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Radiographic interpretation of calcified stylomandibular and stylohyoid ligaments
Radiographic and
interpretation
stylohyoid
of
calcified
stylomandibular
ligaments
Gary R. Goldstein, D.D.S.,* and Veterans Administration Hospital,
Irwin W. Scopp, D.D.S.** New York, N. Y.
C
alcified stylomandibular ligaments have been known to cause pain and functional limitations that.were incorrectly diagnosed as “temporomandibular joint paindysfunction syndrome.“l These calcifications can cause pain deep in the lateral aspect of the neck and throat. Accidental fracture of calcified ligaments usually results in immediate relief of pain. “Calcifications are usually seen in patients in the fourth or fifth decade of life and may be associated with arthritic conditions.“’ It appears from observing Panorex radiography that this condition is common enough to merit further investigations. Many theories are concerned with the function of the ligaments in mandibular movement, and some insight into the ligament might shed light on some of these theories. THE LIGAMENT Gross and histologic anatomy. A ligament is a band of tissue that connects bone or supports viscera.2 The stylomandibular ligament is a type of cervical fascia which extends from the apex of the styloid process of the temporal bone to the angle of the mandible, between the masseter and the internal pterygoid muscles.:’ The stylohyoid ligament is a fibrous cord which extends from the tip of the styloid process to the lesser cornu of the hyoid bone. It can either contain some cartilage in its center, or it may be partially ossified.3 Most histology books merely say that ligaments are similar to tendons.“. ’ They are dense connective tissue with regularly arranged collagenous fibers. Interspersed within these fibers are nests of tendon cells, which are a type of fibroblast.” In general, ligaments are cord-like thickenings around the fibrous capsule of a joint. They undergo a transition to fibrocartilage as they enter the substance of the bone.’ *Senior
Resident,
Prosthodontics,
**Chief Dental Service, Professor of Periodontia and York, N. Y.
330
Veterans
Administration
Veterans Administration Hospital, Oral Medicine, New York University
Hospital,
New
York,
N. Y.
New York, N. Y.; Clinicai College of Dentistry, New
Volunle Numhrr
30 3
Radiographic
interpretation
of calcified
ligaments
331
Function and significance. The function of the ligaments or lack of it is a most controversial subject, especially as it relates to centric relation. Basically, there are two schools of thought: the Posselt8’ g school which states that centric relation is a ligamentous position and the BoucherlO school which calls centric relation a neuromuscular position. Posselt8 concluded that centric relation was a ligamentous position. Posselt and ThilanderY used local anesthesia to determine the origin of the proprioceptive stimulus to jaw position. They made injections into the muscles and found that the patients could return their mandibles to predetermined positions. Anesthetizing both joints had the same result as anesthetizing only one joint. They repeated Gothic arch tracings and found that both the centric position and the border movements could be duplicated.” Boucher’” did two experiments to test Posselt’s results. He first used curare on rats to the point where the intercostal muscles and diaphragm were relaxed, which resulted in a 30 per cent more posterior position on Gothic arch tracings.lO He then severed the ligaments on cadavers and found that they were not a determining factor in the position of the condyles, but a limiting one.ll However, one point remains unanswered; do the ligaments function or not? Burch,12 in his study on the activity of the accessory ligaments, concluded that the stylomandibular ligament tensed in severe protraction and the sphenomandibular ligament tensed in severe overclosure. Ramfjord and AshI admit that there seems to be an abundance of sensory receptors in the capsule which influence the trigeminal nerve, which will obviously influence the muscles of mastication. They admit to doubt over the ligaments being sole restrictors of lateral movement, yet they still insist that centric relation is a “ligamentous position.” Sarnat” maintains that :the accessory ligaments have no functional relationship to mandibular articulation or in movements of the mandible. He does suppose though that the temporomandibular ligament by stretching will limit this possible injurious movement since there is retrusion. METHOD Criteria. Before evaluating the stylomandibular processes, some criteria had to be set up for determining a normal styloid process and a calcification of the ligament as revealed on Panorex radiographs. Examination of skulls and dissection of cadavers indicate that a normal styloid process usually extends no further than the equivalent of one third of the way‘down the ramus of the mandible. Since the position of the styloid process in a Panorex radiograph is close to the ramus, and hence any distortion of it would also result in a similar vertical distortion of the ramus, the following criteria were set up: 1. If the area of the stylomandibular ligament was not shown or was indistinct and readings were unclear, it was placed in the category of “area not observable.” 2. If radioopacity was less than one third of the length of the mandible, it was arbitrarily assumed to be within normal range for a styloid process and considered negative (Fig. 1). 3. If the radioopacity was more than one third, but not down to the level of the
332
Goldstein
.I, l’roathet. September,
and scopp
Fig. 1. An uncalcified is less than one third
stylomandibular ligament. The radioopacity the length of the ramus of the mandible.
