Oropharyngeal cancer

Question 1

What is the incidence of oropharyngeal cancer (OPC) in the United States?

Answer 1

∼36,000 cases/yr of OPC in the United States with 6,850 deaths (2013 data)

Question 2

How does the incidence of OPC compare to that of other H&N sites?

Answer 2

The incidence of OPC is increasing, whereas cancer of other H&N sites is decreasing.

Question 3

Is there a sex predilection for OPC?

Answer 3

Yes. Males are more commonly affected than females (3:1).

Question 4

What are the 4 subsites of the OPX?

Answer 4

Soft palate, tonsils, base of tongue (BOT), and pharyngeal wall

Question 5

From which subsite do most OPCs arise?

Answer 5

The tonsil (ant tonsil pillar and fossa) is the most common primary site.

Question 6

What are the borders of the OPX?

Answer 6

Anterior: oral tongue/circumvallate papillae
Superior: hard palate/soft palate junction
Inferior: valleculae
Posterior: pharyngeal wall
Lateral: tonsil

Question 7

What 3 structures make up the walls of the tonsillar fossa?

Answer 7

Walls of the tonsillar fossa:

1. Ant tonsillar pillar (palatoglossus muscle)
2. Post tonsillar pillar (palatopharyngeus muscle)
3. Inf glossotonsillar sulcus

Question 8

What are the 4 most important risk factors for the development of OPC?

Answer 8

Risk factors for developing OPC:

1. Smoking
2. Alcohol
3. HPV infection (up to 80% of cases now)
4. Betel nut consumption

Question 9

What is the 1st-echelon drainage region for most OPCs?

Answer 9

The 1st-echelon drainage site for most OPCs is the level II (upper jugulodigastric) nodes.

Question 10

Are skip mets common for OPC?

Answer 10

No. Skip mets are extremely rare in OPC (<1%).

Question 11

What are the 2 most common histologies encountered in the OPX? Rare histologies?

Answer 11

Most common histologies: squamous cell carcinoma (SCC) (90%), non- Hodgkin lymphoma (10% tonsil, 2% BOT)
Rare histologies: lymphoepithelioma, adenoid cystic carcinoma, plasmacytoma, melanoma, small cell carcinoma, mets

Question 12

What proportion of pts with OPC fail locoregionally vs. distantly?

Answer 12

1:1 proportion of locoregional:distant failures

Question 13

How prevalent is HPV infection in OPC?

Answer 13

Depending on the series, 40%–80% of OPCs are associated with HPV infection.

Question 14

Which HPV serotype is most commonly associated with OPC?

Answer 14

HPV 16 is the most common serotype in OPC (80%–90%).

Question 15

What is a surrogate marker of HPV infection in OPC that can be used as an indirect indication of HPV seropositivity?

Answer 15

The surrogate marker for HPV infection is p16 staining; E7 protein inactivates Rb, which upregulates p16.

Question 16

Which pt population is most likely to present with HPV-related OPC?

Answer 16

Nonsmokers and nondrinkers are most likely to have HPV+ SCC of the OPX.

Question 17

Do HPV+ or HPV– OPC pts have a better prognosis?

Answer 17

HPV+ OPC pts have a better prognosis. Data from RTOG 0129 (Ang KK et al., NEJM 2010) showed better 3-yr OS (82.4% vs. 57.1%) and risk of death (HR 0.42) for HPV+ pts. Smoking was an independent poor prognostic
factor.

Question 18

What is the hypothesis behind why HPV+ OPC pts have a better prognosis?

Answer 18

HPV+ H&N cancers are usually in nonsmokers and nondrinkers, so p53 status is usually nonmutated; p53 mutation (which is common in non–HPV-related H&N cancers) predicts for a poor response to Tx

Question 19

What nerves are responsible for otalgia in cancers of the oral tongue, BOT, and larynx/hypopharynx (HPX)?

Answer 19

Oral tongue: CN V (auriculotemporal) → preauricular area
BOT: CN IX (Jacobson nerve) → tympanic cavity
Larynx/HPX: CN X (Arnold nerve) → postauricular area

Question 20

What are the 4 extrinsic tongue muscles, and what are their anatomic spans?

