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©The Author(s) 2015.
World J Gastroenterol. Oct 28, 2015; 21(40): 11282-11303
Published online Oct 28, 2015. doi: 10.3748/wjg.v21.i40.11282
Published online Oct 28, 2015. doi: 10.3748/wjg.v21.i40.11282
Table 1 Azatioprine treatment basis of individual thiopurine methyltransferase status
| TMPT genotype | TPMT fenotype (pmol/mgHb) | Treatment dosis(mg/kg) |
| Homozygous | < 10 | Avoid or consider 0.1-0.2 |
| Heterozygous | 10-24 | 1-1.5 |
| Wild type (normal) | 25-35 | 2-2.5 |
| Wild type (high) | > 35 | 0.5 + 100 mg allopurinol |
Table 2 Genetic association studies of adverse events secondary to azathioprine in inflammatory bowel disease patients
| Study (year) | No. of patients | Conclusion |
| Marinaki et al[34] (2004) | 130 | Significant association with flu-illness, rash, and pancreatitis |
| No association with mielotoxicity | ||
| Allorge et al[35] (2005) | 72 | No association with flu-illness, rash, pancreatitis, or mielotoxicity |
| Gearry et al[36] (2004) | 147 | No association with flu-illness, rash, and pancreatitis |
| De Ridder et al[37] (2006) | 72 | No association with side effects |
| Hindorf et al[38] (2006) | 60 | No association with side effects |
| von Ahsen et al[39] (2005) | 71 | Early withdrawal of therapy but no association with specific adverse events |
| Ansari et al[40] (2008) | 202 | Association with flu-like symptoms but not withdrawal of therapy |
| van Dieren et al[41] (2005) | 109 | Not associated with an increased risk for the development of leucopenia and other side effects |
| Zelinkova et al[42] (2006) | 262 | Increased risk of leucopenia |
| Uchiyama et al[43] (2009) | 16 | Increase risk of mielotoxicity (leucopenia) |
| Shipkova et al[44] (2011) | 160 | Increase risk of mielotoxicity |
| Kim et al[45] (2010) | 248 | No association with leucopenia |
| Zabala-Fernández et al[46] (2011) | 232 | Significant association with artralgia |
Table 3 Genetic association studies of infliximab response in inflammatory bowel disease patients
| Study (year) | Patients recruited | Response criteria | Genes investigated | Conclusion |
| Taylor et al[55] (2001) | 75 | CDAI | Polymorphims TNF/LTA region | Homozygosity for the LTA1-1-1-1 haplotype may identify subgroups with poorer response |
| Louis et al[56] (2002) | 226 | CDAI | TNFA | No association with treatment outcome |
| Mascheretti et al[57] (2002) | 90 | CDAI | TNF and TNFR polymorphism | 196Arg homozygotes had poorer clinical response than 196Met |
| 444 | heterozygotes and homozygotes (P = 0.036) | |||
| No predictive treatment outcome | ||||
| Mascheretti et al[58] (2002) | 534 | CDAI | CARD15/NOD2 | A strong relation to susceptibility to CD but not association with treatment outcome |
| Vermeire et al[59] (2002) | 245 | CDAI | CARD15/NOD2 | Not predictive of treatment outcome |
| Pierik et al[60] (2004) | 166 | CDAI | TNF/TNFR | Biological response to infliximab was lower in patients carrying TNFR1-36G |
| Matsukura et al[61] (2008) | TNFRSF1A | 28% of G allele heterozygotes and homozygotes responded | ||
| 80 | HBI | TNFRSF1B | compared to 73% of A allele homozygotes (P = 0.04) | |
| 5% of patients with AT haplotype responded compared to 20%-40% of patients with other haplotypes (P = 0.01) | ||||
| Louis et al[62] (2004) | 200 | CDAI | FcγRIIIa | Positive (V/V genotype) association with good treatment outcome |
| Urcelay et al[63] (2005) | 40 | CDAI | IBD5(5q31) | Polymorphims TT is associated with negative response |
| Hlavaty et al[64] (2005) | 287 | CDAI | FASL/CASP9 | Positive association |
| Hlavaty et al[65] (2007) | 287 | CDAI | FASL | Negative association (stadistical model) |