Fig. 2. A partially the ramus
calcified ligament. of the mandible (arrow).
Fig. 3. A completely mandible. Figs. 4-5.
The
calcified
radioopacity
The
ligament. of
the
radioopac-ity The
ligament
is more
radioopacity seems
of the styloid than
extends
to he turning
pr~rcese
one third near
to thr
away
from
Dent 1973
larroz
the, iensti~ anqlr the
of
:I’ t11v
mandible
(arrow).
Fig. 6. The radioopacity of the ligament has unusual size and length. Fig. 7. A typical appearing radioopacity of a ligament (arrow 1. Fig. 8. A lateral radiograph of a skull of the patient in Fig:. 7 showing (arrow). Fig. 9. An anteroposterior to the mandible (nrrow).
radiograph This view
the length
of the oparit:
of the patient in Fig. 7 showing the radioopacity clearly demonstrates that it is a stylohyoid ligament.
medial
Radiographic Table I. Panoramic ligament
radiographs
interpretation
examined
Area .4rea
not observable
Both sides observable Negative One ii& partial
One Both Both ()ne
side complete side? partial sides complete side partial&one
side complete
T(rtal One side Neqtive
calcified
ligaments
333
of the stylomandibular
NO.
Total
310
310
60 28 6 32 7 4 137
137
observable 61 36 6
Partial Cflmplc;c Total At least
for calcification
of
103
103
one side calcified
Past the angle of the mandible
4
‘rota1
4 554
angle of the mandible, it was placed in the “partially calcified” group (Fig. 2). 4. If the radioopacity was touching or at the level of the angle of the mandible, it was placed in the “completely calcified” group (Fig. 3). Admittedly, there were arbitrary parameters, but the impression was that they \vould
Professor and Chairman
of the Department
<)f Xnatomy
of NYL’
334
Goldstein
and Scopp
Calcified stylohyoid ligaments are well documented in the medical and dental literature.“! I50 ” Unfortunately, these ligaments seem to have no function in determining centric relation or mandibular movement, and hence our findings shed no light on the theories previously discussed. This article then merely serves to identify a common Panorex landmark. CONCLUSION
ICadioopacities distal calcified stylomandibular ments.
