Center for GI Cancers CME Webinar Series 2025 • 3 / 3 Skip navigation Search Create Avatar image Center for GI Cancers CME Webinar Series: Neuroendocrine Cancer

Name: Center for GI Cancers CME Webinar Series 2025 • 3 / 3 Skip navigation Search Create Avatar image Center for GI Cancers CME Webinar Series: Neuroendocrine Cancer
Uploaded: 2025-07-01T15:02:09.4533333Z
Duration: 1 h 19 min 45 s
Description: May 22, 205 Presentations by: Drs. Pamela Kunz, David Klimstra, Gabriela Spilberg, and John Kunstman

July 01, 2025

May 22, 205

Presentations by: Drs. Pamela Kunz, David Klimstra, Gabriela Spilberg, and John Kunstman

Information

ID: 13271
To Cite: DCA Citation Guide

Download Transcript

00:00Really, it's a pleasure to
00:01be here tonight. My name
00:02is Pamela Coons, and I'm
00:03a GI medical oncologist
00:05and the chief of GI
00:07medical oncology
00:08here at Yale Cancer Center
00:10and Smilow Cancer Hospital.
00:12So, as I just mentioned,
00:13we are
00:15rounding out the four part
00:17CME webinar series for the
00:19center for GI cancers following
00:21the GI oncology urine review,
00:23then colorectal cancer and gastroesophageal
00:25cancer. And tonight,
00:27we are talking about neuroendocrine
00:29cancers.
00:31It's my pleasure to introduce
00:33my colleagues this evening.
00:35So first off, I will
00:37be talking about just NETS
00:38one zero one and some
00:40systemic treatment.
00:41Doctor David Klemstra is a
00:43professor of pathology,
00:44and he will be talking
00:45about NET pathology.
00:48Doctor John Kuntzmann is an
00:50assistant professor of surgery and
00:51surgical oncology,
00:53and he will be discussing
00:54the
00:56primary
00:57and metastatic disease. And doctor
01:00Gabriella Spilberg is an assistant
01:02professor of radiology and biomedical
01:04engineering and nuclear medicine, and
01:06we'll talk about theranostics.
01:08We'll each talk for about
01:09fifteen minutes, and then we'll
01:10have a thirty minute q
01:12and a.
01:15Alright. So to kick off,
01:16I'm gonna do an introductory
01:18just around language and nomenclature
01:20of NETs
01:21and some discussion around systemic
01:23treatment.
01:25These are my disclosures.
01:29And this is the outline.
01:30So I'll talk briefly about
01:31epidemiology and nomenclature,
01:33characteristics that impact how we
01:35think about treatment,
01:36and then discuss treatments for
01:38tumor control. I'll give an
01:39overview, but then I'll also
01:40talk about some of our
01:41newest treatments in the last
01:42couple of years.
01:44So this is a slide
01:45I'd love to use because
01:46I think it really shows
01:48how much progress we've made
01:50in the last couple of
01:51decades.
01:52So until the late nineteen
01:54eighties, we only had two
01:56available therapies. Streptazosin
01:58was FDA approved for pancreatic
01:59NETs, and octreotide
02:01was approved for hormone control.
02:04And then we had almost
02:06nothing for about
02:08twenty years. And then starting
02:10in twenty eleven, we had
02:12this explosion
02:13of available systemic treatments.
02:16That's that's below the timeline.
02:18And then above the timeline,
02:20we had advances in imaging.
02:22And we'll talk about all
02:23of those things this this
02:24evening.
02:26So many of you, I'm
02:27sure, have heard the word
02:29carcinoid, which means cancer like.
02:31This term was coined by
02:32a German pathologist, doctor Orban
02:34Dorfer, in the early nineteen
02:35hundreds. And while this was
02:37a really important contribution to
02:39the field,
02:40it also was a bit
02:41misleading.
02:42So he initially described these
02:44tumors as small and multifocal
02:47with undifferentiated
02:48cellular formations
02:50that they had well defined
02:51borders, had no metastatic potential
02:53and were slow growing and
02:54harmless. And it was for
02:56almost a hundred years after
02:58this
02:58that,
02:59for a very long time,
03:01these were actually not even
03:02considered cancers.
03:04It was really in the
03:05late,
03:06nineteen nineties, early two thousands
03:08that they were described as
03:09cancers and captured in the
03:10SEER database as cancers.
03:12And, so that that does
03:14make some epidemiologic studies trickier.
03:18So in terms of epidemiology,
03:20both incidence and prevalence, on
03:22the left is a figure
03:23of incidence. So the incidence
03:25or number diagnosed per year
03:27is actually low,
03:28but rising. So that is
03:30the the yellow line in
03:32comparison to the blue line,
03:33which is the incidence of
03:34all malignant neoplasms.
03:36So the incidence of NETs
03:38at present is about eight
03:39to ten per hundred thousand,
03:41but has increased pretty dramatically
03:43over the last thirty years
03:45thought to be in large
03:46part due to better diagnostics.
03:49However,
03:50that is probably not enough
03:51to describe,
03:53to exclusively
03:55describe the reasons for the
03:57increase.
03:58Prevalence is the number of
03:59patients alive, and really NETs
04:01have higher prevalence than previously
04:03appreciated.
04:04NET prevalence exceeds that of
04:05stomach and pancreatic adenocarcinoma
04:08combined. So really a much
04:09bigger public health problem. And
04:11in fact, NETs at present
04:12are the second most common
04:14GI malignancy.
04:18Recently, a new version of
04:19the AJCC guidelines came out.
04:21This is version
04:22nine. And we are starting
04:24to see better data around
04:26overall survival. And I thought
04:27just juxtaposing these was really
04:29important to show you that
04:30the five year overall survival
04:32for pancreatic NETs,
04:35for metastatic pancreatic NETs is
04:37about six to seven years,
04:38and for metastatic small bowel
04:40NETs is eight to ten
04:41years.
04:42It it can differ, as
04:44you can see, by pathologic
04:45stage.
04:46But I think that we've
04:47really made significant advances in
04:49treating patients with metastatic disease
04:51such that they live for
04:52years, and these are really
04:54metastatic NETs is really more
04:56of a chronic condition in
04:57chronic cancer.
04:59NETs are epithelial neoplasms that
05:01are derived from nirnapine cells
05:03throughout the body. Most grow
05:04slowly in comparison with their
05:06adenocarcinoma
05:07counterparts.
05:08The majority are sporadic with
05:09about ten percent or less
05:11associated with familial syndromes.
05:13And really pathognomonic for the
05:15disease is the presence of
05:16somatostatin
05:17receptors.
05:18Eighty to ninety percent of
05:19NETs overexpress somatostatin receptor type
05:21two.
05:23The diagnostic workup includes
05:26really at the foundation
05:28cross sectional imaging. That is
05:29the primary tool that we
05:31monitor these patients with,
05:33Either a multiphasic CT and
05:35that multiphasic
05:36is really critical.
05:38We highly recommend arterial phase,
05:41imaging as part of that.
05:42An MRI is also acceptable.
05:45And then somatostatin receptor imaging
05:47with either gallium sixty eight
05:48DOTAPET or copper sixty four,
05:50which doctor Spilberg will will
05:51talk about later,
05:52has also become quite important.
05:54So the somatostatin receptor based
05:56imaging is often avid in
05:57low grade disease,
05:59but not avid in high
06:00grade. And the opposite is
06:02true for f eighteen FDG
06:04PET. It's avid in high
06:05grade and not in low
06:06grade.
06:08Tissue diagnosis, we have some
06:09minimum data elements.
06:11We like to see doctor
06:12Klimstra will be talking about
06:14this, in detail, so I
06:15will not be going over
06:16this.
06:17And then hormone and tumor
06:19markers, we sometimes measure twenty
06:21four hour urine and plasma
06:22five five HI. I'm I've
06:23really pretty much pivoted using
06:25the plasma test. It's much
06:27easier for patients.
06:29And there are some specific
06:30peptides and amines like glucagon,
06:33insulin, gastrin.
06:35And and I've really stopped
06:37checking chromogranin a. So I
06:38I,
06:39say here resist the temptation
06:41to order chromogranin a. I
06:42find that it is,
06:44quite variable. It often leads
06:46to more anxiety than it
06:47is helpful both for the
06:48physician and for the patient.
06:50I don't find it a
06:51useful biomarker.
06:54So there are, in my
06:55mind, a number of characteristics
06:57that that help,
06:59me decide how to treat
07:01the patient in front of
07:02me. They include functional status,
07:05so whether or not a
07:06patient has symptoms of of
07:07a measurable hormone,
07:09primary site stage,
07:11volume of disease,
07:13degree of differentiation,
07:15the WHO grade, the somatostatin
07:17receptor status,
07:19germline and somatic mutations,
07:21sex, gender, race, and social
07:22determinants of health. I'm only
07:24gonna focus on a few
07:25of these, but I'm really
07:26gonna focus primarily on on
07:28how we select the treatment.
07:30So treatment for
07:32tumor control for NETs. I'm
07:33really gonna focus on just
07:35the neuroendocrine
07:36tumors. I'm not gonna talk
07:38about poorly differentiated neuroendocrine carcinomas
07:40tonight just for the sake
07:41of time. So these four
07:43buckets are somatostatin analogs,
07:45targeted therapies,
07:47cytotoxic
07:48chemotherapy,
07:49and radioligand therapy.
07:52So doctor Spielberg will talk
07:53about radioligand therapy. I will
07:55not include that in in
07:56my talk.
07:58So the
07:59overall
08:00gap net treatment approach includes
08:03surgical surgical debulking.
08:05If possible, we resect the
08:06primary and even sometimes metastatic
08:09disease.
08:10For pancreatic NETs less than
08:11two centimeters, we can also
08:12consider observation, and this is
08:14adapted from the NCCN guidelines.
08:16I will let doctor Kuntzmann
08:17focus on talking about surgery,
08:18both for primary and METs.
08:20If a patient has unresectable
08:22metastatic
08:23and low tumor burden disease,
08:24we often observe
08:26or use a somatostatin analog
08:28as first line treatment.
08:29If they have unresectable
08:31metastatic disease and have symptoms
08:33for their from their primary
08:34tumor.
08:36Again, doctor Kuntzmann will talk
08:37about indications for resection of
08:39the primary tumor.
08:40And then if patients have
08:41unresectable metastatic or clinically
08:44significant
08:45tumor burden, we will think
08:47about SSA as first line
08:48or other systemic treatment options.
08:51And those options, again, as
08:52as seen in that timeline,
08:53have really
08:55expanded over the last decade.
08:57I've separated it into small
08:59bowel NET and pancreatic NET.
09:00There are some slight differences,
09:02although there is some overlap.
