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Title: Current Status of Pancreas and Islet Transplantation


1
  • Current Status of Pancreas and Islet
    Transplantation

2
The Problem
3
Diabetes Mellitus in the U.S.
  • 18.2 million people are diabetic (6.2 of
    population)
  • 13 million diagnosed
  • 5.2 million undiagnosed
  • new cases per year 1.3 million people aged 20
    years or older
  • 6th leading cause of death (heart disease most
    common)
  • Leading cause of ESRD
  • Leading cause of blindness
  • Direct medical cost for DM in 2003
  • Total(direct and indirect) 132 billion

4
Geographic variations in adjusted incident rates
of ESRD due to diabetes whites, 1992 Figure
2.11
Incident ESRD patients. Per million population,
by HSA, adjusted for age gender.
illi
illi
lla
lla
5
Geographic variations in adjusted incident rates
of ESRD due to diabetes whites, 2002 Figure
2.11 (continued)
Incident ESRD patients. Per million population,
by HSA, adjusted for age gender.
illi
illi
lla
lla
6
Acute complicationsHypoglycemia
  • The limiting factor in the management of type 1
    diabetes
  • 25 of patients practicing intensive insulin
    therapy suffer at least one episode of severe,
    temporarily disabling hypoglycemia, often with
    seizure or coma, in a given year
  • 4 of deaths of people with type 1 diabetes have
    been attributed to hypoglycemia

Philip E. Cryer, Diabetes 1994
7
Participants were selected by excluding those
with a history of severe hypoglycemia, long
duration of diabetes and other factors known to
increase the risk of severe hypoglycemia
Glycated Hb ()
NEJM 1993 329 977-86
DCCT. NEJM 1993
8
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9
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10
NEJM Feb 12, 2004
11
Beta-cell Replacement Therapy for Diabetes An
Integrated Approach with Pancreas and Islet
Transplantation
12
PURPOSE OF BETA CELL REPLACEMENT THERAPY
  • Improve quality of life by establishing
    insulin-independent, normoglycemic state
  • Prevent/ameliorate secondary complications of
    diabetes

13
THREE BROAD CATEGORIES of ß-CELL REPLACEMENT
inPANCREAS (P) or ISLET (I) TRANSPLANT (T)
RECIPIENTS
  • -Simultaneous(S) kidney (K) transplant
  • SBK (SPK or SIK)
  • -After(A) kidney transplant
  • BAK (PAK or IAK)
  • -B-cell transplant alone
  • BTA (PTA or ITA)

14
  • The immunosuppression needed to prevent rejection
    is of the same magnitude for either approach.

15
  • Pancreas Transplant
  • Highly efficient but major surgery
  • Islet Transplant
  • Minimally invasive but less efficient

16
Pancreas Transplantation
17
Pancreas Transplants Worldwide
Total n 24,974 ? Non USA n 6,346 ?
USA n 18,628
3/06
18
Pancreas Transplant Categories
USA SPK, PAK and PTA Transplants
3/06
19
Outcome
20
5-Year Patient Survival
USA DD Primary Pancreas Transplants, 1 /1/1988
12/31/2000
10/05
21
SPK Pancreas Graft Function
USA DD Primary Pancreas Transplants, 10/1/1987
12/31/2005
Year HLmos
11/05
22
PAK Pancreas Graft Function
USA DD Primary Pancreas Transplants, 1/1/1988
12/31/2005
Year HLmos
11/05
23
PTA Pancreas Graft Function
USA DD Primary Pancreas Transplants, 10/1/1987
6/ 6/2004
Year HLmos
11/05
24
Early Technical Pancreas Graft Failures
USA DD Primary Pancreas Transplants, 1/1/1988
12/31/2005
3/86
25
1-Year Immunological Graft Loss
USA DD Primary Pancreas Transplants, 10/1/1988
12/31/2005
3/06
26
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27
Risk FactorsforPatient Death
28
Hazard Ratio for SPK Patient Death
USA DD Primary Pancreas Transplants, 1/1/2000
6/6/2004
Higher
Risk
Lower
29
SPK Patient Survival
USA DD Primary Pancreas Transplants 1/1/2000
6/6/2004
Graft Status n 1Yr Surv. PxFx/KiFx 3,016 97
PxFx/KiFld 118 83 PxFld/KiFx 368 92
PxFld/KiFld 105 72
p 0.0001
8/04
30
Pa Tx vs. Waiting-list Mortality
31
Waiting List Death RatesPercent Deaths Per
Patient Waiting 2003 - 2005
32
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33
Patient Survival while Waiting
UNOS Pancreas Waiting List 1/1/1995 5/31/2003
Survival Cat. n 1Y
r 4Yrs ? PAK 2942 97.2 81.7
PTA 1207 96.6 87.3 ? SPK 12478 93.4 58.7
2/04
34
Patient Survival after Tx
UNOS Pancreas Waiting List 1/1/1995 5/31/2003
Survival Cat. n 1Y
r 4Yrs ? PAK 1714 95.3 88.3
PTA 647 97.0 90.5 ? SPK 6995 95.0 90.3
2/04
35
Relative Hazard Ratios
UNOS Pancreas Waiting List 1/1/1995 5/31/2003
Wait-Listed Patients
equal risk
8/04
36
Summary
  • For 2000-2005 cases, patient and graft survival
    rates continue to improve due to further decline
    in TF and rejection rates
  • Immunological graft losses remain higher for PTA
    PAK
  • The risk of death is not higher for transplanted
    vs wait-listed recipients of solitary pancreas
    transplants

