Smilow Shares: NETS Awareness Day 2025

Name: Smilow Shares: NETS Awareness Day 2025
Uploaded: 2025-11-12T19:49:49.5566667Z
Duration: 1 h 26 min 37 s

November 12, 2025

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00:00Alright. Well, great. Thank you
00:01so much everybody for joining.
00:03We're really all excited to
00:04be here. So happy official
00:06NET Awareness Day. It is
00:08actually on November tenth, which
00:09is why we picked this
00:10evening.
00:11Our goals tonight are to
00:12highlight awareness and diagnosis and
00:14treatment for patients with neuroendocrine
00:16tumors.
00:18So I have an,
00:19wonderful panel of colleagues.
00:21So I, my name is
00:23Pam Coons. I'm a professor
00:25of medicine and medical oncology.
00:26I direct the center for
00:28GI cancers at Yale Cancer
00:30Center and Smilow Cancer Hospital,
00:32and I co lead the
00:33neuroendocrine tumor program.
00:35Doctor David Klimstra is a
00:36professor professor of pathology,
00:39and he will be speaking
00:40about understanding,
00:42your pathology.
00:44Doctor George Al Fakhri is
00:45a professor of radiology and
00:47biomedical engineering. He directs the
00:49pet center, and we'll talk
00:50about pet scans tonight.
00:51And doctor John Kuntzmann is
00:54an assistant professor of surgery
00:55and surgical oncology, and we'll
00:57talk about surgical approaches to
00:58NETs. And then we will
00:59finish up with a thirty
01:01minute q and a.
01:04Alright.
01:05So as of twenty twenty
01:07one, the state of Connecticut
01:10recognizes November tenth
01:12as NET Cancer Awareness Day.
01:15So thank you to governor
01:17Lamont and to a number
01:19of,
01:20NET
01:21advocacy organizations
01:22for really advocating for this,
01:24and so most states acknowledge
01:26this day.
01:28So I will talk a
01:29little bit about neuroendocrine
01:30neoplasms
01:31one zero one, and neoplasms
01:33encompasses
01:35neuroendocrine tumors and the higher
01:37grade neuroendocrine carcinomas, and I
01:39will talk briefly about some
01:40medical management tips.
01:44So I love just acknowledging
01:46some history here, and some
01:48of you may be familiar
01:49with the term carcinoid.
01:51It was coined by a
01:52German pathologist in the early
01:54nineteen hundreds
01:56to describe,
01:58neuroendocrine tumors, and it meant
01:59cancer like.
02:01Neuroendocrine neoplasms can actually start
02:03throughout the body. That's called
02:05the primary site where it
02:06starts.
02:07And
02:08neuroendocrine neoplasms are derived
02:11from neuroendocrine cells,
02:13in the gut and in
02:14other places. Most grow slower
02:16than their adenocarcinoma
02:18counterparts. Adenocarcinomas
02:20are often a more common
02:21cancer type. Think of run
02:23of the mill colon cancer,
02:24for example.
02:25And another really key characteristic
02:27that I suspect doctor Alfaquer
02:29will get into is that
02:30somatostatin
02:30receptors,
02:31or like a target,
02:33are usually present on the
02:34cell surface of neuroendocrine neoplasms.
02:38So
02:40NNs are really not that
02:42rare. They used to be
02:43considered rare.
02:44They are low in incidence,
02:46meaning the number diagnosed per
02:48year, but you can see
02:48we're nearing about ten per
02:51hundred thousand persons
02:53in the US. That's the
02:54yellow line,
02:55compared to overall cancers, which
02:58is the blue line, which
02:59has really stabilized,
03:00over the last many years.
03:02But neuroendocrine neoplasms are increasing.
03:03We're getting better at diagnosing
03:05them.
03:06But there is probably a
03:08a truth to this line
03:09indicating that perhaps their environmental
03:12environmental reasons or other causes
03:13of this increased incidence.
03:16NENS are
03:18more prevalent than previously appreciated.
03:20Prevalence is the number of
03:22patients alive at any given
03:24time,
03:24and the prevalence of neuroendocrine
03:26neoplasms
03:27is about equal or slightly
03:29higher than that of stomach
03:31and pancreas cancer combined.
03:34There are several key characteristics.
03:36I'm not gonna go into
03:37details on all of these,
03:38but I talk to when
03:39I meet with patients, I
03:41talk about these
03:42categories or ways that we
03:44describe
03:45neuroendocrine tumors,
03:46whether or not they secrete
03:47a hormone that's called functional
03:49status,
03:49where the cancer starts,
03:51that's the primary site, what's
03:53the stage, that means where
03:55in your body is the
03:56cancer,
03:57the volume of disease, is
03:58it low volume or high
04:00volume,
04:01whether or not you have
04:02a somatostatin receptor on the
04:03surface of the cell,
04:05the grade of the tumor,
04:07degree of differentiation.
04:09We're starting to look more
04:10and more at genetics,
04:12so genetics passed from parent
04:14to child and also genetics
04:15of the tumor itself.
04:17We know that sex and
04:19racial differences can occur. And
04:21then our environment in which
04:22we live can also impact
04:24both our diagnosis, but also
04:26the type of care we
04:27give. Those are called social
04:28determinants of health.
04:31So the primary side I
04:33mentioned already is where the
04:34cancer starts. The small intestine
04:36is by far the most
04:37common,
04:38followed by the lung and
04:39then the pancreas and then
04:41other.
04:42And if a cancer spreads,
04:43it retains the properties of
04:45that primary site.
04:47So, for example, if a
04:48neuroendocrine tumor spreads to the
04:50liver, it doesn't become liver
04:52cancer. It is still, for
04:53example, a pancreatic neuroendocrine tumor
04:56that spread to the liver.
04:58We used to be lumpers,
04:59but we are really now
05:00splitters, meaning
05:01that NENS of different primary
05:04sites really have different incidence
05:06rates, different biology,
05:08they respond differently to treatment,
05:10and they're often now studied
05:11in different trials.
05:15So this is a very
05:16detailed example of something that
05:18we call the AJCC
05:20or American Joint Committee on
05:21Cancer staging.
05:23And staging helps us determine,
05:26in three different categories,
05:27tumor,
05:28lymph node, and metastasis,
05:31how the cancer is involved
05:32in each of these,
05:34categories.
05:35And I'm not gonna go
05:36into the details, but I
05:37wanted to just
05:38teach you that that's how
05:40we as physicians really think
05:41about this. So t refers
05:42to the primary tumor. It
05:43involves depth of invasion,
05:45the size of the tumor,
05:47n refers to regional lymph
05:49nodes, whether they're present or
05:51absent and sometimes
05:53is defined by the number
05:54of lymph nodes.
05:55And then m refers to
05:57distant
05:58metastasis,
05:59again, whether it's present or
06:01absent, and there are some
06:02nuances.
06:03And then we combine
06:05that those t, n, and
06:06m to come up with
06:07an overall stage, which you
06:10can see kind of in
06:11this top right Cornell table
06:13two,
06:14allows us to come up
06:15with that combined stage.
06:18I'm gonna really let doctor
06:20Klimster go into the details
06:21of understanding your pathology,
06:23but suffice it to say
06:25that this has really evolved
06:26over the last thirty or
06:28forty years. We think about
06:31differentiation,
06:32which is really what the
06:33cells look like under the
06:34microscope,
06:35grade, which is how rapid
06:36they are they are dividing.
06:37And there are a number
06:38of features that help pathologists
06:41determine this, and then that
06:42in turn
06:44helps oncologists,
06:45both medical oncologists like myself
06:47and surgical oncologists,
06:49tailor the treatment based on
06:51a number of these characteristics.
06:53A key takeaway, and I
06:54would imagine that doctor Klimster
06:56will touch on this,
06:58an expert pathology review is
07:00just as important as getting
07:02an expert medical oncologist
07:03or expert,
07:05surgical oncologist or even radiologist.
07:08So really having people who
07:09are familiar with these cancers
07:11is critical.
07:13Understanding your pet. So we
07:15talked a little bit about
07:16stage and determining
07:18extent of disease. So DOTA
07:21PET scans are really one
07:22of our best tools to
07:24help determine extent and volume
07:26of disease.
07:27Again, I know doctor El
07:29Fakher will go over this,
07:30but just to give you
07:30a little bit of a
07:31teaser, you can see really
07:33big differences,
07:35in these three different DODA
07:37PET scans. This first one
07:38is localized.
07:40The middle one is metastatic
07:42with
07:43high volume large liver lesions.
07:46It's liver predominant.
07:47And then on the far
07:48right, the patient has metastatic
07:50disease, but it is lower
07:52volume,
07:53but lots of little scattered
07:55bone metastases.
07:56So pets
07:58give us incredible resolution and
08:00really, again, help us tailor
08:01treatments.
08:03Doctor Kunstman will touch on
08:05surgery.
08:06Really, one of our first
08:07steps in tailoring a treatment
08:10for a patient is asking
08:11this question, is surgery feasible?
08:14The answer is yes for
08:15several situations. If it's localized,
08:18we can often offer curative
08:20intense surgery to remove the
08:21primary tumor. If it's metastatic
08:24and patients have symptoms from
08:25their primary tumor like a
08:27blockage,
08:28we sometimes will still remove
08:29that primary tumor.
08:31And if metastatic
08:32with low grade or low
08:33tumor burden, we sometimes even
08:35can offer
08:37surgical removal of some of
08:38those metastatic sites, which we
08:40call a cytoreductive
08:41surgery.
08:43If the answer to is
08:45surgery feasible and no, that
08:47often will happen for patients
08:49who have high tumor burden
08:50or if it's high grade
08:52or just if a patient
08:53is not a good surgical
08:55candidate, and then we will
08:56think about doing systemic treatments.
08:59So systemic treatments fall into
09:02kind of the the, realm
09:04of a medical oncologist,
09:06and they fall into five
09:08main treatment categories.
09:10Somatocyan analogs,
09:11many of you have heard
09:12of these monthly hormone injections.
09:14They're not
09:16they don't have anything to
09:17do with male or female
09:18hormones, but involve
09:20hormones that are related to
09:22net tumor growth.
09:24So octreotide and lanreotide
09:27are two examples.
09:29There are targeted therapies such
09:31as everolimus
09:32and sunitinib,
09:33and we actually have a
09:34a new one called cabozantinib
09:37that was just FDA approved.
09:39These target very specific tumor
09:41growth pathways for neuroendocrine neoplasms.
09:43There's true chemotherapy,
09:46and there's a range of
09:47different chemotherapy options.
09:49There is immunotherapy
09:51generally only reserved for patients
09:53with higher grade poorly differentiated
09:56neuroendocrine
09:57carcinomas.
09:58And I'm happy to answer
09:59some questions on that in
10:00the q and a. And
10:02then one of our,
10:03newest, maybe not even that
10:05new, FDA approved in twenty
10:06eighteen, but newer category,
10:09of treatments is something called
10:11radioligand therapy. And this is
10:13really takes advantage of knowing
10:15that we have that somatostatin
10:16receptor on the cell surface
10:18from the pet, and we
10:19target a therapy
10:21to that,
10:23that receptor or that target,
10:25that is a radioisotope,
10:27in this case, lutetium one
10:28seventy seven, but we have
10:30several clinical trials looking at,
10:32a new radioisotopes.
10:35So systemic treatments, just as
10:37I was saying earlier, we
10:38are
10:39splitters now and think about
10:41pancreatic nets differently than small
10:43bowel nets. So our systemic
10:45treatments differ
10:46by primary site. So it's
10:48important for us to try
10:50our best to figure out
10:51where your tumor originates.
10:54There are still some situations
10:56that arise where we can't
10:58figure that out, and there
10:59are some treatments that actually
11:00can apply to several different
11:02primary sites.
11:03But often for starters, for
11:05a lower grade neuroendocrine neoplasm,
11:07we will use
11:08observation if it's
11:10slow growing and patients are
11:12asymptomatic
11:13or consider octreotide or lamreotide.
