Oral Maxillofacial Surg Clin N Am 18 (2006) 465 482
Advances in the Detection and Diagnosis of Oral
Precancerous and Cancerous Lesions
John R. Kalmar, DMD, PhD
Section of Oral and Maxillofacial Surgery, Pathology, and Anesthesiology, The Ohio State University College
of Dentistry, 305 West 12th Avenue, Columbus, OH 43210, USA
In the United States, an estimated 29,370 new critical to the battle against oral cancer. With
cases of oral and pharyngeal cancer were diag- early detection, diagnosis, and treatment, non-
nosed in 2005, with more than 7320 tumor-related invasive intraepithelial lesions (grades of epithelial
deaths [1]. Oral cancer represents roughly 3% of dysplasia or carcinoma in situ [CIS]) can be
total cancer cases in the United States and is the conservatively managed with minimal surgical
ninth most common form of malignancy among morbidity and 100% survival. In addition, ad-
American men. Although the concept of   early di- vances in molecular diagnosis suggest that genetic
agnosis leads to improved prognosis  applies to or protein markers of precancerous change are
oral cancer, most patients present with regional likely detectable before clinically apparent muco-
or distant (stage III or IV) disease, which is a prob- sal lesions can be identified. If the promise of such
lem especially notable among African Americans.   prediagnosis  can be realized, early detection of
The tendency for delayed or late diagnosis is patients at increased risk for initial or recurrent
reflected in an overall 5-year survival rate of ap- disease would be possible and would hopefully
proximately 59% for data pooled from 1995 lead to reduced patient morbidity and mortality.
through 2001. Although this figure represents
a significant improvement for oral cancer survival
Clinical features of oral precancerous
for the first time in decades (up from 54% in
and cancerous lesions
1974 1976), survival within the African-American
population has remained comparatively lower The signs and symptoms of precancerous
(36% in 1974 1976, 40% in 1995 2001) [2]. In- lesions and even some early squamous cancers
creased mortality from oral cancer is especially are often so subtle that they probably go un-
marked in African-American men, whose 5-year noticed or ignored by patients and practitioners
survival rate (34%) is substantially lower than alike. Distinguishing lesional tissue from the sur-
that of their female counterparts (52%). rounding mucosa, especially in the presence of
The most common form of oral cancer is pri- complicating factors, such as local trauma or
mary mucosal squamous cell carcinoma (O90% superimposed infection, can be difficult for even
of cases), although malignancies of salivary gland well-trained health care professionals. Together
origin, sarcomas, lymphomas, melanoma, and with estimates that only approximately half of the
metastatic disease also contribute to the total US adult population sees a dentist even once
cancer burden. Because squamous cell carcinoma a year, it should probably not be surprising that
and its variants represent most oral cancer cases, most patients with oral cancer (60%) are di-
this article focuses on the diagnosis and detection agnosed with stage III or IV disease.
of this condition and its precursors. The ability to Given that notable symptoms are typically
diagnosis precursor (precancerous) lesions is a late-stage feature of oral cancer, early detection
and diagnosis of oral precancerous and cancerous
lesions clearly depend on patient participation in
E-mail address: kalmar.7@osu.edu periodic (annual) oral examinations and the
1042-3699/06/$ - see front matter Ó 2006 Elsevier Inc. All rights reserved.
doi:10.1016/j.coms.2006.06.013 oralmaxsurgery.theclinics.com
466 KALMAR
sensitivity and specificity of the oral examiner or should be considered a potentially premalignant
examination procedure. Detecting the mucosal condition.
alterations that often precede the development Leukoplakia is most commonly seen in older
of squamous cell carcinoma requires a sound adult men, and more than 80% of patients have
knowledge of oral anatomy and anatomic varia- a history of smoking [3,4]. Although the buccal
tions as well as a thorough understanding of local mucosa and gingiva are the most frequently af-
and systemic factors or conditions that can mimic fected sites (see Fig. 1), lesions that occur on the
or obfuscate underlying precancerous change. ventral tongue, floor of the mouth, and tonsillar
pillars are more likely to demonstrate histologic
evidence of dysplasia or carcinoma. These latter
Leukoplakia
areas have been recognized for years as some of
The term leukoplakia is defined as a white pla- the oral anatomic regions at greatest risk for the
que or patch of oral mucosa that cannot be development of squamous cell carcinoma (Fig. 2)
rubbed off or cannot be diagnosed as any other [5]. For this reason, persistent leukoplakia in these
condition clinically, or subsequently, by micro- areas should be considered as suspicious for car-
scopic evaluation. Leukoplakia is not a diagnosis; cinoma. Scalpel biopsy is warranted for any suspi-
it is a descriptive term that encompasses a surpris- cious lesion and should be scheduled or performed
ing variety of localized whitish areas of mucosal as soon as conveniently possible. Use of diagnos-
change that cannot be readily explained at the tic adjuncts, such as toluidine blue staining, may
clinical level. The term has no diagnostic and, be helpful in guiding the biopsy procedure; how-
thus, no prognostic value. Written or imaging- ever, heavily keratinized lesions are often negative
based documentation of clinical features, includ- with this vital stain. Cytologic methods, including
ing site, size, border, surface character, and brush cytology, are not advised for clinically sus-
presence of ulceration is a medicolegally sound prac- picious lesions, because these tests can delay scal-
tice that should always be performed as a standard pel biopsy, definitive diagnosis, and appropriate
part of patient examination. Inspection of the le- therapy. Therefore, brush cytology would not be
sion border is of particular importance, because indicated for any persistent leukoplakia in the high-
a well-defined sharply demarcated margin is sug- risk zone for oral cancer (see Fig. 2B). Even with
gestive of clonal (preneoplastic or neoplastic) small lesions (Fig. 3), excisional biopsy in these
growth (Fig. 1). Depending on the precise clinical areas would be preferable for two reasons. First,
setting, differential considerations, such as trau- complete removal of lesional tissue is more easily
matic, reactive, or infectious conditions, can usu- accomplished by scalpel biopsy and typically re-
ally be addressed through local conservative stores a normal background appearance to the
measures and follow-up re-evaluation. Any leuko- mucosa at this site. Against this mucosal equiva-
plakia that persists or progresses after 10 to 14 lent of a clean slate, the clinician s ability to detect
days despite appropriate conservative treatment signs of local recurrence is improved. Second,
scalpel biopsy leads more directly to a final tissue
diagnosis, decreasing the interval to appropriate
treatment if needed. Finally, regardless of loca-
tion, any leukoplakia that exhibits intralesional
areas of reddish or erythematous change (eg,
speckled leukoplakia, erythroleukoplakia) should
also be viewed as a high-risk presentation (see
the section on erythroplakia) that demands scalpel
biopsy. With speckled leukoplakias, toluidine blue
has been shown to stain the less heavily kerati-
nized (reddish) areas suspicious for dysplasia or
carcinoma and may be helpful in directing the bi-
opsy procedure.
