1. Gastroparesis: �Why do we do what we do? Nicholas Netherland, M.D.
UAB Gastroenterology Grand Rounds
September 8, 2008
2. Gastroparesis Epidemiology
Clinical Manifestations
Etiology
Differential Diagnosis
Diagnosis
Treatment
3. Epidemiology Estimated to affect up to 4% of US population.
34 y/o – average age of onset
82% female
4. Clinical Manifestations Nausea 92%
Vomiting 84%
Bloating 75%
Early Satiety 60%
5. Clinical Manifestations Mild
Intermittent mild symptoms
No weight loss or nutritional deficiencies
Easily controlled with diet/avoiding meds that slow emptying
6. Clinical Manifestations Moderate
Moderately severe symptoms
Controlled with prokinetics/antiemetics
Infrequent hospitalizations
7. Clinical Manifestations Severe
Fail to maintain nutrition/hydration
Frequent hospital visits/admissions
Unresponsive to prokinetics/antiemetics
How do we define these groups if we want to do a clinical trial?
Until recently no standardized method
8. Clinical Manifestations
Validated Patient-assessed Gastroparesis symptom severity measure
Gastroparesis Cardinal Symptom Index (GCSI)
Revicki DA, et al. Aliment Pharmacol Ther 2003
9. GCSI N = 169
7 US University Hospitals
3 subscales of PAGI-SYN for upper GI symptoms
10. GCSI Each parameter scored on 0-5 scale
1. Nausea
2. Retching
3. Vomiting
4. Stomach Fullness
5. Not able to finish normal-sized meal
6. Feeling excessively full after meals
7. Loss of appetite
8. Bloating (feeling like you need to loosen your clothes)
9.Stomach or belly visibly larger
11. GCSI Baseline and 8 weeks
GCSI
SF-36
Disability days
Clinician assessment
GCSI was significantly related to all 3 comparitors
12. Etiology Diabetic
Idiopathic
Post-surgical
Other
13. Diabetic Delayed Gastric emptying
DM-1 – 27-58%
DM-2 – 30%
14. Etiology - Diabetic Impared antral contractions
Altered intragastric distribution
Prolonged liquid retention in fundus
Prolonged solid food retention in both proximal and distal stomach
15. Etiology - Diabetic Neuropathic
Gastric acid output reduced
Vagus nerve histology shows myelin degeneration
Non-neuropathic
Decreased Interstitial Cells of Cajal (ICCs)
16. Etiology - Diabetic Non-neuropathic
Hyperglycemia (as low as 140 mg/dL)
Blounts antral contractions healthy humans
In diabetics, hyperglycemia delays solid emptying that improves with euglycemia
17. Etiology - Idiopathic Not well understood
Up to 25% with acute onset after viral illness
Symptoms may resolve over several years
No underlying neuropathy
Normal pH after sham feedings
Can have decreased ICCs
18. Etiology – Post-Surgical Vagotomy for ulcer disease
Nissen Fundoplication
Roux - en - Y gastrojejunostomy
Roux stasis syndrome
Spastic/retroperistaltic Roux limb contractions
Esophagectomy/Gastric pull through
Whipple (pylorus preserving)
19. Differential Diagnosis Chronic Intestinal Pseudo-Obstruction
Scleroderma
Polymyositis/dermatomyositis
SLE
Myotonic dystrophy/muscular dystrophy
Amyloidosis
Paraneoplastic
Chaga’s
20. Evaluation PE
Evaluate Volume Status
Skin turgor, dry mucous membranes
Tachycardia, orthostasis
Abdominal distention, Succussion splash
Clues to other etiologies
Malar rash, sclerodactyly
Cachexia, lymphadenopathy
21. Evaluation Lab
Electrolytes
Protein/albumin
Glucose
Thyroid/parathyroid
If suspected, autoantibodies for scleroderma, SLE, polymyositis
22. Evaluation EGD or Barium study
Rule out gastric outlet obstruction
23. Evaluation Gastric Emptying Scintigraphy
Gold standard
99M Tc Sulfur colloid bound to solid food
Traditionally lack of standard criteria between institutions
T1/2 or time intervals
Different diagnostic criteria determined at each institution
Delay of 2 SD vs. 1.5 SD vs. 1 SD
Different Meals
Different patient positions
24. Evaluation Gastric Scintigraphy
Tougas et al, AJG 2000
Define normal gastric emptying
123 healthy volunteers
60 female, 63 male
No illnesses, surgeries, medications
102 Whites; 21 Asian, African-American, Hispanic
72 USA, 37 Canada,14 Europe
Standard meal
EggBeaters (equiv. to 2 large eggs)
1 mCi 99Tc labeled sulfur colloid
2 slices of bread
Strawberry jam
120ml Water
25. Gastric Scintigraphy Tougas et al, AJG 2000
Images at 0, 60, 120, 240 minutes
Data was not normally distributed, using SD may be unreliable
Retention of >10% at 4hr (95% percentile) is abnormal
26. Gastric Scintigraphy Consensus Statement
American Neurogastroenterology and Motility Society and the Society of Nuclear Medicine