09:05The optimal sequence of therapies
09:07is currently unknown,
09:10and we are starting to
09:11see
09:12more clinical trials emerge that
09:14compare active agent to active
09:16agent. So we will start
09:17learning a little bit more
09:18about sequence
09:19and,
09:21sort of comparisons of survival
09:22and response rates as we
09:24get data from those studies.
09:26So I'm gonna briefly review
09:28some of our FDA approved
09:29agents and the studies that
09:31led to those.
09:33So we we know that
09:34somatostatin analogs have an anticancer
09:37effect or anti proliferative effect
09:39on the basis of the
09:40PROMID and the CLARINET studies.
09:42The CLARINET study led to
09:44the FDA approval of lanreotide
09:46for tumor control in twenty
09:48fourteen on the basis of
09:49a prolonged progression free survival.
09:52PFS is the primary
09:54endpoint for most neuroendocrine tumor
09:56studies mostly because
09:58OS is going to be
09:59impractical given that NETs,
10:01have a much longer overall
10:03survival. Patients have often gone
10:05to get subsequent therapies. So
10:07overall survival ends up being
10:09a really impractical endpoint.
10:13Somatostatin analogs do not shrink
10:15NETs, so I think that's
10:16another very important point. The
10:18response rate is in the
10:19single digits.
10:20Side effects include nausea, diarrhea,
10:23gallstones,
10:25and hyperglycemia.
10:29Everolimus is also FDA approved
10:31really across the board for
10:33pancreatic NET, GI, and lung
10:36NET. There was a series
10:37of studies called the radiant
10:39trials.
10:40So RADIENT three and RADIENT
10:42four were the key trials
10:44that led to FDA approval
10:45in the respective primary sites.
10:47So RADIENT three was for
10:49pancreatic NET. RADIENT four was
10:51for GI and Lung NET.
10:53And you can see here
10:54that the median PFS is
10:55actually very similar in those
10:56studies,
10:57with an absolute difference of
10:59about,
11:00five to six months for
11:01both of these.
11:03Treatment outcomes,
11:05also,
11:06this agent does not yield
11:07shrinkage,
11:08single digit response rates, but
11:11prolongs progression free survival. Side
11:13effects, this is a more
11:14difficult
11:15treatment than somatostatin analog, so
11:17it causes hyperglycemia,
11:19fatigue,
11:20stomatitis,
11:21rash, pneumonitis, and diarrhea.
11:23So these were approved,
11:25in twenty eleven.
11:29Sunitinib
11:30is FDA approved for pancreatic
11:32NETs.
11:33Again, very similar PFS data
11:35compared to Everlimus.
11:37So this was a sunitinib
11:38versus placebo study in pancreatic
11:41NET. Medium PFS was eleven
11:42months versus,
11:44excuse me, versus five months.
11:46This I've sort of given
11:47the these, trials
11:50presenting to you in a
11:51way that they become increasingly
11:53difficult more difficult in terms
11:54of side effects. So sunitinib
11:57can cause hypertension, fatigue, diarrhea,
12:00nausea, vomiting, and rash.
12:03So the newest tyrosine kinase
12:05inhibitor that was just FDA
12:07approved in April of twenty
12:09five, so just last month,
12:11is cabozantinib.
12:12Cabozantinib
12:13has slightly different targets than
12:15sunitinib, most notably CNET.
12:18This was a,
12:20a sort of two cohort,
12:23study. So they had a
12:24pancreatic NET study and an
12:26extra pancreatic NET study. So
12:27in the extra pancreatic NET
12:29cohort, which is the,
12:30Kaplan Meier curve that you're
12:31looking at here, we saw
12:33a prolongation of PFS
12:35for cabozantinib
12:36versus placebo.
12:37The response rate was single
12:39digits four percent.
12:41For the pancreatic NET cohort,
12:43I saw a slightly longer
12:45median PFS, and the response
12:47rate was actually higher. It
12:48was eighteen percent.
12:50So this is now FDA
12:51approved for adults and pediatric
12:53patients with lung,
12:55GI, pancreas, and unknown primary
12:57NET,
12:58because end of March.
13:04So in terms of chemotherapy,
13:07capecitabine
13:08temozolomide
13:09is used very commonly in
13:10pancreatic NET on the basis
13:12of the ECOG ACRAN twenty
13:13two eleven study.
13:15And
13:16this, was a study I
13:17had the opportunity to lead.
13:19It demonstrated
13:20a benefit of the combination
13:22arm compared
13:24to temozolomide
13:25alone. And also a really
13:26key takeaway is that this
13:28does in fact yield tumor
13:29shrinkage. So about a forty
13:31percent response rate for the
13:32combination arm.
13:34Pretty well tolerated, but can
13:35cause cytopenias,
13:37fatigue, diarrhea, nausea, vomiting, and
13:39hand foot syndrome.
13:42One key takeaway from this,
13:44I'm gonna focus in the
13:45figure on the right, is
13:46that I had mentioned response
13:47rate is high in both
13:48arms.
13:49The study was not designed
13:51to detect a difference in
13:52response rate, but this is
13:54for a patient population who
13:55is in need of objective
13:57shrinkage.
13:58Another takeaway is that I
13:59do not generally use this
14:01for patients with small bowel
14:02nets.
14:04So as we're thinking about
14:05selecting treatments, it's really critical
14:07to think about patient characteristics,
14:10pay the patient in front
14:11of you. What other comorbidities
14:13do they have? Treatment outcomes
14:14do you need? Is stability
14:16gonna be sufficient, or do
14:17you really need a response
14:18if a patient has symptoms
14:20from tumor bulk or from
14:21hormones?
14:22And then as we think
14:23about our buckets
14:25of peptide receptor radionuclide therapy,
14:27somatostatin analogs,
14:29targeted therapies, and cytotoxic chemotherapies,
14:32the you can weigh these
14:34different variables.
14:37So trials to watch.
14:39I'm not gonna go through
14:39these in detail, but I
14:40want you to have these
14:41available
14:42afterwards. The the our presentations
14:44are being recorded tonight. So
14:46really exciting that we're starting
14:47to see we have an
14:48adjuvant study in pancreatic NET
14:50of CAPTEM.
14:52There's a study looking at,
14:54more frequent dosing of octreotide
14:57to see if that is
14:58something that can help slow
14:59growth. And then for metastatic
15:01paragangliomide
15:02pheo,
15:03temozolomide versus temozolomide plus olaparib,
15:05which is a PARP inhibitor.
15:08So take home points. I
15:09hope I've shown you that
15:10NETs are not that rare.
15:11They are deserving of high
15:13quality basic translational clinical research
15:15efforts.
15:16We have many tools in
15:17the toolbox,
15:19that include a range of
15:21classes of therapy, SSAs, radioligand,
15:23targeted, and chemotherapies.
15:26However, there's no known optimal
15:28sequence. And really that tailoring
15:30of treatment for every patient
15:31requires a careful balance of
15:33patient and treatment characteristics.
15:35And I think the last
15:36takeaway is a perfect segue
15:37into passing the baton to
15:38my partners is that multidisciplinary
15:40care and coordination is really
15:42essential in this disease.
15:44So, so thank you. I
15:45will I will pause here,
15:48and I will pass the
15:50baton.
15:51So the next speaker up
15:52is doctor Klimstra.
15:56Thanks, Pam. Just bringing up
15:58my
15:59slides.
16:01So,
16:03as Doctor. Coons said, a
16:05perfect segue is to talk
16:06take a step back
16:08a little bit and talk
16:09about how do we establish
16:11the diagnosis
16:12of
16:13gastroenter or pancreatic
16:15neuroendocrine tumors. It's a mouthful
16:17GepNets or GepNens
16:18depending on what you're speaking
16:20of.
16:21These are my disclosures.
16:24So neuroendocrine
16:26tumors have classic histologic features
16:28that are typically well recognized.
16:32They've been described for
16:34over a hundred years.
16:37But they're actually very diverse.
16:39They can arise throughout the
16:41body. We're really focused below
16:42the diaphragm here, but of
16:44course the lung thymus
16:46scan, other sites are also
16:48common. And microscopically, we refer
16:50to this growth patterns with
16:52nests and ribbons as being
16:54organoid.
16:55And the nuclei are also
16:56very
16:58characteristic.
16:59But in general, we prove
17:00the diagnosis using immunohistochemistry
17:03for markers of neuroendocrine differentiation
17:05and we'll talk about that
17:06a little more minute.
17:07I think probably the most
17:08important takeaway
17:09from
17:10what I'm going to say
17:11is the fact that neuroendocrine
17:13neoplasms
17:14can be either well differentiated
17:16or poorly differentiated. And these
17:18are really
17:19very, very different
17:21categories.
17:22Differentiation of course refers to
17:24the resemblance of neoplastic cells
17:26to their normal counterparts. So
17:27for instance, this is a
17:28pancreatic islet and this is
17:30a pancreatic neuroendocrine tumor. And
17:32you can see in this
17:33well differentiated
17:35tumor, it looks very much
17:36like the normal islets. And
17:38they strongly express markers that
17:40are found in in in
17:42normal neuroendocrine cells like chromogranium
17:44and cementifazin.
17:46But well differentiated and poorly
17:48differentiated neuroendocrine neoplasms,
17:50although they share neuroendocrine differentiation
17:52are really different. And I
17:54can't overemphasize
17:55this.
17:56They can on occasion be
17:58difficult for us to distinguish.
18:00Sometimes they share some histologic
18:03features. But these are really
18:04fundamentally different. They arise from
18:06different cells.
18:07They have a different relationship
18:08to non neuroendocrine neoplasia like
18:10adenocarcinoma
18:12or squamous cell carcinoma.
18:14They're genetically
18:15different and they're dramatically different
18:17in terms of their aggressiveness
18:19and their treatment.
18:21And just to give you
18:22some examples of this, you
18:24know you look at well
18:25differentiated neuroendocrine tumors, they tend
18:27to be associated with MEN1,
18:29whether differentiated or not.
18:32There can be precursor lesions
18:33in the endocrine lineage in
18:35the well differentiated but not
18:36poorly.
18:37On the contrary, the non
18:39neuroendocrine precursors like dysplasia
18:42can be associated with a
18:43poorly differentiated neuroendocrine neoplasm.
18:47The important point at the
18:49bottom is that they never
18:50co occur. So the well
18:51differentiated ones stay well differentiated
18:53ones and the poorly differentiated
18:55are poorly and they aren't
18:56mixed together.
18:57This is just an example
18:59from the lung but similar
19:00conclusions
19:01exist for any anatomic site.
19:03They're very different genomic alterations.
19:06The top two are quite
19:07characteristic of poorly differentiated neuroendocrine
19:09carcinomas. RB,
19:11and p fifty three are
19:12commonly mutated.