Proliferative verrucous leukoplakia (PVL) is
Fig. 1. Large leukokeratotic plaque (leukoplakia) of the
a more aggressive and often multifocal form of
left posterior and inferior buccal mucosa with a sharply
leukoplakia that frequently occurs in the absence
defined border and surface irregularity, including plexi-
form fissuring. (Courtesy of C.M. Allen, DDS, MS, Co- of a significant smoking history [6,7]. Although it
lumbus, OH.) can affect any area of the oral cavity, the buccal
DETECTION AND DIAGNOSIS OF ORAL LESIONS 467
Fig. 2. (A) Site of origin of 209 consecutive cases of mouth cancer from the Memorial Hospital Head and Neck service
between 1962 and 1965. (B) Cancer-prone crescent from which 75% of cancerous lesions originate. (From Moore C, Cat-
lin D. Anatomic origins and locations of oral cancer. Am J Surg 1967;114(4):511; with permission.)
mucosa is a favored site among female patients, concern, because nearly 100% of true erythropla-
whereas the tongue is involved most often in kias have been found on biopsy to represent se-
male patients. In addition, female patients tend vere dysplasia, CIS, or squamous cell carcinoma
to be older (mean age of 65 70 years) than male [8,9]. Not surprisingly, most erythroplakias arise
patients (mean age of 49 years) at the time of di- in oral sites at the highest risk for squamous cell
agnosis. Progression of PVL lesions to involve sig- carcinoma: the floor of the mouth, ventrolateral
nificant portions of the oral mucosa is often seen surfaces of the tongue, tonsillar pillars, and soft
despite surgical treatment, and relatively rapid palate (see Fig. 2B). Admixed areas of keratiniza-
transformation to squamous cell carcinoma is tion (speckled erythroplakia) may be seen.
a recognized complication. Depending on the precise clinical presentation,
immediate scalpel biopsy of erythroplakia may
Erythroplakia
be warranted even without conservative treatment
or follow-up evaluation. Toluidine blue staining
As with its whitish counterpart, the term eryth-
may be useful in biopsy site selection for cases
roplakia is used to describe a red macule or plaque
of erythroplakia. As previously noted, the high
that cannot be rubbed off or diagnosed clinically
index of suspicion for significant dysplasia or car-
as any other condition. Although not a diagnosis,
cinoma in cases of erythroplakia would be a con-
this presentation should always arouse clinical
traindication for cytologic methods.
Squamous cell carcinoma
Most cases of oral squamous cell carcinoma
present initially with clinical features of leukopla-
kia, erythroplakia, or both. Although any site can
be affected, anatomic areas of increased risk for
this disease have been recognized for years. In
1967, Moore and Catlin [5] presented scatter-
grams of oral cancer cases that provided a visual
depiction of their distribution (see Fig. 2A). These
plots were used to outline a   cancer-prone cres-
cent  (see Fig. 2B), where more than 75% of the
cancer cases were found, despite the fact that
Fig. 3. Close-up view of small (0.8 cm 0.3 cm), well-
demarcated, asymptomatic leukoplakia of the right ven- this region represented only 20% of the entire
tral tongue. oral mucosa. Subsequently, the area of elevated
468 KALMAR
cancer risk has been extended by other authors to Cytology
include the tonsillar pillar and soft palate complex
Oral exfoliative cytology has been an adjunct
[10]. As mentioned previously, the finding of any
to oral diagnosis for many years; however, until
persistent mucosal alteration in this   cancer risk
recently, it has been primarily used to provide
zone  should raise the clinician s index of suspi-
rapid and inexpensive identification of superficial
cion and serve as a trigger for surgical biopsy.
infectious agents, such as fungi (using periodic
The risk for oral cancer increases with age, and
acid Schiff or KOH staining), or viruses (using
most patients are diagnosed after the age of
Papanicolaou staining to permit visualization of
40 years. Men are more commonly affected than
the viral cytopathic effect in infected epithelial
women, and, as mentioned previously, the risk is
cells), such as herpes simplex virus (HSV; human
particularly high for African-American men. The
herpesvirus [HHV]-1,2) and varicella zoster virus
major risk factor for oral squamous cell carci-
(VZV; HHV-3).
noma is cigarette smoking, and roughly 80% of
Use of oral cytology to test potentially pre-
affected patients have a positive smoking history
cancerous epithelial lesions lost popularity for
[3]. Alcohol consumption has a less well-defined
several decades after studies from the late 1960s
association and may serve more as a cofactor, to-
through early 1970s had false-negative rates as
gether with smoking. Smokeless forms of tobacco
high as 31% [21 23]. Given the significant margin
have also been considered as risk factors for oral
of error, most practitioners abandoned this tech-
cancer. Recent evidence, however, suggests that
nique in the mid-1970s in favor of surgical biopsy
this historical view may need to be revised as sev-
analysis for potentially precancerous or cancerous
eral epidemiologic studies published during the
lesions.
past 10 years have failed to detect a significant as-
sociation between the use of smokeless tobacco
and the development of oral squamous cell carci- Brush cytology (brush biopsy)
noma [11 20]. The only form of oral cancer not
Brush cytology (brush biopsy; OralCDx; CDx
directly associated with smoking is cancer of the
Laboratories, Suffern, New York) was introduced
lip. This is related to sun exposure, and roughly
in 1999 as an alternative to conventional exfolia-
90% of such cases arise on the lower lip vermilion.
tive cytology for investigating persistent oral
It is also well recognized that patients can develop
epithelial lesions not considered suspicious for
squamous cell carcinoma in the absence of any
carcinoma [24]. Using materials provided in
known risk factors. In patients less than 40 years
a commercially available kit (Fig. 4), the tech-
of age, the most common site for this to occur is
nique differs from conventional exfoliative cytol-
the ventrolateral aspect of the tongue. In older fe-
ogy in two significant ways. First, a small
male patients, the gingiva is frequently affected.
circular brush instrument is provided for use in
Spread of oral squamous cell carcinoma is
a rotary fashion to collect a transepithelial speci-
usually by local extension into and destruction of
men. The brush is continually rotated against
underlying tissues, including alveolar bone. Met-
lesional tissue until pinpoint bleeding is detected
astatic spread is commonly through the lym-
clinically, indicating penetration of the basement
phatics to involve the ipsilateral cervical or
submandibular lymph nodes.
Diagnostic adjuncts
A variety of aids or adjuncts to the diagnosis of
oral precancerous and cancerous lesions have
been developed over the years, several within the
past decade. Although primarily developed for
use by the general dental practitioner, data have
been published to suggest possible utility in the
hands of specialists as well. As with any test,
proper case selection and correct performance of
the test itself are critical to the sensitivity and
Fig. 4. Fixative and brush instrument of the OralCDx
specificity of its result. brush biopsy system.