to the angle of the mandible, previously ligaments, have been shown to be calcified
thought to be stylohyoid liga-
References 1. Fay, J. T., and Schow, S. R.: Bilateral Stylomandibular Ligament Calcification, Oral Surg. 27: 759, 1969. 2. Dorland’s Illustrated Medical Dictionary, ed. 24, Philadelphia, 1961, W. B. Saunders Company. 3. Goss, C. M., editor: Gray’s Anatomy, ed. 27, Philadelphia, 1965, Lea & Febiger, Publishers, pp. 335-337. 4. Bailey’s 1967, The Williams & Wilkins Company. Textbookof Histology, ed. 15, Baltimore, 5. Bloom, W., and Fawcett, D.: A Textbook of Histology, Philadelphia, 1968, W. B. Saunders Company, pp. 157-158. S.: Atlas of Histology, Philadelphia, 1965, J. B. 6. Piliero, S., Jacobs, M., and Wischnitzer, Lippincott Company, p. 32. 7. Ham, A.: Histology, ed. 3, Philadelphia, 1957, J. B. Lippincott Company, pp. 330-333. 8. Posselt, U.: Studies on the Mobility of the Human Mandible, Acta Odontol. Stand. 10 (Suppl.) : 19-160, 1952. 9. Posselt, U., and Thilander, B.: Influence of the Innervation of the Temporomandibular, Joint Capsule on Mandibular Border Movements, Acta Odontol. Stand. 23: 601-613, 1965. of Temporomandibular Joints. J. 10. Boucher, I,. J.: Observations in Arthrodial Types PROSTHET. DENT. 10: 1086-1091, 1960. of Mandibular Condyles, J. 11. Boucher, L. J.: Limiting Factors in Posterior Movements PROSTIIET. DENT. 11: 23-25, 1961. 12. Burch, J. G.: Activity of the Accessory Ligaments of the Temporomandibular Jointz J. PROSTHET.DENT. 24:621-628, 1970. ed. 2, Philadelphia, 1971, W. R. Saunders Com13. Ramfjord, S., and Ash, M.: Occlusion, pany, p. 16. 14. Sarnat, B. : The Temporomandibular Joint, Springfield, 1964, Charles C Thomas, Pub lisher, pp. 28-58. 15. Lavine, M. H., Stoopack, J. C., and Jerrold, T. L.: Calcification of the Stylohyoid Ligament, Oral Surg. 25: 55-58, 1968. 16. Freedman, G. L., and Hooley, J. R.: Ossified Stylohyoid Ligament, Oral Surg. 25: 190191, 1968. DENTAL NAVAL
GREAT
DEPARTMENT ADCOM N.T.C. ~AKES,ILL. 60088
interpretation
stylohyoid
of
calcified
stylomandibular
ligaments
Gary R. Goldstein, D.D.S.,* and Veterans Administration Hospital,
Irwin W. Scopp, D.D.S.** New York, N. Y.
C
alcified stylomandibular ligaments have been known to cause pain and functional limitations that.were incorrectly diagnosed as “temporomandibular joint paindysfunction syndrome.“l These calcifications can cause pain deep in the lateral aspect of the neck and throat. Accidental fracture of calcified ligaments usually results in immediate relief of pain. “Calcifications are usually seen in patients in the fourth or fifth decade of life and may be associated with arthritic conditions.“’ It appears from observing Panorex radiography that this condition is common enough to merit further investigations. Many theories are concerned with the function of the ligaments in mandibular movement, and some insight into the ligament might shed light on some of these theories. THE LIGAMENT Gross and histologic anatomy. A ligament is a band of tissue that connects bone or supports viscera.2 The stylomandibular ligament is a type of cervical fascia which extends from the apex of the styloid process of the temporal bone to the angle of the mandible, between the masseter and the internal pterygoid muscles.:’ The stylohyoid ligament is a fibrous cord which extends from the tip of the styloid process to the lesser cornu of the hyoid bone. It can either contain some cartilage in its center, or it may be partially ossified.3 Most histology books merely say that ligaments are similar to tendons.“. ’ They are dense connective tissue with regularly arranged collagenous fibers. Interspersed within these fibers are nests of tendon cells, which are a type of fibroblast.” In general, ligaments are cord-like thickenings around the fibrous capsule of a joint. They undergo a transition to fibrocartilage as they enter the substance of the bone.’ *Senior