11:15For pancreatic NETs, we have
11:17several options, including some of
11:19those ones I mentioned.
11:20For small bowel NET, there
11:22are actually fewer options. And
11:23for pancreatic NETs, chemotherapy does
11:25not work as well for
11:26small bowel neuroendocrine tumors.
11:28And I wanna just highlight
11:30that the NCCN or the
11:32National Comprehensive Cancer Network puts
11:34out guidelines for physicians, but
11:36there's also a patient
11:38portal that is very helpful
11:40and and describes these algorithms
11:42that we rely on as
11:43doctors,
11:44and puts them into lay
11:46terms.
11:47They are specific for each
11:48primary site.
11:51Really critical to thinking about
11:53systemic treatments and really moving
11:55the needle forward
11:56is thinking about clinical trials.
11:58We have several clinical trials
12:00for neuroendocrine tumors and neuroendocrine
12:02carcinomas.
12:03At Yale at present, I
12:04wanna just mention a few.
12:06So this first one in
12:07the table is for patients
12:08who've had a pancreatic net
12:10removed.
12:11And we're asking the question,
12:13does four months of capecitabine
12:15temozolomide
12:16chemotherapy
12:17help reduce that risk of
12:18recurrence?
12:20This second row,
12:22is a new trial looking
12:24at lutetium dotatate. That's the
12:26radioligand
12:27therapy kind of earlier in
12:29the disease course. So this
12:30is a first line treatment
12:32for patients with grade one
12:33and grade two
12:35GI neuroendocrine tumors.
12:37We also have a new
12:38trial that's just opened looking
12:40at symptom control. I mentioned
12:41that,
12:43some patients with NETs, about
12:44thirty to forty percent, may
12:45secrete hormones,
12:47and there is a new
12:48oral form of octreotide
12:50called paltucitine,
12:52and we are looking at
12:53that for carcinoid syndrome.
12:56And then for neuroendocrine carcinoma,
12:58we have two trials.
13:00One is looking at the
13:01combination
13:02of chemotherapy
13:04and immunotherapy.
13:05That's atezolizumab.
13:07And then a new kind
13:09of earlier phase trial that's
13:11looking at a very exciting
13:12new target called
13:14DLL three.
13:15And this is, paluntamid,
13:17which is a new drug
13:19that's being
13:20studied both alone and with
13:22chemotherapy.
13:24So I really
13:26like talking about the advances
13:28that we've made. As you
13:29can see, all these advances
13:30are clustered on the right
13:31side since twenty eleven,
13:33and I think that these
13:34advances really
13:36make me hopeful for the
13:37future of, this field. I
13:39think they impart hope to
13:40patients.
13:41I think we're doing lots
13:43of exciting work in clinical
13:44trials, and hopefully, we'll have
13:45some new treatments available in
13:47the next couple of years.
13:50I think also
13:51as patients and caregivers, it's
13:53important to arm yourself with
13:54information. This is just an
13:56example from,
13:57LACNets
13:58and, which is a patient
14:00advocacy group, and they have
14:01something called NETVitals,
14:03which is a wonderful tool
14:05to help you learn what
14:06questions to ask your doctors.
14:09So a few parting thoughts.
14:11So primary site matters for
14:13treatment selection.
14:15Stage indicates where the cancer
14:16is located, and grade refers
14:19to biology or degree of
14:20aggressiveness.
14:22Again, we've made several incredible
14:24advances in the last ten
14:25years in terms of treatment
14:27and in terms of imaging,
14:29and clinical trials are really
14:30critical to make some progress
14:31in, in the field.
14:34And so I will stop
14:36share here.
14:37I am going to pass
14:39the baton to doctor Klimstra,
14:41who will
14:43will go next. And, actually,
14:45what I forgot, I what
14:46I do need to do
14:47is I will be playing,
14:48a video.
14:49Doctor Klimstra is on, but
14:51we have prerecorded
14:52his video.
14:54So bear with me for
14:55just a moment.
15:02Okay.
15:04Here at Yale. And I'm
15:05very happy to share
15:07I'll start that from the
15:08beginning.
15:10Good evening. I'm David Klimster.
15:11I'm a a pathologist,
15:13here at Yale. And I'm
15:15very happy to share,
15:17some information about understanding the
15:19pathology of neuroendocrine tumors.
15:22But first, a few words
15:24about pathologists.
15:26Pathologists are physicians that don't
15:28directly interact with patients,
15:31most of the time unlike,
15:34gastroenterologists
15:35or
15:36an oncologist or a surgeon.
15:38They're essentially behind the scenes,
15:41and
15:44I sort of think of
15:45them as being behind the
15:46curtain. If you remember The
15:48Wizard of Oz and the
15:50little dog opens the curtain,
15:52and, there's a a statement,
15:54pay no attention to the
15:55man behind the curtain.
15:58Well, pathologists are often behind
16:00the curtain, but I think
16:01we should pay attention to
16:02the man behind the curtain
16:03or perhaps the woman behind
16:05the curtain because pathologists have
16:07a lot, to contribute to
16:09the knowledge about, your disease.
16:13So what is pathology?
16:15If you Google it, this
16:17is the definition that pops
16:18up. Everything is AI these
16:21days, and it says pathology
16:22is the medical science that
16:23studies the causes, mechanisms, and
16:25effects of disease.
16:27It involves examining tissues, fluids,
16:29and organs to identify and
16:31understand the underlying underlying causes
16:34causes of illness.
16:36Typically, we do this using
16:38a microscope,
16:39looking at,
16:41glass slides of of tissue,
16:42but increasingly, we're using genetic
16:45sequencing and other more advanced
16:47technologies.
16:48In practical terms, what does
16:50pathology provide for the patient?
16:53Well, pathology establishes the diagnosis
16:56of a neuroendocrine tumor.
16:58It can help identify where
17:00the tumor originated if it's
17:02not, immediately,
17:04parent.
17:05We can assess the adequacy
17:07of a surgical procedure to
17:09remove a neuroendocrine tumor. We
17:11can also look at factors
17:12that predict how aggressive a
17:14particular tumor is likely to
17:16be.
17:17We study factors that predict
17:19responses to treatment. These are
17:21known as biomarkers,
17:23and we can even analyze
17:24the risk,
17:25for hereditary disease.
17:29So if we think about
17:30neuroendocrine tumors,
17:31just some general principles,
17:33and neuroendocrine cells are cells
17:35that produce various types of
17:37hormones,
17:38and they're distributed throughout most
17:40organs in the body. Essentially,
17:42everywhere, there are neuroendocrine cells,
17:45and therefore, neuroendocrine tumors can
17:47arise
17:48in these
17:49various organs throughout the body.
17:52And we call them neuroendocrine
17:54tumors or NETs.
17:55This is a relatively recent
17:58standardization
17:59of of the nomenclature.
18:02In the past, they were
18:03often called carcinoid tumors.
18:06And in the lung, even
18:08now, that term is is
18:09commonly used. So it's important
18:11to know that NET and
18:13carcinoid tumor are synonymous.
18:17Now in the spectrum of
18:19of cancers, and NETs are
18:21regarded to be cancer,
18:23malignant,
18:25neuroendocrine tumors are considered well
18:27differentiated.
18:28Now what exactly does that
18:30mean?
18:31Well, differentiation
18:32has to do with how
18:33closely a tumor resembles its
18:35normal counterpart.
18:37So for instance, if we
18:38look at a piece of
18:39pancreas and there's
18:40an organ called the islet
18:42of Langerhans
18:43composed of normal pancreatic neuroendocrine
18:46cells.
18:47And if we look at
18:48a pancreatic neuroendocrine tumor, you
18:50can see that the tumor
18:51cells look very similar
18:53to their normal counterparts.
18:55This is what's known as
18:56well differentiated.
18:59In,
19:01clinical terms, this equates to
19:03a relatively slow growing tumor,
19:06which is which is good
19:07news. It means that neuroendocrine
19:08tumors are not as aggressive
19:10as other types of malignancy.
19:13That being said,
19:15some neuroendocrine tumors are more
19:16aggressive than others and predicting,
19:19which ones are likely to
19:20be more aggressive is an
19:21important,
19:22role for pathology.
19:25It's also important to remember
19:26that the proper treatment depends
19:28on quite a number of
19:29different factors.
19:30Depends on where the neuroendocrine
19:31tumor originated,
19:33how aggressive it is. In
19:35other words, is it a
19:36relatively,
19:39slow
19:39benign behaving
19:41neuroendocrine tumor, or is it
19:42a more
19:44aggressive,
19:46malignant behaving
19:47neuroendocrine tumor?
19:49Also, how advanced it is?
19:50Is it still
19:52localized within the organ where
19:54it originated, or has it
19:55spread?
19:56And furthermore, what genetic abnormalities
19:59it has can be important
20:01to help direct treatment.
20:04Now neuroendocrine tumors have been
20:06increasing
20:07over the past decades, and,
20:09you can see this as
20:10a comparison
20:11that shows the top line
20:13for all malignant neoplasms is
20:15relatively flat,
20:16whereas the red line for
20:18neuroendocrine tumors
20:19has been increasing,
20:21year to year, which means
20:23that they're becoming much more
20:24prevalent
20:26and important for us to
20:27recognize.
20:29So how do we establish
20:31a diagnosis of an organoid
20:32tumor?
20:34First of all, there has
20:35to be some suspicion either
20:37from some symptoms the patient
20:38may be experiencing
20:39or from some,
20:41finding on an imaging study.
20:44And then typically,
20:45we try to,
20:47obtain a piece of tissue
20:48to make the diagnosis through
20:50endoscopy
20:51or through interventional
20:52radiology using a needle,
20:55or even through surgery.
20:57And all of these,
20:58procedures give rise to,
21:01a biopsy or a tissue
21:03sample, which is then sent
21:04to the pathology laboratory.
21:06We make this,
21:08tissue into glass slides that
21:10are stained so we can
21:11look at them with a
21:12microscope.
21:13And this is what we
21:14see.
21:16These these are neuroendocrine tumors
21:18viewed through microscope. So this
21:20is the histology of neuroendocrine
21:22tumors.
21:23The image on the left
21:24is from the small intestine.
21:26The one on the right
21:27is from the pancreas.
21:28And if you look at
21:29this, you can see a
21:30number of different cellular structures
21:32that we pay attention to.
21:34You can see the cells
21:36have cytoplasm, which is stained
21:38pink. They have nuclei, which
21:40are stained purple.
21:43They also have, in this
21:44case,
21:45these dark pink
21:47hormone granules, which are recognizable.
21:49And all of these features
21:51are very characteristic
21:52pathologically
21:54when we look at them
21:55in the microscope.
21:57Some of the nuclei have,
21:59this very coarse pattern,
22:02in them, which is known
22:03as salt and pepper chromatin.
22:05You can imagine if you
22:06were to combine salt and
22:07pepper together, you would have
22:08a similar appearance.
22:10And this is so typical
22:12of neuroendocrine tumors.
22:14And the other feature is
22:15the fact that they the
22:16cells tend to be arranged
22:18in nests.
22:19So all of these findings
22:20when we look through a
22:21microscope are able to suggest
22:24that we're dealing with a
22:24neuroendocrine tumor, but how do
22:26we confirm the diagnosis?
22:29Well, there's the characteristic microscopic
22:31appearance, which by itself can
22:33be very, very suggestive.
22:35But there's also techniques to
22:37demonstrate,
22:38even more specifically
22:40that the cells we're seeing
22:43are represented in our endocrine
22:44tumor.
22:45It turns out that there
22:46are very specific proteins,
22:49that are characteristic
22:51of of all or most
22:53neuroendocrine cells,
22:54and we can actually detect
22:56these proteins.
22:57How do we do this?
22:59A procedure known as immunohistochemistry.
23:03It's not actually that complicated.
23:06It it involves using antibodies,
23:08which
23:09recognize very specifically these proteins.
23:13And the antibodies
23:14are tagged with a colored
23:16product.
23:18In most cases, a brown,
23:20color that we can see
23:22through the microscope.