19:14And MEN for instance is
19:16mutated in the well differentiated
19:17but not poorly.
19:19So,
19:21really try to keep in
19:23mind that when someone
19:25uses the term well differentiated,
19:26they're talking about a completely
19:28different
19:29beast than a poorly differentiated
19:31neuroendocrine neoplasm.
19:33Terminology
19:34in this area has been
19:35a problem for years and
19:37we were able to standardize
19:38this
19:39for most anatomic sites. Certainly
19:42south of the diaphragm it's
19:43standardized. The lung people
19:45are still a little
19:47unhappy with this and prefer
19:49to use the term carcinoid
19:51for the well differentiated tumors.
19:54But generically we use the
19:56term neoplasm to refer to
19:58both well and poorly differentiated.
20:00The term
20:02term term tumor means well
20:04differentiated.
20:06The term carcinoma
20:07means poorly differentiated.
20:10And that can be either
20:11small cell carcinoma or large
20:13cell neuroendocrine carcinoma.
20:15There are also rare,
20:17entities that are mixed,
20:19a component of both neuroendocrine
20:20and non neuroendocrine. And we
20:22really don't have time to
20:23get into these, but you
20:24may see,
20:25occasional reports of these
20:28mixed variants.
20:30Now how do we recognize
20:31that we're dealing with a
20:32neuroendocrine tumor?
20:34In the well differentiated category,
20:36it's really not
20:37a big challenge. These organoid
20:39patterns, you can see the
20:40ribbons
20:41in the top left or
20:42the nest in the bottom
20:44left, quite typical. The nuclei
20:46are quite typical.
20:48The poorly differentiated
20:50carcinomas are a little different
20:51though. They tend to have
20:52a very poorly differentiated morphology.
20:55There are some features that
20:56we equate with neuroendocrine differentiation,
20:59such as a nesting pattern,
21:01a certain pattern to the
21:03chromatin.
21:04But these require some additional
21:06evidence to prove that they're
21:08neuroendocrine.
21:09And that is found in
21:10the in the form of
21:11immunistic chemical staining.
21:14This is a longer list
21:15than you need, because there
21:16are many markers that have
21:18been
21:19used in the past or
21:20that have recently been developed.
21:22But the three highlighted ones,
21:23chromogranin,
21:24a,
21:25synaptophysin,
21:27and insulinoma
21:28associated protein or I n
21:30s m one are the
21:31three that are currently
21:33accepted as
21:34both sensitive and specific
21:36for neuroendocrine differentiation.
21:39Now
21:41when you're talking about a
21:42well differentiated neuroendocrine tumor,
21:45almost all of them are
21:46positive for these markers when
21:47used in combination,
21:49chromogran and synaptophys and stain
21:51ninety five percent.
21:53Certain
21:54other nonneuroendocrine
21:55neoplasms
21:56do stain predictably for these
21:58that we have to know
21:59about. And occasionally you can
22:01have idiosyncratic staining of other
22:02neoplasms, so they're not a
22:04hundred percent specific, but they're
22:05they're very reliable.
22:07In fact, some pathologists question
22:09whether it's truly necessary to
22:11stain every obvious neuroendocrine tumor
22:14for these markers. I think
22:15it tends to make people
22:17more comfortable to see that
22:18this has been done just
22:19to make absolutely sure.
22:21But there are some that
22:22are just so prototypical
22:23you don't you don't honestly
22:24need it.
22:26That is not the case
22:27for the poorly differentiated.
22:30Small cell neuroendocrine carcinoma has
22:32a very classic morphologic
22:33finding, and you can consider
22:35making this diagnosis without immunohistochemical
22:38support as long as you've
22:39ruled out other things.
22:41But large cell neuroendocrine carcinoma
22:43absolutely has to have
22:45immunohistochemical
22:46staining to prove that it's
22:47neuroendocrine.
22:48And there can be some
22:49debate about
22:51how strong or how diffusely
22:52positive it should be. I
22:53mean if you get a
22:54stain like this chromogranon and
22:56when it's it's quite compelling.
22:59But the WHO
23:00now is saying that you
23:01should have two of those
23:02three markers
23:03positive to verify this diagnosis.
23:08One side point I'd like
23:09to make is you have
23:10to be careful with immunohistochemistry.
23:12So
23:13adenocarcinomas
23:15can also have neuroendocrine differentiation.
23:17It can come in the
23:18form of scattered positive cells
23:20like you see in this
23:22adenocarcinoma
23:23with a few cells labeling,
23:25or it can actually be
23:27more extensive
23:28and and just detect it
23:30incidentally.
23:30And it really
23:32the prognostic
23:33import of this kind of
23:35finding is really not clear.
23:37We don't believe it's prognostically
23:39relevant. These are still adenocarcinomas.
23:41And so be a little
23:42bit careful about asking a
23:44pathologist to do neuroendocrine markers
23:46on something they're confident is
23:48not a neuroendocrine tumor, because
23:49you might like what you
23:51find.
23:54Now the other critically important
23:56thing is grading neuroendocrine neoplasms.
23:59Grading is something we've implemented
24:00in the last fifteen or
24:02twenty years,
24:03and it's based
24:05entirely or largely on the
24:07proliferative rate measured by mitotic
24:09counting or the k sixty
24:11seven immunohistochemical
24:12stain.
24:13The well differentiated
24:15tumors can be either grade
24:17one, grade two, or grade
24:18three
24:19depending upon the rate of
24:21proliferation.
24:22Whereas the neuroendocrine carcinomas are
24:24by definition grade three all
24:25the time.
24:27Grading generally correlates very well
24:29with prognosis, and this is
24:30one of many studies showing
24:32this. It's quite a dramatic
24:33difference
24:34in in in behavior based
24:36on the grade.
24:37But another important feature to
24:39keep in mind is that
24:40the grade of neuroendocrine tumors
24:42is dynamic.
24:44It can vary regionally within
24:46a neuroendocrine tumor.
24:48It can vary between different
24:49sites of disease. For instance,
24:51a primary versus a metastasis
24:52or two different metastases.
24:54And it can even change
24:56over the course of disease.
24:57So if you have a
24:58patient whose disease has been
24:59progressing slowly
25:01and suddenly it starts to
25:02grow more rapidly, it's likely
25:04that it has become higher
25:05grade.
25:06And this argues that we
25:07should really be assessing the
25:08grade every time we have
25:10a tissue sample
25:11of a neuroendocrine tumor.
25:14The criteria for this,
25:16you know, again, throughout the
25:18body, there's a little variability
25:19in how we do this,
25:20but the GI in pancreas
25:22has been standardized. And this
25:24was
25:25twenty nineteen
25:27classification.
25:28It was just
25:30reassessed by the WHO and
25:32they haven't really changed it
25:33at all.
25:34And so you can see
25:35the the proliferative rate that
25:37distinguishes the three grades of
25:39neuroendocrine tumors,
25:42both by mitotic rate and
25:44key sixty seven.
25:45And then you can also
25:46see the higher proliferative rate
25:48that characterizes
25:49the neuroendocrine carcinomas.
25:52I would draw your attention
25:53to the fact that the
25:54proliferative rate threshold for neuroendocrine
25:57carcinoma is exactly the same
25:59as it is for g
26:00three nets.
26:01And so the distinction of
26:02these two has suddenly become
26:04a bit of a challenge
26:05for us, and we'll come
26:06back to that in a
26:07second.
26:08But this is what the
26:09mitotic figures look like in
26:10a in a intermediate grade
26:12neuroendocrine tumor. There are a
26:13few of them.
26:16It's probably easier to assess
26:18key sixty seven to be
26:19honest.
26:20And this has been pretty
26:22standardized.
26:22You see examples of low
26:24grade, intermediate grade, and high
26:25grade with a highly variable
26:26number of cells with nuclear
26:28staining.
26:30There are lots of ways
26:30to do this. The way
26:32we do it is we
26:32actually take a photograph
26:34of the hot spot, the
26:35highest labeling area, and then
26:37count the positive cells versus
26:39the negative cells, and you
26:40can get an actual number,
26:42sixty one positive out of
26:43fourteen hundred and twenty one
26:45cells counted. And this should
26:47be included in all pathology
26:48reports on neuroendocrine tumors.
26:52Now since we've been using
26:54this, there's been some feedback
26:56about this grading scheme.
26:58And in particular, the g
27:00two category may be overly
27:02broad. You know, you have
27:03a three percent is g
27:05two, but also nineteen percent
27:06is g two. And many
27:07people have observed that those
27:09two tumors don't behave the
27:11same.
27:12There have been some proposals
27:13to raise that three percent
27:15cut point.
27:17That's not really gained any
27:18traction.
27:19A more appealing proposal is
27:21to divide g two into
27:23a and g two b
27:25based on ten percent.
27:27So g two a being
27:29three to ten and g
27:30two b being ten to
27:32twenty.
27:33And there's actually a nice
27:35paper that just came out
27:36in an archive
27:40from the Hopkins group looking
27:41at forty years of pancreatic
27:43neuroendocrine tumors. And you can
27:45see with this grading scheme
27:46the the dramatic difference in
27:48outcome between G2a and G2b.
27:51So I suspect that this
27:52will work its way into
27:53new proposals.
27:57So we have the concept
27:58of a neuroendocrine tumor
28:00being a low grade,
28:02tumor that can undergo grade
28:04progression
28:05to be high grade.
28:07And the concept
28:08of poorly differentiated neuroendocrine carcinoma
28:11being a carcinoma from the
28:13get go being high grade
28:16uh-uh throughout its course.
28:18Both of these pathways though
28:20give rise
28:21to high grade neuroendocrine neoplasms.
28:24And in fact, here we
28:25see an example
28:27of
28:28a intermediate grade pancreatic neuroendocrine
28:31tumor that has progressed within
28:33the primary tumor. It has
28:35at the lower right you
28:36can see the
28:37the intermediate grade areas and
28:38in the upper right a
28:39very high grade area. And
28:41if we look at the
28:42key sixty seven, it's nearly
28:44a hundred percent in this
28:46high grade area.
28:47Which creates some problems because
28:49if you didn't know about
28:50the low grade area, you
28:51would think this was a
28:52neuroendocrine carcinoma.
28:54And indeed what we've found
28:56now is that there's an
28:57overlap
28:58in the K sixty seven
28:59between the well differentiated NETs
29:02and the poorly differentiated neuroendocrine
29:04carcinomas.
29:05And we have this range
29:06of K sixty seven between
29:08around thirty to seventy where
29:10both can occur.
29:12And so how are we
29:13gonna tell these apart?
29:15Well there can be some
29:16clinical clues.
29:18For instance, if the patient
29:19had a lower grade
29:21NET, then the high grade
29:22tumor is also a NET.