37
Islet Transplantation
38
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39
Obstacles to Islet Allotransplantation
Donor shortage
At least 50 loss of islet mass during isolation
Difficulties in monitoring rejection
40
Human Islets Transplantation Cumulative burden of
immune and environmental stress
Reduced Islet Mass Islet Cell Death Islet Cell
Dysfunction
41
Decline in islet function over time - Reasoning
  • Intrinsic limitations of islets to repair injury,
    replicate, and survive
  • Chronic rejection? Autoimmune recurrence?
  • Does immunosuppression interfere with islet
    replication/neogenesis?
  • Serial systematic graft biopsies?
  • Is the liver an appropriate islet implantation
    site?

42
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43
Human Islet Allotransplantation
  • ImmunosuppressionNo steroids. Daclizumab
    Rapamycin Tacrolimus
  • Donor tissue
  • Deceased donor islets from 2-4 pancreata/recipient

Shapiro et al., NEJM 2000
44
Percutaneous transhepatic approach
45
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46
Islet transplant activity (1999-2004)
Edmonton (67)
Miami (30)
Milan (35)
Minneapolis (20)
Brussels (35)
Philadelphia (12)
Giessen (27)
Vancouver (12)
Geneva/GRAGIL (28)
Houston (11)
Nordic Network (24)
Harvard (10)
Leuven (20)
Northwestern (8)
Innsbruck (11)
St Louis (8)
Zurich (10)
NIH (6)
Sydney (6)
Cincinnati (6)
Kyoto (5)
Seattle (6)
Budapest (4)
Emory (6)
Kings (UK) (2)
City of Hope CA (5)
Chiba (1)
Memphis (3)
Sao Paulo (2)
Tokyo (1)
UCSF (2)
U Mass (2)
Shanghai (1)
43 institutions 530 patients
U. Maryland (1)
Red ITA Blue ITA and SIK/IAK Black SIK/IAK
Columbia NY (1)
Carolina Med Ctr (1)
47
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48
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49
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50
ITN Multicenter Trial of Edmonton
ProtocolMinnesota Cases
51
Issues
  • Of 2,000 candidates only 149 (7) fulfilled
    criteria
  • Rec mean BW 62kg, mean BMI 22
  • Mean IE 13,400 only 45 of isolations were txed
  • Lack of stringent criteria for definition of
    adequate glycemic control (HgA1clt6.5, fasting
    BSlt140, postprandBSlt180)
  • 25/36 recs underwent more than 1 islet tx (33
    had 3)
  • Graft survival disappointing (44, 31)
  • Adverse events intraabd bleed, partial portal
    vein occlusion, bile leak, mild hepatic steatosis
    (4/13 at 2 yrs),change in IS in 25
  • Evolving therapy for highly selected pts

52
Single-donor Islet Transplantation
53
Single-donor 7 strategies16 of 18 insulin-free
with 11 transplant
  • Young, LARGE donors
  • Short cold storage
  • High islet graft potency
  • Pretransplant islet culture
  • Potent immunosuppression
  • Posttransplant insulin treatment
  • Minimizing diabetogenic side effects