23:23So if we have a
23:25piece of a biopsy,
23:27we can apply these antibodies
23:29to it. And if the
23:30proteins
23:32that are characteristic of neuroendocrine
23:33cells and neuroendocrine tumors are
23:35present,
23:36they will stain brown
23:38like this.
23:39And these are two of
23:40those proteins, chromogran a and
23:42synaptophysin.
23:44And by applying this technique,
23:46we're able to verify that
23:47the tumor we see that
23:49has a microscopic appearance of
23:51a neuroendocrine tumor,
23:52in fact, has the proteins
23:54we expect
23:55to find in a neuroendocrine
23:56tumor.
23:58This is a
23:59very standard technique applied in
24:01pathology for many different,
24:03tumor types and many different
24:04applications.
24:07Another example is that we
24:08can,
24:10try to identify the site
24:11of origin
24:12of a neuroendocrine tumor if
24:14it has spread
24:15to a distant organ like
24:17the liver, and it's not
24:18clear where it's coming from.
24:20And these, this is the
24:21list I showed you before
24:22of all of the different,
24:24neuroendocrine tumors
24:26that can occur. And it
24:27turns out that we have
24:29antibodies
24:30that stain,
24:32each of these different tumor
24:33types very specifically.
24:35So for instance, we have,
24:37specific formal markers
24:39that can be used to,
24:41identify tumors from some locations,
24:44and we actually have other
24:45markers
24:46for, different, proteins that are
24:49specific to other sites. And
24:51so by using these stains,
24:52we're able to characterize,
24:55the origin of many neuroendocrine
24:57tumors.
25:00What about assessing neuroendocrine tumors
25:02after surgery?
25:03If you're having surgery for
25:05neuroendocrine tumor, the hope is
25:06that you have removed it.
25:08And one of the roles
25:09of pathology is to look
25:11at that,
25:12specimen and determine whether or
25:14not the tumor has been
25:15completely removed.
25:17This is Moll's looking at
25:19the margins or the edges
25:20of the tissue.
25:22And if the tumor has
25:23been completely removed, there should
25:24be normal tissue at the
25:26edges.
25:27On the other hand, if
25:28the tumor has been incompletely
25:30removed, it may extend
25:32to the tissue edge. And
25:34by seeing that, we can
25:35recognize that the resection
25:37of the tumor has not
25:38been complete.
25:40Another thing that we do
25:42with,
25:43surgical specimen is look at
25:46evidence of spread.
25:48Has the neuroendocrine tumor spread
25:50from its primary site to,
25:52distant sites or lymph nodes?
25:55And typically, lymph nodes are
25:56removed
25:57at the time of surgery
25:58and sometimes also biopsies of
26:00distant sites will be
26:02provided for us to assess
26:05the extent of disease.
26:08So how do we predict
26:09the aggressiveness of neuroendocrine tumors?
26:12Well, the first is what
26:13I just said. We look
26:14at the stage. In other
26:15words, the extent of tumor.
26:17How big is it? How
26:18deeply invasive is it as
26:20it spread to lymph nodes
26:21or distant sites? And each
26:23of these different parameters
26:25correlates with increasing aggressiveness as
26:27it moves from the local
26:29organ into other,
26:31distant sites.
26:33But another very important parameter
26:35is to establish the grade.
26:37And what the grade refers
26:39to is the inherent aggressiveness
26:41of the tumor.
26:42Is this a bland
26:44mild tumor, or is this
26:45a real bully?
26:47And we have a way
26:48of measuring that.
26:50And it's actually based on
26:52the growth rate of the
26:53tumor, which makes sense. The
26:54faster it's growing, the more
26:56aggressive it is.
26:58So how do we measure
26:59the growth rate?
27:01Well, for a tumor to
27:02grow, the cells must divide.
27:04They go through the process
27:05of mitosis where one cell
27:08replicates
27:09its DNA and then splits
27:10into two cells.
27:12And this process of mitosis
27:14is visible microscopically.
27:16So So if you look
27:17at cells, you can see
27:19the,
27:20condensation of the chromatin,
27:22in the or the chromosomes,
27:24I should say, in the
27:25middle of the cell. And
27:26this these mitotic figures as
27:29they're known can be found
27:30within,
27:32neuroendocrine tumor samples.
27:34And so by looking at
27:35the histology of the neuroendocrine
27:37tumor with a microscope,
27:38we can find these mitotic
27:40figures and we can quantify
27:41them. And they're typically expressed
27:43as the number of mitoses
27:46in a certain,
27:47area of the tumor. Two
27:49square millimeters is typical.
27:52Another technique we can use
27:54to assess the growth rate
27:56or the cell divisions
27:58is again by immunohistochemistry.
28:01And there's a protein called
28:03k I sixty seven or
28:04k sixty seven,
28:06which is expressed in cells
28:08that are,
28:09that are growing and and
28:11and and,
28:12reproducing their DNA.
28:15And it results in brown
28:16staining of the nuclei.
28:18And the more brown staining
28:19you have,
28:21the more rapidly growing the
28:22tumor is.
28:23We express this as the
28:25p sixty seven index
28:27or the percentage of tumor
28:29cells that show brown staining.
28:32And it turns out that
28:34the World Health Organization has
28:35established a grading system for
28:37neuroendocrine tumors
28:39that is based on both
28:41the mitotic rate that I
28:42mentioned
28:43and the p sixty seven
28:44index.
28:45And you can see that
28:46as the, rates of proliferation,
28:50growth of the cells go
28:51up, the grade goes up
28:52correspondingly.
28:56Here's a a comparison of
28:57the key sixty seven staining
29:00for a low grade or
29:01g one
29:02net,
29:03an intermediate grade or g
29:04two net,
29:05and a high grade or
29:06grade three g three net.
29:08And you can see the
29:09dramatic change in the number
29:11of the nuclei that are
29:13staining brown. And this is
29:14a very commonly used technique
29:16to establish the grade of
29:18neuroendocrine tumors.
29:21It turns out that the
29:22grade correlates very well with
29:24clinical outcome. So if we
29:25look at,
29:27for instance, this study of
29:28patients who have metastatic neuroendocrine
29:31tumors, those that have spread
29:32to distant organs,
29:34the ones that are low
29:35grade still have a very
29:36good survival. The top line
29:38shows that,
29:40nearly ninety percent of those
29:41patients are still alive after
29:43five years.
29:44But as you get into
29:45intermediate grade, the green line,
29:47or high grade, the orange,
29:50line, you can see that
29:51that survival declines
29:54from fifty percent to very
29:55low,
29:56over the course of of
29:58five years. And so grading,
30:00it turns out, is a
30:01very essential,
30:03pathologic
30:04parameter that we have to
30:06assess.
30:09I mentioned before that we're
30:10also doing genetic sequencing of
30:12neuroendocrine tumors, and this is,
30:15again, a a fundamental
30:16aspect of the pathology.
30:18How is this useful?
30:21Well, it can help verify
30:23the diagnosis. There are certain
30:24mutations that are highly characteristic
30:27of neuroendocrine tumors. And so
30:28if we find those mutations
30:30by sequencing the tumor's
30:32DNA,
30:33it can help support the
30:34diagnosis of neuroendocrine tumor.
30:37It can also predict the
30:38outcome.
30:40Some of these mutations are
30:41associated with the prognosis, and
30:43so finding a certain mutation
30:45may
30:46tell you that this tumor
30:47is likely to be more
30:48aggressive than
30:50another neuroendocrine tumor.
30:53Probably the most exciting
30:55feature of,
30:57sequencing the the tumor DNA
30:58is to identify mutations
31:01that we have drugs for.
31:03So some of the,
31:05treatments you may be offered
31:06for neuroendocrine tumors,
31:09acts by targeting specific
31:12mutations.
31:12And we can find those
31:14mutations that will predict that
31:16that drug will work in
31:17that given tumor. And this
31:18is what's known as precision
31:20medicine, a very exciting,
31:22current way of managing patients.
31:26And finally, if we look
31:27at not the tumor DNA,
31:29but the normal germline DNA,
31:32we can identify
31:34if there's a risk of
31:35hereditary disease.
31:37And this is very important
31:38because if the answer is
31:40arising because of a hereditary
31:42mutation, it means other members
31:43of the family are also
31:45at risk.
31:46And just for example,
31:49in pancreatic neuroendocrine tumors, there's
31:51a whole list of hereditary
31:53associations.
31:54These are,
31:55inherited diseases
31:56that give rise to neuroendocrine
31:58tumors.
31:59And by sequencing the the,
32:02germline DNA, the normal DNA,
32:04we're able to recognize these
32:06to help,
32:07identify patients with a family
32:09risk.
32:10Up to sixteen percent of
32:12patients with pancreatic neuroendocrine tumors
32:14have a hereditary cancer predisposition
32:17mutation, and so this is
32:18very important.
32:22So just to summarize,
32:24pathologists
32:25provide some of the most
32:26vital information to establish the
32:28diagnosis,
32:29predict the clinical
32:30behavior, and predict response to
32:33specific treatments.
32:35But it's important to remember
32:36that pathology is an interpretive
32:38discipline.
32:40Some aspects
32:41are subjective,
32:43and this is the interpretation
32:44of an individual pathologist.
32:47So this little cartoon, which
32:48I've shamelessly stolen off the
32:50Internet says, good. You've got
32:53the pathology report.
32:55What did the lab say?
32:57And the response is
32:59as though it was a
33:00dog wolf
33:01because the lab isn't saying
33:03anything. It's the pathologist who
33:05wrote the report
33:06that is conveying the information.
33:08And so you have to
33:09understand that just as any
33:11other physician gives an opinion,
33:13the pathologist is giving an
33:14opinion on the pathology.
33:16Now many aspects of it
33:18are
33:19quite black and white, and
33:20you should be able to
33:21obtain,
33:23the definitive diagnosis, the results
33:26of any immunohistochemistry,
33:28the site of origin of
33:29the cancer, the stage,
33:31the grade of the cancer,
33:33and the results of any
33:35genomics or biomarker studies. All
33:36of these
33:37should be conveyed within a
33:39pathology report, and you should
33:40look for this information
33:41if you see a pathology
33:43report on
33:44a neuroendocrine tumor or really
33:46any kind of of of
33:48cancer.
33:49And if there are any
33:50doubts about the pathology, the
33:52physician,
33:53treating you is is a
33:55little uncertain or you have
33:56concerns,
33:57it's always possible to get
33:58a second opinion. Pathology cases
34:00can be sent
34:01to experts in their endocrine
34:03tumor pathology,
34:05to ensure that everything is
34:06is done correctly.
34:08So with that, I hope
34:09you've learned a little bit
34:11about,
34:12what pathologists do in the
34:13care of patients with neuroendocrine
34:15tumors,
34:16and, I'll be happy to
34:17participate in the discussion in
34:19a little while.
34:20Thanks so much for listening.
34:28Wonderful. So doctor Klimster will
34:29be available for for the
34:31q and a.
34:32I'll just remind everybody that
34:34the q and a will
34:35be done through the q
34:36and a webinar tool. You're
34:37welcome to start putting things
34:39in if you had questions
34:40either from my presentation or
34:42doctor Klimstra's, and we can
34:43start answering some of those,
34:45but also can take those
34:46questions live. So doctor El
34:48Fakhri, I will pass to
34:49you.
34:55Thank you,
34:56doctor Kunz.
34:58Hello, everyone.
35:00It's a pleasure to join
35:01you here. I joined Yale
35:03only two years ago,
35:04and I lead there the
35:06Yale Biomedical Aging Institute and
35:07the Yale Pet Center.
35:09And, what we're gonna talk
35:11about is understanding your pet.
35:14And your pet in this
35:15case, I'm sure you all
35:16know by now that's positron
35:18emission tomography. That's not,
35:20your pet at home.
35:22So how does,
35:25positron emission tomography work?
35:27If you've had a pet
35:28or if you googled one,
35:30you'll see that, usually, we
35:31will inject you with a
35:33radio tracer,
35:35and that radio tracer goes
35:36everywhere in your body.