29:24If it's octreotide
29:26or one of the other
29:27somatostatin
29:28based imaging scans positive, it's
29:30probably well differentiated
29:32NET. If it's FDG PET
29:34positive, it's probably a poorly
29:36differentiated
29:37carcinoma.
29:38And then by morphology, we
29:40can also look to see,
29:41is there a lower grade
29:42component like I just showed
29:43you? Is there a non
29:45neuroendocrine component like adenocarcinoma,
29:47which would mean that the
29:49neuroendocrine
29:50is
29:51poorly differentiated?
29:53And then there are molecular
29:54clues.
29:56This is for pancreas, but
29:57the same thing is true
29:58for other anatomic sites. There
30:00are different types of mutations
30:01in the well differentiated and
30:03poorly differentiated,
30:04and this persists
30:06in general as the tumors
30:07become higher grade.
30:08So if you have a
30:09g three net
30:11that lacks RB and p
30:13fifty three, that's reassuring that
30:15it's still a net. If
30:17it has those mutations,
30:19it probably is a poorly
30:20differentiated neuroendocrine carcinoma.
30:23So this can be done
30:24now to help classify these
30:26high grade tumors which hopefully
30:27will point to appropriate therapy.
30:31So to summarize what we've
30:32discussed,
30:33important points here is that
30:35neuroendocrine neoplasms as a general
30:37category can be either poorly
30:38different I'm sorry, well differentiated
30:40NETs
30:41or poorly differentiated
30:43neuroendocrine
30:44carcinomas.
30:46The neuroendocrine differentiation
30:47should be demonstrated by immuno
30:49labeling.
30:51Inappropriate pathological
30:53context, meaning don't stain things
30:54that don't look like neuroendocrine
30:56tumors in the first place.
30:59Grading
31:00is based on a three
31:02tier scheme, perhaps with subgrades
31:04for g two based on
31:05the t sixty seven and
31:07the lactamics.
31:08Whereas,
31:09neuroendocrine carcinomas
31:11are hard to read by
31:12definition.
31:13The grade can be a
31:14dynamic feature of NETs, so
31:16you have to keep track
31:17of it as these tumors
31:18progress.
31:19And finally, we have some
31:20ways to tell g three
31:22NETs from
31:23neuroendocrine carcinomas, but they can
31:25be quite challenging.
31:27So with that, I will,
31:29stop and pass the, pass
31:31the baton to our next
31:33speaker.
31:34Great. Thanks, doctor Klimstra.
31:37We'll have doctor Kuntzmann go
31:39next.
31:44Good evening, everybody.
31:52All coming through?
31:58Pam, you're muted, but you
31:59looked like you said yes.
32:00Yes. Sorry about that.
32:02No problem.
32:04Alright. Good evening, everybody. My
32:05name is John Kunstmann. I'm
32:06one of the surgical oncologists
32:07at Yale.
32:09And, you know, I co
32:10lead the neuroendocrine tumor from
32:12a program here with doctor
32:14Coons from a surgeon's perspective.
32:16So there'd be a few
32:17things that I'll repeat that
32:18are particularly pertinent to the
32:19surgical management
32:21that, the excellent pathologic and
32:23general medical overview,
32:25already presented.
32:28But we'll try and move
32:28along fairly quickly.
32:30For my portion of the
32:32discussion,
32:32I really wanna convey what
32:34are the indications for surgery,
32:36and kind of emphasizing that
32:38each case really does need
32:39an individualized approach,
32:41and what surgeries we can
32:43do. We're kinda stick again
32:45in the interest of time
32:46to pancreatic,
32:48and intestinal neuroendocrine tumors,
32:51and, skip over neuroendocrine carcinomas
32:54and some of the higher
32:54grade lesions,
32:57for which surgery has a
32:58pretty minimal role anyways,
33:01and then also briefly talk
33:02about metastatic disease.
33:04So, again, just to reiterate,
33:05I'm gonna start with pancreatic
33:07neuroendocrine tumors.
33:09From a peanut standpoint, again,
33:11you know, historically, many were
33:13diagnosed because of hormone oversecretion.
33:16Those hormones that,
33:18are oversecreted by functional tumors
33:20can correlate with more or
33:21less aggressive disease.
33:23But nowadays,
33:24many are found in the
33:26most are found in the
33:27nonfunctional
33:28setting,
33:29and up to half the
33:30diagnoses are completely incidental,
33:32usually imaging findings. When they
33:34are symptomatic,
33:36generally, it's larger tumors, and
33:38it's caused those symptoms are
33:39caused by it pushing on
33:40something,
33:42GI tract or bile ducts
33:44or something like that that
33:46leads to the presentation.
33:49You know, staging, again, already
33:50nicely summarized,
33:52by doctor Koons. But, you
33:53know,
33:54the biggest thing from a
33:55surgeon's perspective, of course,
33:58is understanding whether it's localized
34:00or metastatic disease.
34:02Regardless of stage, there are
34:04a number of options that
34:05exist as already discussed, and
34:07surgery is appropriate, in some
34:08cases, a stage four disease.
34:09But that,
34:11surgical
34:12treatment generally,
34:14the initial approach is gonna
34:15be surgery only in localized
34:17disease.
34:18For localized pancreatic or endocrine
34:20tumor surgery is the primary
34:21treatment modality.
34:23As, you know, general rules,
34:25functional peanuts,
34:27are almost all good surgical
34:29candidates simply because,
34:31oversecretion of hormones leads to,
34:33you know, syndromic disease.
34:37And nonfunctional
34:38peanuts that are causing some
34:39of those compressive symptoms like
34:41jaundice or,
34:43gastric outlet obstruction, etcetera.
34:45We'll talk a little bit
34:47down the road,
34:48as I progress for locally
34:50advanced tumors,
34:51that could be considered unresectable.
34:54As briefly mentioned, you know,
34:55that that definition is changing.
34:57I think both
34:59improvements
35:00in surgical techniques, new approaches
35:02we've devised to operating in
35:04the case of nonmetastatic,
35:06especially pancreatic neuroendocrine tumors, has
35:08changed the definition of what's
35:09unresectable.
35:10Moreover, we now have effective
35:12systemic agents that can downstage
35:14some of these patients,
35:16to
35:16cases.
35:18I'm just gonna briefly mention,
35:19you know, peanuts that are
35:20associated with genetic syndromes most
35:22commonly, MEN1, but of course,
35:24others like tuberous sclerosis, etcetera.
35:27You know, in those cases,
35:28it's truly
35:29a multidisciplinary
35:30disease where decisions on when
35:32to operate have to take
35:33into account a number of
35:34other factors like patient age,
35:36their endocrinology,
35:38status,
35:39and what the future expectations
35:41are.
35:43So, again, talking about totally
35:45incidental
35:46peanuts, which is what we
35:47see most often nowadays,
35:50as nicely summarized by doctor
35:52Klimstra, we wanna know as
35:53much as we can about
35:54how aggressive
35:55that disease is from a
35:56pathologic standpoint, k sixty seven
35:58being particularly important.
36:00But I'd also like to
36:01highlight regional spread.
36:03You know, these are frequently
36:05lymphotropic
36:06tumors.
36:07And then, of course, the
36:08tumor size relates to its
36:09resectability.
36:11Even for small low key
36:13sixty seven peanuts,
36:14they all have the potential
36:16to grow and spread. It's
36:17just some are are very
36:18unlikely to do so.
36:20One of the frequent things
36:21that occurs in in my
36:23clinic is a patient will
36:24come to us and, you
36:25know, they have a peanut,
36:26and
36:28they've been told that they
36:30do not have cancer,
36:32you know, which is always
36:33difficult to walk that back.
36:34And I and I totally
36:35understand
36:36the fact that they have
36:37a pancreatic lesion and it's
36:39not adenocarcinoma.
36:40It's a neuroendocrine tumor, obviously,
36:42that sets a completely different
36:43conversation.
36:46But oftentimes, we do have
36:47to characterize to, you know,
36:49recharacterize these lesions to patients
36:51if they've gotten the notion
36:52that, you know, there's not
36:53much to worry about.
36:55That being said, you know,
36:57as I alluded to, there
36:58are a number of tumors
36:59that are
37:01so unlikely to spread that
37:02observation
37:03is a potential management strategy.
37:05So this has been floating
37:07about for about ten or
37:08fifteen years now,
37:09looking at a few studies.
37:10You know, one of the
37:11earliest studies came out of
37:12the clinic, you know, Mayo
37:13Clinic fifteen years ago, and
37:16that observed that over a
37:17long period of time,
37:19patients with small asymptomatic p
37:21nets that were nonfunctional
37:23had the same survivorship as
37:24patients that underwent an initial
37:25resection.
37:27This study was contradicted by
37:29a study out of Duke
37:31that suggested patients that were
37:33observed
37:34did much worse.
37:36That being said, that was
37:37a database study. It was
37:38retrospective. It was subject to
37:39a lot of selection bias.
37:42You know, a study performed
37:43here at Yale about the
37:44same time,
37:46it did show that patients
37:47with small neuroendocrine tumors that
37:49were observed that later underwent
37:50resection
37:51did have a very, very
37:52favorable ten year survival.
37:54Although some did have, you
37:56know, regional spread at the
37:57time of resection.
37:59And then a large study
38:00also out of, MSK
38:02showed that if patients are
38:04watched well, you know, about
38:05a quarter of them will
38:06convert to resection over a
38:07five year period. But, again,
38:09the survival is the same.
38:12Now what this boils down
38:14to, and there's been a
38:14number of other studies over
38:16the years that, mostly fall
38:17on the side that there
38:18is a population in whom
38:19it's safe to avoid surgery
38:21in.
38:22So the answer, I think,
38:23to the question posed here
38:25that some peanuts may be
38:26safe to observe is yes.
38:28Who are those candidates? Again,
38:30has to be nonfunctioning tumor,
38:31has to be asymptomatic.
38:34You know, this is a
38:34little controversial, but essentially,
38:37we here at Yale really
38:38believe that if there's already
38:39some evidence of regional spread
38:41to lymph node involvement,
38:43regardless of any other characteristic
38:45that's an indication for surgery,
38:47we need to understand that
38:48it's well differentiated,
38:50preferably small. The incidence of
38:52both regional and metastatic spread
38:54starts to rise precipitously over
38:56two centimeters.
38:57And then I think something
38:58we often forget about but
39:00is critically important, is the
39:01patient has to be amenable
39:03to follow-up.
39:04If this is somebody who
39:05either
39:06through, you know, anxiety will
39:08be unable to tolerate a
39:10surveillance based strategy,
39:12that's a genuine symptom as
39:13well, and sometimes that is
39:14an indication for surgery.
