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Week 6 Case
Presentation
Neuroendocrine Malignancy
Introduction
JR, 51 F previously working at Marketing division in
Monash Uni, presented for r/v prior to her monthly
Zometa (Zoledronic Acid) infusions for metastatic
bronchial carcinoid tumour which was diagnosed in
Mar 2010 following worsening non-productive cough
and dyspnoea, and 20kg LOW. No significant past
medical or family history of cancer was noted, and JR
is a life-long non-smoker and has NKDA. She is
currently well and ambulating, but experiences
moderate fatigue limiting her ADLs (ECOG
performance status 2)
HOPC
•
Feb 2010
•
Worsening non-productive cough over a few months
associated with LOW of 20kg over 4 mths, worsening
dyspnoea and LOA.
•
Nil chest pain, haemoptysis, fever / flushing, NS,
chills/shakes, lumps felt, change in bowel or urinary
habits
•
Sought medical assistance in Feb 2010
•
CT scan arranged - highly vascularised lesion in the left
lower lobe.
PMHx
•
AC joint dissection in 2012
•
IVF x 4C in 2004
•
GORD
•
Sinusitis
•
NKDA
•
Nil regular meds previously
FHx
•
No significant history of cancer in the family
Social Hx
•
Avid cook, ensures well-balanced meals
•
Good social support
•
Nil financial issues, on private insurance
Plan
•
Referred for bronchoscopy
•
Histopathology consistent with a bronchial carcinoid tumour
•
Urinary 5-HIAA : 110 H
•
HRCT scan - highly vascularised, non-spiculated mass in the left lower lobe. 4.4 x 3.2 x
5 cm. 2 small left posteroinferior
•
Dx: Bronchial carcinoid tumour AJCC Stage I/B (T2 N1 M0)
•
Referred to surgeon for VATS minimally invasive thorascopically assisted left lower
lobectomy
•
Nuclear medicine octreotide study - Normal
•
Refer to Medonc for further management
•
commence on Somatulin (Lanreotide) 120mg
F/up
•
Urinary 5-HIAA
•
•
13/2/11 : 186; 11/8/11: 372H
Chromogranin A increased
•
25/10/12 : 121 ; 9/5/13 : 158
Mets
•
•
18 Jun 2012
•
P/W worsening (L) hip pain during routine r/v
•
XR showed radiolucent area in (L) acetabular region
•
whole body bone scan performed subsequently - mets to (L) hip
•
Repeat urinary 5-HIAA and chromagranin - both elevated
Plan :
•
RT + Commence on Zometa + continue on Somatulin
Mets
•
•
15 Feb 2013
•
c/o tenderness over skull and (L) shoulder
•
CT brain, skull, chest - multiple liver mets
Plan
•
Liver Biopsy - consistent with mets from bronchial carcinoid tumour
•
LFTs - normal
•
Refer for IV radionuclide therapy @ Peter Macallum- require PET octreoscan
•
Mets in liver
•
pagetic changes detected in left clavicle and ilium
Mets
•
FDG PET/CT & GaTate Functional Imaging performed
•
Ki-67 <5%
•
low somatostatin expression at sites of disease in
abdomen and pelvis - more de-differentiated disease
•
ineligible for IV radionuclide therapy - recommend
commencement of IV ChemoRx
•
Recommend cessation of Somatulin due to low
somatostatin expression
Chemotherapy
•
Commenced of 6C CBDCA / Etoposide
•
Experienced recurrent anaemia requiring multiple transfusions postchemo, profound fatigue, anorexia, n/v, cancer-related pain and
multiple episodes of neutropaenia requiring admissions
•
Developed depression - commence on mirtazapine; referral to
psycho-oncologist
•
ChemoRx was poorly tolerated - only 5C were completed
•
MRI showed stable disease as of 27/8/13
•
Commence of monthly Zometa (Zoledronic Acid)
CEA levels
Current issues
•
Moderate fatigue - unable to work but ADLs remain
relatively good
•
Social isolation
•
Residual (L) shoulder pain - commence on Lyrica
(pregabalin)
•
Depression - mirtazapine 60mg
•
Poor appetite - commence on dexamethasone 4mg for
motivation / energy / appetite
Current Medications
•
Lyrica 75mg - neuropathic pain
•
Magmin 500mg
•
Avanza 60mg - depression
•
Dexamethasone 4mg
•
Durogesic patch 25mcg/h
•
Endone 5mg
•
Seretide Accuhaler
•
Zometa
Neuroendocrine
Tumours
Introduction
•
neoplasms that arise from the cells of the endocrine and nervous