35:38And then it's gonna be
35:40a radioactive material that is
35:41gonna be emitting,
35:43some, positrons. These positrons will
35:46annihilate,
35:47and,
35:48we will have photons detected.
35:50So you have something like
35:51this where you have some
35:53relations inside the body, two
35:55photons detected,
35:56and that tells us where
35:57that happened.
35:59Then we will have literally
36:01millions of these that we
36:03will be
36:04mapping back to where,
36:06they were originated from.
36:09And that will give us
36:10a map of,
36:11what,
36:12the PET scan looks like.
36:14And these are the kind
36:16of typical PET scans you
36:17would see,
36:18with,
36:19if you're coming for the
36:21suspicion of a neuroendocrine tumor.
36:23We're gonna talk a little
36:24bit later about what DOTATATE
36:26PET is. But, just to
36:27give you a sense, we'll
36:29see things that are very
36:31abnormal. Here, this is disease
36:33or tumors.
36:34There are also a lot
36:35of normal things we'll see,
36:36like the kidneys or the
36:37bladder or physiological,
36:40GI,
36:41or GU, you know, intestinal,
36:44uptake gastrointestinal uptake.
36:46We'll see also the pituitary
36:47gland. It tends to light
36:49up on data tape. So
36:51what our job is, is
36:52to when we're doing the
36:54imaging is to parse out
36:55what is normal uptake and
36:57what is abnormal because the
36:58abnormal is what we are,
37:00looking for, what we're interested
37:02in.
37:03Not that the normal is
37:04not important, but what we're
37:05looking for is the abnormal.
37:07So,
37:09how does that work?
37:11Doctor Kunz mentioned this earlier.
37:13What we are looking at
37:14here
37:15is,
37:17something that is very specific
37:19in neuroendocrine
37:21tumors,
37:22which is that they express,
37:25especially, you know, as we
37:27go for high grade tumors,
37:29they will express,
37:31levels of a receptor called
37:33the somatostatin
37:34receptor.
37:35For those who like, were
37:36buffs of biochemistry,
37:38that's what the somatostatin
37:40receptor looks like.
37:42And this is very tempting
37:44for us in pet because
37:45if we know what a
37:46structure is,
37:47we could make up
37:49something like a GPS that
37:51will hone on that somatostatin
37:53receptor,
37:54and that will be emitting
37:56back to the scanner
37:57where it is. And that's
37:59exactly what we do in
38:00a PET scan,
38:01of
38:02a neuroendocrine
38:03tumor. We have injected a
38:05compound that is binding to
38:06the somatostatin receptor.
38:08That compound is, and the
38:10binding, I'm not gonna bore
38:11you in the details, but
38:13usually, we do some chelation
38:14some form of chelation where,
38:16we have an emitter that's
38:18usually,
38:20either a spec emitter like
38:22NDM or a gallium for
38:24PET or
38:25later, we're gonna see a
38:26little later what we're gonna
38:27do with this when we
38:28do treatment with Leticia because
38:29we're gonna treat with the
38:30same thing. But for now,
38:31let's concentrate on the,
38:34imaging side.
38:35That
38:36that molecule now is bound
38:38to that tumor, and it's
38:40telling us, here's where I
38:41am.
38:43And,
38:44that is very helpful because
38:45that will tell us something
38:46that is very specific
38:48about neuroacrine
38:50tumors
38:50that is not something that
38:52will be shared with other
38:54uptake or tumors. So for
38:56example,
38:57you may have had in
38:58the past another form of
38:59PET scans called FDG, fluoridoxyglucose.
39:02That's by far the most
39:04widespread that we will do.
39:05Ninety five percent of all
39:07scans we do are FGG
39:08scans. Well, that doesn't work
39:10very well in neuroendocrine tumors.
39:12I'm showing you here an
39:13example
39:15where,
39:16on the FDG PET,
39:18there is no there's nothing
39:19abnormal here. Whereas you can
39:21see, you don't need to
39:22be really a radiologist to
39:24know that this is abnormal.
39:25There's clearly an abnormal uptake
39:27here,
39:27that is related to the
39:28somnostatin
39:29receptor. So that,
39:32that side of the imaging,
39:34looking at the
39:37so to stand receptor is
39:38incredibly important
39:39because
39:41it's gonna tell us what
39:42is the tumor avid? If
39:44it the tumor is avid,
39:45that's a good thing. Because
39:46when we're gonna hit it
39:47later with a beta emitter
39:49for therapy, well, we'll be
39:50able to do some damage,
39:51which is what we wanna
39:52do.
39:54There have been several trials,
39:57many led by, doctor Kunz
39:59who's here. The netter one
40:00trial was the one that
40:01led to the approval
40:03of lutetium dotatate. We're gonna
40:04talk a lot more about
40:06this in the next slide.
40:08The netter two trial
40:09expanded the use from a
40:11second line
40:12of therapy that was in
40:13netter one to a first
40:15line of treatment for the
40:16high grade disease.
40:17And the netter three trial,
40:19which is kind of about
40:20to start, and doctor Kunz
40:21is one of the, two
40:23chairs of that,
40:25trial. She's leading that trial.
40:27Is for low and now
40:28we're moving to low grade
40:29disease.
40:31And,
40:33so you see we're going
40:34further and further upstream
40:36from the
40:37second line,
40:40high grade, first top line,
40:42high grade, and now lower
40:44grade.
40:45So what are we doing
40:46there?
40:47Until now, we talked about
40:49the
40:50pet side of things where
40:51we image the patient.
40:53But the same way here,
40:55we chelated,
40:59a gallium or an indium
41:00to image.
41:01Instead of that, we could
41:02chelate a lutetium.
41:05And now we get ourselves
41:06a beta emitter that can
41:08do some serious damage,
41:10whatever it's gonna be. And
41:12if this molecule were to
41:13go only through the somatostatin
41:15receptors
41:17and nowhere else, you know
41:18that's not true because I've
41:19showed you that some goes
41:20to the bladder and we're
41:21gonna come back to that
41:22and some goes to the
41:23kidney. So we have to
41:24be careful with the organs,
41:25normal organs, which we call
41:26at risk. But if we
41:28have a lot of that
41:29going to the disease, like
41:30here,
41:31and if we're gonna inflict
41:32some serious damage with lutetium
41:34one seventy seven,
41:35we got ourselves a treatment.
41:37And not only we got
41:38ourselves a treatment, but we
41:39got ourselves a treatment where
41:41we can see what we
41:42treat
41:43and we treat what we
41:45see, which is something that
41:46is incredibly important. That's a
41:48that's a first that has
41:49been only so a few
41:50years that we have. The
41:52only treatment we had in
41:53that space was iodine, and
41:55that was since the forties
41:56for,
41:57thyroid cancer. We haven't had
41:59anything since iodine.
42:01So,
42:02and cell hurts.
42:03So now we are we
42:05have two of these, one
42:06for prostate and one for
42:08neuroendocrine tumor. And unlike chemotherapies
42:11where you
42:12basically treat blind, you're bombing
42:14everything.
42:15Here, we see where we're
42:16going. We see where our
42:18agents are killing tumors,
42:19and we can image them
42:20afterwards to see if there's
42:22still a lot of the
42:23tumor or not so much
42:25that is left.
42:26So theranostics
42:27is this combination where we're
42:29gonna do,
42:30at the same time diagnosis
42:32with PET, respect,
42:34and then therapy with a
42:35beta emitter or later we'll
42:37see with an alpha.
42:39And, you know, while the
42:41antibody drug conjugate deliver chemotoxins,
42:44here we're gonna be delivering
42:46ionization energy to tumor cells
42:48to break the DNA and
42:49just kill them off.
42:50And then we reduce with
42:52that the off target radiation
42:53effect
42:54because,
42:55we're killing where the tumor
42:57or where the molecule went,
42:59and we're not killing anywhere
43:00else. So the toxicity is
43:02gonna be a lot less
43:03than
43:04if we're not selective.
43:06Since the first radiopharmaceutical
43:08drug has been approved,
43:10there's now FDA approval, as
43:12doctor Kunz mentioned, for these.
43:14And the radiopharmaceutical
43:15are gaining recognition as a
43:17viable target. So, you know,
43:19this is something that we
43:20are very excited about.
43:23Alright.
43:23Now all this is good
43:25and great.
43:26We could stop here.
43:28Unfortunately
43:30well, or fortunately,
43:31each patient is unique.
43:34Each cycle in the treatment
43:35is unique, and each lesion
43:37is unique.
43:39What I mean by that
43:40is every patient will have
43:41a unique tumor burden and
43:43distribution,
43:45and that is gonna be
43:46also changing
43:48at every cycle.
43:49Think of it this way.
43:51If this didn't change from
43:52cycle to cycle,
43:54it means the therapy isn't
43:55working. It's not doing anything.
43:57So it is a good
43:57thing that it's changing, but
43:59it's something that we should
44:00be taking into account. The
44:02paper that I'm showing here
44:03on the slide shows you
44:04the what we call the
44:05sink effects, which exacerbates,
44:08this during the treatment.
44:09What this means the sink
44:11effect means is that
44:12the more the tumor is
44:14gonna take up
44:16the,
44:17the treatment,
44:18and the less of that
44:20molecule will be available
44:22to circulate for the normal
44:24tissues, which is a good
44:26thing for us.
44:27And
44:28it shows you here that
44:29in the scatterplot
44:31that
44:32the the tissue uptake or
44:33SUV,
44:34right, decreases
44:36as a function
44:37of,
44:38the total,
44:39lesion burden or total lesion
44:41uptake. So the more the
44:43lesions take up the the
44:45the tracer, which is either
44:46the treatment or the imaging,
44:48and the less of the
44:49uptake is in the liver
44:51or in the parotid gland.
44:53And remember, I showed you
44:54some of those kidney and
44:55spleen, which are the organs
44:56at risk that we wanna
44:57preserve.
44:59So this reinforces
45:00the idea that
45:02instead of giving everybody the
45:04same dose, which is what
45:05we do now,
45:06we could give maybe higher
45:08doses to start because they
45:09could be tolerated in the
45:11beginning when the tumor burden
45:13is largest, and then there's
45:14the most, sync effect. And
45:16then as we go,
45:18down the the treatment path,
45:20well, we reduce that dose.
45:21So this is one way
45:23we can individualize
45:25our treatment to lesions.
45:28We can
45:29personalize in the treatment also.
45:31Leasing personalization matters. So not
45:33only patient personalization
45:34matter, but the lesion personalization
45:36matter. You see here that
45:38the PET uptake, what we
45:39call the study
45:40uptake value SUV, the PET
45:42uptake
45:43is significantly correlated
45:45with the SPECT uptake that
45:46we can see during the
45:47treatment.
45:48But there's a lot of
45:49variance,
45:50alright,
45:51which is what we just
45:52said. You know, every tumor
45:54is unique. Every patient is
45:55unique. Every cycle is unique.
45:57But you can see intuitively,
45:59you could understand here
46:01that the tumor control appear
46:02to be a function of
46:03the absorb dose. Why? Because
46:05the more you absorb dose
46:07and the more you're likely
46:08to kill the tumor.
46:09So we do wanna have
46:11an absorb dose that is
46:12maximized because that would give
46:13us the best tumor control.
46:15You can see also here
46:16that for the higher observed
46:18dose, there was higher,
46:20better outcome than for lower
46:21observed dose.
46:22So how do we
46:24quantify this? How do we
46:26maximize this? Well, this makes
46:28the point that we should
46:29aim to tailor the treatment
46:31to maximize those for all
46:33tumors, not just the average
46:35tumor, not not one of
46:36the average tumors, but for
46:37each tumor alone.
46:38And the only way you
46:39can do this is by
46:40imaging. Because remember, when we
46:41do imaging, we see all
46:42those tumors one by one,
46:44and we see what is
46:46the uptake in each of
46:47them. So the higher the
46:48tumors,
46:49the more likely we can
46:50give a higher dose to
46:52start.