39:16Also, if it's a patient
39:17that's not going to comply
39:18with serial examinations
39:20and follow-up,
39:21you know, that may tilt
39:22you towards surgery,
39:24at an earlier phase.
39:26So if we've made the
39:27decision to go to surgery,
39:29what are our goals? Obviously,
39:30we wanna maximize the local
39:32control with a margin negative
39:33resection.
39:35Regional lymphadenectomy
39:36is considered standard of care.
39:37We wanna improve and prolong
39:39people's survivorship,
39:40and then hopefully improve their
39:42quality of life, particularly in
39:43the case of hormonal syndrome
39:45or in metastatic disease.
39:49Secondary, but almost as important
39:50is we wanna minimize the
39:52complications and the morbidity of
39:54having a pancreatic resection.
39:56So
39:56in the short term, you
39:57know, that generally consists of
39:59infection related complications or pancreatic
40:01fistula.
40:02But in the long term,
40:03you know, having some of
40:05the pancreas resected can lead
40:06to diabetes or exocrine insufficiency.
40:08So, you know, a big
40:09part of our pancreatic surgery
40:11program here is the multidisciplinary
40:13care from both,
40:14nutritionists
40:15and also,
40:17the endocrine team. So
40:19surgical approach and what kind
40:21of procedure we do is
40:22really dictated by what lymph
40:23nodes need to be retrieved,
40:24where is the tumor, and
40:26what's the patient's tolerance for
40:28an operation.
40:30You know, less is oftentimes
40:31more with regards to surgery,
40:33but in this case,
40:34the tumor itself generally tells
40:36us what the right operation
40:37to do.
40:39You know, enucleation
40:40is a wonderful parenchymal sparing
40:42technique.
40:43The issues with enucleation
40:45are a higher rate
40:47of pancreatic fistula and no
40:48lymph node retrieval, but it's
40:50the ideal operation for more
40:51indolent tumors.
40:53Frequently, you know, this is
40:54for insulinoma.
40:56You can see a case
40:56there that we did a
40:57few years ago. Really nicely
40:57circumscribed tumor. We don't need
40:58large margins. You know, this
40:58is a
41:00curative tumor. We don't need
41:02large margins. You know, this
41:03is a curative operation for
41:05most patients with insulinoma.
41:09For non insulinomas, essentially, where
41:11enucleation is not a good
41:13approach.
41:14Again, the tumor location is
41:15key.
41:16Tumors located in the pancreatic
41:18head oftentimes undergo Whipple procedure.
41:20Tumors located in the neck
41:22or body oftentimes undergo a
41:23distal pancreatectomy.
41:25I'm oversimplifying
41:26there. We do do a
41:27central pancreatectomy
41:29in some patients for tumors
41:30that are really directly in
41:31the neck. That's a good
41:33parenchymal sparing approach in many
41:34patients.
41:35Also, splenic preservation is a
41:37possibility if we think the
41:39chance for lymph node spread
41:40is quite low.
41:43You know, many patients and
41:45many referring providers
41:47still remember that old adage
41:48you may have heard in
41:49medical school about, you know,
41:51how awful pancreatic surgery is.
41:52You know, that is not
41:53true anymore.
41:54Pancreatic surgery is very safe,
41:56especially in large volume experience
41:58centers,
41:59and improperly
42:01selected patients.
42:02There's a very linear
42:04relationship between volume and experience
42:07with regards to surgical outcomes
42:08and quality.
42:11Some operations, that's very surgeon
42:13dependent.
42:14For a pancreatectomy,
42:15it is institution dependent
42:17because there's much more than
42:18just surgical expertise that goes
42:20into outcomes for this. Anesthesia,
42:22ICU care, interventional radiology,
42:24pathology, medical oncology colleagues,
42:27all all critical.
42:29Just to,
42:30look at at our numbers
42:31here at Yale, you know,
42:32we do almost a hundred
42:33pancreatectomies
42:34a year.
42:36Many of these are done
42:36in a minimally invasive fashion.
42:39I'm just putting up some
42:40some statistics
42:41here and how they relate
42:42to us. You know, at
42:43Yale,
42:44our mortality
42:46is much lower than the
42:47national average. Our complication rate
42:49is better than the ninetieth
42:50percentile nationally for most of
42:52the morbidity
42:53that occurs, and our length
42:54of stay is also better
42:55than the national average.
42:57So I think we do
42:58it quite well here. Just
42:59to discuss briefly, you know,
43:01for a distal pancreatectomy,
43:03again, some tumors, mainly those
43:05that are locally advanced
43:07with vascular involvement,
43:09we still perform through an
43:10open approach,
43:11but more often, it's a
43:12minimally invasive approach, either laparoscopic
43:15or robot assisted.
43:17The decision to perform a
43:18splenectomy is on a case
43:19by case basis.
43:21That being said, for most
43:22of these tumors, since we
43:24wait to perform the operation,
43:26in other words, we observe
43:27tumors that are,
43:29less worrisome and less likely
43:31to spread, many times by
43:32the time they do go
43:33to surgery for a PNET,
43:36splenectomy is indicated.
43:38And as I mentioned, central
43:39pancreatectomies
43:40are a good option for
43:41some patients if we're trying
43:42to maximize parenchymal preservation.
43:45I couldn't resist. I had
43:46to put one or two
43:47surgical photos. You know, here's
43:48a a video,
43:50of a distal pancreatectomy
43:51being done laparoscopically,
43:54somewhat sped up. We're entering
43:56the lesser sac here. The
43:57stomach's being lifted up. You
43:59can see the tumor right
44:00there with the white arrow
44:01on it,
44:02you know, kind of pointing
44:03to the tumor in the
44:04mid body.
44:06We're retracting some areas around
44:08the pancreas, moving all of
44:09the stomach, colon, retroperitoneum
44:11out of our way.
44:13We're creating that tunnel underneath
44:15to mobilize the pancreas itself.
44:17You can see here's the
44:18pink, the splenic artery being
44:20divided after it's dissected.
44:22We then do the same
44:23thing with the splenic vein.
44:25In this case, both are
44:26being divided with surgical staplers,
44:28and then we divide the
44:29pancreas itself,
44:31and remove the specimen and
44:32send it off to doctor
44:33Klimstra and his pals to,
44:35to examine.
44:38Anyways, there it's retrieved in
44:39the in the specimen bag.
44:41So with regards to splenic
44:42preservation,
44:44we here do not perform
44:48splenic preservation without preserving,
44:51both the inflow and outflow.
44:53It is possible to be
44:54done without that, but this
44:56is how we do it
44:56at Yale. The outcomes are
44:58so much better if you
44:59do it that way. You
45:00can see the anatomy there
45:01and how it looks after
45:02a minimally invasive,
45:03spleen preserving,
45:05distal pancreatectomy.
45:07So just to summarize,
45:10you know, what are the
45:11goals from a peanut standpoint?
45:12Obviously, we wanna control the
45:14disease, and we wanna have
45:15minimal,
45:16morbidity.
45:17The operations to remove the
45:19peanut is really driven by
45:20the tumor itself, and the
45:21choice of operation
45:23kind of is dictated by
45:24the location of the tumor.
45:25And the outcomes,
45:27are excellent when done in
45:28high volume centers.
45:30Switching gears to surgery for
45:32enteric or intestinal neuroendocrine tumors,
45:35You know, I'm really gonna
45:36focus on midgut tumors. Not
45:38only are they quite common,
45:40you know, stomach neuroendocrine tumors
45:41are a little bit of
45:43a
45:44topic of discussion to themselves.
45:46But as pointed out, and
45:47I'm not gonna belabor the
45:48point, the incidence is rising.
45:50You know, mid gut tumors,
45:53that are neuroendocrine
45:54differentiation are the most common
45:56small bowel tumors for at
45:57least twenty five years now,
45:58and these patients do sometimes
46:00present with abdominal pain oftentimes
46:03due to obstruction.
46:04You
46:05know, that's either from the
46:06primary tumor or a reaction
46:08to a mesenteric
46:09MET,
46:10of the neuroendocrine tumor that's
46:12causing an obstruction.
46:13There's an OR photo here.
46:14Again, just to be warned,
46:16here's an intussusception
46:17that's occurring in the small
46:18bowel,
46:20secondary to the primary neuroendocrine
46:22tumor.
46:23And you can see why
46:23that would cause a a
46:24bowel obstruction.
46:26The remainder are diagnosed incidentally.
46:28Now, again, these are very
46:29lymphotropic tumors, so oftentimes the
46:32way they're diagnosed, because the
46:33primary tumors are quite small,
46:36is a regional metastasis to
46:37the mesentery,
46:39which can grow to be
46:40quite large and be calcified
46:41and stand out on a
46:42scan even if it's a
46:43completely incidental finding.
46:45Same goals with regards to
46:47staging. Oftentimes, biopsies are not
46:49possible,
46:50but, frankly, oftentimes, they're not
46:52necessary.
46:53It is helpful if you
46:55suspect a neuroendocrine carcinoma.
46:57As mentioned by doctor Klimster,
46:59the role for surgery in
46:59those is is fairly limited.
47:02But a good high quality
47:04cross sectional imaging scan is
47:05critical to determine resectability
47:07and the degree of spread.
47:10You know, this is a
47:11scan of a patient of
47:12mine that was discovered incidentally
47:14where you can see just
47:15a small mesenteric
47:16nodule.
47:18This was performed on a
47:19CAT scan
47:20well before diagnosis,
47:22but over time, you know,
47:23looking back with retrospect, that
47:25was there, but it wasn't
47:26called. And then over time,
47:27it progressed into this large
47:28mesenteric mass with calcification.
47:32You know? And and when
47:34she got to me, this
47:34is how it looked,
47:36some years later. We were
47:37able to resect her, you
47:39know, doing very well at
47:40this point. That being said,
47:42oncologic goals, very similar in
47:44the pancreas. You know? We
47:45wanna clear the primary tumor.
47:48We have to keep in
47:48mind that a third of
47:49these cases have multifocal disease.
47:53So if a minimally invasive
47:54approach is thought to be
47:55appropriate, one thing we crucially
47:57must do as neuroendocrine
47:59surgeons
48:00is look at the entire
48:01bowel.
48:02That's possible in a minimally
48:04invasive way, you know, with
48:05some of the techniques we
48:06have now.
48:07But we always have to
48:08look for that multifocal disease,
48:09and then we have to
48:10be very mindful of removing
48:12the entire mesenteric nodal packet,
48:15not just the big calcified
48:16nodule, but all of the
48:17lymph nodes in the area
48:18because they are possible sites
48:20of of persistent disease.
48:22In particular,
48:24many of these patients that
48:25present with bowel obstructions, both
48:27primarily and recurrent,
48:29an operation can really improve
48:30their quality of life even
48:32if it's not curative.