Am J Transplantation 2004, and JAMA 2005
54
Transplant Protocol 1
10,302 2,594 IE/kg
Am J Transplantation 2004
55
Transplantation of Cultured Islets from
Two-Layer Preserved Pancreases in Type 1 Diabetes
with Anti-CD3 Antibody
  • 4 of 6 recipients achieved insulin independence
    after single-donor islet transplantation
  • Induction immunotherapy with the anti-CD3 mAb
    hOKT3g1 (Ala-Ala) may facilitate minimization of
    maintenance immunosuppression

Am J Transplantation 2004
56
Long-Term Follow-Up
MN Protocol 1
Partial Function
Insulin Independence
57
Feb 16, 2005
58
JAMA Protocol RATG Etanercept Rapa
Tac?MMF
MN Protocol 2
Time Point of Subsequent Tx
Graft Failure
Feb 16, 2005
59
Issues
  • Mean D/R weight 101/60, BMI 34/23
  • Mean IE/kg 7,200
  • 8/18 isolations resulted in tx
  • Donors lt50yrs, cold storagelt8hrs, 2-layer
    preservation, islet cultures, etarnercept peritx

60
RATG Etanercept CsA RAD
MN Protocol 3
Hering BJ et al., WTC 2006
61
Insulin independence after 11 transplant
19/22 (86) became insulin-independent 17/22
(77) off insulin with islets from 1 donor 19/22
(86) 3 U/d with islets from 1 donor
62
  • FDA
  • License

63
  • Phase II Pilot and Phase III Licensure Clinical
    Trials
  • Univ. of Minnesota, Miami, Pennsylvania, Alberta,
    and Uppsala

www.citisletstudy.org
64
NIH Consortium for Clinical Islet
Transplantation(Miami, Minnesota, Penn, Alberta,
Uppsala)
Two Phase III Registration Trials
1. Islet-Transplant-Alone Trial
2. Islet-after-Kidney CMS Demonstration Project
Primary Endpoint Proportion of subjects with
HbA1c lt6.5 and no episodes of severe
hypoglycemia at 1 yr after initial transplant
65
CIT-07 (Phase 3 ITA n48/6-12)
Primary Endpoint Proportion of subjects with
HbA1c lt6.5 and free of severe hypoglycemic
events at 1 yr after the first islet cell infusion
Sirolimus
-2 -1 0 1
2 10 365

Days after transplant
Donor Islet Isolation
66
CIT-06 (Phase 3 IAK n65/12)
Primary Endpoint Proportion of subjects with
HbA1c lt6.5 and free of severe hypoglycemic
events at 1 yr after the first islet cell infusion
Tac-based Immunosuppr. (Tac-Rapa or Tac-MMF)

-2 -1 0 1
2 10 365

Days after transplant
Donor Islet Isolation
67
Secondary Efficacy EndpointsAt 75 5 days
following the first infusion
  • The proportion of insulin-independent subjects
  • The percent reduction in insulin requirements
  • HbA1c
  • Mean amplitude of glycemic excursions (MAGE)1
  • Glycemic lability index (LI)
  • Clarke hypoglycemia awareness score
  • Ryan hypoglycemia severity (HYPO) score
  • Basal (fasting) and 90-min glucose and C-peptide
    derived from the mixed-meal tolerance test (MTT)
  • Ryan ß-score
  • C-peptideglucose creatinine ratio
  • Acute insulin response to glucose (AIRglu),
    insulin sensitivity, and disposition index
    derived from the insulin-modified
    frequently-sampled intravenous glucose tolerance
    (FSIGT) test
  • Glucose variability and hypoglycemia duration
    derived from the continuous glucose monitoring
    system (CGMS)
  • Quality of life measures (DQOL, HSQ 2.0,
    Hypoglycemia Fear Survey-HFS)

68
Inclusion CriteriaPatients who meet all of the
following criteria are eligible for participation
in islet transplant trials
  • Male and female patients age 18 to 65 years of
    age.
  • Ability to provide written informed consent.
  • Mentally stable and able to comply with the
    procedures of the study protocol.
  • Clinical history compatible with type 1 diabetes
    with onset of disease at lt 40 years of age and
    insulin-dependence for gt 5 years at the time of
    enrollment.
  • Absent stimulated C-peptide (lt0.3ng/ml) in
    response to a mixed meal tolerance test (Boost 6
    ml/kg body weight to a maximum of 360 ml another
    product with equivalent caloric and nutrient
    content may be substituted for Boost) measured
    at 60 and 90min after the start of consumption.
  • Involvement in intensive diabetes management
    defined as self monitoring of glucose values no
    less than a mean of three times each day averaged
    over each week and by the administration of three
    or more insulin injections each day or insulin
    pump therapy. Such management must be under the
    direction of an endocrinologist, diabetologist,
    or diabetes specialist with at least 3 clinical
    evaluations during the previous 12 months.