DETECTION AND DIAGNOSIS OF ORAL LESIONS 469
membrane and ensuring the likelihood of a full- that a positive or atypical result was 16.2 times
thickness (transepithelial) sample. The instrument more likely in a mucosal lesion with dysplasia or
is then   unloaded  by rotating the brush against carcinoma than in a lesion without precancerous
a glass slide to deposit and disperse the disaggre- or cancerous change.
gated epithelial cells. The sample is fixed with a so- In contrast, results from a study of 112 patients
lution provided by the company (see Fig. 4) and reported a sensitivity of 71%, specificity of 32%,
returned for interpretation. Automated com- and positive predictive value of 44.1% with the
puter-assisted specimen analysis initially deter- oral brush system [28]. The authors were
mines specimen adequacy, and then identifies concerned that 6 of 15 lesions with a negative
and stores cytologic abnormalities found within OralCDx result were found to have dysplasia or
the specimen. These abnormal findings are subse- carcinoma on subsequent scalpel biopsy. Such
quently reviewed by a pathologist trained in oral a finding validates previous concerns with earlier
cytology, who provides a test result. studies for failing to provide follow-up scalpel bi-
Results of brush cytology specimens are clas- opsy findings on all cases, possibly resulting in an
sified into one of four categories: overestimation of sensitivity and specificity with
the brush technique [25]. Finally, in a series of
1. Inadequate: incomplete transepithelial
four cases of oral squamous cell carcinoma, the
specimen
diagnosis of carcinoma was determined by scalpel
2. Negative: no epithelial abnormality
biopsy despite negative brush biopsy results [29].
3. Atypical: abnormal epithelial changes of un-
The time delay from the initial brush sampling
certain diagnostic significance
to final diagnosis varied from 5 to 292 days (aver-
4. Positive: definitive cellular evidence of epithe-
ageź117 days).
lial dysplasia or carcinoma
The brush system is easy to use, although its
For atypical or positive results, the company cost is not negligible. In addition to its application
recommends that patients receive follow-up scal- for innocuous-appearing but persistent mucosal
pel biopsy. This recommendation reflects the fact lesions, it could be a useful alternative for assess-
that the brush result is limited to reporting ing lesions in patients who refuse a scalpel biopsy.
evidence of cellular abnormalities or atypia; it Brush cytology, especially in combination with
does not provide a final diagnosis. In the case of vital staining, may also be useful for sampling
a negative result, clinical follow-up of persistent multiple areas of a large lesion, cases of PVL, or in
oral lesions is recommended. the follow-up of patients previously treated for
Several studies have shown encouraging data dysplasia or squamous cell carcinoma.
with oral brush cytology for evaluation of oral
precancerous and cancerous lesions. Sciubba [24]
Tissue fluorescence
reported 100% sensitivity with 100% specificity
for positive results and 92.9% specificity for atyp- Recently, a technique previously used as an
ical results in 945 patients. Unfortunately, biopsy adjunct to the examination of cervical mucosa
confirmation of the brush result was not obtained (speculoscopy) has been adapted and approved
for all atypical or negative cases, and the lack of for use in the oral cavity. Several different
such information has raised concerns that false- commercial products designed for this technique
negative or false-positive results may have been have been marketed, including: ViziLite (Zila,
left undetected [25]. In another study of 298 pa- Phoenix, Arizona; now available as ViziLite Plus
tients, the positive predictive value of an abnor- or ViziLite with TBlue marking system), Micro-
mal brush cytology finding resulting in a scalpel Lux DL (AdDent Inc., Danbury, CT), and VEL-
biopsy report of dysplasia or carcinoma was scope (LED Dental Inc., Vancouver, British
38.3% [26]. A comparative study of brush cytol- Columbia, Canada) (visually enhanced lesion
ogy and scalpel biopsy in 80 patients reported scope). With the ViziLite system (Fig. 5) and the
the brush technique to have 92% sensitivity and MicroLux DL, the oral mucosa is first rinsed
94% specificity for both positive and atypical re- with mild acetic acid and then illuminated by an
sults in detecting dysplasia and oral cancer [27]. activated chemiluminescent (ViziLite) or battery-
For positive results alone, sensitivity was 62% operated portable light source (MicroLux DL)
and specificity was 97%. A positive likelihood with output in the blue-white spectrum. The acetic
ratio [sensitivity/(1 specificity)] of 16.2 was acid wash helps to remove surface debris and re-
also recorded for the brush technique, meaning portedly causes the epithelial cells to dehydrate
470 KALMAR
leukoedema, nonspecific ulcer, and fibroma were
shown to be chemiluminescent-positive, together
with two leukoplakias that were subsequently
characterized as atypical by brush cytology or as
hyperkeratosis and epithelial atypia by scalpel
biopsy. No attempt was made by the authors to
assess the sensitivity or specificity of the system.
In a study of 40 Malaysian subjects, the sensitivity
of the ViziLite test with follow-up scalpel biopsy
was reportedly 100%, with a specificity of 14%
[31]. The authors raised several concerns about
the technique, including its cost and a high false-
Fig. 5. ViziLite system components, including a dispos-
positive rate (19%). Finally, a published abstract
able light source, acetic acid solution, and light holder.
has reported that the ViziLite test result was pos-
ViziLite Plus (ViziLite with TBlue marking system)
itive in 78% of all clinically suspicious lesions,
kits also provide a toluidine blue (tolonium chloride)
including 66% of suspicious leukoplakias (61
solution.
of 92 cases) and 60% of erythroleukoplakias (6
of 10 cases) but only 25% of clinically suspicious
slightly, increasing the relative prominence of
erythroplakias (5 of 20 cases) [32]. In addition,
their nuclei. Under blue-white illumination, nor- 19% (12 of 58 cases) of the keratoses judged to
mal epithelium appears lightly bluish in color,
be clinically innocuous were positive; however,
whereas abnormal epithelium appears distinctly
additional histologic or diagnostic information
white. ViziLite Plus consists of the same device
was not provided.
packaged together with a tolonium chloride solu- Recently, investigators using an electrically
tion (see section on toluidine blue). The tolonium
powered fluorescent light source similar to the
chloride is intended for use as a marking dye to
VELscope unit presented results from a pilot
help highlight lesions identified with the light
study involving 44 patients with a history of
source. VELscope (Fig. 6) is an alternating current
biopsy-confirmed dysplasia or squamous cell car-
(AC) powered, portable, reusable light source
cinoma [33]. The patients first received routine
that provides a blue emission spectrum unique
oral examinations under white light, followed by
from the ViziLite or MicroLux DL system. With
re-examination in a darkened room using the fluo-
this device, areas of reduced autofluorescence are
rescent unit. Compared with the uniform auto-
considered suspicious for abnormality or a positive
fluorescence of normal mucosa, areas of reduced
finding.
fluorescence (as compared with adjacent mucosa
In a survey study of 150 patients, the ViziLite
and mucosa from the contralateral anatomic
system was visually shown to amplify areas of the
site) were considered positive or suspicious.
mucosa where hyperkeratinization or chronic in- Next, the fluorescent results were correlated with
flammation was identified [30]. Conditions like
microscopic features in 50 oral biopsies from the
patient cohort. Of 7 biopsies from sites with nor-
mal autofluorescence, 6 exhibited normal surface
epithelium, although 1 was diagnosed as severe
dysplasia or CIS. Of the remaining 43 specimens
obtained from sites with reduced autofluores-
cence, 10 showed severe dysplasia or CIS and
33 were diagnosed as squamous cell carcinoma.
These data corresponded to a reported sensitivity
of 98% and a specificity of 100%. The authors
noted that the decision to perform a biopsy was
not based on tissue autofluorescence but on stan-
dard clinical features (patient history, clinical ap-
pearance, and toluidine blue staining results).