48:34With regards to minimizing morbidity,
48:36the
48:37length of gut that remains
48:39is the critically important,
48:43step in these operations, especially
48:45in patients that have had
48:46multiple operations.
48:48You know, personally, I have
48:49been the surgeon for a
48:50patient who was their eleventh
48:51operation,
48:53after ten operations at other
48:55institutions.
48:57In those cases, you know,
48:58length of guts, ischemia become
49:01really, really important,
49:02factors in term in terms
49:04of planning the surgery.
49:05All of these patients, I
49:06think, should get a cholecystectomy
49:08because many of them will
49:09get a somatostatin analog at
49:11some point during their during
49:13the course of their care.
49:15Again, a few surgical photos
49:17just to give you a
49:18quick heads up, not to
49:19surprise you.
49:20Here's a case with multifocal
49:22tumors marked with the blue
49:24arrows on the left so
49:25you can see what I'm
49:26talking about. You know, many
49:27of these are not visible
49:28on imaging.
49:30That's getting better now, thanks
49:32to doctor Spilberg and the
49:33functional imaging they can perform.
49:35Here you can see a
49:36number of nodules in the
49:37mesentery on the right. Again,
49:39if you don't
49:40look for them, you won't
49:41find them.
49:42And so that entire mesenteric
49:44packet needs to be removed
49:45to clear this disease.
49:47You know, here's that picture
49:48again just to show you
49:49what it looks like after
49:51clearing all of those vessels.
49:54Never mind. Photo went away,
49:56so we'll just move along.
49:58I wanna touch briefly on
50:00surgery and metastatic disease.
50:03Again, the indications for that
50:05from a cancer directed standpoint.
50:08For patients with large volume
50:10disease and hormonal oversecretion, whether
50:12that's pancreatic
50:13or from an intestinal neuroendocrine
50:15tumor,
50:17debulking that disease can sometimes
50:19improve their quality of life
50:21by reducing hormone oversecretion.
50:24With regards to actual tumor
50:26control,
50:27debulking seems to have a
50:30survivorship
50:31benefit.
50:32The degree of debulking necessary
50:34and the amount of survivorship
50:36improvement
50:37is highly variable depending on
50:39the study that is read.
50:40Generally, we prefer to debulk
50:42at least eighty to ninety
50:43percent, but seventy percent is
50:45sort of considered the limit
50:47lower limit of what might
50:48be helpful.
50:50It is important to note
50:51that especially in well differentiated,
50:53grade one or grade two
50:55disease,
50:56you can operate on people
50:57from a metastatic standpoint with
50:59curative intent if you can
51:00clear all of the disease.
51:03There are also situations where
51:05palliation is very important,
51:06either for obstruction,
51:08biliary bypasses, etcetera.
51:10Lower grades will do better,
51:12but this always needs to
51:14be a decision taken with
51:15the entire team.
51:18So just deliver a section.
51:20Just to summarize,
51:21again,
51:22a theme of my entire
51:23talk is that decisions for
51:24surgery really need to happen
51:25with the entire team.
51:27Patients with resected tumors do
51:29very, very well both in
51:31pancreatic and small bowel neuroendocrine
51:33tumors. With small bowel disease,
51:35it's oftentimes better to go
51:36in a little earlier rather
51:37than a little later,
51:39because it reduces later complications.
51:42I I think future directions
51:44that we're really excited about,
51:45I think, you know, Pam
51:46alluded to this a little
51:47bit. You know, neoadjuvant approaches,
51:49there's a number of trials
51:50that are now investigating this,
51:52both cytotoxic therapies
51:54and PRRT.
51:55Really, really, really exciting, from
51:57a surgical perspective.
51:59Also, the molecular
52:00guidance that we can get
52:02from some of the new
52:02pathologic and genetic testings,
52:05and we're looking forward to
52:06when we can sometimes use
52:07these technologies in the operating
52:09room too.
52:10So I'll stop there. These
52:11are my partners as well
52:12as a number of folks
52:13that have done research in
52:14the NET area or surgical
52:16oncology area.
52:17And I'm happy to stay
52:18on for questions at the
52:20end.
52:22Thank you, John. That was
52:24great.
52:25So okay. Doctor Spilberg is
52:27gonna help us wrap up
52:28here with her talk on
52:30theranostics.
52:40One second.
52:44Is it on presentation
52:46mode? Yes. Looks great.
52:48Thanks.
52:50Good evening. Thank you so
52:51much for the kind invitation
52:53to be here tonight.
52:55Thanks everyone for,
52:58coming to watch this. I'm
53:00gonna talk about net ternostics
53:02and,
53:03this is really the work
53:04of
53:05an entire net team together,
53:09to make some of these
53:10work.
53:11With that I have no
53:12relevant
53:13disclosures.
53:14So theranostics
53:15is the contraction of two
53:17words therapy and diagnostics
53:20which use diagnostics.
53:22And why is imaging so
53:24important?
53:25We can only treat what
53:27we can see. If you
53:28just looked at this,
53:30chest c t and looked
53:32at the bone structures,
53:34If I was reading this,
53:35I would have read this
53:36as normal.
53:38However, this patient had a
53:40DOTATATE PET CT
53:42and you can see that
53:44all these black areas and
53:46these
53:47areas of increased color in
53:49the spine here are areas
53:51of metastatic
53:52disease.
53:53So without this type of
53:55technique there is no way
53:56you would really see these
53:58lesions.
54:00Sometimes
54:01MRI can,
54:03depict these but not always
54:05this is routinely done or
54:07sometimes the alterations are so
54:10diffused that even on MRI
54:12sometimes
54:13is difficult. So really images
54:15imaging drives management and that's
54:17why
54:18this is so important when
54:19we talk ternostics.
54:21And why is it challenging
54:23to image nets?
54:25Nets are a bucket. They're
54:27a very heterogeneous
54:29group.
54:29And then the imaging presentation
54:31will
54:33go along with that. So
54:34it's not a single imaging
54:36presentation.
54:37It's not a single appearance.
54:39And also sometimes the tumor
54:41sizes are very small,
54:43which are below the resolution
54:45of some modalities.
54:46And it really requires
54:48integration
54:49of multimodality
54:50imaging, meaning whoever is interpreting
54:53the study
54:54needs to understand
54:55all the imaging done previously
54:58and up to that point
54:59and make a history
55:01of all the findings together.
55:04So not always that comes
55:06together
55:07in,
55:09in a very easy way.
55:11So it really creates a
55:13challenge to bringing things all
55:14together
55:16to make these diagnosis
55:17and interpretations.
55:20Types of imaging modalities,
55:22we talk we talk generally
55:24about
55:26CT,
55:27MRI, and ultrasound
55:29as conventional or anatomic imaging,
55:32which is a type of
55:33imaging where we're looking for
55:34the morphology
55:35appear or the appearance of
55:38the organs and
55:40structures
55:41or we talk about molecular
55:43imaging,
55:44which
55:45primarily we're talking about PET
55:46CT
55:47and maybe MIBG scintigraphy,
55:51which is,
55:53less than nowadays for
55:56NETs, however, sometimes can be
55:57useful.
55:58And when we talk about
56:00molecular
56:00imaging,
56:01predominantly,
56:02we're talking about PET.
56:04PET is positive on emission
56:06tomography,
56:07and this is the
56:09PET image. It's a black
56:10and white low resolution image.
56:12And at the same time,
56:14we acquire a CT.
56:16And the PET image is
56:18overlaid over the CT and
56:20creates this color coded image
56:22here
56:23that people like looking.
56:25And I think it makes
56:26it easier to understand
56:28what these,
56:30two datasets
56:31mean together. But we're really,
56:34when we're interpreting
56:36these, we're looking at two
56:38datasets and the superposition
56:40of them to really understand
56:42what's happening.
56:43And then molecular imaging is
56:45really about
56:47look into the small details
56:51of what is happening at
56:52the molecular and cellular level.
56:54What are the processes
56:56which are happening
56:58in,
56:59a very specific location?
57:01And there are different strategies
57:04for molecular imaging.
57:07Odor,
57:08which was initially
57:10how molecular imaging was
57:14started,
57:15we did metabolic metabolism
57:18assessment
57:18with a glucose
57:20analog,
57:21FDG.
57:22And then
57:23for and then a little
57:25after,
57:26somatostatin
57:27receptor
57:28expression
57:29became also a target for
57:31imaging. And because NETs
57:33overexpress
57:34somatostatin
57:37receptors,
57:37most commonly type two,
57:40this is a good target
57:42for imaging these
57:45tumors.
57:46So when we're talking about
57:48this assessment,
57:50we have a couple of
57:52tracers or radio traces,
57:54radionuclides.
57:56These are very similar words
57:57that are
57:59almost interchangeably
58:00used.
58:02So you have a target,
58:05you have a peptide, you
58:06have a linker that links
58:08these two.
58:09And
58:11when you look here, the
58:13radionuclide
58:14can be exchanged
58:15into an imaging version or
58:17a treatment version.
58:19And that's why
58:21theranostics
58:22is so
58:24impressive because for the first
58:25time, you're really
58:27imaging the exact location where
58:29you're delivering your drug. You
58:31know
58:32the place that you image
58:35is the exact same place
58:37that you deliver
58:38your
58:39treatment.
58:40So when you're looking at
58:42assessment for more aggressive
58:44tumors,
58:46they typically lose the somatostatin
58:48receptor expression,
58:50and they become more hypermetabolic,
58:53and they're better assessed with
58:55FTG.
58:57FDG.
58:58And for example, in this
59:00case here, this is the
59:01same patient,
59:03and this is an FDG
59:05PET and this is a
59:06DOTATATE, which is a somatostatin
59:08targeted
59:09PET.
59:10And when you're looking at
59:12these,
59:13these are basically
59:14images of in vivo
59:17expression
59:18of somatostatin
59:19receptors.
59:20And this is the only
59:22way you can actually
59:24image the entire disease burden
59:27without having to biopsy every
59:29single site.
59:30The you're imaging the heterogeneity
59:33of the tumor
59:34with,
59:36inside the patient without having
59:38to ever
59:40really sample
59:41these locations. So when you're
59:43doing
59:44what we call dual PET
59:46or multiplex
59:47PET, you're really evaluating
59:50the
59:52the extension of disease and
59:54the heterogeneity
59:56of,
59:58that disease.