46:54And and, you know, it's
46:55worth noting also again that
46:57these numbers are on the
46:58low side, meaning that, you
47:00know, there is room to
47:01increase within reason our treatments.
47:04So how can we do
47:05this?
47:06This is something that we
47:07are actively working on with
47:08doctor Coons to try to
47:10personalize,
47:11the treatment planning for the
47:12pharmaceutical
47:13neuroendocrine therapies,
47:15and neon radiology and radiation
47:17oncology and the cancer center
47:18are collaboratively working on this.
47:20The idea is the following.
47:22If I do my,
47:24pretreatment
47:25of gallium dota tape, I
47:27have a good idea of
47:28what the my tumors where
47:30my tumors are. I can
47:31define the targets.
47:33I can define the sensitive
47:35organs,
47:36and I can
47:37try to then extrapolate from
47:39this imaging
47:40what would the dose be
47:41for each of those. And
47:43I could put
47:44bars and thresholds on. I'm
47:47not gonna allow more than
47:48a certain dose to the
47:49bladder.
47:50I'm not gonna allow more
47:51than a certain dose to
47:52the marrow, to the liver,
47:53to the pituitary gland. And
47:55with that, what is the
47:56maximum dose that I can
47:57do then for my for
47:59my tumor?
48:00And then I can try
48:01to hit the tumor with
48:02a lot more,
48:03than a standard dose of
48:04two hundred millicurie per cycle
48:06for six cycles.
48:07So in a way, we
48:08are
48:09tuning the dose to maximize
48:12tumor killing
48:13while minimizing
48:14the side effects to the
48:16organs at risk.
48:18Great.
48:19I could do this at
48:20every cycle, but you can
48:22imagine that and you are
48:24probably
48:25the best you can imagine
48:26this, that this is gonna
48:27take a lot of effort
48:29on our part but also
48:30on your part. Because now
48:32we're talking about you're getting
48:34not only a pet scan,
48:36but also getting
48:37a SPECT scan
48:39at four hours,
48:40twenty four hours,
48:42forty eight hours,
48:43seventy two hours to see,
48:45well, how is the activity
48:46changing in your body? What
48:47is the dose that you're
48:48getting for the tumor?
48:50What is the dose that
48:51you're getting for,
48:53the lesions?
48:54For the, sorry, for the
48:55healthy tissues, the organs that
48:57risk.
48:58But this is a a
48:59good start because the pre
49:01therapy
49:01is giving us a highly
49:03predictive,
49:05indicator of the patient response,
49:07and this is now a
49:08standard that we use for,
49:10patient selection to decide who
49:12qualifies and who doesn't. And
49:14I'm showing you here a
49:15patient.
49:16This is where hope there's
49:18a lot of hope where,
49:21you see, this is the
49:22patient scan after one cycle,
49:24after four cycles, and you
49:26can see that the activity
49:27is decreasing.
49:28And this is one where
49:30we started with one milligram,
49:32where we escalated and then
49:34went down again. So there's
49:36there's hope. There's also a
49:38lot of work we're doing,
49:40in my lab to try
49:42to
49:43avoid some of what
49:45you would have to go
49:46through to have every single,
49:48dose,
49:49measured every so have, you
49:51know, multiple scan. And the
49:52idea here is using artificial
49:55intelligence and new networks to,
49:58from our
49:59pretreatment,
50:00and
50:02what are two,
50:03treatments predict the next treatment.
50:05So instead of having one
50:07size fits all, we use
50:09a wealth of data from
50:10the redose pet
50:12and plenty of scans of
50:13plenty of patients that we've
50:15scanned before you to say,
50:17well, you know, your scan
50:19fits your pet scan fits
50:20best as
50:21this person, like a digital
50:23twin of yourself.
50:25And this is how
50:26these guys all these girls
50:28did,
50:29when we treated them with
50:30this dose. And that gives
50:31us a good indication
50:33as a predictive dose distribution
50:35of what we should be
50:36doing.
50:37And then, of course, we
50:38do cross training validation of
50:39these. So here's an example,
50:41and I'll I'll finish with
50:42this. This is an example
50:43of one where
50:45we did the first dose.
50:48And from the first dose,
50:49we
50:50predicted what the second dose
50:51is, and then we compare
50:53it to what we measured
50:54in the second dose. So
50:55we did the first dose,
50:57and we measured it. We
50:59did the cycle two. Again,
51:01second cycle of treatment, we
51:02measured the dose. But then
51:04we used only the first
51:05dose in our artificial networks
51:07to predict what the second
51:09dose would be. And the
51:10error you see is mostly
51:12in the bladder, which is
51:13the least of our worries.
51:15So our prediction for the
51:16tumors was very good. So
51:17we really hope that this
51:19prediction from one cycle of
51:21the next cycle would be
51:22would be a huge step
51:24to personalize the treatment without
51:26increasing too much the burden
51:28on the patient,
51:30and and
51:31and and making it more
51:32of a personalized treatment for
51:34every patient.
51:35This is all I have.
51:36So thank you for tuning
51:38in, and I'll turn it
51:38back to you, Pam.
51:41Great. Thanks, doctor Alfaqueray. So
51:43we will finish up,
51:44with doctor Kunstmann talking about
51:46surgery.
51:47So, hopefully, our audience can
51:49start thinking about questions and
51:51start putting them in the
51:52q and a. So, John,
51:53we'll turn to you.
51:57Everybody hear me?
51:59Yes. Great.
52:01Okay.
52:05Let's see here.
52:10Alright.
52:12Everybody can see my slides,
52:13I hope.
52:18Alright. So hi. I'm John
52:19Kunstler. I'm a surgical oncologist,
52:22at Yale.
52:23Happy to be chatting tonight
52:24about neuroendocrine tumors, one of
52:25my favorite surgical topics.
52:28So for my portion of
52:30the discussion,
52:31really three,
52:32objectives that we wanna get
52:34across is what are the
52:35indications for surgery? I'm gonna
52:37try to not be too
52:39duplicative with, doctor Coons.
52:41But I did wanna spend
52:42a moment talking about other
52:44times when neuroendocrine tumors
52:46can actually forego surgery even
52:47though they might be operative,
52:49you know, candidates.
52:50What are the options for
52:51surgery?
52:52And we're gonna really focus
52:54on two paradigms, One being
52:55pancreatic neuroendocrine tumors and the
52:57other being enteric or intestinal
52:58neuroendocrine tumors, the two
53:00most commonly encountered in our
53:02practice,
53:03and then also learn what
53:04role surgery can play in
53:05the setting of metastatic disease.
53:08So just to remind you,
53:10for pancreatic neuroendocrine tumors, I
53:12know this is touched on
53:12before,
53:13you know, the broad classifications,
53:16that are relevant for surgery
53:18are those
53:19pancreatic neuroendocrine tumors that secrete
53:21hormones or functional tumors.
53:24Yeah. Some of those are
53:25more aggressive, others are are
53:27more indolent.
53:28But most cases that we
53:29diagnose today are nonfunctional. In
53:31other words, they're not secreting
53:33any hormones
53:34that we can detect.
53:37And most cases in such
53:39diagnoses are incidental, although some
53:41patients can have
53:42discomfort, weight loss, pancreatitis
53:44associated
53:46with their,
53:47with their lesion.
53:50Treatment of pancreatic neuroendocrine tumors
53:53is very stage specific. So
53:55the first question as alluded
53:57to by doctor Coons when
53:59we make a new diagnosis
54:00is whether or not this
54:02tumor is localized to the
54:04pancreas,
54:06or has it spread to
54:07other organs.
54:08As we'll talk about a
54:09little later, even in stage
54:11four disease surgery,
54:12potentially with curative intent is
54:14still appropriate in some cases.
54:16But we'll come back to
54:17that. But for localized PNET,
54:19in other words,
54:21a case where the tumor
54:22is localized only to the
54:23pancreas,
54:24surgery is the primary treatment
54:25modality.
54:26We almost always will resect
54:29functional PNETs.
54:30Again, those are those hormone
54:32secreting peanuts,
54:34and certainly any any nonfunctional
54:36peanuts that are symptomatic.
54:39Some cases can involve some
54:41other critical structures, so we
54:42call locally advanced tumors.
54:45These have previously been called
54:47unresectable. Sometimes they truly are
54:49unresectable, but we've been able
54:51to devise ways to to
54:52offer surgery to many of
54:53these patients.
54:55And also, you know, another
54:56special case is those that
54:57are associated with genetic syndromes,
55:00as alluded to, by doctor
55:02Klimstra, but we're not gonna
55:04necessarily touch on those tonight.
55:06For people,
55:07that have their peanut diagnosed
55:10incidentally,
55:11which again is the majority
55:12of patients these days,
55:14we try to make a
55:15determination about whether it's, you
55:17know, the more or or
55:18less aggressive
55:21behavior based on some of
55:22those factors here, some some
55:24other ones as well. You
55:25can really see why that
55:26pathologic assessment is so important
55:28in these,
55:30in making these treatment decisions.
55:32I think, you know, boiling
55:33it down though, the thing
55:34I always try
55:35to describe to patients is
55:36that all peanuts,
55:38are cancers, and they have
55:39the potential to grow and
55:41spread. It just so happens
55:42that the likelihood of spread
55:44is extraordinarily
55:45low in a certain subset
55:47of pancreatic neuroendocrine tumors, which
55:49has given rise to this,
55:51paradigm for observation that we've
55:53seen. And this has really
55:54come, about I'm gonna go
55:56through this kinda quickly, but
55:57this has really come about
55:58in the last ten to
55:59fifteen years with a number
56:00of case series, and there's
56:01some newer studies as well
56:03that shows that patients, you
56:05know, that undergo observation,
56:07if they're carefully selected, they
56:09actually have,
56:11you know, oftentimes
56:12no change in their overall
56:14outcome as to patients that
56:15go straight to surgery.
56:17So this has really become
56:18kind of the new,
56:20mindset for patients with small
56:22asymptomatic
56:23non functional
56:24incidentally discovered,
56:25pancreatic NETs.
56:27So the question about are
56:28some safe to observe? Well,
56:29the answer to that is
56:30is yes. But who are
56:31they?
56:33You know, as I said,
56:35they have to be asymptomatic
56:36and and nonfunctioning.
56:37In other words, not secreting
56:39a hormone in excess. No
56:40evidence of spread to the
56:42lymph nodes or elsewhere.
56:44A well differentiated
56:46pathology, in other words, one
56:48that we believe will behave,
56:50a little bit more indolent.
56:52Ly. Generally speaking, a small
56:54tumor because it's much likely
56:56it's less likely to spread
56:57without us understanding it.
56:58And, also, I think probably
57:00the most important thing is
57:01the patient has to,
57:03be amenable to surveillance.
57:06What does that mean? Both
57:07follow-up and and scans to
57:09make sure that this this
57:10tumor doesn't grow and spread.
57:13So if all those criteria
57:14are met,
57:16we we can and and
57:17do observe some of these.
57:18But when we take patients
57:19to surgery, what are our
57:21goals?
57:21For me as a surgeon,
57:23obviously, I wanna maximize,
57:25the control of the tumor.
57:26And by that, I mean,
57:27remove it, and have doctor
57:28Klimstra come back and tell
57:30me that, those margins are
57:31completely clear and it's been
57:33entirely removed, and we wanna
57:34remove the lymph nodes
57:36along that area as well
57:38because we don't know usually
57:40before surgery whether or not
57:42any of those lymph nodes,
57:44carry disease, and we certainly
57:45want them out of the
57:46body. You know, the overall
57:48goals are to prolong survival
57:49and and also improve quality
57:51of life, especially in the
57:52cases where the tumor is
57:53symptomatic or metastatic.
57:55But we also wanna minimize
57:56the risks of surgery.
57:58And by risk, I mean
57:59complication.
58:00You can see some of
58:01the complications there that we
58:02watch out for. Each are
58:04are sort of individualized
58:06and unique,
58:07in terms of how we
58:08mitigate them.