69
Inclusion Criteria (Contd)Patients who meet all
of the following criteria are eligible for
participation in islet tx trials
  • At least one episode of severe hypoglycemia in
    the past year defined as an event with symptoms
    compatible with hypoglycemia in which the subject
    required the assistance of another person and
    which was associated with either a blood glucose
    level lt 50 mg/dl 2.8 mmol/L or prompt recovery
    after oral carbohydrate, intravenous glucose, or
    glucagon administration).
  • Reduced awareness of hypoglycemia as defined by a
    Clarke score of 4 or more and a HYPO score
    greater than or equal to the 90th percentile
    (1047) within the last 6 months prior to
    randomizationORMarked glycemic lability
    characterized by wide swings in blood glucose
    despite optimal diabetes therapy and defined by a
    glycemic lability index (LI) score greater than
    or equal to the 90th percentile (433
    mmol/l2/hwk-1) within the last 6 months prior to
    randomizationORA composite of a Clarke score
    of 4 or more and a HYPO score greater than or
    equal to the 75th percentile (423) and a LI
    greater than of equal to the 75th percentile
    (329) within the last 6 months prior to
    randomization.

70
Critical Issues in Islet Tx
  • Long-term results are disappointing, short-term
    results trail those of Pa Txs
  • Primary study end-points must include
    insulin-independence

71
5-Year Pancreas Graft Function
USA DD Primary Pancreas Transplants, 1/1/1988
12/31/2003
8/04
72
542060-2069, 2005
73
Insulin-independent islet allograft
survivalEdmonton Miami - Minnesota
n 118 1-yr survival 82
74
Endocrine Function
  • Islet transplants fail to release glucagon during
    hypoglycemia and do not restore epinephrine
    responses and symptom recognition. This indicates
    suboptimal hypoglycemic hormonal
    counterregulation, in contrast to pancreas
    transplants.

75
Critical Issues in Islet Tx
  • UNOS registry for transparency and accountability

76
Islet Registries and Study Groups
  • International Islet Transplant Registry (Giessen)
  • Collaborative Islet Transplant Registry (CITR)
  • Consortium for Islet Transplantation (CIT)
  • Islet Cell Resource Program (ICR)

77
CITR Annual Report Exhibits
CITR Annual ReportExhibitsPrepared byCITR
Coordinating CenterThe EMMES CorporationRockvill
e, MDSponsored byNational Institute of
Diabetes Digestive Kidney DiseasesNational
Institutes of HealthBethesda, MDDatafile
Closure April 3, 2006
78
Number of Islet Transplant Programs Transplanting
and Number Reporting Information to CITR by Year
79
Total Number of Islet Allograft Infusion
Procedures Performed in North America as Reported
to the Registryand Number Contained in the
Annual Report
The Islet Transplant Summary (ITS) questionnaire
is completed by all North American islet
transplant programs regardless of their
participation in the Registry. Of 42 North
American islet transplant programs polled, all
have provided this information through 2005.
80
Total Number of Islet Allograft Infusion
ProceduresReceived Per Participant (All
Participants, N225)
81
Participants Insulin Status at Follow-upPost
First and Last Infusion
82
Participants Insulin Status at Follow-Up Post
Last Infusion by Total Number of Infusions
Received
83
Percent of Participants Ever Achieving Insulin
Independence
84
Critical Issues in Islet Tx
  • SACs need to be revisited

85
Organ Acquisition Issues
  • Organ acquisition costs for DD Pa graft
    20-30,000 (irrespective if used for clinical tx
    or for research only)
  • Only for IAK reimbursement by CMS (if within CIT)
  • UNOS Pa committee charged by HRSA to increase
    donor pancreata utilization
  • What to do about pancreata acquisition costs if
    the islet preparation is unsuitable for tx
    (variability among OPOs)?
  • SAC same for whole organ vs. islet (cellular)
    txs? (different SACs for recovery of a heart vs.
    heart valves)