Answer 20

Extrinsic tongue muscles (-glossus) and anatomic spans:

1. Genioglossus (ant mandible to tongue)
2. Styloglossus (styloid process to tongue)
3. Palatoglossus (palate to tongue; also forms ant tonsillar pillar)
4. Hyoglossus (hyoid bone to tongue)

Question 21

What is the most common presentation of OPC?

Answer 21

The most common presentation is a neck mass, especially with HPV+ OPC.

Question 22

What are additional common presenting Sx by OPX subsite?

Answer 22

Base of tongue: sore throat, dysphagia, otalgia, neck mass
Tonsils: sore throat, trismus (T4b), otalgia, neck mass
Soft palate: leukoplakia, sore throat with swallowing, trismus/perforation, phonation defect with advanced lesions
Pharyngeal wall: pain/odynophagia, bleeding

Question 23

Describe the workup for a pt with an OPX mass (per NCCN 2018).

Answer 23

OPX mass workup: H&P (bimanual exam of the floor of mouth), labs, laryngoscopy, CT/MRI with contrast H&N, tissue Bx with HPV testing (EUA if necessary), CT chest, consider PET/CT for stages III–IV Dz, nutrition, speech/swallow, audiogram

Question 24

If the neck mass Bx is positive, is an additional Bx of the primary lesion necessary?

Answer 24

Yes. A Bx of the primary (or suspected primary) should also be done.

Question 25

What % of OPC pts have clinically +nodes? Clinically occult nodes? Bilat nodes?

Answer 25

∼75% of OPC pts have clinically+ nodes at presentation, 30%–50% have clinically occult nodes, and ∼30% have bilat nodes (especially BOT/midline).

Question 26

What is the T staging of p16(-) OPC? How is it different for p16(+) OPC?

Answer 26

T1: ≤2 cm
T2: >2 cm, ≤4 cm
T3: >4 cm or extension to lingual surface of epiglottis
T4a (moderately advanced): invades larynx, deep/extrinsic tongue muscles,
medial pterygoid, hard palate, mandible
T4b (very advanced): invades lat pterygoid muscle, pterygoid plate, lat NPX, skull base, carotid encasement

For p16+ OPC, T4a and T4b are combined into a single T4 designation.

Question 27

What is the N staging of p16(-) OPC?

Answer 27

N1: single ipsi, ≤3 cm, ENE(–)
N2a: single ipsi, >3 cm, ≤6 cm, ENE(–)
N2b: multiple ipsi, ≤6 cm, ENE(–)
N2c: any bilat or contralat, ≤6 cm, ENE(–)
N3a: any >6 cm, ENE(–)
N3b: any clinically overt ENE(+)

Question 28

What is the summary staging for p16(-) OPC?

Answer 28

Stage I: T1N0
Stage II: T2N0
Stage III: T3N0 or T1–3N1
Stage IVA: T4aN0–1 or T1–4aN2
Stage IVB: T4b any N or any T N3
Stage IVC: any T any N M1

Question 29

What is the N staging of p16(+) OPC?

Answer 29

Clinical
N1: any ipsi, ≤6 cm
N2: any contra or bilat LNs, ≤6 cm
N3: any >6 cm

Pathologic
N1: ≤4 LN positive
N2: >4 LN positive

Question 30

What is the overall stage grouping for p16(+) OPC?

Answer 30

Clinical
Stage I: T1–2 N0–1
Stage II: T1–2 N2 or T3 N0–2
Stage III: any T N3 or T4 any N
Stage IV: M1

Pathologic
Stage I: T1–2 N0–1
Stage II: T1–2 N2 or T3–T4 N0–1
Stage III: T3–4 N2
Stage IV: M1

Question 31

Broadly speaking, what OPC pts/stage groups are deemed early, intermediate, and advanced?