Abell TL et al. AJG 2008
27. Gastric Scintigraphy Eggbeaters meal as described by Tougas et al.
0, 1, 2, 4 hr images
standing
1 min anterior and 1 min posterior image
Percent remaining in stomach reported
1h (37-90%)
2h (30-60%)
4h (0-10%)
28. Diagnosis Antro-Duodenal Manometry
Ultrasonography
Electrogastrography (EGG)
13C-breath testing
29. Therapy Dietary/Non-medical
Medications
Antiemetics
Pro-motility
Endoscopic
Surgical
30. Dietary/Non-medical No evidence from controlled trials
Multiple small meals
Liquid instead of solid meals
Low fat
Reduce indigestible fiber
Discontinue medications that slow emptying if possible
Place jejunal feeding tube if unable to maintain nutritional needs
31. Antiemetics No evidence from controlled trials
Phenothiazines
Prochlorperazine
Promethazine
Serotonin 5-HT3 antagonists
Odansetron
Muscarinic antagonisits
scopolamine
32. Prokinetics Metoclopramide
Only FDA approved drug for gastroparesis
Erythromycin
Domperidone
Not FDA approved in US
Cisapride
Removed from US market 2000
Cardiac toxicity
33. Prokinetics Data limited
Small
Very few RCTs
Heterogeneous
Etiology of gastroparesis
Outcomes
Symptoms or improved emptying?
34. Prokinetics Data limited
Most studies lack validated symptom score
Lack standardized gastric emptying study
Poor long-term data
Dose in erythromycin studies varies widely
35. Prokinetics Metoclopramide
Substituted benzamide
Promotility effect in upper GI tract
5-HT4 receptor agonist
Increase LES pressure/fundic tone
Increase antral contractions
Dopamine receptor antagonist
Weak 5-HT3 receptor antagonist
36. Prokinetics Metoclopramide
Side effects – up to 30%
Crosses blood-brain barrier
Dizziness, drowsiness, hyperprolactinemia
Dystonic reactions
Facial spasm
Trismus
Torticollis
Oculogyric crisis
37. Prokinetics Metoclopramide
Perkel Dig Dis Sci 1979
n=26
Idiopathic = 19
Diabetic = 5
Post-surgical = 4
Abnormal barium “burger” test (>6hr)
3 week, double blind, placebo controlled
Metoclopramide 10mg QID vs placebo QID
38. Metoclopramide Perkel Dig Dis Sci 1979
Composite symptom score – graded 0-4
1. Meal intolerance
2. Epigastric pain
3. Post-prandial bloating
4. Heartburn
5. Belching & regurgitation
6. Nausea
7. Vomiting
8. Anorexia
9. Early satiety
39. Metoclopramide Perkel Dig Dis Sci 1979
Mean Symptom Score
40. Metoclopramide McCallum RW, et al. Diabetes Care 1983
Double blind, randomized, placebo
3 weeks
N = 44
All DM
Metoclopramide 10mg QID vs. placebo QID
41. Metoclopramide McCallum RW, et al. Diabetes Care 1983
Symptom Score for each area
graded 0-4
Fullness
Nausea
Vomiting
Anorexia
Early satiety
Intolerance of meals
42. Metoclopramide Evaluated improvement in patients reporting at least moderate (2) symptoms pre-treatment
43. Metoclopramide
44. Metoclopramide
45. Metoclopramide McCallum RW, et al. Diabetes Care 1983
Adverse Effects
Metoclopramide = 9
8 CNS (restlessness, drowsyness, anxiety, depression)
Placebo = 4
3 CNS (drowsyness, headache)
46. Prokinetics Erythromycin
Macrolide antibiotic
Motilin receptor agonist
Increase antral peristalsis
Trigger MMC
Tachyphylaxis
possibly avoided by using low doses (50-100mg/d)
47. Prokinetics Erythromycin
Adverse effects
Skin rash
Nausea
Abdominal cramping
Torsades de pointes
Antibiotic resistance
48. Erythromycin Janssens J et al. NEJM 1990
N = 10
All DM
Series of 3 radionucleotide gastric emptying studies
1. Pre-treatment
2. Initial dose of erythromycin 200mg IV at time of test
3. After 4 weeks of po erythromycin 250mg TID
49. Erythromycin Janssens J et al. NEJM 1990