Unfortunately, the authors failed to correlate
Fig. 6. VELscope light source unit with viewing hand- these features with tissue fluorescence, making it
piece and fiber optic light guide. impossible to assess the added diagnostic value
DETECTION AND DIAGNOSIS OF ORAL LESIONS 471
of the fluorescent examination. A published ab- In 1996, Warnakulasuriya and Johnson [39] re-
stract from the same group reported that a signifi- ported that all oral cancers (18 of 18 cases) tested
cantly higher proportion of oral premalignant were toluidine blue-positive; however, lower sensi-
lesions (nź69) with reduced fluorescence were tivity (79.5%) and specificity (62%) were found
dysplastic (nź42 [81%]) compared with lesions with precancerous lesions, and a false-negative
with normal fluorescence (nź17 [41%]) [34]. In rate of 20.5% was observed. Problems with tolui-
another abstract, 8 patients undergoing surgery dine blue sensitivity, specificity, or both were
for recently diagnosed T0 to T2 oral cancer were noted in other studies of precancerous lesions in
studied. In each case, the clinical lesions, areas the middle to late 1990s and early 2000s [40,41].
of reduced tissue fluorescence (fluorescent-posi- In addition, false-positive rates as high as 35%
tive), and surgical margins were delineated, and were reported [41]. Variable study results over sev-
punch biopsies (nź18) were obtained from fluo- eral decades probably explain why toluidine blue
rescent-positive areas that extended beyond the currently lacks widespread acceptance among gen-
margin of visibly abnormal tissue. Of these biop- eralists or specialists.
sies, 6 were diagnosed as carcinoma (33%), 4 as A series of recent reports may revive pro-
severe dysplasia (22%), 4 as mild to moderate dys- fessional interest in this technique, however.
plasia (22%), and 4 as hyperplasia or normal Toluidine blue positivity was higher in oral pre-
(22%). These results suggest that fluorescent ex- malignant lesions that showed loss of heterozy-
amination may permit detection of precancerous gosity (LOH) at chromosome regions associated
lesions even when the oral mucosa appears clini- with the development of squamous cell carcinoma
cally normal [35]. (3p, Pź.13; 17p, Pź.049) and was more likely
The ViziLite Plus test is simple to use; how- seen with lesions that showed LOH in greater than
ever, its cost is not negligible, and the light stick two regions [42]. Importantly, the authors sug-
can only be activated once. Although the Micro- gested that lesions with weak toluidine blue stain-
Lux DL provides a multiple-use light source, there ing should be viewed suspiciously, because their
is currently little evidence to suggest that either molecular profiles were essentially identical to le-
system improves detection of oral precancerous or sions that stained strongly. Similar molecular
cancerous lesions beyond visual inspection alone. findings were reported in a study of 100 oral pre-
The VELscope unit is a portable, multiuse, malignant lesions that also examined clinical out-
fluorescent device that is also simple to operate, come, with an average follow-up time of 44
but the unit is expensive and its durability has not months [43]. Although only 5% (3 of 64 cases)
been proven. Additional prospective studies are of toluidine blue-negative lesions progressed to
needed to evaluate the potential diagnostic benefit cancer, carcinomatous transformation was ob-
of tissue fluorescence for oral cavity examination. served in 33% (12 of 36 cases) of the toluidine
blue-positive lesions. This corresponded to
a greater than sixfold elevation in cancer risk (rel-
Toluidine blue (tolonium chloride)
ative riskź6.67, 95% confidence interval [CI]:
In 1964, Niebel and Chomet [36] first reported 1.87 23.70). Toluidine blue staining was associ-
on the use of toluidine blue as a vital tissue stain ated with multiple LOH, especially including
to aid in the early detection of oral precancerous LOH at 3p or 9p, and this, in turn, was associated
and malignant lesions. Also known by its chemi- with a marked increased risk of carcinomatous
cal name of tolonium chloride, toluidine blue is transformation (Pź.0002 or P ! .00001). Of
a basic metachromatic stain that binds to DNA. particular interest in this study, toluidine blue-
Although not cancer specific, it has been reported positive lesions with minimal or no identifiable
to stain mitochondrial DNA, altered DNA in pre- dysplasia on initial biopsy were almost fourfold
malignant and malignant epithelial lesions, and more likely to transform to carcinoma than le-
cells with relatively increased amounts of DNA sions found to be toluidine blue-negative (relative
[37]. From 1964 to 1992, a number of studies riskź3.92, 95% CI: 0.92 16.80).
showed toluidine blue to exhibit sensitivity that Use of tolonium chloride has also been of
ranged from 86% to 100%, with a specificity reported benefit in the follow-up of patients with
ranging from 63% to 100%. A meta-analysis pub- previously treated upper aerodigestive cancer. In
lished in 1989 reported toluidine blue sensitivity as an examination of 96 biopsies performed in 81
ranging from 93.5% to 97.8%, with a specificity patients, the sensitivity for detecting recurrent or
ranging from 73.3% to 92.9% [38]. secondary disease by clinical examination alone
472 KALMAR
was 40% compared with 97% with vital staining mucosal surfaces as well. Deep biopsies in areas
(Pź.0002) [44]. Because the positive predictive like the palate can be relatively simple to obtain
values were similar for both arms of the study, with a punch biopsy instrument; however, con-
the authors noted that the increased sensitivity trolling the sample depth may be difficult, and
with tolonium chloride did not come at the subsequent use of scissors or a scalpel is often
expense of unnecessary biopsies (false-positive needed to free the specimen base from underlying
results). In a separate report of 46 patients previ- tissues. For study purposes, an advantage of the
ously treated for oropharyngeal cancer, toluidine punch instrument is its ability to provide repro-
blue was used to direct subsequent follow-up ducibly sized epithelial samples of lesion or
punch biopsies of the stained tissue in these pa- control tissues.
tients, together with nonstaining adjacent mucosa
in 34 cases [37]. Evidence of equivalent LOH was
Scalpel biopsy
noted in 25 of the 34 sample pair cases regardless
of staining status, with discordant LOH in the re- The simplest form of surgical sampling may be
maining cases. Of these, 8 of the 9 cases showed the shave biopsy, where a shallow saucer-shaped
a greater degree of LOH in the toluidine blue- or elliptically shaped specimen (including a thin
positive sample compared with the unstained layer of connective tissue) is removed using a
sample. In addition, the authors found that 59% scalpel or curved razor blade. As with the use of
of morphologically innocuous lesions initially a punch biopsy, a shave biopsy is favored by
thought to be false-positive results contained dermatologists for the diagnosis of superficial
LOH, consistent with the hypothesis that tolui- lesions, such as actinic keratosis or early basal
dine blue staining may permit clinical detection cell carcinoma, in which evaluation of deep
of altered DNA even if the tissue appears micro- margins is not considered essential. Because a de-
scopically benign. Most recently, a smaller study termination of tissue invasion is critical to the
of 18 patients suggested that only dark toluidine distinction between intraepithelial neoplasia (dys-
blue staining should be viewed as a positive result plasia or CIS) and oral squamous cell carcinoma,
[45]. The study was hampered by a high false-pos- use of a shave technique is typically not recom-
itive rate (31%) and the fact that all dark-stained mended for the diagnosis of suspicious intraoral
lesions in their series were clinically ulcerated. lesions.
