Keywords
Dynamic manoeuvres - MRI - oral cavity lesions
Introduction
In the imaging of oral cavity lesions, it is important to determine precisely the
site of tumour origin, size, trans-spatial extension and invasion of deep structures.[1] Evaluation of small tumours of the oral cavity is always a diagnostic challenge
for both the head and neck surgeon and the head and neck radiologist.
Small gingivo-buccal, retromolar trigone (RMT) or small tongue lesions are routinely
obscured on cross sectional imaging by close apposition of mucosal surfaces of lips
and cheeks to the gingival surfaces of alveolar processes or apposition of the tongue
to the lingual surfaces of alveolar processes and the hard palate.[2]
Dynamic manoeuvres on multidetector CT (MDCT) imaging of oral cavity lesions are well
known an established technique.[1], [2], [3], [4], [5], [6], [7] However, MDCT remains suboptimal in the evaluation of small oral cavity lesions
particularly in patients with sub-mucosal fibrosis, RMT lesions, post-operative evaluation
and in presence of metallic dental streak artefacts. MRI in these circumstances scores
over MDCT and is a preferred modality with excellent soft tissue contrast resolution.
MR imaging with various dynamic manoeuvres provides precise imaging information about
the location of small inconspicuous lesions in the oral cavity - their exact site
of origin and the extent of the larger or exophytic tumours.[8] Use of dynamic manoeuvres in MRI helps either ‘rule in’ small lesions or ‘rule out’ tumour extension.
Learning Objectives
-
To demonstrate usefulness of various dynamic manoeuvres in pre and post-contrast MRI
sequences for the evaluation small buccal mucosa/alveolar mucosa lesions
-
To demonstrate true anatomic relationships of small oral cavity lesions arising from
tongue, hard/soft palate, and floor mouth lesions
-
To compare with conventional MR sequences for evaluation of oral cavity lesions.
Normal Anatomy
The oral cavity is divided into a central part “oral cavity proper” and “vestibule”.
The oral cavity proper is bounded by the alveolar arches and communicates posteriorly
with the oropharynx. Its roof is formed by hard palate and floor by mucosa of floor
of mouth. The anterior two-third of the tongue also known as mobile tongue is contained
within oral cavity proper.[2] The vestibule is lined by the buccal mucosa laterally, superiorly and inferiorly
by reflections of the buccal mucosa onto the mandible and maxilla respectively, referred
as the upper and lower gingivobuccal sulci (GBS) and the gingival mucosa medially.[3] The buccal space or bucco-masseteric space lies lateral to the vestibule.
At rest, the buccal mucosa, gingival mucosa, mucosa lining the inner surface of lips
and vestibular reflections remain apposed to each other. Superior and inferior GBS
remain apposed with gingiva.[8] RMT is a triangular shape mucosal fold that extends behind the last molar teeth
of mandible up to the maxillary last molar teeth on either side. Pterygomandibular
raphe lies behind the RMT and attaches superiorly to pterygoid hamulus and inferiorly
posterior border of mylohyoid muscle.[2], [3], [8]
Dynamic Manoeuvres
The purpose of radiological interpretation is to portray meaningful information to
clinical colleagues. Below described the useful dynamic manoeuvres that act as key
sequences for evaluation of small or hidden oral cavity lesions [Table 1]. The optimal MRI sequences for each manoeuvres and its MRI parameters are mentioned
below [Table 2].
Table 1
Useful dynamic manoeuvres for oral cancer evaluation on MRI
|
Type of manoeuvre
|
Tumour Location
|
Results
|
|
Puffed cheek/Water distension
|
Anterior buccal mucosa
|
Delineates origin and exact extent, depicts the angle of mouth, GBS and alveolar mucosa
involvement/ exclusion.
Deep extension into buccal fat pad and deep buccal fascia exclusion is more confidently
evaluated.
Can help differentiate post-operative thickening from recurrent lesion.