Resident,
Prosthodontics,
**Chief Dental Service, Professor of Periodontia and York, N. Y.
330
Veterans
Administration
Veterans Administration Hospital, Oral Medicine, New York University
Hospital,
New
York,
N. Y.
New York, N. Y.; Clinicai College of Dentistry, New
Volunle Numhrr
30 3
Radiographic
interpretation
of calcified
ligaments
331
Function and significance. The function of the ligaments or lack of it is a most controversial subject, especially as it relates to centric relation. Basically, there are two schools of thought: the Posselt8’ g school which states that centric relation is a ligamentous position and the BoucherlO school which calls centric relation a neuromuscular position. Posselt8 concluded that centric relation was a ligamentous position. Posselt and ThilanderY used local anesthesia to determine the origin of the proprioceptive stimulus to jaw position. They made injections into the muscles and found that the patients could return their mandibles to predetermined positions. Anesthetizing both joints had the same result as anesthetizing only one joint. They repeated Gothic arch tracings and found that both the centric position and the border movements could be duplicated.” Boucher’” did two experiments to test Posselt’s results. He first used curare on rats to the point where the intercostal muscles and diaphragm were relaxed, which resulted in a 30 per cent more posterior position on Gothic arch tracings.lO He then severed the ligaments on cadavers and found that they were not a determining factor in the position of the condyles, but a limiting one.ll However, one point remains unanswered; do the ligaments function or not? Burch,12 in his study on the activity of the accessory ligaments, concluded that the stylomandibular ligament tensed in severe protraction and the sphenomandibular ligament tensed in severe overclosure. Ramfjord and AshI admit that there seems to be an abundance of sensory receptors in the capsule which influence the trigeminal nerve, which will obviously influence the muscles of mastication. They admit to doubt over the ligaments being sole restrictors of lateral movement, yet they still insist that centric relation is a “ligamentous position.” Sarnat” maintains that :the accessory ligaments have no functional relationship to mandibular articulation or in movements of the mandible. He does suppose though that the temporomandibular ligament by stretching will limit this possible injurious movement since there is retrusion. METHOD Criteria. Before evaluating the stylomandibular processes, some criteria had to be set up for determining a normal styloid process and a calcification of the ligament as revealed on Panorex radiographs. Examination of skulls and dissection of cadavers indicate that a normal styloid process usually extends no further than the equivalent of one third of the way‘down the ramus of the mandible. Since the position of the styloid process in a Panorex radiograph is close to the ramus, and hence any distortion of it would also result in a similar vertical distortion of the ramus, the following criteria were set up: 1. If the area of the stylomandibular ligament was not shown or was indistinct and readings were unclear, it was placed in the category of “area not observable.” 2. If radioopacity was less than one third of the length of the mandible, it was arbitrarily assumed to be within normal range for a styloid process and considered negative (Fig. 1). 3. If the radioopacity was more than one third, but not down to the level of the
332
Goldstein
.I, l’roathet. September,
and scopp
Fig. 1. An uncalcified is less than one third
stylomandibular ligament. The radioopacity the length of the ramus of the mandible.
Fig. 2. A partially the ramus
calcified ligament. of the mandible (arrow).
Fig. 3. A completely mandible. Figs. 4-5.
The
calcified
radioopacity
The
ligament. of
the
radioopac-ity The
ligament
is more
radioopacity seems
of the styloid than
extends
to he turning
pr~rcese
one third near
to thr
away
from
Dent 1973
larroz
the, iensti~ anqlr the
of
:I’ t11v
mandible
(arrow).
Fig. 6. The radioopacity of the ligament has unusual size and length. Fig. 7. A typical appearing radioopacity of a ligament (arrow 1. Fig. 8. A lateral radiograph of a skull of the patient in Fig:. 7 showing (arrow). Fig. 9. An anteroposterior to the mandible (nrrow).
radiograph This view
the length
of the oparit:
of the patient in Fig. 7 showing the radioopacity clearly demonstrates that it is a stylohyoid ligament.
medial
Radiographic Table I. Panoramic ligament
radiographs
interpretation
examined
Area .4rea
not observable
Both sides observable Negative One ii& partial
One Both Both ()ne
side complete side? partial sides complete side partial&one
side complete
T(rtal One side Neqtive
calcified
ligaments
333
of the stylomandibular
NO.
