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LIP BRACHYTHERAPY
Dr Rajendra L Bhalavat
Dr Vibhay Pareek
INTRODUCTION
• Lip cancer is the second most common type of skin cancer in the head and
neck area.
• It normaly affects men over the age of 50 and in 95% of the cases the
majority of the tumors are located in the lower lip.
• Tobacco habits, similar to what happens in the superior aerodigestive
neoplasms, are an important aethiologic factor, and principally their
frequency is increased in pipe smokers.
• Exposure to the sun also increases the risk, and it is probably the most
important aetiologic factor, which is reflected by the high prevalence in
farmers and other professionals exposed to the sun.
• The patients more genetically susceptible to developing skin cancer after sun
exposure have also an increased risk of developing lip cancer.
• They can also be related to inmunosupression situations, and as a
consequence there is an increased incidence in patients who have had renal
or hepatic transplants
• The most frequent pathological type is the squamous carcinoma and with
much lower frequency is the basal cell carcinoma type, and other pathologies
are exceptional
• In the majority of cases the clinical manifestation is as an exophytic or scab
lesion in the lower lip, and ocassionally it can also bleed and be painful. Its
growth is normally slow and, due to that there are visible lesions, their diagnosis is
done when they are small tumors.
• When diagnosed, 90% are located in the lower lip,they are well
differentiated and their size should be aproximately 1 cm
• 5% affect the upper lip and 1-2% affect commissure and the adjacent lip
• As their growth and progression is local, in advanced tumors their largeness
cause the invasion of the neighborhood structures, as the trigeminal nerve,
destruction of the mandibular bone or inferior alveolar orifice, and the
infiltration of the cheek and floor of the mouth
• Also as a consequence, patients can have alterations in the sensitivity of the
face or pain, and are possible relevant esthetic defects caused by the
tumor destruction of the adjacent tissues
• Lymphatic spreading is infrequent and only 5-10% develop node metastasis at
diagnosis.
• In lower lip tumors the more frequently affected lymph nodes are the
submandibular and submental and after these the following node level is the
upper jugular one
• Moreover, the bilateral lymph node dissemination can appear in lip cancer
• In tumors affecting the upper lip and the commissure, the lymphatic spread
can be more extensive and can disseminate to preauriculars, infraparotíds,
buccinator of homolateral cheek and submandibular nodes; and from there to
the upper jugular ones
• The incidence of node metastasis principally depends on the pathological
degree and the stage, and they are more frequent in advanced stages and
in undifferentiated cases
• At diagnosis those tumors well differentiated present 7% of node metastasis,
moderately differentiated make up 23% and those undifferentiated
represent 35%
• Depending on the tumor size the node metastasis appear in 5% of T1, in 52%
of T2 and can reach up to 73% in T3.
• Distant metastasis in lip cancer are very rare and they appear in those cases
of extensive tumors without local control
• The prognosis of these tumors principally depend on the size of the tumor size
• T1 tumors have 5 year survival rates of 90%-95%, T2 cases of 75%-85%, while in
T3-T4 there is a more drastic decrease in survival depending on the existence
of node involvement
• In stages I & II the local control at 5 years is 94%, in stage III it is 90% and for
stage IV it is 47%
• Other influencing factors on prognosis are the node metastasis when present
there is a decrease in survival of 50%, the presence of vascular and
lymphatic space invasion and the perineural invasion
• Age has also been considered as having an influence on prognosis, where
the younger patients have a worse outcome related to a more aggresive
disease
ANATOMICAL TOPOGRAPHY
• Histologically the lip can be divided in three different parts
• The cutaneous lip goes over the vermilion or dry mucosa of the lip, which forms
a transition zone between the skin and the wet oral mucosa
• Its lateral limits are about 1cm from the lip commissures: the upper limits are the
naso-labial groove at the skin and the gingivo-labial groove at the mucosa
side; the lower limits are the mento-labial and the lower gingivo-labial groove
• Its lymphatic drainage goes to the sub-mental, sub-mandibular and sub-
digastric lymph nodes.
• The submandibular nodes are the most frequently involved. All patients
affected with tumors reaching the median line are at high risk for bilateral nodal
involvement.