01:00:01So again, when you're doing
01:00:03targeted therapy, you really want
01:00:05to make sure that you're
01:00:06treating
01:00:07a target
01:00:08that it's really the drive
01:00:10of the progression. Because as
01:00:12nets are very heterogeneous,
01:00:14you really want to treat
01:00:16whatever is
01:00:19problematic
01:00:19for the patient
01:00:21and,
01:00:22what's really going to be
01:00:24the fastest growing
01:00:26side of the disease. So
01:00:28how do you evaluate the
01:00:29presence of a target without
01:00:31sample bias from biopsies? Because
01:00:33if you biopsy
01:00:35and you have a sample
01:00:36bias, how can you understand
01:00:39that you're really treating
01:00:41the problem of the patient?
01:00:42And that's why the PET
01:00:43is so important.
01:00:46So when we're treating these
01:00:48patients, once we identify
01:00:50the target,
01:00:52the same molecule, the same
01:00:54ligand, and the same linker
01:00:56are used, and we just
01:00:57change the radionuclide.
01:00:59And currently, we use a
01:01:04radioactive
01:01:05particle called lutetium one seventy
01:01:07seven, which is a beta
01:01:08emitter.
01:01:09And the beta emission causes
01:01:11single strand DNA damage.
01:01:14And when the cell tries
01:01:16to replicate, it can't, so
01:01:17it dies.
01:01:19So that's basically how this
01:01:21treatment work.
01:01:22So
01:01:23the
01:01:24approach
01:01:25of getting to these treatments
01:01:27is really multidisciplinary
01:01:29for every single patient.
01:01:31We review patients on tumor
01:01:32board every week because it's
01:01:34really about bringing all the
01:01:36information together in the same
01:01:38place
01:01:39and having everyone
01:01:41on the same page.
01:01:42Patient selection is critical because
01:01:45if you don't have the
01:01:46target as the drive of
01:01:48the progression,
01:01:49then it's pointless to treat
01:01:51a specific patient.
01:01:53And this is very important
01:01:56to understand.
01:01:57Once the drug finds the
01:01:59target, it binds to the
01:02:01cell surface
01:02:02and it's internalized.
01:02:04And then that's when the
01:02:05bad emission happens and it
01:02:07causes single strand DNA damage.
01:02:10And when we're using this
01:02:12type of therapy, we're doing
01:02:13four cycles
01:02:15approximately
01:02:16eight weeks apart and the
01:02:18dose of two hundred millicuries
01:02:20is fixed
01:02:21in general.
01:02:23And again, this has emerged
01:02:26as a new image, a
01:02:27new treatment modality
01:02:29just like chemotherapy,
01:02:31brachytherapy.
01:02:32We're really talking about this
01:02:34as a new paradigm.
01:02:37So this a patient we
01:02:38treated this was the initial
01:02:40scan
01:02:41then the patient progressed as
01:02:43you can see all these
01:02:44little dots here in the
01:02:45liver
01:02:46and here in the protonium
01:02:48these are implants
01:02:49and then this is when
01:02:51we started treating the patient
01:02:53and this is
01:02:54was at the end of
01:02:55treatment.
01:02:58Beta
01:02:58emission is not
01:03:00curative.
01:03:01We always have
01:03:04we always expect to
01:03:07hold progression.
01:03:09But there's a lot of,
01:03:11research and work being done
01:03:13into other types of particles
01:03:15or combination therapies
01:03:17to
01:03:20optimize that.
01:03:22And then this is another
01:03:24case which I think it's
01:03:25interesting. This is a patient
01:03:26who had a
01:03:28high grade mixed s inner
01:03:30cell neuroendocrine carcinoma of the
01:03:30pancreas and this is an
01:03:30fdg PET and you see
01:03:30that
01:03:31neuroendocrine carcinoma of the pancreas
01:03:33and this is an f
01:03:34d g PET and you
01:03:35see that the pancreatic lesion
01:03:37is hot and then there
01:03:39was a growing liver lesion
01:03:40on the MRI
01:03:42and a DOTATATE was obtained.
01:03:44And in the DOTATATE, you
01:03:46can see that this lesion
01:03:47is cold. There's relative photopenia,
01:03:50which means this is high
01:03:52grade. There is no point
01:03:53in treating this patient
01:03:55with,
01:03:57radioligand
01:03:57therapy as there is no
01:03:59binding
01:04:00of this in this location.
01:04:02This patient went on to
01:04:04let have a hepatectomy,
01:04:05a left hepatectomy.
01:04:07And it's really,
01:04:10about
01:04:11the
01:04:13imaging and the histology. Right?
01:04:15The high grade
01:04:17generates relative photopenia because of
01:04:20the loss of the somatostatin
01:04:22receptors. And this patient is
01:04:24really better staged with FDGPAT.
01:04:27And this patient would never
01:04:28be a good candidate for
01:04:31lutetium dota date.
01:04:33And when we're doing these
01:04:34treatments these are highly complex
01:04:37so that
01:04:38you have an idea this
01:04:39is an infusion suite
01:04:41because of the high radioactivity.
01:04:43All the floors are covered.
01:04:45The bathrooms are enclosed in
01:04:47the infusion suite
01:04:49where there's higher,
01:04:50chance of leaking and contamination.
01:04:53The floors are all
01:04:55extra covered. They are in
01:04:57the end of a day
01:04:58all essay then evaluated
01:05:00for contaminations
01:05:01and things like that.
01:05:03And this is,
01:05:04done for each single patient.
01:05:06So there's prep before
01:05:09then there's cleaning after,
01:05:11each infusion.
01:05:13So
01:05:14take home points
01:05:16for imaging.
01:05:18When we're assessing
01:05:20patients with well differentiated
01:05:22net somatostatin
01:05:23receptor
01:05:25targeted
01:05:26PET is a great
01:05:28exam.
01:05:30I did not mention
01:05:32extend too much into the
01:05:33SUVs
01:05:35but I wanted to make
01:05:36sure that this
01:05:38went out because this is
01:05:39a very
01:05:42common factor of confusion. The
01:05:44SUV max, which is a
01:05:47semi quantitative
01:05:48measurement
01:05:49that we use in PET
01:05:51when we use an FDG
01:05:52for metabolic imaging
01:05:54has a meaning,
01:05:56which is very different when
01:05:57we're looking at density of
01:05:59expression of a receptor.
01:06:01So because there are variations,
01:06:04physiological
01:06:05variations between time points,
01:06:07changes in s u v
01:06:09max for dota data or
01:06:11for somatostatin
01:06:12targeted
01:06:14receptor
01:06:14pad between time points are
01:06:16unreliable
01:06:17for any assessment of response.
01:06:21F d g is usually
01:06:23great
01:06:23for high grade nets
01:06:26and to look for heterogeneity
01:06:28and
01:06:29the imaging modalities
01:06:31are always complementary.
01:06:33The liver should always be
01:06:34evaluated
01:06:35separately, especially when you don't
01:06:37see a CT correlate
01:06:39on the pet or an
01:06:41an non contrast CT.
01:06:43You should never measure
01:06:45the amount of uptake or
01:06:47the size of the uptake
01:06:48because that's a window setting.
01:06:51So if you cannot really
01:06:53measure, you need a
01:06:55multiphasic
01:06:56study,
01:06:57either CT or MRI to
01:06:59really characterize
01:07:00these lesions.
01:07:02Otherwise, you're
01:07:03not really evaluating
01:07:05changes over time. That's really
01:07:07key
01:07:08and then for treatment you
01:07:09really need a multi disciplinary
01:07:11team as this is so
01:07:13sub specialized
01:07:15and things are so individualized
01:07:18for each patient
01:07:19and again the patient selection
01:07:21is really critical
01:07:22for identifying
01:07:24the patients who are most
01:07:26likely to have a response
01:07:28as this is an image
01:07:29guided therapy this is really
01:07:31key.
01:07:33And then things that are
01:07:35coming down the pipe is
01:07:37new types of particles with
01:07:40alpha emission or alpha plus
01:07:42beta
01:07:43combinations
01:07:44or synergistic
01:07:45approaches with immunotherapy,
01:07:47targeted the therapy,
01:07:49new targets and new binding
01:07:52mechanisms,
01:07:53antibodies,
01:07:54small molecules,
01:07:55and new imaging technology.
01:07:57The imaging technologies
01:07:59has really advanced with something
01:08:01called total body PET
01:08:03where you acquire head to
01:08:05toe
01:08:07simultaneously
01:08:08instead of having to acquire
01:08:10pieces of the patient at
01:08:12the time and that generates
01:08:14a much higher resolution,
01:08:16faster acquisition and lower radiation.
01:08:19Multiplex
01:08:20imaging when you're imaging multiple
01:08:23targets like FDG
01:08:25and,
01:08:26for metabolism
01:08:28and,
01:08:29dote and,
01:08:31somatostatin
01:08:33targeting
01:08:34for
01:08:35receptor
01:08:36and then personalized those symmetry
01:08:39who currently deliver these therapies
01:08:41as standard,
01:08:43those, but,
01:08:45there's a lot of work
01:08:46ongoing and to understanding those
01:08:48effect.
01:08:49So
01:08:51thank you very much.
01:08:54Thank you, doctor Spielberg.
01:08:56Alright. Well, I'll ask my
01:08:58my
01:09:00co presenters to put on
01:09:01their camera, and, we'll certainly
01:09:04take some questions. Maybe I'll
01:09:06I'll kick us all off.
01:09:08So,
01:09:09maybe I'll start with doctor
01:09:10Klimstra.
01:09:12So is there such thing
01:09:13as grade evolution in neuroendocrine
01:09:16tumors?
01:09:16I get patients will ask,
01:09:18can my grade change over
01:09:19time?
01:09:20I know that this has
01:09:21been sort of an evolving
01:09:22field.
01:09:24Definitely. Yeah. There definitely is.
01:09:26And and we didn't use
01:09:27to understand that partly because
01:09:29we didn't see the tumors
01:09:30at different time points.
01:09:32But but now we do.
01:09:34And at Yale, we actually
01:09:35rebiopsy these,
01:09:37when they start growing. And
01:09:39I think,
01:09:40you know, doctor Spielberg just
01:09:42mentioned the the possibility of
01:09:43even,
01:09:44acquiring FDG positivity. I think,
01:09:47you know,
01:09:48we we can we see
01:09:49some that go all the
01:09:51way from g one to
01:09:52g three, and it wouldn't
01:09:53shock me if if those
01:09:55highly proliferative tumors had,
01:09:57an FTG
01:09:58positive appearance.
01:10:00Yep. Thank you.
01:10:03Doctor Kunstman,
01:10:05question for you. So we
01:10:06have shared a number of
01:10:08patients,
01:10:09for per I'll give an
01:10:10example of a patient with
01:10:11a metastatic
01:10:12small bowel net who maybe
01:10:13still has their primary in
01:10:15place.
01:10:16When would you like to
01:10:17see those patients for consideration
01:10:19of resection of their primary?
01:10:21Like, when when is it
01:10:22too late?