Can help avoid/reduced artefacts from metallic dentures.
|
|
Water distension
|
RMT/Posterior buccal mucosa/ Alveolus
|
True involvement of RMT with deeper extent into pterygomandibular raphe and relationship
with medial pterygoid muscle can be more confidently evaluated.
|
|
Tongue Protrusion and Water distension
|
Tongue
|
Helps in evaluation of ventrolateral marginal lesions, excludes extension in floor
of mouth particularly for ventral surface lesions, and helps better evaluation of
depth of invasion exophytic (proliferative) tongue lesions
Evaluates tip of tongue lesions more precisely, especially following post neo-adjuvant
chemotherapy response evaluation.
|
|
Open mouth
|
Palate
|
Extent and involvement of hard palate mucosa and extension along upper alveolar mucosa
and soft palate.
|
Table 2
Optimal MRI sequences for each manoeuvres in oral cancer evaluation
|
MRI Sequences for dynamic Manoeuvre
|
Number of slices
|
Slice thickness (mm)
|
Inter Slice gap (mm)
|
Sequence time duration (sec)
|
|
Puffed Cheek Manoeuvre
|
|
|
|
|
|
T2W coronal or T2W axial
|
16-20
|
3-4
|
0.5-1
|
80
|
|
T1WFS coronal or T1WFS axial post contrast
|
16-20
|
3-4
|
0.5-1
|
80
|
|
Water Distension Manoeuvre
|
|
|
|
|
|
T2W coronal or T2W axial
|
16-20
|
3-4
|
0.5-1
|
80
|
|
Post contrast T1WFS coronal or T1WFS axial
|
16-20
|
3-4
|
0.5-1
|
80
|
|
Tongue Protrusion Manoeuvre
|
|
|
|
|
|
T2/T2WFS sagittal or axial
|
16-18
|
3
|
0.5-1
|
60
|
|
Post contrast T1WFS sagittal or axial
|
16-18
|
3
|
0.5-1
|
60
|
|
Open Mouth Manoeuvre
|
|
|
|
|
|
T2 coronal or T2 sagittal
|
16-20
|
3-4
|
1
|
60
|
|
Post contrast T1WFS coronal or sagittal
|
16-20
|
3-4
|
1
|
60
|
Manoeuvre 1: Puffed Cheek Manoeuvre
Manoeuvre 1: Puffed Cheek Manoeuvre
Technique
Puffed cheek MRI manoeuvre is performed by asking the patient to blow the mouth uniformly
through pursed lips. This technique can be optimized by asking the patient to move
the tongue away from the hard palate and the teeth.
By puffing the cheeks, the oral vestibule is filled with air, which by creating a
negative contrast, separates the buccal and labial mucosa from the gingival mucosa,
allowing both mucosal surfaces to be assessed separately[1]
[Figure 1]. This manoeuvre can be easily adopted by the patient and adds negligible amount
of time on total scan time. The buccinator muscle is better seen on puffed-cheek images
[Figure 1] than on the conventional MRI scans,[5], [6] thus helping either “rule in” or “rule out” tumour extensions and the depth of muscle
invasion.
Figure 1 (A and B): Puff cheek manoeuvre. (A) - axial - T2W MRI image depicts normal MR anatomy of oral
vestibule showing normal buccal mucosa (arrow), submucosa (curved arrow), buccinator
muscle (small arrow). (B) – coronal T2W depicts upper and lower GB sulci (arrow and
double arrow)
Advantage
It is helpful in evaluation of small primary buccal mucosa lesion involving anterior
buccal mucosa, anterior part of upper or lower GBS and angle mouth/vestibule. Strong
metallic artefacts caused by dental implants and metallic orthodontic appliances are
a common problem in head and neck MRI.[6] This manoeuvre is used to improve detection and correct staging of small lesions
in the oral cavity whenever artefacts are present [Figure 2]. Also, it helps to delineate the extent, mucosal and sub-mucosal spread [Figure 3], buccinator involvement and rule out/rule in outer gingival or alveolar mucosal
involvement.[9], [10] Precise evaluation of location, extent and anatomic relationship of the oral cavity
lesions helps the surgeon in planning of primary surgery and type of reconstruction
for minimizing morbidity.
Figure 2 (A-C): Salivary Gland Tumor (Mammary Analogue Secretary Carcinoma). (A) Coronal T2W and
(B) Axial T2WFS images show ill-defined thickening in left anterior upper gingivo-buccal
space (arrow and double arrows) with metallic denture artifacts in left upper alveolus.
(C) Coronal T1W FS post contrast image with puff cheek manoeuvre shows a focal enhancing
lesion in left anterior upper GB sulcus with abnormal marrow signal in left upper
alveolus (curved arrow), Resolution of metallic denture artifact due to distension
of oral cavity
Figure 3 (A-D): Minor salivary gland tumor -Mucoepidermoid carcinoma from minor salivary gland rests
near parotid duct opening. (A and B) Coronal T2W and T1 FS post contrast image shows
poorly defined nodule in right upper GB sulcus region (arrow). (C) Coronal T2W and
(D) post contrast T1WFS images with puff cheek manuvers show a well-defined peripheral
rim enhancing submucosal nodule (curved and straight arrow) opposite to right upper
2nd molar teeth, upper GB sulcus is free, parotid duct opening not seen
Limitation
This manoeuvre has limitations in patients with severe sub-mucosal fibrosis, evaluation
of posterior GBS and RMT lesions and in post-operative patients with large flap reconstruction
for oral cancers which does not allow proper distension of oral cavity.