system
•
Classification : well-differentiated, low grade malignancy, high grade
malignancy
•
Types
•
GEP-NETs - 2/3 of all GEP-NETs carcinoid, 1/3 PNET
•
Lung (SCLC, carcinoid, LCNEC)
•
Pituitary, Thymus, Parathyroid, Thyroid, EPSCC, adrenal,
phaeochromocytomas, peripheral nervous system, breast, GU tract
Introduction
•
Expresses unique syndromes & biochemical markers
•
Steroids - usually by adrenal cortex / gonads
•
Peptide hormones & catecholamines
•
•
APUD - 5HT, NA/Adr, Histamines, Kinins
•
Peptide hormones
•
GI hormones
MEN syndrome
MEN Syndromes
•
MEN1 [TSG @ 11q13]
•
•
pituitary tumours + pancreatic islet cell tumours + parathyroid
tumours
MEN 2 [ret oncogene @ 10q11]
•
MEN2A - medullary CA of thyroid + Bilateral phaeochromocytoma +
parathyroid hyperplasia / adenoma
•
MEN 2B - medullary CA of thyroid + bilateral phaeochromocytoma +
multiple mucosal ganglioneuromas
•
Cushing syndrome may develop as a consequence of ectopic ACTH
production
Carcinoid Tumours
•
<1% of all tumours
•
may be in association with MEN1
•
Primary tumour usually an APUD - small, commonly located in the
small intestine but may also be found in stomach / colorectal / lung /
ovary
•
Mets
•
liver mets are common; may result in liver failure with replacement
of functional liver tissue with tumour
•
bone mets are usually osteoblastic
•
desmoplastic response - mesenteric fibrosis causing bowel
obstruction
Carcinoid tumours
•
30-50% of tumours are hormonally-active carcinoid syndrome
•
Rare without liver mets [unless ovarian]
•
usually associated with malignancy
•
may exhibit niacin deficiencies, acromegaly,
Cushing’s syndrome, peptic ulcerations, serum
calcium abnormalities
Carcinoid tumours
•
Symptoms
•
Endocrinologically inactive
•
•
Cough, haemoptysis, pulmonary infections, chest pain, pain from direct
compression of the liver from mets
Endocrinologically-active
•
Hormonal : flushing, diarrhoea, hypotension, light-headedness, bronchospasm, HF,
abdominal cramping, peripheral oedema, heart palpitations
•
Ex: HF, Hepatomegaly, cushing’s syndrome, acromegaly, chronic skin changes
•
precipitants : emotional stress, alcohol, exercise, eating, vigorous palpation of liver
with mets
Investigations
•
Bloods
•
24h Urine 5-HIAA (>9mg/24h)
•
Chromogranin A
•
Imaging
Anaesthesia
•
increased risk of flushing, bronchospasm and
hypotension during surgery
•
minimise use of adrenergics and hypotensives
[morphine, curare]
•
pre-op : octreotide 100mg SC tds 2/52 prior
•
peri-op : octreotide IV 50mcg/h prior to anaesthesia,
increase if hypotensive
•
post-op : taper over 1/52
Management
•
Symptomatic
•
Localised
•
Metastatic
•
Palliative
Symptomatic Mx
•
Somatostatin analogs
•
decrease production of 5-HIAA
•
ameliorate symptoms in 90% of patients
•
tumouristatic with increase in PFS
•
Octreotide is able to induce an earlier reduction in IGF-1 levels and more marked
reduction in GH levels cf. lanreotide
•
However, lanreotide dosing schedule does not require induction with daily octreotide
(Short-acting) 14d prior to starting on octreotide LAR
•
recommend octreotide for ST pre-surgical treatment
•
recommend lanreotide for chronic therapy to boost compliance
Symptomatic Mx
•
IFNα
•
better efficacy than somatostatin analogs
•
more acceptable SE profile
Symptomatic Mx
•
•
Hypotension - mediated by kinins, PG, catecholamines
•
Avoid β-adrenergics; α-adrenergics & vasoconstrictive
agents are preferred [methaoxamine / angiotensin]
•
+/- corticosteroids for hypotension prevention
Flushing -mediated kinins & histamines
•
Prochloperazine, phenoxybenazmine, prednisone,
benadryl + tagament, methyldopa
•
Avoid MAO-I
Symptom management
•
Bronchospasm - mediated by histamine : aminophylline
•
Diarrhoea - mediated by serotonin : imodium, lomotil,
zofran, cyproheptadine
•
Bowel obstruction - NGT + IV therapy
•
Pellagra - daily niacin
•
Right Ventricular failure - avoid valve replacement.