Answer 31

Based on RTOG 0129 and AJCC 8th edition staging:
Early: stages I–II (cT1–2N0) and select III (T2N1)
Intermediate/favorable: HPV(+) stages III–IV (without T2N1) in nonsmokers/drinkers, T3N0 (exophytic) regardless of HPV/smoking status
Advanced/unfavorable: HPV(–) smokers with stages III–IV Dz, T4 Dz regardless of HPV/smoking status

Question 32

What are the Tx paradigms for early oropharyngeal tumors?

Answer 32

Early oropharyngeal tumor Tx paradigm: surgical resection with selective neck dissection +/- PORT or definitive RT alone

Question 33

What are the Tx paradigms for intermediate oropharyngeal tumors?

Answer 33

Intermediate-group oropharyngeal tumor Tx paradigms: Sg +/- postop CRT, altered fractionation RT, and CRT (conventional fractionation)

Question 34

What are the Tx paradigms for advanced/unfavorable oropharyngeal tumors?

Answer 34

Advanced/unfavorable oropharyngeal tumor Tx paradigm: CRT (conventional)

Question 35

When is WLE alone appropriate for OPC?

Answer 35

Rarely. WLE may suffice in the rare instance of a small (<1 cm), ant tonsillar pillar lesion.

Question 36

Is tonsillectomy ever adequate as a definitive Tx for tonsillar cancers?

Answer 36

Generally, no. Simple tonsillectomy is considered an excisional Bx and thus needs further definitive Tx. Radical tonsillectomy may be adequate in select
cases but results in worse functional outcomes than RT.

Question 37

What type of Sg is required for the surgical management of OPC?

Answer 37

Historically, labiotomy and mandibulotomy were required to gain access to the OPX, but there is growing experience with transoral approaches with transoral laser microsurgery (TLM) and transoral robotic surgery (TORS).

Question 38

When is PORT indicated for OPC? When is postop CRT indicated for OPC?

Answer 38

Similar to other H&N sites, PORT is generally for intermediate-risk factors such as T3–T4, LN+, LVSI, and PNI, while postop CRT is indicated for +margin or +ENE.

Question 39

When can unilat neck Tx be considered for OPC pts?

Answer 39

Unilat neck Tx can be considered if the lesion is well lateralized (T1–T2, <1 cm soft palate extension, no BOT involvement) and 1 or few regional ipsi nodes <6 cm based on multiple retrospective reviews showing a very low contralat failure rate (<3%).

Question 40

Which LN regions/levels should be irradiated in pts with an early T stage but N+ OPC?

Answer 40

Levels II–IV should always be included/irradiated; however, some data (Sanguineti G et al., IJROBP 2009) suggest that levels I and V may be omitted d/t a significantly lower incidence of nodal spread.

Question 41

What is the main indication for a neck dissection after definitive CRT for OPC?

Answer 41

The main indication for a neck dissection after CRT is persistent nodal Dz that can be documented by fine-needle sampling, CT (at 4–6 wks), or PET/CT (at 10–12 wks).

Question 42

What is the recommended timing for a neck dissection after CRT?

Answer 42

Neck dissection should typically occur at 6–8 wks (12–15 wks if evaluated by PET/CT).

Question 43

How should OPC pts be set up for simulation?

Answer 43

OPC pts should be simulated supine, with arms pulled inferiorly and the head extended with a bite block or stent. Contrast is recommended with CT.

Question 44

What type of custom stent can be used for OPC simulation?

Answer 44

Mouth opening, tongue depressing stent

Question 45

What should the pre-RT evaluation/preparation include for OPC?

Answer 45

Dental evaluation/fluoride prophylaxis, speech and swallow evaluation/exercises, and nutrition evaluation with a PEG tube if the pre-Tx weight loss is >10% over 3 mos

Question 46

What are the typical CTVs for IMRT planning for OPC?

Answer 46

CTV high dose (CTVHD): primary tumor and nodal GTV with 0.5–1-cm margin
CTV intermediate dose (CTVID): soft palate, adjacent parapharyngeal space, sup tonsillar pillars for lat tumors, and nodal levels adjoining involved nodes
CTV elective dose (CTVED): levels II–IV, RP nodes. If node+, most include ipsi IB and V.