PATHOLOGY
• Squamous cell cancers (90%)
• The remaining 10% are:
• Basal cell cancer (starting from the cutaneous area)
• Sarcomas
• Cylindromas
• Melanomas
Pre Cancerous Conditions:
• Actinic Cheilitis
• Leucoplakia
• Bowen’s Disease
PATIENT DETAILS
• Name: Mr. Babanrao Mane
• Age: 66 yrs
• Sex: Male
Clinical History: Presented with painless lesion in inner side of lower lip since 2
years gradually increasing in size
Investigations:
• Biopsy – Moderately Differentiated Squamous Carcinoma
• FNAC of submandibular node – Metastatic Squamous Cell Carcinoma
• USG Neck – 2 heterogeneous rounded level IA neck nodes
• Past Medical, Personal and Family History: Not Contributory
• On Examination:
• G/E: GC Good; KPS 90%; No Pallor
• L/E:
• Ulceroinfiltrative lesion 2 x 1.5 x 1 cm in inner mucosal surface of lower lip in midline
with surrounding patches of leucoplakia encroaching the frenulum and adjoining
GBS
• Mandibular bone appears free
• No loose teeth
• Lesion on palpation feels indurated and does not bleed on touch
• Small subcm node palpable in level IA
• Diagnosis: Ca. Lower Lip cT2 N1 M0 (iT2 N2c M0)
• Advice: Radical Radiotherapy with Concurrent Chemotherapy followed by
Brachytherapy
• EBRT Details: 46Gy/23fr/31 Days (Dose covering 96% of CTV is 44.5 + 1Gy and
delivering 46 + 1Gy to CTV1 followed by boost to gross nodes delivering 52Gy +
1Gy to GTVn
• Chemotherapy: Received 4 cycles of Cisplatin (60 mg)
TNM STAGING
EXTERNAL RADIATION THERAPY
• 46Gy/23fr/31 Days
• Dose covering 96% of CTV is 44.5 + 1 Gy and delivering 46 + 1 Gy to CTV1
• Followed by Boost to gross nodes delivering 52 Gy + 1 Gy to GTVn
Concurrent Chemotherapy: Received 4 cycles of Cisplatin (60 mg)
BRACHYTHERAPY DETAILS
• Under GA, 2 plane implant through lower lip, using Bhalavat’s Technique
were inserted; Total 8 tubes inserted
• Local Examination: Showed no gross lesion (Only mucositis at site of original
disease)
• Simulation CT was taken with tubes in situ after inserting RO dummy in each
catheter and CT images acquired
• These images were transferred to Treatment planning system for relevant
dosimetric planning
• Suitable plan accepted for delivery of treatment
Lip brachytherapy
Lip brachytherapy
Lip brachytherapy
Lip brachytherapy
Lip brachytherapy
• Total of 25Gy/ 7fr/ 4 Days to CTV with HDR Brachytherapy
• 4Gy x 4 fractions and 3 Gy x 3 fractions over 4 days with 2 fractions per day 6
hours apart
• On completion of treatment , all tubes were removed and the whole
procedure was uneventful; No oozing or bleeding from the procedure site
Lip brachytherapy
Lip brachytherapy
TREATMENT OF LIP CANCER
• In early stages surgery and radiotherapy are the elective treatment
• Surgery allows to maintain the lip struture in displasias and in situ carcinoma;
when these lesions affect less than 30% of the lip they can be treated by a V
excision and primary closure
• T1-T3 squamous carcinomas can be treated by surgery or radiotherapy. The
choice of which treatment depends on the size of the tumor, the location in the
lip and the expected functional and esthetic results with each therapeutic
option
• In the smaller lesions with easy excision, surgery can be the elective treatment if
the size of the open mouth has not visibly reduced, although brachytherapy
offers the same results in local control and survival
• Nevertheless, in lesions near to commisure brachytherapy is indicated to better
preserve the esthetic results and lip function.
• In advanced stages (III-IV), surgery can be the treatment of choice that is
frequently in need of plastic reconstruction, and in these cases radiotherapy
is administered postoperatively
• T3-T4 N0 tumors and in those with clinical node involvement a neck
lymphadenectomy is recomended; when the pathologic study show node
metastasis radiotherapy should be administered on the tumor and on the
lymph node areas
• In very advanced tumors where surgery is not possible, external beam
irradiation alone or associated with chemotherapy is the unique therapeutic
option
• In these patients, brachytherapy administered after external beam
irradiation (EBI) allows an increased dose in a smaller volume
• Patients with T1-T3 tumors, microscopic residual disease after surgery and those
cases having perineural involment should receive EBI or brachytherapy
depending on the characteristics of each case
• When the tumor involves the bone, local control and survival are poor despite
the treatment
• In those cases treated for local relapse where surgery or radiotherapy is
performed with a curative aim, the local control is obtained in 50% and the
specific overall survival at 5 years is of 30%
• In this situation surgery is chosen when the patient has been previously
irradiated, and radiotherapy is usually administered when surgery is not possible
due to the size of the tumor or a loss of lip function
BRACHYTHERAPY
• Brachytherapy is a kind of radiotherapy where radioactive sources are
placed inside or in contact with the tumor or inside natural cavities. In the
case of lip cancer the radioactive sources are introduced inside the tumor
using specifically designed applicators that will be described further on, and
usually are comfortable and painless for the patient.