manage with diuretics, refer
Localised disease
•
Surgery remains the mainstay of treatment for
cure and increase in overall survival with
debulking
•
Partial Hepatectomy may be performed if liver
mets are confined to an area of the liver
Chemotherapy
•
In general NETS do not show high degree of sensitivity to chemotherapy
•
low mitotic rates
•
presence of high levels of bcl-2
•
increased expression of multi-drug resistance gene
•
Response rate <30%
•
Applicable situations include
•
aggressive disease
•
high proliferation rates
•
aggressive pancreatic NETS - chemosensitive with RR ~40-70%
Metastatic Disease
•
Pancreatic NET
•
Typical : Streptozocin-based chemotherapy,
Everolimus, Sunitinib
•
•
Everolimus + octreotide LAR showed a 5mth
delay in tumour progression c.f. octreotide
alone
Atypical - As with GI-NET
Streptozocin
•
Single agent chemotherapy has insignificant RR <10%
•
STZ has shown to have a better survival outcome for
unresectable pancreatic NETS
•
In combination with 5FU / Adriamycin, RR increased
drastically
•
STZ + FU : RR 45%
•
STZ + Doxorubicin : RR 69%, PFS 20mths (vs. 6.9) ,
oS 2.2 yrs (vs. 1.4); more drug-related toxicitiies
Metstatic Disease
•
GI-NET
•
cisplatin + etoposide
•
•
more signficant nausea, neurotoxicity and
nephrotoxicity
carboplatin + etoposide
•
more significant haematological toxicities
•
used for patients with poor renal function
Cisplatin + Etoposide
•
67% of patients with poorly differentiated NETS
achieved overall regression of the tumour
•
median survival of 19mths
•
No significant benefit seen in well-differentiated
tumours
•
Carboplatin often substituted in place of cisplatin
due to nephrotoxicity
Metastatic Disease
•
High response rate to cisplatin + etoposide for
patients with high grade NET of colon and rectum
•
Marginal anti-tumor activitiy and relatively severe
toxicity for hepatobiliary or pancreatic poorly
differentiated neuroendocrine carcinoma
Metastatic Disease
•
IV Radionuclide therapy
•
Lutetium-177 Octreotate radiopeptide therapy
•
Patient selection
•
sufficient uptake of 111In-Octreotide or 68Ga-labelled somatostatin
analogues
•
disseminated, hitopathologically proven relatively welldifferentiated NET
•
Ki67 score <10%
•
unresectable disease
Metastatic Disease
•
IV Radionuclide therapy
•
more effective as an early stage disease progression
•
chemotherapy is not a pre-requisite for radiopeptide
therapy
•
cease LAR octreotide 6/52 prior to increase
receptivity to radiopeptide therapy. short-acting
octreotide may be used for symptomatic control in
patients with debilitating symptoms
Metastatic Disease
•
Hepatic artery chemoembolization
Metastatic Disease
•
IV Radionuclide Therapy
•
4 cycles with intervals of 6-8 weeks
•
response determined at 6/12 post-completion
•
metabolic response - comparative 177Lu-octreotate timor uptake on 24h
scintiscancs post-therapy administration
•
objective response - CT/MRI studies @ 3-6mth intervals
•