Because this report stands in contrast to the The final diagnosis for suspicious lesions of the
earlier molecular-associated findings (similarly ab- oral cavity is usually made on the basis of an
normal LOH patterns with dark- and light-stained incisional or excisional scalpel biopsy. Excisional
lesions), confirmatory studies are needed. biopsy is most often reserved for clinically benign
or, at worst, precancerous mucosal lesions that
are less than 2 cm in diameter. In cases in which
Diagnostic methods
carcinoma is strongly expected, excision of le-
sional tissue should only be performed by the
Despite the growing number of adjuncts avail-
surgeon who is to be directly involved with
able to assist in the clinical evaluation of lesions
definitive patient management. Otherwise, healing
with uncertain biologic potential, surgical biopsy
of the surface mucosa may obscure the precise
remains by far the most popular means of obtain-
location of the original lesion and hinder de-
ing a final tissue diagnosis. Once a diagnosis is
finitive treatment planning.
established, additional studies (including imaging
Most suspicious lesions of the oral cavity are
modalities) may be needed to determine the stage
diagnosed through an incisional biopsy, where
of disease and to guide treatment plan develop-
a portion of the abnormal surface tissue is re-
ment. A variety of approaches have been used to
moved for histopathologic interpretation. As a
obtain diagnostic tissue samples of suspicious oral
rule, the tissue sample should include the most
lesions, and several are discussed here.
clinically suspicious portion of the lesion, includ-
ing areas of erythroplakia, speckled leukoplakia,
Punch biopsy
surface granularity, or ulceration. Careful appli-
A punch biopsy is a soft tissue sampling instru- cation of toluidine blue staining may be useful in
ment having a circular cutting edge of varying this setting by highlighting suspicious areas. For
diameter. It is most frequently used by dermatol- lesions greater than 3 cm in diameter, the use of
ogists to sample skin lesions but can be used on multiple incisional biopsies and vital staining may
DETECTION AND DIAGNOSIS OF ORAL LESIONS 473
be warranted to help identify or exclude focal recurrence and overall survival [52 57]. The Mar-
carcinomatous transformation. tinez-Gimeno scoring system, an analysis of six
With oral precancerous or dysplastic lesions, histologic criteria plus primary tumor size (T clas-
little correlation has been identified between grade sification), was shown in a prospective study to
of dysplasia (mild, moderate, or severe) and the have a sensitivity of 100% (95% CI: 98%
risk of progression to cancer [46 48]. In the ab- 100%) and a specificity of 55% (95% CI: 44%
sence of reliable prognostic information associ- 66%) with a positive predictive value of 59%
ated with morphology, molecular approaches (95% CI: 48% 70%) and a negative predictive
have been used to help identify genetic features value of 100% (95% CI: 98% 100%) for the
that might better define the risk of progression risk of locoregional metastatic disease in cases of
for a given lesion. These are discussed in more de- oral squamous cell carcinoma [58].
tail in the section on cytochemical and molecular Recently, the concept of multiparameter anal-
studies in this article. ysis was examined and modified by Brandwein-
In the case of squamous cell carcinoma, Gensler and colleagues [59] to produce a histologic
predicting tumor behavior based on its micro- risk assessment system based on (1) perineural in-
scopic features has also been an ongoing challenge vasion greater than 1 mm involving nerves, (2)
for the pathologist. Tumor grade, or degree of lymphocytic response, and (3) worst pattern of in-
differentiation, has not been a satisfactory pre- vasion (WPOI) (Table 1). In a study of 292 patients
dictor of local recurrence or patient survival, with cancer, the authors demonstrated that their
especially compared with tumor stage (tumor three-tiered system of risk assignment was strongly
extent). Although the thickness of early (T1) predictive of local recurrence and overall survival
squamous cell carcinoma of the tongue has been (log rank: Pź.0004 and P ! .0001, respectively)
strongly associated with the risk for regional node across uniformly treated patients (Fig. 7). Margin
metastasis and survival, it does not predict the risk status, however, was not significantly related to
of local recurrence [49 51]. A multiparameter disease recurrence or survival. This system pro-
analysis of squamous cell carcinoma, incorporat- vides a logical basis for the recommendation of ad-
ing variables like degree of keratinization, pattern juvant radiotherapy or chemotherapy for patients
of invasion, nuclear pleomorphism, mitotic rate, with oral cancer, including the newly defined group
and lymphocytic response, has been advocated with T1/T2 N0/N1 tumors and negative resec-
by a number of authors to help predict local tion margins but a risk score of greater than 3
Table 1
Proposed histopathologic risk assessment system for oral squamous cell carcinoma
Point assignment for risk scoring
Histologic variable 0 1 3
Perineural invasion None Small nerves Large nerves
Lymphocytic infiltrate Continuous band Large patches Little or none
at interface
WPOI at interface #1 or #2 or #3 #4 #5
Risk score Adjuvant
(sum of all point Risk for local Overall survival treatment
assignments) recurrence probability recommendations
0 Low Good No local
disease-free benefit
seen for adjuvant RT
1 or 2 Intermediate Intermediate No local
disease-free benefit
seen for adjuvant RT
3 9 High Poor RT regardless of 5 mm
margins
Abbreviations: RT, radiotherapy; WPOI, worst patternal invasion.
From Brandwein-Gensler L, Teixeira MS, Lewis CM, et al. Oral squamous cell carcinoma: histologic risk assessment,
but not margin status, is strongly predictive of local disease-free and overall survival. Am J Surg Pathol 2005;29(2):175;
with permission.
474 KALMAR
retrospective series of salivary gland lesions diag-
nosed by FNA, where a sensitivity of 73% and
a specificity of 91% were recorded [62].
Sentinel node biopsy and cytology
Taken from its initial application with mela-
noma, the technique of investigating sentinel
node tissue has recently been applied to oropha-
ryngeal malignancies, such as squamous cell
carcinoma. This procedure is intended to identify
micrometastatic disease within a   sentinel  node
considered most likely to drain the tumor bed and
receive initial metastatic deposits from the pri-
mary malignancy. Sentinel node biopsy thus
represents a less invasive means of providing
staging information for the patient with oral
cancer with an N0 neck.
The sentinel node technique uses lymphoscin-
Fig. 7. Kaplan-Meier overall survival curves classified
tigraphy, where the primary cancer site is initially
by risk assessment scoring system. (From Brandwein-
injected with a radioactive tracer material, such as
Gensler M, Teixeira MS, Lewis CM, et al. Oral squa-
Tc 99m sulfur colloid. Different molecular weights
mous cell carcinoma: histologic risk assessment, but
of this material can be selected depending on the
not margin status, is strongly predictive of local
disease-free and overall survival. Am J Surg Pathol desired transit time for the study. Conventional
2005;29(2):175; with permission.)
radiography is then used to locate the sentinel
node, and the patient is taken to the operating
(high-risk histologic features). Although prospec-
room. For open biopsy, the surgeon may inject
tive studies are needed to corroborate and extend
a blue dye into the tumor bed to assist with visual
these findings, the potential benefits of this simple
identification of the node, supplemented by an
yet elegant scoring system should be obvious to
intraoperative gamma detector. Use of a dye is
clinicians and pathologists alike.