• The most usual radioctive source is low dose rate (LDR) 192Ir, and recently,
treatments with high dose rate (HDR) 192Ir sources have been introduced.
These radioactive materials are miniaturized and allowed to administer a
high tumor dose
• Brachytherapy is considered by their defenders as the best conformation
possible in lip cancer treatment
• The irradiated volume is small and adapted to the tumor requirements; by the
treatment of the tumor with a small esthetics and function of the lip safety
margin brachytherapy offers a smaller treament volume in comparison to
external beam irradiation
• Another advantage is while the dose inside the tumor is high a quick decrease
exists in the periphery of the implant avoiding the irradiation of healthy
neighbouring tissues.
• This kind of treatment has been performed for approximately 100 years and the
main advantage it offers is that it maintains the esthetics and function of lip
• The treatment recommended for the tumors with a size bigger than 5 cm is
external beam irradiation followed by brachytherapy as a boost
• Brachytherapy is contraindicated in those cases with bone involvement, and in
those cases with an important loss of tissues
• In these cases a wide excision with plastic reconstruction is of preference
• The majority of lip cancer cases are diagnosed in early stages, and while surgery
ensures good functional and esthetic results in superficial tumours and in those
having less than 0.5 cm, brachytherapy as an exclusive treatment is indicated in
practically 90% of T1-T2 lip cancer
TARGET VOLUME
• The clinical target volume includes all visible and palpable tumour extensions
with a safety margin of 5 - 10 mm according to the different directions
• Because there is little movement of interstitial implanted sources when
adequately fixed with templates or plastic tubes, the PTV usually corresponds
very closely to the CTV
Lip brachytherapy
TECHNIQUE
• The placement of vectors or applicators for 192Ir sources on the lip is usually
performed using local anesthetic on the upper and lower alveololabial groove
and only occasionally it is necessary to use local anesthesia of the infraorbitary
nerve
• In some cases a general anesthesia is essential for the placement of the
applicators
• There are different types of applicators and the technique of their placement
can vary in the function of each one:
• Hypodermic needles
• guide needles
• plastic tubes
• silk threads
• small vascular catheters
• guide gutters
Lip brachytherapy
Lip brachytherapy
Lip brachytherapy
• The use of one vector or another depends on :
• the size of the tumor
• their morphological characteristics
• the lip anatomy
• the extension to the commissure
• The plastic tube technique is recommended in those cases where the tumour
affects the commisure or the cheek, and in those cases where the size of the
tumour causes an anatomical distortion; moreover it is a comfortable technique for
the tumours of the upper lip.
• The rigid or guide needles technique offers better geometric conditions for the
implant, it is the most commonly used technique for lower lip cancer and, this
technique is highly recommended for HDR treatments
• As a main characteristic, the implant should have a geometry in paralelism and
homogeneous distance between the radioactive sources, and independently of
the treatment technique
• The Paris System rules recommend distances between the sources of 9 to 12 mm;
this last point allows an optimized implant avoiding overdosing areas responsible for
complications and infradosing areas that condition relapses
• The 192Ir applicators can cause lip oedema after their placement,
principally in big tumours or in lips with lax tissue; sometimes, slight pain can
also appear but it disappears using minor analgesics
• If lip oedema causes an increase of the distance between the sources the
result is infradosing areas in the tumour; in this situation the administration of
corticoids are useful.
• Usually the applicators are very well tolerated by the patient during the 3-5
days that the treatment takes
• The lip implant is frequently in contact with the opposite healthy lip and also
with the teeth; sometimes it can be in contact with the maxillar bone and it
principally happens in patients without teeths or in tumours that exceed the
inferiority of the vermillon.
• To avoid the irradiation of these healthy tissues they should be constructed
personalized protectors of acrilic material containing 2 mm of lead, which
avoid the irradiation of neighborhood tissues of a factor of 2, and as a result of
their use the sequelae in the healthy tissues should be practically non existent.
• Prior to the placement of the implant, it is necessary to check the adaptation
and the comfort of the protector, preferably by a dentist, to avoid the risk of
patient intolerance during the treatment.
• Throughout the treatment it is necessary to be vigilant with the correct position
of the protector and to maintain the correct geometry of the implant
• The length of the treated lip is variable in the function of the size of the tumour. Normally,
the length of the implanted area is those of the tumour plus a margin of security of 0,5-1
cm.
• It should be taken into account that these treatments need special care with the implant
technique, determination of the number of the sources and the active 192Iridium length
that would be introduced inside the vectors in order to avoid relapses in the edge of the
treated area; because of that some authors recommend the treatment of the whole
length of the lip
• Once vectors are introduced in the lip, a personalized dosimetric study is necessary.