biochemical response - serial chromograinin A titre, + urinary 5-HIAA levels
•
Symptomatic response
•
AE
Palliative
•
Hepatic Artery embolisation
•
palliate endocrine symptoms / pain
•
regression of symptoms in 4/12 in 60% of patients
•
tumour shrinkage up to 80%
•
SE: pyrexia, nausea, LFT abnormalities
•
improved duration of response when used in
conduction with chemotherapy
Palliative
•
RT
•
carcinoids are relatively radio resistant - not a
means of cure
•
mainly used for palliate e.g. bone mets
Future
•
Bevacizumab
•
carcinoids tend to be highly vascularised
•
shown a rapid and sustained decrease in tumour
blood flow with disease stabilisation / partial
response achieved when used in conjunction with
octreotide [c.f. IFNα + octreotide]
•
need ongoing trials prior to approval
References
•
[1] Ducreux m, Baudin E, Schlumberger M. Treatment strategy of neuroendocrine tumours (review). Revue du Practicin. 2002 Feb 1;
52(3):290-6.
•
[2] Rougier P, Mitry E. Chemotherapy in the treatment of neuroendocrine malignant tumours (review). Digestion. 2000; 62 Suppl 1:73-8.
•
[3] Kosmidis PA. Treatment of carcinoid of the lung. Current Opinion in Oncology. 2004 Mar; 16(2):146-9.
•
[4] Strosberg JR, Nasir A, Hodul P, Kwols L. Biology and treatment of metastatic gastrointestinal neuroendocrine tumours. Gastrointestinal
Cancer Research. 2007 Dec 14; 2(3):113-125.
•
[5] Basu Bristi, Sirohi Bhawna, Corrie P. Systemic therapy for neuroendocrine tumors of gastroenteropancreatic origin. Endocrine-related
cancer. 2010; 17:75-90.
•
[6] National Cancer Institute. Treatment for advanced carcinoid tumours [Internet]. USA: Yao J; 2008 [updated 2008 Jun 24; cited 2014 Mar
4]. Available from : http://www.cancer.gov/clinicaltrials/featured/trials/swog-s0518
•
[7] National Cancer Institute. MD anderson study find everolimus prolongs progression-free survival for patients with neuroendocrine
tumours [Internet]. USA: NCI Cancer Center News; 2011 [updated 2011 Nov 30; cited 2014 Mar 4]. Available from :
http://www.cancer.gov/newscenter/cancerresearchnews/2011/MDAndersonEverolimusStudy
•
[8] Demirkan BH, Eriksson b. Systemic treatment of neuroendocrine tumours with hepatic metastases (Review). Turkish Journal of
Gastroenterology. 2012; 23(5) : 427-37.
•
[9] Razzore P, Colao A, Baldelli R, Gaia D, Marzullo P, Ferretti E et al. Comparison of six months therapy with octreotide versus lanreotide
in acromegalic patients: a retrospective study. Clinical Endocrinology. 1999 Aug; 51(2):159-164.
•
[10] Clinical Oncological Society of Australia. Guidelines for the diagnosis and management of gastroenteropancreatic neuroendocrine
tumours (GEP NETs) [Internet]. Australia: COSA; 2010 [updated Nov 2010; cited 2014 Mar 4]. Available from:
http://wiki.cancer.org.au/australia/COSA:NETs_guidelines/Radionuclide_Therapy
•
[11] Casciato DA, Territo MC, editors. Manual of clinical oncology. 7th ed. Philadelphia, USA: Lippincott Williams & Wilkins. 2012. Chapter
15, Endocrine Neoplasm.; p. 408-414.