not always recommended for head and neck
tumors, because some authors claim that it can
Fine-needle aspiration cytology
interfere with node identification or even tumor
Fine-needle aspiration (FNA) cytology is resection [63]. The node is then removed and ex-
a valuable tool in the diagnosis of superficial amined histopathologically for micrometastatic
masses of the head and neck region. Although disease, often aided by serial sections and the
most of these masses represent benign conditions, use of immunohistochemistry (IHC). Because
testing for cancerous lesions can include cervical only 6 of 10 occult metastases from primary squa-
or submandibular masses suspicious for meta- mous cell carcinoma of the oral cavity primary
static nodal disease or conditions like primary were reportedly detected using frozen sections, in-
salivary gland malignancy or lymphoma. A good traoperative evaluation of sentinel nodes does not
discussion of this technique has been provided in seem to be sufficiently reliable for routine use [64].
a previous issue of Oral and Maxillofacial Surgery A recent meta-analysis of this approach for
Clinics of North America [60]. More recently, squamous cell carcinoma of the oral cavity and
FNA has been applied to the concept of sentinel oral pharynx reported a pooled sensitivity of 92.6%
node examination. Expertise in aspiration tech- (95% CI: 0.852 0.964) [65]. In a study of 50 patients
nique and cytologic interpretation of FNA speci- with oral, pharyngeal, or laryngeal cancer, 46 had
mens is essential for reliable results with this identifiable sentinel nodes that were harvested by
procedure. Although tumor sampling has been open biopsy [63]. All patients subsequently under-
aided through guidance technology (ultrasound went neck dissection (39 unilateral and 21 bilat-
or CT), sampling errors or diagnostic challenges eral). Occult metastases were found by open
are reported with this technique and may necessi- biopsy in 12 patients, and the authors noted that tu-
tate subsequent open biopsy [61]. These limitations mor detection required additional sectioning or
have been documented in a large (n ź 6249) IHC in three cases. For 9 of the patients, the sentinel
DETECTION AND DIAGNOSIS OF ORAL LESIONS 475
node was the only one to show micrometastatic dis- the head and neck that can produce bilateral
ease, whereas multiple positive nodes were found in drainage patterns by lymphoscintigraphy as well
3 patients. In addition, no patient with a negative as the complex anatomy that can make precise
sentinel node result was found to have tumor in localization and identification of suspicious nodal
other nonsentinel lymph nodes. Ultrasound-guided tissue quite difficult. The finding of multiple
FNA cytology has also been used in an effort to radioactive nodes can hinder determination of
provide an even more conservative approach to the true sentinel or   first echelon  node, with
sentinel node assessment. Unfortunately, a lower some authors favoring harvest or sampling of the
sensitivity rate of 42% to 73% has been reported three most strongly radioactive nodes [63,66,71].
with ultrasound-guided specimens [66]. Some au-
thors suggest an adjunctive role for FNA cytology
Cytochemical and molecular studies
in the evaluation of the patient with N0 neck cancer
and have recommended that negative FNA results
The diagnosis of oral precancerous and can-
be followed by open biopsy of the sentinel node
cerous lesions continues to be made almost
[65,66].
exclusively on the basis of routine morphologic
Another recent technology that has been used
evaluation of formalin-fixed paraffin-embedded
together with sentinel lymph node biopsy is posi-
tissue sections of scalpel biopsy specimens. Well-
18
tron emission tomography (PET) using F-fluoro-
recognized cytologic and architectural changes
2-deoxy-D-glucose (18FDG). This imaging study is
associated with premalignant oral epithelial le-
based on the increased metabolic activity of most
sions are used to determine the presence and
cancer cells that results in preferential uptake of ra-
degree of epithelial dysplasia. This time-honored
diolabeled glucose by tumors, such as squamous
system represents the   gold standard  for identi-
cell carcinoma. In a prospective study involving re-
fication of oral premalignancies and is used, at
sectable T1 to T3 lesions of oral and oropharyngeal
least broadly, to predict biologic behavior or risk
squamous cell carcinoma, PET and CT were ob-
of malignant transformation for a given precan-
tained in 62 patients [67]. A total of 38 patients
cerous lesion. Unfortunately, the earliest morpho-
with PET-negative findings were subsequently
logic signs of dysplasia can be mimicked by a host
tested by sentinel node biopsy, including step-serial
of reactive conditions, and numerous studies have
sections and IHC analysis. Five of these patients
documented significant variability (interobserver
were found to have metastatic disease (PET false-
and intraobserver) in the diagnosis of oral epithe-
negative results) and were treated with neck dissec-
lial dysplasia. The predictive value of increasing
tion. Although no significant differences were
degrees of dysplasia for the risk of malignant
noted between PET and CT, negative neck sides
transformation is also unreliable. At the same
were better predicted by PET. Only 41 (33%) of
time, although the histologic diagnosis of squa-
a possible 124 neck sides were treated after PET
mous cell carcinoma is less susceptible to variabil-
staging, positive sentinel node biopsy, or intrao-
ity among pathologists, studies relating its
perative evaluation of tumor extension. In con-
morphologic features to biologic behavior and
trast, standard treatment guidelines and CT
prognosis have only recently been reported.
examination would reportedly have resulted in
Although most experts agree that cellular
100 neck side procedures (81%). Importantly,
alterations at the DNA level almost certainly
none of the 41 patients diagnosed as PET-negative
precede microscopic morphologic changes that
had evidence of clinical relapse, with a median fol-
can be recognized by even the most experienced
low-up of 33 months (range: 10 52 months). The
pathologist, a consensus has yet to be reached as
authors proposed a staging ladder for clinically
to what parameter(s) might be most useful in the
N0 patients based on the high specificity of prereq-
diagnosis and management of oral lesions. In this
uisite PET examination followed by the high sensi-
section, some of the chemical, IHC, and molecular
tivity of sentinel node biopsy, which may result in
markers that have been used in the early charac-
fewer unnecessary neck dissection procedures. Fi-
terization of oral epithelial dysplasias and squa-
nally, some authors suggest that use of combined
mous cell carcinomas are presented.
(fused) PET and CT imaging could provide an ad-
ditional advantage in patient staging over either
Nucleolar organizing regions
modality alone or MRI [68 70].
Complicating factors with sentinel node biopsy Nuclear organizing regions (NORs) are loops
and cytology include the rich lymphatic system of of ribosomal DNA loops located on the short
476 KALMAR
arms of chromosomes 13, 14, 15, 21, and 22 and patients [76]. Once again, corresponding biopsy re-
are associated with acidic nonhistonic proteins sults were obtained in only 64 (19%) of 337 cases.
that can be visualized by silver-staining techniques Limitations with the technique include the time
(argyrophilic) [72]. Because the number or size of and effort required to perform the study manually
argyrophilic NORs (AgNORs) correlates posi- as well as staining variability and counting sub-
tively with cellular proliferation, they have been jectivity. Although computer-assisted image anal-
used to study a variety of neoplastic conditions, ysis has the potential to overcome some of these
including dysplastic and malignant oral epithelial problems, such hardware adds to the overall cost
lesions, as has been previously discussed in an ear- and maintenance requirements.
lier issue of Oral and Maxillofacial Surgery Clinics
of North America [60].