• This is computerised and a Computarised Tomography (CT) can be necessary depending
on the cases in order to correctly evaluate the dose distribution in the healthy tissues and
in the tumour.
• Brachytherapy in lip cancer is in need of performing the orthogonal X-rays or CT for the
dosimetric study using a copy of the acrilic protector without lead in the patients mouth;
this allows the reproduction of the geometry implant in the dosimetric study as it would be
during the treatment
• During the whole of the treatment using low dose rate (LDR) 192Ir, the patient is
isolated in a radiation protected room that should have external television
monitors in order for nurses to exercise patient control.
• Once the treatment is finished the 192Ir and vectors are taken out of the
patient without problems.
• In those cases where pain was expected during the removal of the implant the
administration of an analgesic and a sedative is useful
• The patients that can not tolerate the isolation are special candidates for HDR
192Ir treatments. In this therapy several treatment fractions are administered
during a few minutes a day, usually during a week
Lip brachytherapy
COMPLICATIONS AND ESTHETIC RESULTS
• During the first 3 weeks after treatment a progressive mucositis appears in the
treated area, it usually disappears in 1-1,5 months and rarely lasts longer than 2
months.
• The treatment is based on topic measures and analgesics / anti-inflammatories of
variable potency depending on the needs of the patient.
• Lip cancer disappears during the first 2 months after brachytherapy
• The dose of brachytherapy depends on the size and characteristics of the tumour
• For T1 tumours doses of 60-65 Gy in the 85% isodoses are considered adequate
and 65-70 Gy for T2.
• Advanced tumours, when tumour characteristics permit it, are treated by external
beam irradiation followed by a brachytherapy boost; after a dose of 45-50 Gy by
external beam irradiation a brachytherapy dose of 20-25 Gy is recommended
• Total dose after combined treatment higher than 70-75 Gy can be related to
an unacceptable risk of sequelae
• Although there is no clear influence of the dose rate in local control, 45-90 cGy
/ hour are considered the most adequate; nevertheless, more than 6% of lip
ulceration are described when the dose rate is higher than 80 cGy / hour
• The more frequent late complications, depending on the study, are slight
depigmentation in 2.5-17%, slight telangiectasias in 15% and different degrees
of fibrosis in 8%
• These are evaluated for the esthetic results and their low relevance means that
they are well accepted by the patient
• The most relevant late complication is the superficial necrosis that provokes lip
ulceration; it appears in less than 10% of the cases, their health is usually
spontaneous and in only 5% of them a surgical treatment is required depending
on the series
• The incidence of lip ulceration is related to the total dose and the rate of the
dose and their apparition is rare if the geometry of the implant and the total
dose and the dose rate have not been high
• In brachytherapy with LDR sources esthetic results are related to the total dose
and dose rate; they are considered as good or excellent in 91% of cases when
the total dose is lower than 70 Gy and they are described as poor in 8.6% of the
cases when the dose rate is higher than 80 cGy / hour
• These lip ulcerations disappear in the majority of the cases with topic measures
• The more frequent late complications, depending on the study, are slight
depigmentation in 2,5-17%, slight telangiectasias in 15% and different degrees
of fibrosis in 8%
• The most relevant late complication is the superficial necrosis that provokes lip
ulceration; it appears in less than 10% of the cases, their health is usually
spontaneous and in only 5% of them a surgical treatment is required
• The incidence of lip ulceration is related to the total dose and the rate of the dose
and their apparition is rare if the geometry of the implant and the total dose and
the dose rate have not been high
• In brachytherapy with LDR sources esthetic results are related to the total dose
and dose rate; they are considered as good or excellent in 91% of cases when the
total dose is lower than 70 Gy and they are described as poor in 8,6% of the cases
when the dose rate is higher than 80 cGy / hour
• The GEC-ESTRO study, on 2794 patients, showed the following esthetic results:
• excellent in 94,9% of T1,
• in 84,3% of T2,
• in 72,5% of T3
• in 60% of T4
• results were poor in 1,4% of T1, in 4,1% of T2, in 10,1% of T3 and in 20% of T4.
Deformity and retraction of the lip was present in 6% of the patients with the tumour
affecting commissure and it was more frequent in those cases of large tumours
extended to the commissure
• Mazeron et al described, in 1870 patients with lip cancer treated by
brachytherapy, the presence of relevant functional and esthetic sequelae in
1% of T1, in 5% of T2 and in 9% of T3
CONCLUSION
• Brachytherapy is an excellent treatment in lip cancer, principally in the early
stages, where it can offer similar results to surgery in local control and survival.
• Its requires a careful treatment technique and treatment planning.