01:10:24When do you think, like,
01:10:25a surgical referral is appropriate?
01:10:29Well, I don't think it's
01:10:30ever too late.
01:10:31You know, it may not
01:10:32be the right decision
01:10:34at that point in their
01:10:35care.
01:10:38But, you know, I think
01:10:39one of the things
01:10:40that I was hoping to
01:10:42convey
01:10:43is that for all of
01:10:44these patients
01:10:45from the get go, a
01:10:46multidisciplinary
01:10:48approach is really, really important.
01:10:51You know, I think
01:10:53from a surgeon's standpoint,
01:10:55obviously, we want to do
01:10:57the right operation.
01:10:58But as just alluded to
01:11:00by doctor Klimstra, you know,
01:11:02many of these patients have
01:11:03courses measured in the decades
01:11:04now.
01:11:06You know,
01:11:08each operation gets a little
01:11:09bit more challenging
01:11:10for
01:11:11variety of reasons,
01:11:13even in the minimally invasive
01:11:14era. So I think it's
01:11:15really important to have a
01:11:17surgeon involved quite early even
01:11:19in the metastatic setting.
01:11:22You know, oftentimes, you know,
01:11:24just to use your example,
01:11:25we we agree, but sometimes
01:11:27we don't. And and, you
01:11:28know, I think we value
01:11:29that diversity,
01:11:31of opinions in managing these
01:11:32patients because it it can
01:11:34be a little bit complicated,
01:11:35and it can go on
01:11:36again for many, many, many
01:11:37years.
01:11:38And you have to be
01:11:39very thoughtful about when you're
01:11:40gonna pull the trigger on
01:11:41an operation.
01:11:43I certainly prefer to see
01:11:45patients
01:11:46right away.
01:11:48You know, obviously, I can
01:11:49only speak for myself, but,
01:11:51you know, coming to see
01:11:52a surgical oncologist,
01:11:54at least at Yale, is
01:11:55not like going to the
01:11:55barber. You're not going to
01:11:57get a haircut.
01:11:58You know?
01:12:00There are many patients I
01:12:01see, and the answer is
01:12:03no. It's not right or
01:12:04no. Not yet.
01:12:05But that being said, I
01:12:06think we can't weigh in
01:12:07if we're not part of
01:12:08the conversation. So so I
01:12:09do think an early referral
01:12:11is a great idea.
01:12:12Generally, patients like that as
01:12:14well so they can hear
01:12:15maybe about what's coming down
01:12:16the pike.
01:12:18Yep. Yep. Totally agree.
01:12:20Doctor Spielberg,
01:12:21what are you most excited
01:12:23about in the treatment area
01:12:25of theranostics?
01:12:27I think that,
01:12:30dosimetry
01:12:31has not been fully
01:12:34used at its
01:12:37potential.
01:12:38I think we currently do
01:12:40standard dosing for all patients
01:12:42and I think define those
01:12:44symmetry for the audience?
01:12:46Sorry. So those symmetry, basically,
01:12:48you calculate the burden of
01:12:50disease that the patient has.
01:12:53And one of the ways
01:12:54you can do it is
01:12:55you deliver
01:12:56one cycle and then you
01:12:58image at multiple
01:13:00time points after
01:13:02you image the drug itself.
01:13:05The drug itself
01:13:06after you treat
01:13:08has gamma emission and you
01:13:10can image that.
01:13:12So it can actually
01:13:13image
01:13:14the drug at its target
01:13:17and then calculate
01:13:20how does that,
01:13:22what's the overall burden of
01:13:23the patient
01:13:25and how does that,
01:13:27leave the patient.
01:13:28And these things help us
01:13:30understand
01:13:32what is the patient's own
01:13:33kinetics because we have an
01:13:35idea from trials of what
01:13:37is
01:13:38in in general, but all
01:13:40patients are different.
01:13:42So their renal function, their
01:13:44liver function.
01:13:45And I think once we
01:13:46understand that, we can optimize
01:13:49the doses
01:13:50to
01:13:51more
01:13:53give a higher dose upfront
01:13:55or a lower dose to
01:13:56certain patients,
01:13:58which is going to be
01:13:59helpful
01:14:00into
01:14:01optimizing this therapy into,
01:14:04more,
01:14:07specific for each
01:14:09scenario.
01:14:11Yep. No. I I agree.
01:14:12I'm looking forward to that
01:14:13also in terms of tailoring
01:14:15treatments.
01:14:16I'll maybe mention something that
01:14:18I think about in terms
01:14:19of systemic treatment.
01:14:21You know, I think as
01:14:22our patients do better and
01:14:24live longer,
01:14:25we also wanna be thinking
01:14:26about side effects and thinking
01:14:28about kind of risk benefit
01:14:29ratio.
01:14:30For our patients with pancreatic
01:14:32neuroendocrine tumors, many of them
01:14:34will receive
01:14:35both an alkylating agent like
01:14:37temozolomide
01:14:38and will go on to
01:14:39receive,
01:14:41lutetium dotatate,
01:14:43both of which carry some
01:14:44risk
01:14:45for secondary myelodysplastic
01:14:47syndrome.
01:14:48I get asked this both
01:14:49by patients and by treating
01:14:51physicians of sort of how
01:14:53how real is that risk.
01:14:54I think both independently
01:14:56carry about a two to
01:14:57three percent risk.
01:14:59But,
01:15:01sequentially and cumulatively, that risk
01:15:03may actually be higher, and
01:15:04I think we really need
01:15:05better predictors of that
01:15:07of who may be at
01:15:08risk for that. I don't
01:15:09know, Gabby, if you have
01:15:10any thoughts on that.
01:15:12Yeah. No. I definitely agree.
01:15:14I think we currently don't
01:15:16have
01:15:17a great
01:15:18biomarker
01:15:19that predicts who are the
01:15:21patients at higher risk,
01:15:23and we probably should be
01:15:25starting to look to look
01:15:26at genetics
01:15:28to see
01:15:29patients who have some alteration
01:15:31or something
01:15:32that could make them
01:15:35more likely for that. And
01:15:37even though they don't have
01:15:38any symptoms or any,
01:15:41exhibit any changes yet, the
01:15:42sequential link for those specific
01:15:44patients may be more
01:15:46risky,
01:15:47and I don't think we
01:15:48have that data. I think
01:15:50that's definitely to come.
01:15:52Great.
01:15:52Well, I'll ask our audience
01:15:54to pose us questions. But
01:15:55if in the absence of
01:15:56those, I'll do one round
01:15:57of sort of a final
01:15:59forward thinking question for everybody.
01:16:01Maybe we'll go kind of
01:16:02in the same order that
01:16:03we, gave presentations.
01:16:05So,
01:16:06so doctor Klimstra,
01:16:08are you what what either
01:16:10are you hopeful for in
01:16:11the field or if there's
01:16:12an unanswered question you'd be
01:16:14really excited to look at?
01:16:16Yeah. That's a it's a
01:16:17great question.
01:16:19You know, the and we've
01:16:20talked about this privately. I
01:16:21think one of the,
01:16:23great advances that you showed
01:16:25in your talk is the,
01:16:27plethora of different therapeutic options
01:16:29that now exist,
01:16:30particularly for pancreas, but for
01:16:32for all NETs.
01:16:34And, you know, most of
01:16:35these patients will receive multiple
01:16:37different agents over the course
01:16:38of their disease.
01:16:40And it remains an open
01:16:41question how to,
01:16:44strategize
01:16:46and how to stage these,
01:16:48based on what patients are
01:16:50likely to respond to.
01:16:51Unfortunately, we really don't have
01:16:53great biomarkers
01:16:54for these agents. Even some
01:16:56of the somewhat targeted agents
01:16:58where you could intuit a
01:16:59biomarker,
01:17:00it hasn't been developed to
01:17:02the point where it's clinically
01:17:03useful. So for me,
01:17:05what would be an exciting
01:17:06problem to address is to
01:17:08identify
01:17:09therapeutic,
01:17:10biomarkers that we can test,
01:17:12in the tumor tissue by
01:17:14genetic sequencing or immunohistochemistry
01:17:16or even
01:17:18AI.
01:17:19Sounds good. Alright. Doctor Kunstman,
01:17:22on to you. Same question.
01:17:24Yeah. I mean, I'm very
01:17:26excited about the availability of
01:17:29the neoadjuvant approach for these
01:17:30tumors.
01:17:32You know, if we can
01:17:33clear these patients surgically of
01:17:35their disease to r zero,
01:17:37they do incredibly well.
01:17:40You know,
01:17:41even for particularly
01:17:44innovative surgeons, there are just
01:17:46tumors that we need cytoreduction
01:17:48to enable that to happen.
01:17:51You know,
01:17:52and and I think
01:17:54in the future, in the
01:17:55next, you know, in the
01:17:56present and in the next
01:17:57few years in particular,
01:17:59we're gonna have the opportunity
01:18:01to offer curative approaches to
01:18:03patients that in the past
01:18:04we never would have considered
01:18:05it.
01:18:07You know, I think part
01:18:09of that,
01:18:11one of the downsides is
01:18:12that means there's increasing complexity
01:18:14because there's such heterogeneity both
01:18:16in these tumors and the
01:18:17therapeutic options. It creates some
01:18:19some challenges because
01:18:21sequencing of treatments really matters,
01:18:24in these patients.
01:18:25But I think that's really
01:18:27exciting because a lot of
01:18:28patients, we sort of had
01:18:29to relegate them to chronic
01:18:30disease status.
01:18:32We might be able to
01:18:32offer a curative option with
01:18:34a combination
01:18:35of of treatments, both they're
01:18:36anoxic, surgical, medical, cytotoxic, etcetera.
01:18:41Yep. Yep. Totally agree. Alright.
01:18:43Doctor Spielberg.
01:18:46I think,
01:18:47the combination
01:18:49approaches
01:18:50either with
01:18:51different particles
01:18:53or different drugs and moving
01:18:55from a palliative,
01:18:58setting into a curative setting.
01:19:01I think when we talk
01:19:02about other types of,
01:19:05radiation particles, we may be
01:19:07able to get different effects.
01:19:11And then,
01:19:13as we move into this
01:19:14field, hopefully, we'll get into
01:19:17curative
01:19:18rather than just palliation, which
01:19:20is really the goal.
01:19:22Yep.
01:19:23Well, I wanna thank all
01:19:25of you for,
01:19:26joining me this evening for
01:19:27a really great
01:19:29great presentations and great discussion.
01:19:31I share your enthusiasm
01:19:32about the future, and I'm
01:19:34really excited about the questions
01:19:35that we can ask together.
01:19:37So,
01:19:38thank you to the audience
01:19:39for listening tonight,
01:19:41and,
01:19:42we will see you next
01:19:43time. Thanks, everybody.