50. Erythromycin Richards RD, et al. AJG 1993
N = 14
Idiopathic = 10
DM = 4
All had prior abnormal gastric emptying study
Initial IV dose of erythromycin (6mg/kg)
Then oral erythromycin 500mg QID
May dose reduce if adverse affects
4 weeks
51. Erythromycin Richards RD, et al. AJG 1993
Gastric emptying studies at time of IV erythromycin and at completion
Composite symptom score
Calculated at baseline and completion
5 symptoms on a 0-10 scale
At least 15 points for enrollment
52. Erythromycin Richards RD, et al. AJG 1993
Significant improvement in both on-treatment gastric emptying studies vs. pre-treatment study
Significant improvement in “global score”
Though the global score wasn’t defined
No significant improvement in composite symptom score.
Only 10 completed study
several dose-reduced secondary to side effects.
53. Erythromycin Dhir R, Richter JE. J Clin Gastroenterol 2004
n = 25
DM = 2
Scleroderma = 1
Hypothyroidism = 3
Initial gastric emptying study
235 +/- 124.5 min (T1/2)
Erythromycin 50-100mg TID
54. Erythromycin Dhir R, Richter JE. J Clin Gastroenterol 2004
Clinical Outcomes
Worsened
Unchanged
Improved (but <50% improvement)
Dramatically improved (>50% improvement)
55. Erythromycin Dhir R, Richter JE. J Clin Gastroenterol 2004
6-8 week follow-up
15/18 (83%) improved
12/18 (66%) with dramatic (>50%) improvement
3/18 (17%) no improvement or worsening
Long term follow-up (telephone)
Mean duration of use -11 months
12/18 (67%) symptom improvement
6/18 (33%) no improvement or worsening
15/18 (83%) discontinued treatment by time of contact
56. Prokinetics Domperidone
Benzimidazole derivative
Dopamine 2 antagonist
Promotility effect in upper GI tract
Not FDA approved in US
Doesn’t cross blood-brain barrier
Fewer central side effects
Hyperprolactimemia, breast engorgement, galactorrhea
57. Prokinetics Domperidone
Horowitz M et al. Dig Dis Sci 1985
Open label, 6 month follow-up
N = 12
Insulin dependent diabetics
Domperidone 20mg TID
58. Domperidone Horowitz M et al. Dig Dis Sci 1985
Composite score – each symptom 0-3 scale
Anorexia/nausea
Early satiety
Epigastric fullness/upper abdominal discomfort
Post-prandial vomiting
Gastric emptying study
Pre-treatment, 7-days after starting therapy, 35-51 days after starting therapy
59. Domperidone Horowitz M et al. Dig Dis Sci 1985
Composite score
Pre-treatment - mean 4.5
Post-treatment - mean 1.5 (p<0.001)
Gastric emptying study
Significantly improved acutely
After chronic use, solid phase emptying not significanty different than pre-treatment
No adverse effects reported during study
60. Domperidone Patterson D. et al. AJG 1999
4 week, multicenter, double-blind, randomized
Insulin Dependent Diabetics
Domperidone 20mg QID vs. Metoclopramide 10mg QID (no placebo group)
N=93
Domperidone = 48
Metoclopramide = 45
Composite symptom score – each 0-4 scale
Nausea, vomiting, bloating/distention, early satiety
61. Domperidone Patterson D. et al. AJG 1999
Treatment Efficacy (composite score)
Domperidone
Pre treatment 8.0 +/- 0.3
End treatment 4.7 +/- 0.5 (41% reduction)
Metoclopramide
Pre-treatment 8.3 +/- 0.3
End treatment 5.1 +/- 0.5 (39% reduction)
Effect in 2 groups not significantly different
62. Domperidone Patterson D. et al. AJG 1999
Side Effects
CNS (somnolence, akathisia, anxiety, depression, mental acuity)
Significantly greater with metoclopromide (~22-52%) than domperidone (15-30%)
63. Endoscopic Pyloric injection of Botulinum Toxin A
Case reports and case series have reported favorable results
2 small unpublished RCTs with negative results
1 published RCT