58:10But in terms of what
58:11operation
58:11we choose, it really depends
58:13on where the tumor is
58:14and how much, you know,
58:16lymph node harvest
58:18and and really what kind
58:18of,
58:20you know, comorbid conditions or
58:22or other medical conditions a
58:23patient may have. Certainly, some
58:25patients,
58:26you know, may not be
58:27a candidate for a very
58:29extensive operation. We may look
58:30for nonsurgical alternatives to treatment.
58:33You know, the simplest operation
58:35we do is something called
58:36enucleation.
58:37That's really just taking the
58:38tumor out of the pancreas
58:40itself. You can see it's,
58:42not quite as easy as
58:43the cartoon suggests,
58:46but it really is just
58:47removing the tumor itself while
58:48leaving all of the pancreas
58:50behind. It does have a
58:51very low complication rate, but
58:53the problem with that is
58:54it's really only,
58:55correct for the most,
58:57indolent and small tumors.
59:00Insulinomas
59:01are are the kind of
59:02classic example. You can see
59:03a pathology specimen there, what
59:05it looks like when it
59:06comes out. It also has
59:07to be away from the
59:08pancreatic
59:10duct so we don't get
59:11a pancreatic leak after surgery.
59:16Most patients are not candidates
59:17for enucleation.
59:19Again, the main thing is
59:20the tumor location,
59:22but mostly, and what I'm
59:23gonna talk about today is
59:24two main procedures, what's called
59:25a Whipple procedure, a pancreatic
59:27or duodenectomy for tumors in
59:28the head,
59:29and then a distal pancreatectomy
59:31for tumors in the neck
59:32or or body.
59:34You know, is it safe?
59:35You know, especially when people
59:37talk about
59:38Whipple procedures, they may have
59:39heard that or Googled that
59:41or, you know, heard about
59:42it from a friend or
59:43a TV show.
59:44The bottom line is, it
59:46is a big operation. And
59:47even a distal pancreatectomy is
59:49a big operation.
59:50But at the same time,
59:52at centers and with surgeons
59:54that have experience and high
59:55volume,
59:56of patients, it can be
59:58done safely and it can
59:59be done with a reasonable
01:00:00risk of complication.
01:00:03You know, for instance, here
01:00:04at Yale, these numbers are
01:00:05a year too old,
01:00:07but we do about a
01:00:08hundred, pancreatic resections a year.
01:00:12Know, that number has gone
01:00:13up in the last two
01:00:13or three years,
01:00:15and we've also developed a
01:00:16number of of things here
01:00:18at Yale to minimize risk
01:00:19of complication.
01:00:21You know, the mortality for
01:00:22a Whipple procedure, for instance,
01:00:25you know, used to be
01:00:26considered to be three percent
01:00:27or less was was a
01:00:28good number here. It's under
01:00:29two percent. The length of
01:00:31stay has gone down.
01:00:33And, you know, at at
01:00:34Yale, again, the risk of
01:00:36complication,
01:00:37you know, is better than
01:00:38the ninetieth percentile nationally. So
01:00:40a distal pancreatectomy,
01:00:42which is oftentimes
01:00:43the tumor or the treatment
01:00:45of choice for a neuroendocrine
01:00:46tumor,
01:00:48is for tumors that are
01:00:49located in the body or
01:00:50tail of pancreas. It can
01:00:51be done open. It can
01:00:52be done laparoscopic. It can
01:00:53be done robot assisted. We
01:00:55do all of them here
01:00:56at Yale. We certainly favor
01:00:57a minimally invasive approach in
01:00:59in most patients,
01:01:01you know, that are that
01:01:02are candidates for it.
01:01:05Removal of the spleen is
01:01:06done on a case by
01:01:07case basis. You can see
01:01:09there in the cartoon, you
01:01:10know, the reason the spleen
01:01:11is oftentimes removed is that
01:01:13the vessels, both the artery
01:01:15and the vein that go
01:01:16to the spleen, are oftentimes
01:01:18very, very intimately involved with
01:01:20the tumor.
01:01:22You know, for adults, removal
01:01:23of the spleen has has
01:01:24really no consequence,
01:01:27in terms of your overall
01:01:28health.
01:01:30However, sometimes it can be
01:01:31spared,
01:01:33in in properly selected patients,
01:01:36but not really
01:01:38a concern that,
01:01:39we worry about too much
01:01:40if that spleen needs to
01:01:41be removed.
01:01:43I'm gonna put just a
01:01:44couple of surgical photos. So
01:01:46if you're a little bit
01:01:47you don't like the the
01:01:48sight of of organs, you
01:01:49may wanna close your eyes
01:01:50for just a moment.
01:01:52But just to show you
01:01:53a picture, you know, this
01:01:54is what it looks like
01:01:54when you perform a laparoscopic
01:01:56procedure.
01:01:57This is a spleen preserving
01:01:58procedure. You can see this
01:02:00staple line here is on
01:02:01the remaining pancreas, which is
01:02:03over here. The part of
01:02:04the pancreas that's been removed
01:02:05is right over here. Here's
01:02:07that splenic artery that's going
01:02:09along and the splenic vein
01:02:11that's going on, and here's
01:02:12the spleen. You know, if
01:02:13the spleen needs to be
01:02:13removed, then these vessels are
01:02:15are removed. But you can
01:02:16see all of the lymph
01:02:17nodes and tissue has been
01:02:19removed along there.
01:02:20This this case was done
01:02:21in a minimally invasive way.
01:02:25Anyways,
01:02:26so for peanuts, pancreatic neuroendocrine
01:02:29tumors, again, the goal of
01:02:30the surgery is to control
01:02:31the disease,
01:02:32increase the quality of life
01:02:34if we can, and do
01:02:35it with minimal complication rig.
01:02:37Three operations are are usually
01:02:39done most frequently, a Whipple
01:02:40procedure, a distal pancreatectomy,
01:02:42or or enucleation
01:02:43in rare cases. And, again,
01:02:45the operation is dictated by
01:02:46the location of the tumor,
01:02:47and the outcomes really are
01:02:49are excellent at high volume
01:02:50centers.
01:02:51I'm gonna shift gears, for
01:02:53the last few minutes to
01:02:54talk about intestinal neuroendocrine tumors.
01:02:57These can occur anywhere,
01:02:59from your esophagus to your
01:03:01rectum,
01:03:02but most commonly, they occur
01:03:03in the small intestine or
01:03:05appendix,
01:03:07what we call midgut neuroendocrine
01:03:09tumor.
01:03:10So it is the most
01:03:11common tumor of the small
01:03:12bowel.
01:03:14Some patients do present with
01:03:16obstruction
01:03:17or abdominal discomfort or symptoms
01:03:19from them.
01:03:20Sometimes it can cause a
01:03:22full blown obstruction or what
01:03:23was called an interoception,
01:03:24which I think there's a
01:03:25photo here. Yep. That's an
01:03:26interoception there,
01:03:28some bowel. You can see
01:03:30that that that could cause
01:03:31a problem there. It's sort
01:03:32of like a windsock,
01:03:34going inside out.
01:03:36But most patients are diagnosed
01:03:37incidentally.
01:03:40Patients that do have these
01:03:42tumors, the primary tumor actually
01:03:43tends to be rather small
01:03:44and starts in the intestines
01:03:46here, but when they spread
01:03:47to the lymph nodes, these
01:03:48yellow
01:03:49nodules here along the blood
01:03:51vessels,
01:03:52those lesions the lymph nodes
01:03:54can get quite large, and
01:03:55those lymph nodes actually are
01:03:57oftentimes the source
01:03:58of the pain or discomfort
01:03:59or obstruction or what's noticed
01:04:01on a scan that leads
01:04:02a patient to get the
01:04:03diagnosis.
01:04:05You know, the staging of
01:04:06these patients,
01:04:08as before can include testing
01:04:10both labs, studies, biopsies.
01:04:13If possible, we wanna try
01:04:14and understand the grade so
01:04:16we understand the best treatments.
01:04:18But the goal of all
01:04:19these, you know, tests is
01:04:20to determine the resectability and,
01:04:22again, whether or not there's
01:04:23been any spread.
01:04:25You know, so you can
01:04:26see here, you know, this
01:04:28teeny tiny thing here is
01:04:29a is a one of
01:04:30these lymph nodes,
01:04:32you know, along the vessel
01:04:34there. You can see on
01:04:35the cartoon the matched set
01:04:37from the CAT scan there
01:04:38on the left side.
01:04:40But sometimes they can be
01:04:41quite large as you can
01:04:42see here. Here's that same
01:04:43lymph node,
01:04:44much, much larger in this
01:04:45particular patient. And like I
01:04:47said, that that's usually what
01:04:48catches the eye of the
01:04:49radiologist when you get a
01:04:50scan.
01:04:51And you can see sometimes
01:04:53they can be quite involved,
01:04:55including some major blood vessels
01:04:57and and, sometimes be quite
01:04:58a challenge for removal.
01:05:01Again, just like with the
01:05:03pancreatic
01:05:04operations, our goal is to
01:05:05remove the primary tumor. Oftentimes,
01:05:08in these cases, there is
01:05:09quite a bit of lymph
01:05:10node spread or or even
01:05:12multiple
01:05:13primary tumors in a third
01:05:14of cases.
01:05:16And again, if the patient
01:05:17is metastatic or symptomatic, we,
01:05:19of course, want to improve
01:05:20quality of life in the
01:05:21operating room.
01:05:22And as before, we wanna
01:05:23minimize complications, different set of
01:05:25complications,
01:05:27with these particular patients as
01:05:29opposed to the pancreatic
01:05:31surgery, but, still something we
01:05:32watch out for. Here's a
01:05:34just a couple of more
01:05:35surgical photos again so you
01:05:37can see what I'm talking
01:05:38about.
01:05:39You know, here's somebody with
01:05:41multiple lesions in the bowel.
01:05:43You can see one, two,
01:05:44three, four, five there. And
01:05:45then on the picture on
01:05:46on the right, you can
01:05:47see these lumps and bumps
01:05:48here, not necessarily in the
01:05:50intestine, which is on the
01:05:51outside, but these are those
01:05:52lymph nodes that the instruments
01:05:54are are are pointing to
01:05:55there.
01:05:56And that's that's all disease,
01:05:57so we need to clear
01:05:58that out if we're we're
01:05:59in the operating room.
01:06:02Just real briefly at the
01:06:03end,
01:06:04just wanna touch on on
01:06:05stage four of metastatic disease,
01:06:07which oftentimes is in the
01:06:09liver, but can be in
01:06:10many other sites.
01:06:13In these
01:06:14operations,
01:06:16we do believe there's a
01:06:17survival benefit if we can
01:06:19clear the majority or all
01:06:21of the disease.
01:06:23Sometimes we can do that.
01:06:24Other times, you know, we
01:06:25can't, and we have to
01:06:26rely on systemic treatments.
01:06:27Most often in these cases,
01:06:29we actually use both. In
01:06:31other words, a patient might
01:06:32get a systemic treatment as
01:06:34a bridge to surgery or
01:06:35hopefully to reduce the size
01:06:36of the tumors in order
01:06:37to facilitate surgery.
01:06:40So there's a a particular
01:06:42p tumor in the liver,
01:06:43and then we remove that
01:06:44portion of the liver there.
01:06:47And so that patient was
01:06:48was rendered free of disease
01:06:49again.
01:06:51So just in summary,
01:06:53as always, each patient should
01:06:54be managed individually based on
01:06:56how their, you know, how
01:06:57their symptoms and presentation go
01:06:59and, you know, as their
01:07:00disease and the grade and
01:07:01whether or not surgery is
01:07:02the right choice for them.
01:07:04We always wanna talk about
01:07:05these patients with our colleagues
01:07:06from medical oncology, radiation oncology
01:07:09to come up with a
01:07:09multidisciplinary
01:07:10plan.
01:07:13But when we do these
01:07:13operations, we need to you
01:07:15know, there's usually more than
01:07:16one side of disease, and
01:07:17we wanna try and and
01:07:19clear out
01:07:20as much as we can,
01:07:22preferably all the disease if
01:07:23we're going to the operating
01:07:24room and committing to surgery.