Manoeuvre 2: Water Distension of Oral Vestibule
Manoeuvre 2: Water Distension of Oral Vestibule
Technique
This manoeuvre is performed by distension of oral vestibule by asking patient to drink
20-40 cc of plain water and hold it in mouth, patients have good compliance to hold
water in mouth for 80 seconds only during pre and post contrast T2W and T1WFS sequences.
This manoeuvre aids by providing an excellent natural contrast between lesion and
adjacent normal buccal mucosa and other anatomic structures on T2W and post contrast
T1W FS (fat saturated) MRI sequences. The pterygomandibular raphe and RMT can be better
delineated [Figure 4]. The natural contrast also delineates inner alveolar mucosa, thus help rule in/rule
out alveolar mucosa involvement.
Figure 4 (A-E): Water Distension Manoeuvre (A and B) (A) Distension of oral vestibule with water
on coronal T2W image shows upper and lower GB sulci (straight arrow and asterisk).
(B) axial T2W images shows distension of RMT (asterisk), Caudal aspect of pterygomandibular
raphe (arrow) and visualization of inner alveolar mucosa (arrow)
Advantage
Evaluation of small posterior buccal mucosa/RMT tumours and its deeper extent is a
real challenge to radiologist. The manoeuvre can optimally distend the oral vestibule.
As water retains in RMT region in dependent position during MRI study, it helps in
distension of posterior (dependent) aspect upper and lower GBS and RMT that are not
well evaluated with puffed cheek technique or on CT scan [Figure 5].
Figure 5 (A-D): Left posterior buccal Mucosa Ulcer with severe Sub-mucosal Fibrosis. (A) Axial T2W
image shows ill-defined thickening in left posterior buccal mucosa (arrow), (B) axial
and (C) coronal T2W images with water distension manoeuvre clearly show a small lesion
involving left posterior upper buccal mucosa, minimally bulging in deep buccal fat
pad (Double and curved arrow). (D) clinical picture of small ulcerative lesion
The author recommends water distension technique particularly in evaluation of patients
with severe sub-mucosal fibrosis, lesion sitting in RMT and lesions of posterior buccoalveolar
mucosa [Figure 6] where smaller mucosal lesions can be missed during clinical examinations or exact
depth and extent cannot be evaluated during clinical examination/CT scan/conventional
MRI scan. This manoeuvre has added value for chronic tobacco chewer with significant
submucosal fibrosis which hinders evaluation of oral cavity either clinically or on
conventional CT scan, and also on MRI [Figure 7].
Figure 6 (A-E): Well differentiated SCC of left RMT. (A) Coronal T2W image at the level of RMT and
posterior buccal mucosa shows minimal ill-defined thickening (arrow). (B) axial ,(C)
coronal T2W and (D) axial post contrast T1W FS images with water distension show an
irregular lesion of posterior upper GB sulcus and RMT with extension into inferior
aspect of pterygomandibular raphe ,(Arrow, double arrow and asterisk) (E) Clinical
picture of RMT lesion
Figure 7 (A-C): Chronic Tobacco Chewer with Sub-mucosal Fibrosis. (A) coronal T2W image shows no
abnormality. (B) coronal T2W and (C) Post contrast T1W FS images show small enhancing
thickening involving mucosa and submucosa (arrow and double arrow), Biopsy revealed
severe dysplasia with squamous cell carcinoma in situ
Post-operative oral cavity lesions are a real challenge to onco-radiologists particularly
to demonstrate small recurrent malignant lesions of buccal mucosa. Due to post-operative
fibrosis, these patients cannot perform puffed cheek manoeuvre. In such scenarios,
water distension manoeuvre helps to distend the oral vestibule [Figure 8].
Figure 8 (A-C): Operated left lateral margin of tongue. (A) T2W coronal image shows post-operative
changes along left lateral margin of tongue. (B and C) T2W and T1WFS coronal images
with water distension and open mouth show irregular enhancing mucosal thickening (arrow
and double arrow) in right lower GB sulcus, biopsy showed invasive SCC
MRI is a reliable tool in assessing the depth of invasion and thickness of tumours
of tongue and has a significant correlation with the final histopathological findings.[11], [12] However, in certain exophytic lesions, conventional MRI has limitations in assessing
depth of tumour invasion and tumour thickness. Water distension manoeuvre helps in
evaluation of exophytic tongue lesions, delineates true exophytic and intra-substance
infiltrative component [Figure 9].