86
Allocation Issues in Pancreas and Islet
Transplantation
87
Most deceased donor pancreases that are suitable
for beta-cell replacement are currently used as a
solid organ immediately vascularized graft.The
reason Islet isolation yield is variable and the
incidence of being insufficient to induce
insulin-independence is higher than the incidence
of technical failure of a pancreas allograft.
Integrated approach for Pa and Islet Tx tailored
to the need of individual patients
88
Should Have a Common Waiting List for Pancreas
and Islet Transplant Candidates
  • Stratified according to insulin requirements or
    donor BMI
  • Examples
  • Pancreas from a large donor, allocate first for
    islet transplantation to candidates with low
    insulin requirements
  • Small or normal size donors allocate first for
    Immediately-vascularized organ transplantation to
    candidates with normal or high insulin
    requirements who have no contraindications to
    major surgery
  • Candidates could be ranked by wait time, match,
    medical urgency, etc.

89
Complications after transplant divided by donor
BMI
90
OBESE DONORS ARE GOOD FOR ISLET ISOLATION
91
Bottom Line
  • -Pancreas TransplantHighly efficient but major
    surgery
  • -Islet TransplantMinimally invasive but less
    efficient
  • Do Islet Txs in Beta Cell Replacement candidates
    who would predictably become insulin-independent
    with a single donor using state-of-the-art
    isolation
  • Do Px Txs in those who would predictably require
    re-transplants (multiple donors) for islets,
    unless candidate is willing to have long interval
    to achieve insulin-independence

92
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93
b-cell replacement therapy
  • Growing demands
  • Islet transplant preferable approach
  • Eliminate surgical risks
  • Less long-term complications
  • Xenogeneic islet transplants could meet the
    demand of donor shortage

International pancreas transplant registry
(IPTR), Bretzel RG, 2004
94
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95
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96
Areas of Improvements
97
Five Factors that Determine Graft Survival
  • Donor age and tissue quality
  • Brain death
  • Preservation and implantation injury
  • Immune-mediated injury
  • Stresses in the recipient environment

Halloran PF. Am J Transplant 2002 2 195-200
98
240
r -0.536, P 0.004
220
200
180
160
140
Islet ATP Content (pmol/mg DNA)
120
100
80
60
40
20
10
20
30
40
50
60
70
Donor Age (yr)
99
Brain-Death is Associated with
Reduced Glucose-Stimulated and
Arginine-Stimulated Insulin Release in the
in-situ-Perfused Pancreas
Reduced b-Cell Survival Before Islet Isolation
Contreras JL et al. Diabetes 2004
100
Brain-Death is Associated with Decrease in Islet
Yields
Contreras JL et al. Diabetes 2004
101
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102
Islet Processing
  • Progress in pancreas procurement, preservation,
    and processing will depend on the development and
    validation of reliable, preferably real-time
    assays of islet beta cell mass and potency
  • Cellular composition (beta cells/kg)
  • Oxygen consumption rate
  • ATP

103
Dual Chamber Oxygen Consumption Rate Apparatus
Small (210 mL) Stirred Chambers for Islets in
Suspension Custom Designed in Collaboration with
Instech Labs
Fiber optic cables
Spectrometer
Chamber plug
104
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105
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106
Innate Immunity Posttransplant
Macrophages NKT Cells Neutrophils Endothelial
Cells Platelets
Donor Factors Hypoxia Hyperglycemia
NO, ROI Cytokines Complement
PNF Islet Death Adaptive Immunity
ROS
107
Research in Islet Transplantation
  • Alternative source
  • Xenotransplant
  • Stem cell
  • Islet culture/expansion
  • Immunotherapeutic strategies
  • New immunosuppressive protocols
  • Transplant tolerance
  • Genetic modification, local factors...