Abnormal DNA segregation (DNA aneuploidy)
Mean AgNOR counts were shown in a recent
report to be differ significantly between nondys- It has been recognized for many years that
plastic (2.14) and dysplastic (2.65) clinical leuko- abnormal chromosomal segregation resulting in
plakias (95% CI: 0.670 0.936), with a sensitivity of aneuploidy can be a marker of neoplastic trans-
75% and specificity of 83%, with a cutoff mean formation. In the view of some authors, errors in
AgNOR value of 2.37 [73]. Using this cutoff value, DNA segregation may be one of the many causes
a subsequent report compared AgNOR counts of cancer and not merely a result [77]. Abnormal
with the gold standard of histopathologic diagno- chromosomal content is thought to be the most
sis in 52 archival biopsy specimens. The test sensi- common characteristic of solid tumors in human
tivity was 67%, and the specificity was 59%, beings. Discussion of abnormal DNA content
whereas the false-positive and false-negative was provided in a previous issue of Oral and Max-
rates were 41% and 33%, respectively [74]. The illofacial Surgery Clinics of North America in an
authors noted that mean AgNOR count had article on flow cytometric analysis [60]. Since
little correlation to the diagnosis of dysplasia and then, studies using flow and image cytometry
suggested lowering the cutoff value to reduce the have provided additional information regarding
high false-negative rate. Even more recently, the diagnostic usefulness of this technique
mean AgNOR number, size, and percentage of to- [72,78 84]. In a series of 25 resected oral squa-
tal nuclear area were significantly increased in 12 mous cell carcinomas, all tumors were found by
cases of squamous cell carcinoma compared with image analysis to be aneuploid and multiploidy
corresponding normal patient tissue (P ! .01), al- was seen in 15 cases (60%); however, aneuploidy
though significant case-to-case variability was alone did not seem to be related to clinical pro-
noted [75]. For example, although AgNOR size gression [78]. A total of 29 mucosal lesions in 21
was significantly larger in 11 of the 12 carcinoma patients that progressed to carcinoma were com-
cases, AgNOR number differed in only 8 of 12 pared with 29 control lesions that did not progress
cases, and the percentage area of the nucleus occu- (mean follow-up of 112 months). The lesions were
pied by AgNORs varied in only 6 of 12 cases. matched for location and level of dysplasia [79].
In two separate studies, one research group has Using quantitative image analysis, the progressive
combined brush cytology sampling with AgNOR lesions exhibited significantly greater levels of
counts. Using image analysis technology, a com- DNA aberration than controls (Pź.0096). Of
bined sensitivity of 98.2%, specificity of 100%, clinical importance, 3 lesions initially judged to
positive predictive value of 100%, and negative be reactive by histopathologic examination but
predictive value of 99.5% were reported for the found to be nondiploid or aneuploid by DNA
detection of cancer cells in 251 samples from 181 analysis all progressed to carcinoma. Comparison
patients [72]. As discussed previously, however, of flow cytometric and image cytometric results
these findings are confounded by the fact that was performed in another study involving 32 cases
only 63% of the brush cytology AgNOR results of oral squamous cell carcinoma [80]. Image cy-
were confirmed by scalpel biopsy, including only tometry of stained sections was found to be
57% (47of 83 lesions) described as   leukoplakia.  more sensitive in detecting abnormal cell DNA
In a follow-up paper using manual AgNOR counts, content, and the presence of aneuploidy had prog-
a sensitivity of 92.5%, specificity of 100%, positive nostic implications. Nine of the 32 patients died
predictive value of 100%, and negative predictive within 5 years of initial treatment, and the tumors
value of 84.6% for the detection of squamous cell had greater than 10% abnormal cellular DNA in
carcinoma were reported in 337 samples from 75 all 9 cases. To test the prognostic value of this
DETECTION AND DIAGNOSIS OF ORAL LESIONS 477
finding, a multivariate analysis was performed on requires an accumulation of several DNA alter-
195 patients with oral cancer. In descending order ations collectively resulting in uncontrolled neo-
of importance, the three independent variables plastic growth.
found to have a statistical association with sur- Recent work has supported the concept that
vival were (1) abnormal DNA content, (2) clinical premalignant oral lesions may have an identifiable
stage, and (3) growth pattern (endophytic versus genetic profile associated with the risk for malig-
exophytic). nant transformation. Using microsatellite analysis
Combining brush cytology with DNA cytom- to detect areas of loss of allelic balance or LOH,
etry has been used to provide a less invasive means early DNA changes in precancerous oral lesions
of patient sample analysis [72,76,82]. This combi- have been found in the 3p and 9p chromosomal
nation was compared with incisional biopsy in regions [86]. For a given lesion, the risk for pro-
a report of 98 patients, with a sensitivity of gression to cancer was low if no LOH was found,
100% and specificity of 97.4% [82]. Aneuploidy intermediate if LOH at 3p and 9p was found, and
was found in 1 of 21 leukoplakia cases, 3 of 3 high if LOH at 3p and 9p was seen together with
erythroplakia cases, and 15 of 15 squamous cell additional areas of genetic damage [86,87]. Over-
carcinoma cases. The findings of Remmerbach all, lesions with LOH at 3p and 9p plus other de-
and colleagues [76] indicated that DNA aneuploidy fined chromosomal areas had a 33-fold increased
was detectable in brush cytology specimens from 1 risk for progression to squamous cell carcinoma
to 15 months before histologic evidence could compared with lesions without LOH [86,88].
confirm the presence of malignancy. In contrast, Others have reported that only 2% of low-risk le-
flow cytometry results were recently reported in sions by LOH analysis are likely to progress to
67 cases of oral squamous cell carcinoma [83]. cancer over a 5-year period compared with 50%
Although 27% of the tumors were aneuploid, the of high-risk lesions [16,87,89]. In examination of
authors found no relation between ploidy sta- the known   high-risk zones  for oral cancer (see
tus and local recurrence, distant metastases, or Fig. 2B), genetic analysis showed that leukoplakia
survival. from sites of high risk (71 cases) possessed
Despite promising results, there has been re- a greater degree of LOH than similar lesions in
cent public acknowledgment of significant scien- low-risk sites (56 cases) [90].
tific fraud by one of the most active proponents of In addition to permitting insight into the risk
aneuploidy analysis in the study of oral cancer of progression for a given lesion, the discovery
[84,85]. This disclosure makes it impossible to that clinically and microscopically   normal  mar-
summarize our current knowledge with any cer- gins can harbor genetic damage significantly alters
tainty until the evidence presented in several re- the concept of a clear or negative excisional
ports is re-examined and the conclusions are margin with oral precancerous conditions. In
revised as necessary. Because of the ongoing con- a study of 66 dysplastic lesions designed to assess
troversy, the future of aneuploidy in the diagnosis the treatment impact on patient outcome, such
and management of oral precancerous and can- clinical features as sex (male versus female),
cerous lesions is unclear. Readers are advised to history of smoking (nonsmoker versus ever
stay abreast of the related scientific literature as smoker), location (high-risk versus low-risk site),
the story unfolds. and appearance (homogeneous versus nonhomo-
geneous) were not associated with lesion pro-
gression or recurrence [87]. Likewise, the
DNA alteration (loss of heterozygosity (LOH))
histologic grade of dysplasia (mild or moderate)
As mentioned previously, the progression of was not related to progression. Using LOH anal-
oral epithelium from a benign to malignant pro- ysis to assign low-, intermediate-, and high-risk
cess begins at the genetic (DNA) level and is patterns, the authors found that although lesion
ultimately expressed at the cellular and clinical treatment (surgical removal of clinically abnormal
levels. For some lesions, such as a true leukopla- tissue) reduced progression to cancer for lesions of
kia with no observable dysplasia on biopsy, all LOH patterns, the reduction was not statisti-
a clinical lesion may even precede the patholo- cally significant. To further examine this finding,
gist s ability to detect histomorphologic evidence repeat biopsy was performed on 19 patients at
of premalignancy. It is further recognized that the site of the original excision. In 17 patients,
carcinogenesis does not result from a single area LOH patterns observed in the repeat biopsy indi-
of DNA damage but is a multistep process that cated incomplete removal of the initial lesion.