Total
310
310
60 28 6 32 7 4 137
137
observable 61 36 6
Partial Cflmplc;c Total At least
for calcification
of
103
103
one side calcified
Past the angle of the mandible
4
‘rota1
4 554
angle of the mandible, it was placed in the “partially calcified” group (Fig. 2). 4. If the radioopacity was touching or at the level of the angle of the mandible, it was placed in the “completely calcified” group (Fig. 3). Admittedly, there were arbitrary parameters, but the impression was that they \vould
Professor and Chairman
of the Department
<)f Xnatomy
of NYL’
334
Goldstein
and Scopp
Calcified stylohyoid ligaments are well documented in the medical and dental literature.“! I50 ” Unfortunately, these ligaments seem to have no function in determining centric relation or mandibular movement, and hence our findings shed no light on the theories previously discussed. This article then merely serves to identify a common Panorex landmark. CONCLUSION
ICadioopacities distal calcified stylomandibular ments.
to the angle of the mandible, previously ligaments, have been shown to be calcified
thought to be stylohyoid liga-
References 1. Fay, J. T., and Schow, S. R.: Bilateral Stylomandibular Ligament Calcification, Oral Surg. 27: 759, 1969. 2. Dorland’s Illustrated Medical Dictionary, ed. 24, Philadelphia, 1961, W. B. Saunders Company. 3. Goss, C. M., editor: Gray’s Anatomy, ed. 27, Philadelphia, 1965, Lea & Febiger, Publishers, pp. 335-337. 4. Bailey’s 1967, The Williams & Wilkins Company. Textbookof Histology, ed. 15, Baltimore, 5. Bloom, W., and Fawcett, D.: A Textbook of Histology, Philadelphia, 1968, W. B. Saunders Company, pp. 157-158. S.: Atlas of Histology, Philadelphia, 1965, J. B. 6. Piliero, S., Jacobs, M., and Wischnitzer, Lippincott Company, p. 32. 7. Ham, A.: Histology, ed. 3, Philadelphia, 1957, J. B. Lippincott Company, pp. 330-333. 8. Posselt, U.: Studies on the Mobility of the Human Mandible, Acta Odontol. Stand. 10 (Suppl.) : 19-160, 1952. 9. Posselt, U., and Thilander, B.: Influence of the Innervation of the Temporomandibular, Joint Capsule on Mandibular Border Movements, Acta Odontol. Stand. 23: 601-613, 1965. of Temporomandibular Joints. J. 10. Boucher, I,. J.: Observations in Arthrodial Types PROSTHET. DENT. 10: 1086-1091, 1960. of Mandibular Condyles, J. 11. Boucher, L. J.: Limiting Factors in Posterior Movements PROSTIIET. DENT. 11: 23-25, 1961. 12. Burch, J. G.: Activity of the Accessory Ligaments of the Temporomandibular Jointz J. PROSTHET.DENT. 24:621-628, 1970. ed. 2, Philadelphia, 1971, W. R. Saunders Com13. Ramfjord, S., and Ash, M.: Occlusion, pany, p. 16. 14. Sarnat, B. : The Temporomandibular Joint, Springfield, 1964, Charles C Thomas, Pub lisher, pp. 28-58. 15. Lavine, M. H., Stoopack, J. C., and Jerrold, T. L.: Calcification of the Stylohyoid Ligament, Oral Surg. 25: 55-58, 1968. 16. Freedman, G. L., and Hooley, J. R.: Ossified Stylohyoid Ligament, Oral Surg. 25: 190191, 1968. DENTAL NAVAL
GREAT
DEPARTMENT ADCOM N.T.C. ~AKES,ILL. 60088