64. BoTox Double blind, placebo, crossover
N=12 (DM =2, idiopathic =10)
25u BoTox in 4 quads vs. Saline
2 EGDs
4 weeks wash-out between
Symptom score and scintigraphy
Before treatment
4 weeks after each above treatment
65. BoTox Scintigraphy (T1/2)
Symptom score – no significant change
66. BoTox Double blind, placebo controlled, randomized, crossover
N=18 (DM=8, post-nissen=10)
25u BoTox in 4 quads vs. Saline
Scintigraphy and GCSI
67. BoTox Scintigraphy (t1/2) GCSI
68. Friedenberg et al. First published RCT
34 patients randomized
200 units BoTox n=16 vs. Saline n=16
1 month follow-up
Primary end point – symptomatic improvement (>9 pt improvement in GCSI)
Secondary end point – improvement in Gastric emptying study
70. Friedenberg et al.
71. Endoscopic Pyloric Balloon Dilation
No published evidence
72. Endoscopic Venting PEG
Only 1 published case series in gastroparesis
8 patients
All idiopathic gastroparesis
All females with “severe” symptoms
15 – 51 y/o
20f PEG placed for venting
73. Endoscopic Venting PEG
Follow-up 18-41 months (mean 29)
Symptomatic improvement in all patients
Defined by 18 point symptom scale
All patients gained weight after PEG
4-41 month duration fo PEG use
74. Endoscopic
75. Jejunal Feeding tube No controlled studies in adults
76. Surgical Gastric Electrical Stimulation
High-energy/low-frequency
Produces gastric contraction
Entrains gastric rhythm
External generator required
Low-energy/High-frequency
Generator small enough to be implantable
doesn’t produce gastric contractions
77. Surgical Gastric Electrical Stimulation
Enterra System (Medtronic)
FDA Humanitarian Device Exemption
Must be implanted in an institution where IRB has approved
79. Surgical Gastric Electrical Stimulation (GES)
Only controlled study published
N=33
12 month study, 2 phases
2 month randomized cross over double blind
1 month on then 1 month off or vice versa
10 month open label
All on
Remained on prokinetics/antiemetics
Low-energy/high-frequency
80. Surgical Monitored parameters
Vomiting frequency
Composite score (total symptom score - TSS)
6 symptoms rated on 0-5 scale
Gastric scintigraphy
Baseline, 6mo, 12 mo
SF-36
Baseline, 1mo, 2mo, 6mo, 12mo
81. GES
82. GES
83. GES Phase II
Statistically significant improvement in all measured parameters
Vomiting
TSS
Gastric scintigraphy
SF-36
84. GES Complications – 5/33 (15%)
required surgery
2 infected generator pockets
1 gastric perforation by lead
1 generator erosion through skin
1 pain from generator migration
85. Summary Strong data doesn’t exist
Need more, larger, better designed studies
GCSI
Standardized gastric emptying scintigraphy
86. Summary Step-wise approach depending on severity of symptoms
Dietary modification
Antiemetics
Prokinetics
In proper clinical situations
Jejunal feeding tube placement
TPN
87. Summary No evidence to support
Botox
Pyloric balloon dilation
Venting PEG
Maybe future studies could identify subgroups that may benefit�
In the future
Gastric electrical stimulation
88. References Soykan I, Sivri B, Saroseik I, et al. Demography, clinical characteristics, psychological and abuse profiles, treatment, and long-term follow-up of patients with gastroparesis. Dig Dis Sci. 1998;43:2398–2404
Bytzer P, Talley NJ, Leemon M, et al. Prevalence of gastrointestinal symptoms associated with diabetes mellitus. Arch Intern Med. 2001;161:1989–1996
Merio R, Festa A, Bergmann H, et al. Slow gastric emptying in type I diabetes: relation to autonomic and peripheral neuropathy, blood glucose, and glycemic control. Diabetes Care. 1997;20:419–423.