• Relevant related complications are scarce and offer a good lip function
maintaining the size of the mouth opening.
• The most frequent late effects are slight atrophy, telangiectasias and acromy.
• Trained staff, a careful patient evaluation and a good implant geometry will
minimize these problems, and as a consequence the esthetic results are frequently
superior to those obtained by surgery
Lip brachytherapy

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Lip brachytherapy

  • 1. LIP BRACHYTHERAPY Dr Rajendra L Bhalavat Dr Vibhay Pareek
  • 2. INTRODUCTION • Lip cancer is the second most common type of skin cancer in the head and neck area. • It normaly affects men over the age of 50 and in 95% of the cases the majority of the tumors are located in the lower lip. • Tobacco habits, similar to what happens in the superior aerodigestive neoplasms, are an important aethiologic factor, and principally their frequency is increased in pipe smokers. • Exposure to the sun also increases the risk, and it is probably the most important aetiologic factor, which is reflected by the high prevalence in farmers and other professionals exposed to the sun.
  • 3. • The patients more genetically susceptible to developing skin cancer after sun exposure have also an increased risk of developing lip cancer. • They can also be related to inmunosupression situations, and as a consequence there is an increased incidence in patients who have had renal or hepatic transplants • The most frequent pathological type is the squamous carcinoma and with much lower frequency is the basal cell carcinoma type, and other pathologies are exceptional • In the majority of cases the clinical manifestation is as an exophytic or scab lesion in the lower lip, and ocassionally it can also bleed and be painful. Its growth is normally slow and, due to that there are visible lesions, their diagnosis is done when they are small tumors.
  • 4. • When diagnosed, 90% are located in the lower lip,they are well differentiated and their size should be aproximately 1 cm • 5% affect the upper lip and 1-2% affect commissure and the adjacent lip • As their growth and progression is local, in advanced tumors their largeness cause the invasion of the neighborhood structures, as the trigeminal nerve, destruction of the mandibular bone or inferior alveolar orifice, and the infiltration of the cheek and floor of the mouth • Also as a consequence, patients can have alterations in the sensitivity of the face or pain, and are possible relevant esthetic defects caused by the tumor destruction of the adjacent tissues
  • 5. • Lymphatic spreading is infrequent and only 5-10% develop node metastasis at diagnosis. • In lower lip tumors the more frequently affected lymph nodes are the submandibular and submental and after these the following node level is the upper jugular one • Moreover, the bilateral lymph node dissemination can appear in lip cancer • In tumors affecting the upper lip and the commissure, the lymphatic spread can be more extensive and can disseminate to preauriculars, infraparotíds, buccinator of homolateral cheek and submandibular nodes; and from there to the upper jugular ones
  • 6. • The incidence of node metastasis principally depends on the pathological degree and the stage, and they are more frequent in advanced stages and in undifferentiated cases • At diagnosis those tumors well differentiated present 7% of node metastasis, moderately differentiated make up 23% and those undifferentiated represent 35% • Depending on the tumor size the node metastasis appear in 5% of T1, in 52% of T2 and can reach up to 73% in T3. • Distant metastasis in lip cancer are very rare and they appear in those cases of extensive tumors without local control
  • 7. • The prognosis of these tumors principally depend on the size of the tumor size • T1 tumors have 5 year survival rates of 90%-95%, T2 cases of 75%-85%, while in T3-T4 there is a more drastic decrease in survival depending on the existence of node involvement • In stages I & II the local control at 5 years is 94%, in stage III it is 90% and for stage IV it is 47% • Other influencing factors on prognosis are the node metastasis when present there is a decrease in survival of 50%, the presence of vascular and lymphatic space invasion and the perineural invasion • Age has also been considered as having an influence on prognosis, where the younger patients have a worse outcome related to a more aggresive disease
  • 8. ANATOMICAL TOPOGRAPHY • Histologically the lip can be divided in three different parts • The cutaneous lip goes over the vermilion or dry mucosa of the lip, which forms a transition zone between the skin and the wet oral mucosa • Its lateral limits are about 1cm from the lip commissures: the upper limits are the naso-labial groove at the skin and the gingivo-labial groove at the mucosa side; the lower limits are the mento-labial and the lower gingivo-labial groove • Its lymphatic drainage goes to the sub-mental, sub-mandibular and sub- digastric lymph nodes. • The submandibular nodes are the most frequently involved. All patients affected with tumors reaching the median line are at high risk for bilateral nodal involvement.