108
Minnesota BSM ?-CD154 RAD FTY720
LFM Emory/AB BSM ?-CD154 Rapa LEA29Y
109
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110
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111
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112
Pancreas Transplants by Category
Pancreas Transplants, U of MN 12/66 11/ 1/2004
PTA 472 (53 LRD)
PAK 634 (31 LRD, 1 LURD)
SPK 646 (30 LRD, 7 LURD)
SPL 1
TOTAL 1753
113
Estimated Half-Lives months
114
OUTCOME BY AGE AT DIAGNOSIS
115
Age at Diabetes Onset
USA Primary Pancreas Transplants 1/1/2000 6/
6/2004
116
Causes Px Graft Failure
USA DD Primary Pancreas Transplants 1/1/2000
12/31/2005

SPK
PAK
PTA
0-3 3-12 gt 12
0-3 3-12 gt 12
0-3 3-12 gt 12
Months Posttransplant
3/06
117
Pancreatectomy with Islet Autotransplant
  • Can it help us interpret islet allograft results?

118
Chronic Pancreatitis Etiology
  • Idiopathic 59 (43)
  • Alcohol 21 (15)
  • Divisum 17 (13)
  • Familial 15 (11)
  • Biliary 14 (10)
  • Iatrogenic 4 (3)
  • Cystic Fibrosis 3 (1)
  • Trauma 2
  • Congenital cyst 1

119
Pancreatectomy and islet autotransplantation
  • The main objective is to relieve pain by the
    pancreatectomy and withdraw patient from
    narcotcis
  • Prevention or amelioration of diabetes is a
    bonus, but beta cell preservation should nearly
    always be attempted.

120
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121
Islet Isolation
1977 2004 136 Cases U MN
122
Metabolic control
  • Complete pancreatectomy (73 pts)
  • Islet transplanted lt 2000 IEQ/kg
  • Insulin dependent (22 pts, 30)
  • Islet transplanted gt 2000 IEQ/kg
  • Insulin independent (34 pts, 47)
  • Intermittently insulin-treated (17 pts, 23)

1977 2004 136 Cases U MN
123
Ryan EA Diabetes 542060-2069, 2005
124
Islet Transplantation At the Crossroads
Short-term
Long-term
Incremental Steps
Innovation
Anecdotal Success
Vital Therapy
125
SiteSafetySource
Islet Transplantation At a Crossroads
Hepatic
Extrahepatic
Suppression
Regulation
Human
Porcine
126
All donors with BMI gt28 are first offered to
islet candidates ranked highest on the combined
beta cell replacement (BCR) list
127
Five Year Kaplan-Meier Survival Curves (Insulin
Independence from time of first transplant)
Survival ()
128
Living Donor Kidneys in PAK
USA Primary DD Pancreas Transplants 1/1/1988
12/31/2005
3/06
129
Number of Tx Centers and Number of Txs
USA Pancreas Transplants 1/1/1988 12/31/2005
Transplants
3/06
130
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131
Single-donor islet transplants will
  • Promote overall availability of islet
    transplantation
  • Reduce costs per patient by 75,000
  • Allow ultimate validation of islet potency assays
  • Facilitate evaluation of immunotherapeutic
    protocols
  • Promote FDA approval and insurance coverage
  • Promote donor pancreas allocation to islet
    patients

132
Patients with Type II Diabetes
USA Pancreas Transplants 1/1/1994 9/ 1/2005
10/05
133
SPK Pancreas Graft Function
USA DD Primary Pancreas Transplants, 10/1/1987
6/ 6/2004
Year HLmos
8/04
134
Risk FactorsforPancreas Graft Loss
135
Hazard Ratio for SPK Pancreas Graft Loss
USA DD Primary Pancreas Transplants, 1/1/2000
6/6/2004
136
1-Year Pancreas Graft Function
USA DD Primary Pancreas Transplants 1/1/2000 6/
6/2004
8/04
137
1-Year Pancreas Graft Rejection Rate
USA DD Primary Pancreas Transplants 1/1/2000
6/ 6/2004
8/02
138
IMMUNOSUPPRESSIVEProtocols
139
SPK Induction Antibody Therapy
USA DD Primary Pancreas Transplants 1/1/2000
12/31/2005
3/06
140
Major Immunosuppressive Protocols
USA Primary DD Pancreas Transplants 1/1/2000
12/31/2005
3/06
141
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142
Operative Technique
  • Patient placed in right lateral decubitus
    position as per standard laparoscopic nephrectomy
  • Supine position for pancreatectomy
  • 6-cm periumbilical incision for hand assist
    Gelport? (Applied Medical, Rancho Santa
    Margarita, CA)
  • 2 12-mm ports in mid clavicular and left
    anterior axillary line