Forster J, Damjanov I, Lin Z, et al. Absence of interstitial cells of Cajal in patients with gastroparesis and correlation with clinical findings. J Gastrointest Surg. 2005;9:102–108.
Tougas G, Eaker EY, Abell TL, et al. Assessment of Gastric Emptying using a Low Fat Meal: establishment of international control values. Am J Gastroenterol. 2000;95:1456-1462.
Abell TL, Camilleri M, Donohoe K, et al. Consensus Recommendations for Gastric Emptying Scintigraphy: A Joint Report of the American Neurogastroenterology and Motility Society and the Society of Nuclear Medicine. Am J Gastroenterol. 2008;103:753-763.
Perkel MS, Moore C, Hersh T, et al. Metoclopramide therapy in patients with delayed gastric emptying: a randomized, double-blind study. Dig Dis Sci. 1979;24:662-666.
McCallum RW, Ricci DA, Rakatansky H, et al. A Mutlicenter placebo-controlled trial of oral metoclopramide in diabetic gastroparesis. Diabetes Care. 1983;6:463-467.
89. References Janssens J, Peeters TL, Vantrappen G, et al. Improvement of Gastric Emptying in Diabetic Gastroparesis by Erythromycin. Prelimanary Studies. NEJM. 1990:322;1078-1079.
Richards RD, Davenport K, McCallum RW. The Treatment of Idiopathic and Diabetic Gastroparesis with Acute Intravenous and Chronic Oral Erythromycin. Am J Gastroenterol. 1993:88;203-207.
Dhir R, Richter JE. Erythromycin in the Short and Long-Term Control of Dyspepsia Symptoms in Patients with Gastroparesis. J Clin Gastroenterol. 2004;38:237-242.
HorowitzM, Harding PE, Chatterton BE, et al. Acute and Chronic Effects of Domperidone on Gastric Emptying in Diabetic Autonomic Neuropathy. Dig Dis Sci. 1985;30:1-9.
Patterson D, Abell T, Rothstein R, et al. A double-blind multicenter comparison of domperidone and metoclopramide in the treatment of diabetic patients with symptoms of gastroparesis. Am J Gastroenterol. 1999;94:1230-1234.
Arts J, Caeaenepeel P, Degreef T, et al. Radomised double-blind cross-over study evaluating the effect of intrapyloric injection of botulinum toxin in gastric emptying and sypmtoms in patients with gastroparesis. Gastroenterology 2005;128:A544
Arts J, Bisschops R, Caenepeel P, et al. A placebo-controlled crossover study of intrapyloric injection of botulinum toxin in diabetic or postsurgical gastroparesis. Gastroenterology 2007;132:A779.
Friedenberg et al. Botulinum Toxin A for the Treatment of Delayed Gastric Emptying. Am J Gastroenterol 2008;103:424-426
Kim et al. Venting Percutaneous gastrostomy in the treatment of refractory idiopathic gastroparesis. Gastrointest Endosc 1998;47:67-70.
Abell et al. Gastric Electrical Stimulation for Medically Refractory Gastroparesis. Gastroenterology 2003;125:421-428