  • 9. PATHOLOGY • Squamous cell cancers (90%) • The remaining 10% are: • Basal cell cancer (starting from the cutaneous area) • Sarcomas • Cylindromas • Melanomas Pre Cancerous Conditions: • Actinic Cheilitis • Leucoplakia • Bowen’s Disease
  • 10. PATIENT DETAILS • Name: Mr. Babanrao Mane • Age: 66 yrs • Sex: Male Clinical History: Presented with painless lesion in inner side of lower lip since 2 years gradually increasing in size Investigations: • Biopsy – Moderately Differentiated Squamous Carcinoma • FNAC of submandibular node – Metastatic Squamous Cell Carcinoma • USG Neck – 2 heterogeneous rounded level IA neck nodes
  • 11. • Past Medical, Personal and Family History: Not Contributory • On Examination: • G/E: GC Good; KPS 90%; No Pallor • L/E: • Ulceroinfiltrative lesion 2 x 1.5 x 1 cm in inner mucosal surface of lower lip in midline with surrounding patches of leucoplakia encroaching the frenulum and adjoining GBS • Mandibular bone appears free • No loose teeth • Lesion on palpation feels indurated and does not bleed on touch • Small subcm node palpable in level IA
  • 12. • Diagnosis: Ca. Lower Lip cT2 N1 M0 (iT2 N2c M0) • Advice: Radical Radiotherapy with Concurrent Chemotherapy followed by Brachytherapy • EBRT Details: 46Gy/23fr/31 Days (Dose covering 96% of CTV is 44.5 + 1Gy and delivering 46 + 1Gy to CTV1 followed by boost to gross nodes delivering 52Gy + 1Gy to GTVn • Chemotherapy: Received 4 cycles of Cisplatin (60 mg)
  • 14. EXTERNAL RADIATION THERAPY • 46Gy/23fr/31 Days • Dose covering 96% of CTV is 44.5 + 1 Gy and delivering 46 + 1 Gy to CTV1 • Followed by Boost to gross nodes delivering 52 Gy + 1 Gy to GTVn Concurrent Chemotherapy: Received 4 cycles of Cisplatin (60 mg)
  • 15. BRACHYTHERAPY DETAILS • Under GA, 2 plane implant through lower lip, using Bhalavat’s Technique were inserted; Total 8 tubes inserted • Local Examination: Showed no gross lesion (Only mucositis at site of original disease) • Simulation CT was taken with tubes in situ after inserting RO dummy in each catheter and CT images acquired • These images were transferred to Treatment planning system for relevant dosimetric planning • Suitable plan accepted for delivery of treatment
  • 21. • Total of 25Gy/ 7fr/ 4 Days to CTV with HDR Brachytherapy • 4Gy x 4 fractions and 3 Gy x 3 fractions over 4 days with 2 fractions per day 6 hours apart • On completion of treatment , all tubes were removed and the whole procedure was uneventful; No oozing or bleeding from the procedure site
  • 24. TREATMENT OF LIP CANCER • In early stages surgery and radiotherapy are the elective treatment • Surgery allows to maintain the lip struture in displasias and in situ carcinoma; when these lesions affect less than 30% of the lip they can be treated by a V excision and primary closure • T1-T3 squamous carcinomas can be treated by surgery or radiotherapy. The choice of which treatment depends on the size of the tumor, the location in the lip and the expected functional and esthetic results with each therapeutic option • In the smaller lesions with easy excision, surgery can be the elective treatment if the size of the open mouth has not visibly reduced, although brachytherapy offers the same results in local control and survival • Nevertheless, in lesions near to commisure brachytherapy is indicated to better preserve the esthetic results and lip function.