Figure 9 (A-C): WDSCC of right lateral aspect of tongue. (A) Axial T2W image shows an irregular lesion
from right antero-lateral aspect of tongue, abutting adjacent genioglossus muscle.
(B and C) axial and coronal T2W images after water distension of vestibule shows an
irregular large exophytic lesion (Asterisk) with minimal intra-substance infiltrative
component (arrow and curved arrow )
Limitation
Water distension of vestibule cannot be performed in patients with oro-cutaneous fistula,
edentulous patients and in post-operative oral cavity with large flap reconstruction.
This manoeuvre does not give any additional information for large buccal mucosa or
other large oral cavity lesions because for such lesions locoregional extension and
relationship with adjacent neck spaces are more relevant.
Manoeuvre 3: Tongue Protrusion Manoeuvre
Manoeuvre 3: Tongue Protrusion Manoeuvre
MRI with contrast is the choice of modality for evaluation of tongue lesions and its
extent. Small tongue lesions along the lateral and ventral surface of tongue are difficult
to assess due to close apposition of soft tissue at rest and artefacts generated by
dental amalgams.[8]
Technique
This manoeuvre is performed by asking the patient to protrude the tongue against floor
of mouth as much as possible and sequence acquired while the patient protrudes the
tongue [Figure 10].
Figure 10 (A and B): Tongue protrusion manoeuvre (A) T2W axial and (B) sagittal images show protruded
anterior aspect of tongue
Advantage
This is a useful additional manoeuvre along with conventional MRI sequences for small
tongue lesion along lateral and ventral aspect of anterior oral tongue or lesion involving
tip (apex) of tongue [Figure 11].
Figure 11 (A and B): MDSCC of left lateral and ventral aspect tongue. (A) Axial T2W images show subtle
intermediate signal intensity along left lateral aspect of tongue (arrow). (B) Post
contrast T1WFS image with protrusion of tongue show enhancing lesion along the left
ventrolateral margin.(Double arrow)
Limitation
Manoeuvre does not give any additional information for large tongue lesions or lesions
of isolated floor of mouth/base of tongue. Motion artifacts are common while performing
this manoeuvre.
Manoeuvre 4 Open Mouth Manoeuvre
Manoeuvre 4 Open Mouth Manoeuvre
Technique
The open mouth manoeuvre is performed by asking the patient to hold in open mouth
position during MRI sequence [Figure 12]. A device (syringe) can be placed between teeth to ensure proper immobilization.
The open mouth technique is also helpful when lesion of the oropharynx is not clearly
visible because of dental amalgam artefact.[3]
Figure 12 (A and B): Open mouth manoeuvre. (A) T2W coronal and (B) sagittal images with open mouth manuvers
Advantage
It is a useful manoeuvre for evaluation of small lesions of hard palate or and soft
palate mucosa[9]
[Figure 13]. It helps to delineate precise thickness of the lesion, presence and involvement
of extent of upper alveolar mucosa, RMT and adjacent GB sulcus easily or secondary
involvement of palate in primary upper alveolar lesions. Delineate exact extent of
palatal lesions which helps in oncoplastic reconstructions of palatal defects.
Figure 13 (A-D): Malignant Ulcer in palate in an operated carcinoma of central Arch Alveolus. (A)
sagittal T1WFS images with open mouth shows a normal mucosa on left side of hard and
soft palate (circle). (B) Sagittal and (C) coronal post-contrast T1FS show irregular
enhancing lesion involving posterior aspect of hard palate and junction of soft palate,
also involving adjacent right upper alveolar mucosa (arrow and asterisks) (D) shows
the clinical picture of ulcerative lesion in palate
Limitation
Motion artifact is a major limitation of this manoeuvre.
Conclusion
Dynamic manoeuvres are simple and easy with short duration MR sequences as they overcome
the limitations of MDCT scan and MRI and thus provide more detailed and specific information
to the surgical oncologist for delineating exact margins and better oncoplastic reconstruction
in the era of minimal invasive surgery. The use of dynamic manoeuvres in MRI helps
either ‘rule in’ small lesions or ‘rule out’ tumour extensions in lesions of oral
cavity. Such manoeuvres should always be incorporated in routine clinical MRI practice
for evaluation of oral cavity lesions by the radiologist.