Question 47

What are the typical RT doses and volumes used for OPC?

Answer 47

T1 and superficial T2N0: 66–70 Gy to CTVHD, 60 Gy to CTVID, and 54 Gy to CTVED, given in 30–35 fx over 6–7 wks

> T2+ without chemo:

(1) 70 Gy to CTVHD, 63 Gy to CTVID, and 56 Gy to CTVED given in 35 fx over 6 wks (per Danish Head and Neck Cancer Group [DAHANCA]);
(2) 70 Gy to CTVHD, 60 Gy to CTVID, and 57 Gy to CTVED given in 33 fx

> T3 or >N2 with chemo: 70 Gy to CTVHD, 63 Gy to CTVID, and 59.5 Gy to CTVED in 35 fx

Question 48

What is the 2-yr LF rate after IMRT alone for early (T1–2N0–1) OPC?

Answer 48

RTOG 00–22 (Eisbruch A et al., IJROBP 2010) demonstrated excellent results with accelerated hypofractionated IMRT for early OPC: 2-yr LF rate
was 9% (if major deviations, 50%; otherwise, 6%, SS).

Question 49

What were the RT techniques and doses employed in RTOG 00–22? How was the N stage established?

Answer 49

In RTOG 00–22 (Eisbruch A et al., IJROBP 2010), RT was delivered with accelerated hypofractionated IMRT as follows: 66 Gy in 30 fx (2.2 Gy/fx) to the primary PTV and 54–60 Gy in 30 fx (1.8–2 Gy/fx) to the secondary
PTV. Neck staging was clinical (not from CT); however, pts “upstaged” by CT (e.g., cN1 but N2 after CT) were also eligible.

Question 50

What did the RTOG 90–03 study demonstrate about the use of altered fractionation in H&N cancers?

Answer 50

RTOG 90–03 (Fu KK et al., IJROBP 2000): 1,073 pts with H&N cancers (10% OC, 60% OPX, 13% HPX) with stage III (28%) or stage IV (68%) Dz randomized to (a) conventional 70 Gy qd, (b) 81.6 Gy in 1.2 Gy/fx bid, (c)
accelerated with split, and (d) concomitant boost (1.8 Gy/fx qd × 17, with last 12 fx bid with 1.8 Gy AM, 1.5 Gy PM to 72 Gy). There was better LC with altered fx (54% vs. 46%) but no OS/DFS benefit. There was worse acute
toxicity but no difference in late toxicity.

Question 51

What randomized studies demonstrated better outcomes with hyperfractionated RT over conventional RT for OPC?

Answer 51

RTOG 90–03 (Fu KK et al., IJROBP 2000): see above.
EORTC 22791 (Horiot JC et al., Radiother Oncol 1992): 325 pts (all OPX, but no BOT): 70 Gy vs. 80.5 Gy at 1.15 Gy bid. There was better LC (60% vs. 40%) but no OS benefit. LC was best for T3 Dz.

Question 52

What data showed good LC rates with RT alone for select advanced (stages III–IV) OPCs?

Answer 52

MDACC data (Garden AS et al., Cancer 2004): pts with small primaries but stages III–IV Dz by virtue of +LNs; treated with RT alone. There were acceptable 5-yr LF (15%), DM (19%), and OS (64%) rates.

Question 53

What are 2 important randomized trials that demonstrated the importance of adding chemo to conventionally fractionated RT in OPC?

Answer 53

GORTEC 94–01 (Calais G et al., JNCI 1999): 222 pts with stages III–IV OPC randomized to conventional RT alone vs. conventional RT + carboplatin/5-FU, no planned neck dissection for N2–3 Dz. The CRT arm had better 3-yr OS (51% vs. 31%), DFS (30% vs. 15%), and LC (66% vs.
42%); however, there was significantly worse grades 3–4 mucositis and weight loss/feeding tube use in the CRT arm.
Head and Neck Intergroup Study (Adelstein DJ et al., JCO 2003): 295 pts with unresectable stages III–IV H&N cancers (15% OC, 55% OPX, 20% HPX), RT alone vs. CRT with cisplatin 100 mg q3 wks × 3. 3-yr OS was
better in the CRT arm (37% vs. 23%). There also was improved DFS (51% vs. 33%) in the CRT arm.