Gelport
Operative port
Camera Port
143
Operative Technique
Mobilization of the pancreas
Division of splenic artery
Division of splenic vein
144
Operative Technique
Division of pancreatic neck
Pancreatic remnant
145
Port sites and midline incision 3 weeks post
laparoscopic distal pancreatectomy and left
nephrectomy. A midline incision for Gelport
placement, B 12-mm camera port, C- 12-mm
operative port
146
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147
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148
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149
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150
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151
Single-donor islet transplantation
Donor selection Islet processing
Pretransplant Islet Culture
Peritransplant Mgmt Contd
Young donors
IGF-1
Peritransplant Recipient Therapy
Heparin 70 U/kg PTT 50-60 48 hrs Enoxiparin 7
days Insulin 1st 30 days
lt8 hrs
152
  • Safety

153
Adverse events
  • Serious, unexpected, protocol-related 0/24
  • Serious 11 (neutropenia 7,
    cholecystitis 2, ovarian cyst 1, rash 1,
    fever post orthopedic surgery 1)
  • Severe
  • Transient neutropenia 11/24
  • Transient anemia 3/24
  • Transient LFT elevations 4/24
  • Pneumonia 1/24

No procedural complications
No deaths, no cancers, no PTLD, no CMV
154
Waiting List Deaths For Candidates Waiting
ForAll Organs Except Kidney and Liver (No
Intestine) 2003 - 2005
155
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156
www.citisletstudy.org
157
  • Phase II Pilot and Phase III Licensure Clinical
    Trials
  • Univ. of Minnesota, Miami, Pennsylvania, Alberta,
    and Uppsala

158
CIT-07 (Phase 3 ITA n48/6-12)
Primary Endpoint Proportion of subjects with
HbA1c lt6.5 and free of severe hypoglycemic
events at 1 yr after the first islet cell infusion
Sirolimus
-2 -1 0 1
2 10 365

Days after transplant
Donor Islet Isolation
159
CIT-03 (Phase 2 ITA n20/8-12)
Primary Endpoint The proportion of
insulin-independent subjects at day 75 ( 5 days)
following the first islet cell infusion
Deoxyspergualin
-2 -1 0 1
2 10 365

Days after transplant
Donor Islet Isolation
160
CIT-06 (Phase 3 IAK n65/12)
Primary Endpoint Proportion of subjects with
HbA1c lt6.5 and free of severe hypoglycemic
events at 1 yr after the first islet cell infusion
Tac-based Immunosuppr. (Tac-Rapa or Tac-MMF)

-2 -1 0 1
2 10 365

Days after transplant
Donor Islet Isolation
161
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162
Preclinical Islet Xenotransplantation
Streptozotocin
Intraportal infusion of 25,000 IE/kg
Adult, genetically unmodified donor pig
Rhesus/ Cynomolgus macaque
Immunosuppression
163
March 2006
164
Pig-to-NHP islet xenotransplantation
BSMFTY720RADABI793LFM
BSMFTY720RADABI793
BSMFTY720RAD
165
Group B BSM FTY720 RAD ABI793
University of Minnesota
166
Islet Transplantation At the Crossroads
August 23, 2006
167
Islet Transplantation At the Crossroads
Short-term
Long-term
Incremental Steps
Innovation
Anecdotal Success
Vital Therapy
168
SiteSafetySource
Islet Transplantation At a Crossroads
Hepatic
Extrahepatic
Suppression
Regulation
Human
Porcine
169
INSULIN INDEPENDENCE ALL SUBJECTS
l Subjects maximum posttx time-point reached
while still insulin independent
170
Long-term normoglycemia and protection from
severe hypoglycemia on small doses of exogenous
insulin (2 to 10 units/day)
Ryan EA Diabetes 542060-2069, 2005
171
Important Exclusion CriteriaPatients who meet
any of these criteria are not eligible for
participation in the study
  • BMI gt27 kg/m2 or patient weight 50kg.
  • Insulin requirement of gt 0.8 IU/kg/day or lt 25
    U/day.
  • HbA1c gt10.
  • Untreated proliferative diabetic retinopathy.
  • Blood Pressure SBP gt160 mmHg or DBP gt100 mmHg.
  • Measured GFR of lt70 ml/min/1.73 m2 for females
    and lt80 ml/min/1.73 m2 for males.
  • Presence or history of macroalbuminuria
    (gt300mg/d).
  • Panel-reactive anti-HLA antibodies gt20 by flow
    cytometry.