478 KALMAR
Importantly, in 8 of the 17 cases, there was no nucleic acid analysis may provide optimal sample
clinical evidence of mucosal abnormality at the material for studies of LOH or other genetic
time of the second biopsy. When the treatment abnormalities using specimens obtained directly
impact was reassessed by combining molecular from clinically normal or abnormal mucosa.
and clinical criteria (evidence of residual clones, It has also been shown that tumor markers or
completeness of surgical removal, or clinical evi- associated biomarkers can be detected in the
dence of recurrence), the risk of progression risk serum and, more recently, the saliva of patients
was significantly reduced in cases with intermedi- with cancer [93 95]. Saliva, especially, has many
ate- and high-risk LOH patterns. ideal characteristics for future diagnostic applica-
LOH is also seen in virtually all cases of tions that range from routine screening to post-
squamous cell carcinoma and may be useful in treatment follow-up of the patient with oral
predicting biologic behavior. Allelic imbalance cancer. Saliva is easily accessible, is collectible by
has been reported at several chromosome arms, noninvasive means, and has previously been
including 3p, 4q, 5q, 7q, 8p, 10q, 11q, 13q, 18q, shown to contain identifiable DNA abnormalities
20q, and 22q [91]. In addition, accumulation of in patients with oral squamous cell carcinoma
multiple LOH seems to be related to the risk of tu- [96,97]. Recent evidence using the reverse tran-
mor recurrence. In a study of 68 patients with pre- scriptase polymerase chain reaction (RT-PCR)
viously treated oral cancer, biopsies of subsequent has also revealed quantifiable levels of mRNA in
leukoplakic lesions that did or did not progress to saliva [95]. Using microarray analysis, Li and col-
a second oral malignancy were performed [92]. leagues [95] examined the saliva from 10 patients
Progressing lesions were 26 times more likely to with recently diagnosed oral cancer in comparison
exhibit LOH at 3p or 9p than nonprogressive le- to age and sex-matched controls with comparable
sions. In contrast, histopathologic evidence of smoking histories. From a total of 10,316 tran-
dysplasia was not associated with increased risk scripts, 1679 were shown to differ significantly
of a second malignancy. Such data affirm the (up- and downregulated) between patient and
idea that molecular evaluation of lesional tissue control samples. Using more stringent selection
and margin status may be more informative criteria, the authors presented a total of seven sal-
than routine histopathologic evaluation in the ivary mRNAs as candidate cancer-related bio-
management of oral squamous cell carcinoma markers, including interleukin (IL)-8, IL-1B,
and precancerous disease. DUSP1, HA3, OAZ1, S100P, and SAT. Together,
these biomarkers gave a sensitivity of 91% and
specificity of 91% for distinguishing patients
The future
with oral cancer from controls. Of additional in-
Despite the clinical promise shown by molecu- terest, these researchers have recently reported
lar techniques in areas ranging from early diagnosis that salivary IL-8 mRNA and protein levels, as
to the follow-up of previously treated patients with measured by quantitative RT-PCR and ELISA,
oral cancer, such technology is primarily used at respectively, were significantly higher in patients
a handful of major clinical research centers in with oral cancer compared with matched controls
North America and is not routinely available to [98]. Serum IL-6 mRNA and protein levels were
most oral and maxillofacial surgeons. Limiting also elevated in these same patients with cancer.
factors include the added costs and requirement The combination of salivary IL-8 and serum IL-
for additional equipment, the complexity of the 6 gave a sensitivity of 99% and a specificity of
tests themselves, and the need to calibrate for those 90% for detecting oral squamous cell carcinoma.
who interpret test results. The natural reluctance Finally, serum analysis by matrix-assisted laser
of practitioners to adopt new techniques or proto- desorption and ionization time-of-flight mass
cols, even in the face of compelling evidence, also spectrometry was recently used to evaluate spec-
makes the standard of care for precancerous and imens from 57 patients with oral cancer and 29
cancerous lesions slow to change. control patients [99]. In this technique, chip-based
Ideally, diagnostic adjuncts or tests should be arrays are used to bind various proteins through
relatively affordable, should be simple to perform, a number of interactions, including hydrophobic
and should use easily obtainable patient samples or and/or hydrophilic, anionic and/or cationic, and
specimens. As has been done with AgNOR count- metal-binding properties. The technology permits
ing, the combination of brush cytology sampling large numbers of specimens to be screened simul-
with thin-film slide preparation and molecular taneously, but it is expensive and requires
DETECTION AND DIAGNOSIS OF ORAL LESIONS 479
[10] Mashberg A, Samit A. Early diagnosis of asymp-
additional characterization work for proteins of
tomatic oral oropharyngeal squamous cancers. CA
interest. Of several proteins initially identified,
Cancer J Clin 1995;45(6):328 51.
the authors reported that a C-terminal fragment
[11] Bundgaard T, Wildt J, Frydenberg M, et al. Case-
of the fibrinogen a-chain was the most highly pre-
control study of squamous cell cancer of the oral
dictive marker for cancer, with a sensitivity of
cavity in Denmark. Cancer Causes Control 1995;
100% and specificity of 96.6%. Elevated tissue fi-
6(1):57 67.
brinogen levels have previously been reported in
[12] Muscat JE, Richie JP Jr, Thompson S, et al. Gender
association with breast cancer, small cell carci-
differences in smoking and risk for oral cancer. Can-
noma of the lungs, and melanoma.
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smoking habits and alcohol consumption in relation
active role in the diagnosis and management of
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patients with oral precancerous and cancerous
Cancer 1998;77(3):341 6.
lesions. Until more laboratories, including those
[14] Lewin F, Norell SE, Johansson H, et al. Smoking to-
based in smaller community hospitals, acquire the
bacco, oral snuff, and alcohol in the etiology of squa-
needed molecular technologies to perform new
mous cell carcinoma of the head and neck:
more diagnostically robust sample analyses, rou-
a population-based case-referent study in Sweden.
tine histopathologic examination is likely to re-
Cancer 1998;82(7):1367 75.
main the standard of care for most patients with
[15] Schwartz SM, Daling JR, Doody DR, et al. Oral
oral precancerous and cancerous disease. Careful
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Inst 1998;90(21):1626 36.
scoring system for oral squamous cell carcinoma
[16] Lee JJ, Hong WK, Hittelman WN, et al. Predicting
(see Table 1) may represent an important step to-
cancer development in oral leukoplakia: ten years of
ward bridging the gap between current clinical
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1702 10.
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