Question 54

Pooled analysis from which 2 important RCTs support adding chemo to PORT in H&N cancers for +margin and ECE?

Answer 54

EORTC 22931 (Bernier J et al., NEJM 2004): 334 pts randomized to PORT 66 Gy vs. PORT + cisplatin 100 mg/m2 on days 1, 22, and 43. Eligibility: ECE, +margin, PNI, LVI, and levels 4–5 +N from OCC/OPC. There was
better OS, DFS, and 5-yr LC with CRT but ↑ grades 3–4 toxicity.
RTOG 95–01 (Cooper JS et al., NEJM 2004): 459 pts randomized to 60–66 Gy PORT vs. PORT + cisplatin 100 mg/m2 on days 1, 22, and 43. Eligibility: >2 LN, ECE, +margin. There was better DFS (43% vs. 54%)
and 2-yr LRC (72% vs. 82%) but only a trend to improvement in OS (57% vs. 63%).

Question 55

What study demonstrated improvement in OS with the addition of cetuximab (C225) to RT in H&N cancers?

Answer 55

Bonner JA et al. (NEJM 2006): 424 pts with stages III–IV SCC of the OPX, laryngeal cancer, or HPX randomized to RT vs. RT + C225. RT options were conventional to 70 Gy, 1.2 bid to 72–76.8 Gy, or concomitant boost to 72 Gy. There was better 3-yr LRC (47% vs. 34%) and OS (55% vs. 45%) with C225 + RT. Subset analysis showed improvement mostly in OPC and in the altered fractionation RT arms (∼50% treated with altered fractionation).

Question 56

What studies are looking at Tx deintensification for HPV+ OPX?

Answer 56

1. E1308: Phase II, stages III/IV, induction chemo (paclitaxel, cisplatin,cetuximab) f/b 54 Gy in 27 fx if CR or 69.3 Gy in 33 fx if PR, both with concurrent cetuximab. Although the study (Marur S et al., J Clin Oncol 2017) met its 2-yr PFS target based on historical control, other phase III trials indicate induction chemo adds toxicity without survival benefit (PARADIGM, DeCIDE).
2. RTOG 1016: Phase III, stages III/IV, treated with accelerated IMRT to 70 Gy/6 wks randomized to concurrent cisplatin vs. cetuximab.
3. NRG HN002: Phase II, stages III/IV, randomized to dose-reduced cisplatin CRT (60 Gy in 6 wks) vs. accelerated RT alone (60 Gy in 5 wks).

Question 57

What 2 randomized studies demonstrated a benefit with induction taxane/platinum/5-FU (TPF) chemo over PF in pts with unresectable H&N cancers?

Answer 57

TAX 324 study (induction chemo → CRT) (Posner MR et al., NEJM 2007): 501 pts, unresectable stages III–IV H&N cancers (52% OPX, 13%–18% OC, larynx, HPX) randomized to induction platinum + 5-FU or TPF
→ CRT with carboplatin. There was better 3-yr OS (62% vs. 48%), MS (71 mos vs. 30 mos), and LRC (70% vs. 62%) in the TPF arm. Pts in the TPF arm had fewer Tx delays than in the platinum/5-FU arm despite
higher myelotoxicity in the TPF arm (98% rcvd planned Tx in the TPF arm vs. 90% in the PF arm).

TAX 323 study (induction chemo → RT) (Vermorken JB et al., NEJM 2007): 358 pts, unresectable stages III–IV H&N cancers (46% OPX, 18% OC, 29% HPX, 7% larynx) randomized to induction platinum + 5-FU or
TPF → RT alone. TPF resulted in better median PFS (11 mos vs. 8.2 mos), MS (18.8 mos vs. 14.5 mos), and HR 0.73. The rate of toxic deaths was greater in the platinum/5-FU group (5.5% vs. 2.3%). Also, there was more grades 3–4 thrombocytopenia, anemia, stomatitis, n/v, diarrhea, and hearing loss in the platinum/5-FU arm. Neutropenia, leukopenia, and alopecia were more common in the TPF arm.