  • 25. • In advanced stages (III-IV), surgery can be the treatment of choice that is frequently in need of plastic reconstruction, and in these cases radiotherapy is administered postoperatively • T3-T4 N0 tumors and in those with clinical node involvement a neck lymphadenectomy is recomended; when the pathologic study show node metastasis radiotherapy should be administered on the tumor and on the lymph node areas • In very advanced tumors where surgery is not possible, external beam irradiation alone or associated with chemotherapy is the unique therapeutic option • In these patients, brachytherapy administered after external beam irradiation (EBI) allows an increased dose in a smaller volume
  • 26. • Patients with T1-T3 tumors, microscopic residual disease after surgery and those cases having perineural involment should receive EBI or brachytherapy depending on the characteristics of each case • When the tumor involves the bone, local control and survival are poor despite the treatment • In those cases treated for local relapse where surgery or radiotherapy is performed with a curative aim, the local control is obtained in 50% and the specific overall survival at 5 years is of 30% • In this situation surgery is chosen when the patient has been previously irradiated, and radiotherapy is usually administered when surgery is not possible due to the size of the tumor or a loss of lip function
  • 27. BRACHYTHERAPY • Brachytherapy is a kind of radiotherapy where radioactive sources are placed inside or in contact with the tumor or inside natural cavities. In the case of lip cancer the radioactive sources are introduced inside the tumor using specifically designed applicators that will be described further on, and usually are comfortable and painless for the patient. • The most usual radioctive source is low dose rate (LDR) 192Ir, and recently, treatments with high dose rate (HDR) 192Ir sources have been introduced. These radioactive materials are miniaturized and allowed to administer a high tumor dose
  • 28. • Brachytherapy is considered by their defenders as the best conformation possible in lip cancer treatment • The irradiated volume is small and adapted to the tumor requirements; by the treatment of the tumor with a small esthetics and function of the lip safety margin brachytherapy offers a smaller treament volume in comparison to external beam irradiation • Another advantage is while the dose inside the tumor is high a quick decrease exists in the periphery of the implant avoiding the irradiation of healthy neighbouring tissues. • This kind of treatment has been performed for approximately 100 years and the main advantage it offers is that it maintains the esthetics and function of lip
  • 29. • The treatment recommended for the tumors with a size bigger than 5 cm is external beam irradiation followed by brachytherapy as a boost • Brachytherapy is contraindicated in those cases with bone involvement, and in those cases with an important loss of tissues • In these cases a wide excision with plastic reconstruction is of preference • The majority of lip cancer cases are diagnosed in early stages, and while surgery ensures good functional and esthetic results in superficial tumours and in those having less than 0.5 cm, brachytherapy as an exclusive treatment is indicated in practically 90% of T1-T2 lip cancer
  • 30. TARGET VOLUME • The clinical target volume includes all visible and palpable tumour extensions with a safety margin of 5 - 10 mm according to the different directions • Because there is little movement of interstitial implanted sources when adequately fixed with templates or plastic tubes, the PTV usually corresponds very closely to the CTV
  • 32. TECHNIQUE • The placement of vectors or applicators for 192Ir sources on the lip is usually performed using local anesthetic on the upper and lower alveololabial groove and only occasionally it is necessary to use local anesthesia of the infraorbitary nerve • In some cases a general anesthesia is essential for the placement of the applicators • There are different types of applicators and the technique of their placement can vary in the function of each one: • Hypodermic needles • guide needles • plastic tubes • silk threads • small vascular catheters • guide gutters
  • 36. • The use of one vector or another depends on : • the size of the tumor • their morphological characteristics • the lip anatomy • the extension to the commissure
  • 37. • The plastic tube technique is recommended in those cases where the tumour affects the commisure or the cheek, and in those cases where the size of the tumour causes an anatomical distortion; moreover it is a comfortable technique for the tumours of the upper lip. • The rigid or guide needles technique offers better geometric conditions for the implant, it is the most commonly used technique for lower lip cancer and, this technique is highly recommended for HDR treatments • As a main characteristic, the implant should have a geometry in paralelism and homogeneous distance between the radioactive sources, and independently of the treatment technique • The Paris System rules recommend distances between the sources of 9 to 12 mm; this last point allows an optimized implant avoiding overdosing areas responsible for complications and infradosing areas that condition relapses
  • 38. • The 192Ir applicators can cause lip oedema after their placement, principally in big tumours or in lips with lax tissue; sometimes, slight pain can also appear but it disappears using minor analgesics • If lip oedema causes an increase of the distance between the sources the result is infradosing areas in the tumour; in this situation the administration of corticoids are useful. • Usually the applicators are very well tolerated by the patient during the 3-5 days that the treatment takes
  • 39. • The lip implant is frequently in contact with the opposite healthy lip and also with the teeth; sometimes it can be in contact with the maxillar bone and it principally happens in patients without teeths or in tumours that exceed the inferiority of the vermillon. • To avoid the irradiation of these healthy tissues they should be constructed personalized protectors of acrilic material containing 2 mm of lead, which avoid the irradiation of neighborhood tissues of a factor of 2, and as a result of their use the sequelae in the healthy tissues should be practically non existent. • Prior to the placement of the implant, it is necessary to check the adaptation and the comfort of the protector, preferably by a dentist, to avoid the risk of patient intolerance during the treatment. • Throughout the treatment it is necessary to be vigilant with the correct position of the protector and to maintain the correct geometry of the implant