01:07:28And then like I said,
01:07:29even in the setting of
01:07:30advanced or metastatic disease,
01:07:33some patients can, again, still
01:07:34be treated with curative intent.
01:07:36In the future, we hope
01:07:37some of,
01:07:38those newer drugs that doctor
01:07:40Coons was mentioning
01:07:41can help facilitate operative candidacy
01:07:43for more patients,
01:07:46you know, including,
01:07:47treatment that could downstage or
01:07:49or reduce the size of
01:07:50their tumor to facilitate,
01:07:52an operation as well as
01:07:54image guided surgery and some
01:07:55of those molecular targets that
01:07:56doctor Klimster mentioned.
01:07:58So I think that's my
01:07:59last slide. Here's my partners,
01:08:01and our research staff.
01:08:03Thanks everybody for their your
01:08:05attention,
01:08:06and, of course, be happy
01:08:07to answer any questions.
01:08:13Thank you, doctor Kunstman.
01:08:14Well, that was great. I'm
01:08:15gonna ask my
01:08:17co presenters to turn on
01:08:18video if they can.
01:08:20And,
01:08:21we had one question come
01:08:23into the chat, and then
01:08:24I will I also have
01:08:25some other questions. But please,
01:08:26to our audience, feel free
01:08:28to put in your burning
01:08:30questions.
01:08:32So the first question is
01:08:33a really practical one. I
01:08:35know some of the answer,
01:08:36but I might ask doctor
01:08:37Elfockery to answer it.
01:08:39So how can we get
01:08:40pets faster?
01:08:42And, maybe, George, you can
01:08:44speak to kind of newer
01:08:45pet modalities that are coming,
01:08:47but really the practicality
01:08:49of
01:08:50getting pets. And I think
01:08:51this really speaks to we
01:08:53are using them more.
01:08:55Buried on one of your
01:08:56slides was the fact that
01:08:57we are actually using this
01:08:59approach of getting pets and
01:09:01targeted radioligand therapy also for
01:09:03prostate cancer.
01:09:05We are gonna see just
01:09:06an explosion of this this
01:09:08PETS and treatment combined,
01:09:11and other solid tumors. So
01:09:13how are we meeting those
01:09:14needs?
01:09:15Right. So,
01:09:17we are,
01:09:19and somebody has asked also
01:09:20how does that compare to
01:09:21a CT scan. I can
01:09:23try
01:09:24to answer that as well.
01:09:25So we are trying not
01:09:27to be victims of our
01:09:28own success. This is,
01:09:31an incredible opportunity to be
01:09:33a lot more
01:09:35personalized to each patient.
01:09:38The difficulty is twofold. One
01:09:40is in terms of scanners,
01:09:42and we are putting in
01:09:44more scanners. There are,
01:09:46there are new PETCTs that
01:09:48are coming to Yale New
01:09:48Haven Hospital and some are
01:09:50up and running now.
01:09:52We are also working on
01:09:53more efficient scanners.
01:09:56One of the things
01:09:58that technology is available now
01:10:00is for full body scanner
01:10:02where instead of having a
01:10:03thirty centimeter axial field, you
01:10:05have a meter and a
01:10:06half.
01:10:07So that would be a
01:10:08scan in two minutes instead
01:10:09of twenty five minutes, and
01:10:10then you can imagine you
01:10:11can do a lot more.
01:10:13We don't have one of
01:10:13those at Yale New Haven
01:10:15yet, but one will be
01:10:16coming to the Imaging Institute
01:10:18in two years from now,
01:10:19and we will
01:10:20be making every effort to
01:10:22have days available for clinical
01:10:25use. So that's the equipment
01:10:26side. The other side of
01:10:28this is the radiopharmaceutical
01:10:30because,
01:10:31as you know, most of
01:10:32the time we talked about
01:10:33gallium sixty eight dotatate, so
01:10:35that's a half life of
01:10:36sixty eight minutes.
01:10:37So
01:10:38that means you you can't
01:10:40make that in,
01:10:42say, California and then ship
01:10:44it over. By the time
01:10:45it's here, there's nothing left.
01:10:47So there,
01:10:48so far, we have been
01:10:49tributaries of, you know, who
01:10:51is delivering those. We are
01:10:53also on that front working
01:10:55on making,
01:10:56there's a major effort happening
01:10:58at the ATL to,
01:11:01have a GMP facility that
01:11:02would be also in three
01:11:04years from now, two and
01:11:04a half years from now,
01:11:05where we'll be able to
01:11:06make those compounds ourselves and
01:11:08then send them to the
01:11:09hospital so that we won't
01:11:10be tributaries where there's a
01:11:12snowstorm which happens in the
01:11:13winter or there's a a
01:11:16a strike or or there's
01:11:17no a failure of synthesis.
01:11:18And I would be able
01:11:19to do more of those.
01:11:20And working on both of
01:11:21those.
01:11:22The question that was asked
01:11:24is how does a PET
01:11:25compare to a CT scan?
01:11:28In three words, much much
01:11:29better. Much more. That's three
01:11:31words.
01:11:32So in a PET CT,
01:11:33you always get a CT
01:11:34for free because there's a
01:11:36a PET CT, it has
01:11:37a CT,
01:11:38a scanner, and a PET
01:11:39scanner.
01:11:40But,
01:11:42to give you an analogy,
01:11:44and I think
01:11:45Doctor.
01:11:46Kunstmann had very nice CTs
01:11:48that were all obvious. You
01:11:50know these were like the
01:11:51ones if you have this
01:11:52there's nothing else you need.
01:11:53More often than not that's
01:11:55not what we have. What
01:11:56we have is something where
01:11:57this could be a tumor,
01:11:59it could be something else.
01:12:00What you're looking at with
01:12:01CT is just a change
01:12:03in density, and that will
01:12:04happen sometimes in the tumor,
01:12:05but it can happen for
01:12:06all sort of other reasons.
01:12:08That is so if you
01:12:09if you touch if you
01:12:10look at those images, the
01:12:11beautiful images that we saw
01:12:13from doctor Kunstmann, you can
01:12:14see, like, it has a
01:12:15different
01:12:16appearance and consistency.
01:12:18But then there could be
01:12:19all sort of other things
01:12:20that have the same changes
01:12:21in density. Whereas with PET,
01:12:23we're looking at the somatostatin
01:12:24receptor that will be only
01:12:26expressed when it is a
01:12:27tumor. So it's a lot
01:12:29more sensitive,
01:12:30meaning you can see a
01:12:31lot less of it, a
01:12:32lot more specific it's only
01:12:33for tumors. You can see
01:12:35it on CT when you
01:12:36have a lot of the
01:12:37tumor present.
01:12:39That's
01:12:40probably
01:12:41about a million times you
01:12:43need a million times more
01:12:44cells to see it on
01:12:45CT that you'd need on
01:12:46PET. So it's a lot
01:12:48more sensitive. But it's also
01:12:49a lot more expensive,
01:12:50a lot slower, and there
01:12:52are a lot fewer of
01:12:53them.
01:12:53I I I would just
01:12:54add to I would just
01:12:55add because I was gonna
01:12:56ask you to comment on
01:12:57that, John. Yeah.
01:13:00I would just add to
01:13:01that that depending on the
01:13:03question that's being
01:13:05asked,
01:13:06the scans can be much,
01:13:08much better to answer one
01:13:10particular question versus another.
01:13:12So,
01:13:13you know, patients that are
01:13:15being evaluated for surgery
01:13:18may need
01:13:19a particular type of CT
01:13:21scan or PET scan or,
01:13:23you know, depending on the
01:13:24question being asked. So for
01:13:25instance,
01:13:27you know, as I was
01:13:28alluding to in those small
01:13:30bowel neuroendocrine
01:13:31tumor
01:13:33slides,
01:13:34many times these very infiltrative
01:13:37masses and and nodes
01:13:39will be along the major
01:13:40vessels,
01:13:41and it's very hard for
01:13:43us to tell on a
01:13:44PET scan, which is lower
01:13:45resolution CT as opposed to
01:13:47a dedicated
01:13:48CT
01:13:49angiogram
01:13:50or sometimes venogram
01:13:53that, you know, we'll get
01:13:56to facilitate surgical planning.
01:13:58So it may be a
01:13:59different question that's being asked.
01:14:01It's not just that we're
01:14:02being, you know, sticklers.
01:14:05It's it's really to answer
01:14:07a very specific question. So,
01:14:08you know, for instance,
01:14:11the operation I just did
01:14:12today on a patient with
01:14:14a neuroendocrine tumor in the
01:14:15mesentery,
01:14:16it was critical that we
01:14:18understood how many
01:14:19branches of the intestinal blood
01:14:22supply were were free
01:14:24such that we could do
01:14:25the operation and preserve the
01:14:27intestines and the digestive function.
01:14:29So, you know, that's the
01:14:30kind of specific question we
01:14:32may get a particular scan
01:14:33to to understand.
01:14:35And and those are things
01:14:36that that cannot answer because
01:14:38you only see in the
01:14:38somatostatin receptor. You don't see
01:14:40think of it as, like,
01:14:42you know, the Where is
01:14:42Waldo kind of cartoons. You'll
01:14:44see Waldo lighting up, and
01:14:45you won't know anything around
01:14:46him. Whereas with a CT
01:14:48scan, you'll see all the
01:14:49anatomical details that are, around
01:14:51you, but you may not
01:14:52see well dilating.
01:14:53So both of those are
01:14:54incredibly useful. Yeah. All good.
01:14:57Doctor Klimstra,
01:14:58nice to have you live.
01:15:00I'm gonna ask you a
01:15:01question. I know you focused
01:15:03primarily on the well differentiated
01:15:06neuroendocrine tumors.
01:15:08I wondered if you could
01:15:09comment just briefly for our
01:15:10audience. What's a neuroendocrine
01:15:11carcinoma?
01:15:13We treat those very differently
01:15:14in medical oncology.
01:15:16Sure.
01:15:17So, yes, what I talked
01:15:18about was exclusively the well
01:15:20differentiated category. And as I
01:15:22said, they can be low
01:15:23grade, intermediate grade, or rarely
01:15:25high grade.
01:15:27The neuroendocrine carcinomas
01:15:28are really not that closely
01:15:30related even though the name
01:15:31sounds very similar.
01:15:33These are proper carcinomas that
01:15:35are that more closely related
01:15:38to adenocarcinomas,
01:15:39squamous cell carcinoma, other types
01:15:41of cancer that can arise
01:15:42in the pancreas or the
01:15:43lung or the or the
01:15:44colon.
01:15:46They're very highly aggressive.
01:15:48They share
01:15:49the the immunohistochemical
01:15:51staining that I demonstrated,
01:15:53for for neuroendocrine markers, but
01:15:56they differ in almost every
01:15:57other way. They're very, very
01:15:59highly proliferative, rapidly growing.
01:16:02They have a totally different
01:16:04spectrum of mutations
01:16:06and they respond
01:16:07predominantly to different drugs, which
01:16:09of course you'd be much
01:16:10better to comment on than
01:16:11I, but,
01:16:13so the distinction
01:16:14between the well differentiated and
01:16:16the poorly differentiated is extraordinarily
01:16:18important.
01:16:19It can sometimes be challenging,
01:16:20but, we're we're we're pretty
01:16:22good at it.
01:16:23Yep. Thank thank you. That's
01:16:25great. I'm gonna mention one
01:16:26thing that a, an audience
01:16:28member texted in or or
01:16:30messaged in. Is is this
01:16:32webinar available afterwards? The answer
01:16:34is yes. So stay tuned.
01:16:36Our team will actually send
01:16:37out a message with that
01:16:38link, and it will be
01:16:39available on our YouTube channel.
01:16:42So if you didn't take
01:16:42notes or if you want
01:16:43to send it on to
01:16:44family members or friends, this
01:16:46will be available afterwards.
01:16:48I'm gonna tackle one of
01:16:49the questions in the chat.
