonged sitting.
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‬The Efficacy of Physiotherapy Interventions for Recovery of Patients Suffering from Piriformis Syndrome: A Literature Review
Article
Full-text available
  • Mar 2021
Background and Objectives: Piriformis syndrome is a neuromuscular disease mostly caused by compression of the sciatic nerve by the piriformis muscle. The purpose of this study was to review the efficacy of different types of physiotherapy interventions on the signs and symptoms in patients with piriformis syndrome. Materials and Methods: PubMed, Scopus, Web of Science and Google Scholar databases were searched to identify the published articles on the efficacy of physiotherapy interventions for the treatment of piriformis syndrome. The search was conducted from 1980 to august 2020. The used keywords were: piriformis syndrome, manual therapy, muscle stretch and electrotherapy. The references of the included studies were also reviewed. Finally, after studying 752 probable articles and removing irrelevant ones, 10 clinical trial articles were selected. Results: The included studies presented that manual therapy accompanying with stretching techniques show great improvement in range of motion of the hip joint and reducing pain in patients with piriformis syndrome. It is impossible to conclude a certain method of electrotherapy modalities such as laser and shockwave therapy for the treatment of patients, due to lack of valid studies. Conclusion: Based on the current evidence, it seems that using muscle energy techniques (MET) with stretching of the piriformis and other hip muscles are effective in reduction of pain and disability and improvement of range of motion in patients suffering from piriformis syndrome. Key words: Piriformis syndrome, Physiotherapy, Muscle energy Technique, Stretch, Electrotherapy
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Contribution to the Etiological Explanation of the Piriformis Syndrome
Article
  • Jan 1979
The author investigated in 130 anatomical specimens the topographical relations of the sciatic nerve and the musculus piriformis in order to explain the clinical syndrome of the m. piriformis. The author found that in 6.15% of cases the ncrvus peroneus communis passes between the tendinous parts ofthe m. piriformis, and he considers this variation of practical significance for the development ofthe "piriformis syndrome". In unward rotation ofthe thigh, the m. piriformis is extended and the tendons of the divided muscle are tightly pressed together thus pinching the nerve between them. Pinching ofthe nerve causes the characteristic sciatic pain, in such a case, the patient can be relieved by cutting one of the tendons.
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Piriformis Syndrome
Article
Background Piriformis syndrome can be caused by anatomic abnormalities. The treatments of piriformis syndrome include the injection of steroid into the piriformis muscle and near the area of the sciatic nerve. These techniques use either fluoroscopy and muscle electromyography to identify the piriformis muscle or a nerve stimulator to stimulate the sciatic nerve. Methods The authors performed a cadaver study and noted anatomic variations of the piriformis muscle and sciatic nerve. To standardize their technique of injection, they also noted the distance from the lower border of the sacroiliac joint (SIJ) to the sciatic nerve. They retrospectively reviewed the charts of 19 patients who had received piriformis muscle injections, noting the site of needle insertion in terms of the distance from the lower border of the SIJ and the depth of needle insertion at which the motor response of the foot was elicited. The authors tabulated the response of the patients to the injection, any associated diagnoses, and previous treatments that these patients had before the injection. Finally, they reviewed the literature on piriformis syndrome, a rare cause of buttock pain and sciatica. Results In the cadavers, the distance from the lower border of the SIJ to the sciatic nerve was 2.9 +/- 0.6 (1.8-3.7) cm laterally and 0.7 +/- 0.7 (0.0-2.5) cm caudally. In 65 specimens, the sciatic nerve passed anterior and inferior to the piriformis. In one specimen, the muscle was bipartite and the two components of the sciatic nerve were separate, with the tibial nerve passing below the piriformis and the peroneal nerve passing between the two components of the muscle. In the patients who received the injections, the site of needle insertion was 1.5 +/- 0.8 (0.4-3.0) cm lateral and 1.2 +/- 0.6 (0.5-2.0) cm caudal to the lower border of the SIJ as seen on fluoroscopy. The needle was inserted at a depth of 9.2 +/- 1.5 (7.5-13.0) cm to stimulate the sciatic nerve. Patients had comorbid etiologies including herniated disc, failed back surgery syndrome, spinal stenosis, facet syndrome, SIJ dysfunction, and complex regional pain syndrome. Sixteen of the 19 patients responded to the injection, their improvements ranged from a few hours to 3 months. Conclusions Anatomic abnormalities causing piriformis syndrome are rare. The technique used in the current study was successful in injecting the medications near the area of the sciatic nerve and into the piriformis muscle.
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Low Back Pain: A Primary Care Approach
Article
The majority of LBP is benign and can be treated with nonsurgical methods. The mainstays of therapy are continuing activity within limits of pain, lifestyle modification, analgesic and anti-inflammatory medicine, and supportive care. Red flags that should alarm providers include severe or progressive pain in patients over 50 years of age, history of malignancy, fevers, night symptoms, or neurologic compromise. These characteristics should prompt further work-up. Imaging is not necessary in most instances. Plain films can be used to evaluate for osseous lesion or fracture, and MRI can be used to evaluate for degenerative disc disease, herniated discs, and spinal stenosis. A surgical evaluation should be obtained for any patient with possible cauda equine or cord compression (symptoms of saddle anesthesia, urinary dysfunction) or when conservative management fails.
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