172
Protocol for Phase III Trial
Feb 16, 2005
173
Secondary Efficacy EndpointsAt 365 50 days
following the first infusion
  • The proportion of insulin-independent subjects
  • The percent reduction in insulin requirements
  • HbA1c
  • MAGE
  • LI
  • Clarke score
  • HYPO score
  • Basal (fasting) and 90-min glucose and C-peptide
    (MTT)
  • ß-score
  • C-peptideglucosecreatinine ratio
  • QOL (DQOL, HSQ 2.0, HFS)
  • The proportion of subjects receiving a second
    islet infusion
  • The proportion of subjects receiving a third
    islet infusion

174
  • The overall rate of SH was 1.3 episodes/patient
    year and episodes were reported by 37 of
    patients
  • 5 of subjects accounted for 54 of all episodes
  • In a subgroup selected to be similar to the DCCT
    cohort, the rate of SH was 0.35 episodes/ patient
    year
  • Severe hypoglycemia remains a significant
    clinical problem in type 1 diabetes

175
UNOS Data
  • of registrations for pa/kd tx (9/16)
    2487
  • of registrations for pa tx
    297
  • of pa/kd txs (2005)
    903
  • of pa txs
    541

176
  • 5 of patients die annually while waiting for a
    pancreas/kidney transplant.
  • The number of patients on the waiting list is
    more than twice as high as the number of
    transplants. The waiting list continues to grow
    by gt15 annually.
  • Morbidity and mortality are higher and quality of
    life is lower for diabetic (vs. non-diabetic)
    patients on dialysis. Transplant priority is not
    given to diabetic patients.

177
Pancreas TransplantsfromLiving Donors
178
Long Term Outcome
UNIVERSITY OF MINNESOTA , 7/1978 6/2004
179
ID Twin Pancreas Transplant Experience
UNIVERSITY OF MINNESOTA, 1/79 - 5/02
180
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181
Caveats from Recurrence of Disease Story
  • The fact that immunosuppression prevents means
    that it should also prevent progression in de
    novo autoimmune diabetes if applied early enough.
  • Immunosuppression done late does not allow beta
    cell regenerationno examples in diabetic kidney
    transplants alone immunosuppressed for up to
    decades

182
Centers Participating in CITR (Coll. Islet Tx
Registry)
183
Allocation
  • Until we have an unlimited source of islets (e.g,
    xenografts are succesful), or until islet and
    pancreas allo-transplantation have equal
    efficiency in inducing insulin-independence in
    the recipients, we must link organ allocation to
    the two BCR techniques by an algorithm that
    allows the maximum number of recipients to become
    insulin-independent while minimizing the
    magnitude of the surgery in as many as possible.

184
ACRGlu IE Txd/Donor Age
1.8
r 0.914 P 0.004
1.6
1.4
1.2
1.0
ACRGlu (ng/mL)
0.8
0.6
0.4
0.2
0.0
5000
10000
15000
20000
25000
IE Transplanted / Donor Age (yr)
185
Stresses in the Recipient Environment
HIGHER CONCENTRATION OF IS DRUGS
SUBOPTIMAL OXYGEN LEVELS / REVASCULARIZATION
TOXIC PRODUCTS FROM GI ENDOTOXINS
PRO-INFLAMMATORY MICROENVIRONMENT
CHRONIC IMPAIRMENT OF ISLET FUNCTION
EARLY GRAFT LOSS PNF - IBMIR
CHALLENGES RELATED TO BIOPSIES AND NON
RETRIEVABILITY
GLUCO AND LIPOTOXICITY
POTENTIAL RISK FOR DISSEMINATED INTRAHEPATIC
INFECTIONS OR CANCER
HIGH GLUCAGON ALTERED a-CELL FUNCTION
186
"I like pigs. Dogs look up to us, cats look down
on us, but pigs see us as their equals."
-Winston Churchill
187
  • Replace insulin producing cellsCAD, LD, XD,
    precursor cell-derived islets
  • Restore self-tolerance andRegenerate islet beta
    cells in native pancreas
  • Retire to a decent place

188
Minimally invasive surgery is desirable.For BCR,
the proportion of cases done by the two
techniques (pancreas vs. islet transplantation)
is influenced by their relative efficiency.
Currently pancreas is dominant.
189
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