  • 40. • The length of the treated lip is variable in the function of the size of the tumour. Normally, the length of the implanted area is those of the tumour plus a margin of security of 0,5-1 cm. • It should be taken into account that these treatments need special care with the implant technique, determination of the number of the sources and the active 192Iridium length that would be introduced inside the vectors in order to avoid relapses in the edge of the treated area; because of that some authors recommend the treatment of the whole length of the lip • Once vectors are introduced in the lip, a personalized dosimetric study is necessary. • This is computerised and a Computarised Tomography (CT) can be necessary depending on the cases in order to correctly evaluate the dose distribution in the healthy tissues and in the tumour. • Brachytherapy in lip cancer is in need of performing the orthogonal X-rays or CT for the dosimetric study using a copy of the acrilic protector without lead in the patients mouth; this allows the reproduction of the geometry implant in the dosimetric study as it would be during the treatment
  • 41. • During the whole of the treatment using low dose rate (LDR) 192Ir, the patient is isolated in a radiation protected room that should have external television monitors in order for nurses to exercise patient control. • Once the treatment is finished the 192Ir and vectors are taken out of the patient without problems. • In those cases where pain was expected during the removal of the implant the administration of an analgesic and a sedative is useful • The patients that can not tolerate the isolation are special candidates for HDR 192Ir treatments. In this therapy several treatment fractions are administered during a few minutes a day, usually during a week
  • 43. COMPLICATIONS AND ESTHETIC RESULTS • During the first 3 weeks after treatment a progressive mucositis appears in the treated area, it usually disappears in 1-1,5 months and rarely lasts longer than 2 months. • The treatment is based on topic measures and analgesics / anti-inflammatories of variable potency depending on the needs of the patient. • Lip cancer disappears during the first 2 months after brachytherapy • The dose of brachytherapy depends on the size and characteristics of the tumour • For T1 tumours doses of 60-65 Gy in the 85% isodoses are considered adequate and 65-70 Gy for T2. • Advanced tumours, when tumour characteristics permit it, are treated by external beam irradiation followed by a brachytherapy boost; after a dose of 45-50 Gy by external beam irradiation a brachytherapy dose of 20-25 Gy is recommended
  • 44. • Total dose after combined treatment higher than 70-75 Gy can be related to an unacceptable risk of sequelae • Although there is no clear influence of the dose rate in local control, 45-90 cGy / hour are considered the most adequate; nevertheless, more than 6% of lip ulceration are described when the dose rate is higher than 80 cGy / hour • The more frequent late complications, depending on the study, are slight depigmentation in 2.5-17%, slight telangiectasias in 15% and different degrees of fibrosis in 8% • These are evaluated for the esthetic results and their low relevance means that they are well accepted by the patient • The most relevant late complication is the superficial necrosis that provokes lip ulceration; it appears in less than 10% of the cases, their health is usually spontaneous and in only 5% of them a surgical treatment is required depending on the series
  • 45. • The incidence of lip ulceration is related to the total dose and the rate of the dose and their apparition is rare if the geometry of the implant and the total dose and the dose rate have not been high • In brachytherapy with LDR sources esthetic results are related to the total dose and dose rate; they are considered as good or excellent in 91% of cases when the total dose is lower than 70 Gy and they are described as poor in 8.6% of the cases when the dose rate is higher than 80 cGy / hour • These lip ulcerations disappear in the majority of the cases with topic measures • The more frequent late complications, depending on the study, are slight depigmentation in 2,5-17%, slight telangiectasias in 15% and different degrees of fibrosis in 8%
  • 46. • The most relevant late complication is the superficial necrosis that provokes lip ulceration; it appears in less than 10% of the cases, their health is usually spontaneous and in only 5% of them a surgical treatment is required • The incidence of lip ulceration is related to the total dose and the rate of the dose and their apparition is rare if the geometry of the implant and the total dose and the dose rate have not been high • In brachytherapy with LDR sources esthetic results are related to the total dose and dose rate; they are considered as good or excellent in 91% of cases when the total dose is lower than 70 Gy and they are described as poor in 8,6% of the cases when the dose rate is higher than 80 cGy / hour
  • 47. • The GEC-ESTRO study, on 2794 patients, showed the following esthetic results: • excellent in 94,9% of T1, • in 84,3% of T2, • in 72,5% of T3 • in 60% of T4 • results were poor in 1,4% of T1, in 4,1% of T2, in 10,1% of T3 and in 20% of T4. Deformity and retraction of the lip was present in 6% of the patients with the tumour affecting commissure and it was more frequent in those cases of large tumours extended to the commissure • Mazeron et al described, in 1870 patients with lip cancer treated by brachytherapy, the presence of relevant functional and esthetic sequelae in 1% of T1, in 5% of T2 and in 9% of T3
  • 48. CONCLUSION • Brachytherapy is an excellent treatment in lip cancer, principally in the early stages, where it can offer similar results to surgery in local control and survival. • Its requires a careful treatment technique and treatment planning. • Relevant related complications are scarce and offer a good lip function maintaining the size of the mouth opening. • The most frequent late effects are slight atrophy, telangiectasias and acromy. • Trained staff, a careful patient evaluation and a good implant geometry will minimize these problems, and as a consequence the esthetic results are frequently superior to those obtained by surgery