Question 58

What study compared induction chemo vs. upfront CRT?

Answer 58

PARADIGM study (induction TPF → CRT vs. CRT) (Haddad H et al., Lancet Oncol 2013): 145 pts, stages III–IV (55% OPX), randomized to induction TPF → CRT vs. CRT. At a median follow-up of 49 mos, there was
no difference in 3-yr OS (73% for induction vs. 78% for CRT), with a higher rate of febrile neutropenia observed in the induction arm.

Question 59

What are some advantages and disadvantages of split-field IMRT (vs. whole-field IMRT) in the Tx of H&N cancers?

Answer 59

There is potentially better laryngeal sparing with split-field IMRT techniques; however, the drawback is that the practitioner may have to junction the RT dose through involved nodes.

Question 60

What are the advantages and disadvantages of IMRT “dose painting” (vs. sequential plans) in the Tx of H&N cancers?

Answer 60

The main advantage of IMRT dose painting is that better conformality can be achieved in a single plan. The drawback, however, is that nonstandard doses/fx are required.

Question 61

How do unplanned RT interruptions in H&N cancer affect LC rates and why?

Answer 61

Each wk of Tx-time prolongation reduces the LC rate by ∼10%–12% in H&N cancer pts b/c of accelerated repopulation

Question 62

What is the best way to compensate for several/few missed RT sessions and avoid Tx-time prolongation in H&N cancer pts?

Answer 62

According to Bese NS et al. the best way to compensate is by preserving total time, dose, and dose/fx (i.e., can treat bid on Fridays or extra fx on Saturdays). Alternatively, dose/fx can be increased (e.g., by 0.5–0.7 Gy/day). (IJROBP 2007)

Question 63

What is the approximate long-term PEG tube dependency rate after CRT for OPC?

Answer 63

The long-term PEG tube dependency rate after CRT can be as high as 15%–20%, which is reduced with efforts on sparing swallowing structures (pharyngeal constrictors, larynx) with swallowing exercises and the use of PEG on demand.

Question 64

What are some typical RT dose constraints for the parotid glands?

Answer 64

Typical RT dose constraints for the parotid glands are (a) mean dose to either parotid <26 Gy or (b) at least 50% of either parotid gland <30 Gy.

Question 65

What is the typical RT dose constraint for the inner ears?

Answer 65

The mean dose to the inner ears should be ≤35 Gy.

Question 66

Appx what % of pts receiving cisplatin-based chemo will experience hearing loss as a result of ototoxicity?

Answer 66

∼30% of pts will experience hearing loss.

Question 67

What were the xerostomia rates for OPC pts treated with IMRT in RTOG 00–22?

Answer 67

Xerostomia rates in RTOG 00–22 (Eisbruch A et al., IJROBP 2010) were 55% at 6 mos, 25% at 1 yr, and 16% at 2 yrs. Salivary output did not recover over time.

Question 68

What was the observed rate of osteoradionecrosis with accelerated hypofractionated IMRT in RTOG 00–22?

Answer 68

The observed rate of osteoradionecrosis was 6% in RTOG 00–22 (Eisbruch A et al., IJROBP 2010), which is higher than expected for IMRT (potentially
b/c of the accelerated hypofractionated approach). Other toxicities were acceptable (grade 2+ for mucosa [24%], salivary [67%], esophagus [19%]).

Question 69

What oral care do all pts need to be instructed on?

Answer 69

Fluoride trays. Consult a dental oncologist before any dental procedures.

Question 70

What is the follow-up paradigm for OPC pts?

Answer 70

OPC follow-up paradigm: H&P + pharyngolaryngoscopy (q1–3 mos for yr 1, q2–6 mos for yr 2, q4–8 mos for yrs 3–5, q12 mos if >5 yrs), imaging (for signs/Sx), annual TSH, speech/hearing/dental evaluation, and smoking
cessation.