01:16:51So one of those was
01:16:53why wouldn't you immediately
01:16:54start treatment for a patient
01:16:56with
01:16:56a small intestine or any
01:16:58NET that is stable and
01:16:59nonfunctional but has spread to
01:17:01other places? That's an awesome
01:17:03question and one that we
01:17:04actually talk quite a bit
01:17:06with patients about.
01:17:08So for patients who have
01:17:09a
01:17:10asymptomatic,
01:17:11maybe they were an incidentally
01:17:13diagnosed. They came in for
01:17:14a completely different reason and
01:17:16were found to have a
01:17:17low grade,
01:17:19neuroendocrine tumor that is spread
01:17:21perhaps to the liver as
01:17:22a as a very common
01:17:23scenario.
01:17:24Why wouldn't we start treatment
01:17:25immediately?
01:17:27There is an option to
01:17:28either
01:17:29observe those patients and monitor
01:17:31very closely with scans or
01:17:32just start perhaps on something
01:17:34like octreotide or lanreotide.
01:17:37The reason is be many
01:17:38of those patients, you may
01:17:39have had that for years
01:17:41already, and we don't know
01:17:42the pace of growth.
01:17:43And if the tumor itself
01:17:45is gonna remain stable,
01:17:47generally, my recommendation is to
01:17:49monitor until we see clear
01:17:50evidence of growth. We are
01:17:52sparing you side effects of
01:17:54that those monthly injections
01:17:56until the time that you
01:17:57really need it where we
01:17:58start seeing some evidence of
01:17:59growth.
01:18:00Now that is a
01:18:02difficult conversation, especially with a
01:18:04patient that's newly diagnosed, and
01:18:05we use shared decision making.
01:18:07And if if it is
01:18:08really important to you,
01:18:11to start something, we absolutely
01:18:13will have that conversation, and
01:18:14I,
01:18:15really try to do that
01:18:17as a kind of a
01:18:18joint decision with the patient.
01:18:21So, doctor Kuntzmann, there was
01:18:23a question that came in
01:18:24around
01:18:25stage four disease,
01:18:27and the goals
01:18:29of of surgery.
01:18:32Can we cure patients with
01:18:33stage four disease?
01:18:35And is specifically, the question
01:18:37is in a situation where
01:18:39the primary tumor is pancreatic
01:18:40and will differentiate and has
01:18:41metastasized to the liver, if
01:18:43you're able to remove those
01:18:45liver spots in the pancreas
01:18:46spot, how often do you
01:18:47see recurrence?
01:18:49Yeah. It's a great question
01:18:50too. And much like everything
01:18:53in neuroendocrine disease,
01:18:55it depends.
01:18:57So, you know, the scenario
01:18:58where
01:18:59we have,
01:19:01you know, doctor Klimster was
01:19:02talking about a really well
01:19:03differentiated
01:19:04low grade tumor. Actually, many
01:19:06of these
01:19:07with a single or or
01:19:08maybe even two or three
01:19:09lesions
01:19:11can be resected, and patients
01:19:12can go for many, many,
01:19:13many years being free of
01:19:15disease, perhaps their entire life.
01:19:18Again, as doctor Coons was
01:19:20just alluding to,
01:19:22one of the challenging things
01:19:23is at the time of
01:19:24diagnosis, you don't know whether
01:19:25this particular
01:19:27tumor or tumors have been
01:19:28there for six months or
01:19:31six years or sixteen years
01:19:33sometimes.
01:19:34So when we are operating
01:19:36in the setting of metastatic
01:19:38disease,
01:19:39I often use the analogy,
01:19:42of sort of resetting the
01:19:43clock on patients.
01:19:45You know, yes, we still
01:19:47need to watch and and
01:19:48basically watch them for life
01:19:50for any other signs of
01:19:51recurrence.
01:19:53But sometimes we can reset
01:19:55the clock to such a
01:19:56point and the pace of
01:19:57the disease is slow enough
01:19:58that they go through the
01:19:59rest of the natural life
01:20:01and, you know, without any
01:20:03recurrence of disease. That can
01:20:05be a little more challenging
01:20:06in higher grade disease, grade
01:20:07two, grade three disease. You
01:20:09know, recurrence is more often
01:20:11and is essentially the rule
01:20:12rather than the exception.
01:20:15At the same time, you
01:20:16know, same kind of scenario
01:20:18if we can knock the
01:20:19disease back considerably.
01:20:21There's also some evidence that
01:20:23some of the treatments doctor
01:20:24Coons can give work better
01:20:26in the setting of lower
01:20:27volume disease than higher volume
01:20:29disease.
01:20:31You know, this is part
01:20:31of the reason, you know,
01:20:32having a a multi specialty
01:20:35and multidisciplinary,
01:20:38management team is so important
01:20:39is not only are these
01:20:41treatments tough to align,
01:20:43but
01:20:43they're sometimes really important to
01:20:46sequence correctly as well.
01:20:48You know, in other words,
01:20:49what comes first, second, or
01:20:50third really matters. So,
01:20:53I hope that answered the
01:20:54question.
01:20:55Yeah. That's great, John. Thank
01:20:57you.
01:20:58So one of my favorite
01:21:00ways to end these webinars
01:21:02is really forward looking.
01:21:04I'm gonna go around.
01:21:06John, I'll start with you
01:21:07since you've heard me ask
01:21:08this before.
01:21:09I really like asking
01:21:11what are you most hopeful
01:21:12for? What are you most
01:21:13excited about in your field,
01:21:16for NETs? So, John, I'll
01:21:17I'll start with you.
01:21:19Well, I I'll answer it
01:21:20the same way I did
01:21:21a few months ago.
01:21:23The, thing that's most exciting
01:21:25to me, you know, what
01:21:26what really, really,
01:21:28gets me out of the
01:21:29bed, out of bed in
01:21:30the morning,
01:21:31is taking
01:21:33tumors, you know, neuroendocrine tumors,
01:21:35either the pancreas or the
01:21:37intestines that
01:21:38some other institution or surgeon
01:21:40or oftentimes surgeons
01:21:42have said is unresectable,
01:21:45and turning it into something
01:21:46that's resectable.
01:21:48You know, all of those
01:21:49one of the best things
01:21:50about neuroendocrine disease is that
01:21:52it is moving so quickly.
01:21:56You know, and some of
01:21:57the treatments that are coming
01:21:58out in the last few
01:21:59years and imminently
01:22:01can sometimes cytoreduce, shrink, or
01:22:04alter tumors in such a
01:22:05way that,
01:22:07we can consider curative operations
01:22:09on patients that we never
01:22:11could have thought about that
01:22:12before.
01:22:13So that's that's what's really,
01:22:14really satisfying to me,
01:22:16and exciting in terms of,
01:22:18what's next.
01:22:20Great. Thanks, John.
01:22:22David, I'll I'll go to
01:22:24you next.
01:22:25You and and me I
01:22:26will, just acknowledge David has
01:22:28been in the neuroendocrine field
01:22:29and has really, like, literally
01:22:30written the book on neuroendocrine
01:22:32tumor pathology
01:22:33books.
01:22:35And so you have seen
01:22:36the field evolve over many
01:22:38years.
01:22:40What are you most excited
01:22:41about?
01:22:42It's a great question,
01:22:44Pam. And,
01:22:45I think,
01:22:47John Kunstwena alluded to this
01:22:49a minute ago in one
01:22:49of the comments he made
01:22:50about
01:22:51staging treatments.
01:22:53You know, we've we've learned
01:22:54so much about the pathology,
01:22:56the genetics
01:22:58of these various neuroendocrine tumors,
01:23:00and especially for some sites
01:23:03like pancreas, we now have
01:23:04many different treatment options,
01:23:06but I think it's still
01:23:08challenging to decide which one
01:23:09to try first
01:23:11in a given patient.
01:23:13You can correct me if
01:23:14I'm wrong about that, but
01:23:15I think we can use
01:23:17a lot more information
01:23:18about which treatments are most
01:23:20likely to be effective.
01:23:21And we're beginning to unravel
01:23:23this based on the fact
01:23:24that some
01:23:26treatments target specific
01:23:28mutational pathways,
01:23:29but a lot more study
01:23:30is necessary. And so my
01:23:32what I get excited about
01:23:33is the possibility that we
01:23:35can discover
01:23:36ways to predict response to
01:23:37therapy that we don't have
01:23:38today so we know which
01:23:40of these
01:23:41various approved therapies
01:23:42would be the best for
01:23:43each individual patient.
01:23:47Thanks, David. George.
01:23:50I would say,
01:23:51you know, my answer is
01:23:52gonna be on the thermostat
01:23:54side, but I I think
01:23:55moving Can you define can
01:23:56you define that word for
01:23:57everybody?
01:23:58Yes. Oh, well, if you
01:23:59haven't if you missed the
01:24:00lecture,
01:24:01or the presentation. So being
01:24:03able to use the same
01:24:05molecule
01:24:06to image and to treat
01:24:07So that you can have
01:24:08a PET scan, you see
01:24:10where your somatostatin receptors are,
01:24:12and then you change
01:24:14one
01:24:15radioisotope
01:24:16from a positron emitter to
01:24:17a beta emitter or better
01:24:19yet alpha emitter. And now
01:24:21you are treating.
01:24:22Moving to alpha emitters is
01:24:24a huge promise. It's still
01:24:26not there yet but because
01:24:27the kill, the cell kill
01:24:29will be much higher. There
01:24:30will be a lot more
01:24:30DNA damage. I think the
01:24:32other part that is very
01:24:33exciting in addition to moving
01:24:35earlier and
01:24:36using theranostics
01:24:38is combining theranostics with other
01:24:40treatments because so far it
01:24:41has been
01:24:42done on its own. So
01:24:44combining this with other treatments
01:24:46that are already that some
01:24:47many discussed today I think
01:24:49is another exciting area where,
01:24:51hopefully we'll see better results.
01:24:53That's great.
01:24:55I'll I'll I'll go also.
01:24:57So,
01:24:58I have to say as
01:24:59someone who's a clinical trialist
01:25:00and has been in the
01:25:01neuroendocrine space for a long
01:25:02time, I'm really excited about
01:25:04the attention
01:25:05that NETZ has finally been
01:25:07getting over the last five
01:25:08to ten years,
01:25:09in clinical trials. We need
01:25:11data to really
01:25:13provide us with information
01:25:14on the best treatments to
01:25:16use, what order we can
01:25:17do them in, how to
01:25:19better select patients and identify
01:25:21patients. And when I meet
01:25:22with patients in clinic and
01:25:24I'm asked, well, what's the
01:25:25next best treatment?
01:25:27You know, we don't we
01:25:28haven't historically had clinical trials
01:25:30like our colleagues in colon
01:25:32cancer or breast cancer to
01:25:34say we have hundreds of
01:25:35patients that have been treated
01:25:36in this trial, and this
01:25:37is what we this is
01:25:39our best evidence or best
01:25:40data. And I think we're
01:25:41getting there.
01:25:42So I find that really
01:25:44exciting and very hopeful.
01:25:45I think that many patients
01:25:47who are alive now with
01:25:49NETs will directly benefit from
01:25:51clinical trials that are ongoing
01:25:54and,
01:25:55you know, with really help
01:25:57from from this entire multidisciplinary
01:25:59team. And so I think
01:26:01a key takeaway is,
01:26:02be sure you have some
01:26:04NET experts, whether they're NET
01:26:06pathologists,
01:26:07NET radiologists,
01:26:08or NET surgeons, or medical
01:26:10oncologists on your team.
01:26:12There are ways to get
01:26:12that regardless of where you
01:26:14live, and we are we
01:26:16work well with community oncologists
01:26:18and community
01:26:19team members, to really try
01:26:20to help get you best
01:26:21of both worlds.
01:26:23So
01:26:24we are gonna end there.
01:26:25This again, this webinar will
01:26:27be available afterwards. Huge thank
01:26:29you to my colleagues for
01:26:30spending their evening,
01:26:32and happy net awareness day.
01:26:34So thank you everybody. Have
01:26:35a great night.