| Willot et al[66] (2006) | 189 | CRP | CRP | Polymorphims evaluated are not associated with treatment outcome |
| Dideberg et al[67] (2006) | 214 | CDAI | TNF/LTA region | No association |
| Dideberg et al[68] (2006) | 186 | CDAI and CRP | ADAM17 | Minor allele homozygotes for each SNP associated with clinicalresponse (P < 0.002) |
| Jürgens et al[69] (2010) | 90 | CAI | IL-23RIL-2/IL-21 | Homozygous carriers of IBDrisk-increasing IL-23R variants more likely to respond to infliximab than homozygous carriers of IBD risk-decreasing IL-23R variants (P = 0.001) |
| Dubinsky et al[70] (2010) | 94 | HBI and Partial Mayo score | rs2241880 2q37/ATG16L1rs21889625q31rs6908425 6p22/CDKAL1rs762421 21q22/ICOSLGrs2395185 6p21/HLA-DAQ1rs2836878 21q22/BRWD1 | Six known susceptibility lociassociated with primary nonresponse(P < 0.05). Only the 21q22.2/BRWDIloci remained significant in thepredictive model |
Table 4 Risk factors associated to primary failure
| Crohn's disease | Ulcerative colitis |
| Duration of the disease > 2 yr | Old age |
| Smoking | Anti-neutrophil cytoplasmic (ANC) antibodies |
| Extensive small bowel involvement | Negative antibodies against Saccharomyces cerevisiae |
| Low C-reactive protein levels | Previous exposure to anti-TNF-α drugs |
| Genetic mutations or polymorphisms of the apoptosis and caspase 6 genes and locus IBD 5 |
Table 5 Risk factors associated to secondary failure or loss of response
| Individual differences in bioavailability and pharmacokinetics |
| Symptoms not due to inflammatory bowel disease |
| Lack of adherence to therapy |
| Drug loss in stools |
| Intermittent treatments |
| Non-inflammatory symptoms |
| Structuring disease pattern |
| Smoking |
| Development of antibodies |
Table 6 Treatment algorithm according to antidrug antibodies and drug levels
| Anti-TNF-αdrug levels | Antibodies | Action |
| Low | Negative | Increase dose |
| Low | Positive | Switch drug |
| High | Not determined | Switch to a drug with a different mechanism of action |
Table 7 Treatment with herbal remedies
| Author | n | Producto | Comparador | Indicación | Remisión/response herbal vs PB or drug (%) |
| Langmead | 44 | Aloe vera | Placebo | Induction remission CU | 30 vs 7 |
| Ben-Arye | 23 | Triticum aestivum | Placebo | Induction remission CU | 91 vs 42 |
| Khan | 14 | Bovine colostrum enema | Placebo | Induction remission CU | |
| Sandborn | 224 | HMPL-004 | Placebo | Induction remission CU | 38/60 vs 25/40 |
| Fukunaga | 30 | Xilei-san suppository | Placebo | Induction remission CU | 46 vs 0 |
| Zhang | 35 | XIlei-san enema | Enema dexametasona | Induction remission CU | |
| Tang | 120 | HMPL-004 | Mesalazina | Induction remission CU | 21 vs 16 |
| Gupta | 30 | Boswellia serrata | Sulfasalazina | Induction remission CU | 70 vs 40 |
| Cheng | 153 | Jian Pi Ling tablet | Sulfasalazina | Induction remission CU | 53 vs 28/19 |
| Placebo | |||||
| Wang | 106 | Kui Jie Quing enemas | Sulfasalazina | Induction remission CU | 72 vs 9 |
| Prednisolona | |||||
| Cheng | 118 | Yukui tang ablets | Prednisolonoa | Induction remission CU | 33 vs 17 |
| Neomicina | |||||
| Vitamina B | |||||
| Fernández Bañares | 105 | Plantago ovata sedes | Mesalazine | Maintenance remission CU | 60 vs 65 |
| Hanai | 89 | Curcumin | Placebo | Maintenance remission CU | 95 vs 79 |
| Greenfield | 43 | Oenothera biennis | Evening primrose oil and olive oil | Maintenance remission CU | |
| Omer | 40 | Artemisia absinthium | Placebo | Treatment and prevention recurrence EC | 65 vs 0 |
| Krebs | 20 | Artemisia absinthium | Placebo | Treatment and prevention recurrence EC | 80 vs 20 |
| Gerhardt | 102 | Boswellia serrata extract | Mesalazine | Treatment and prevention recurrence EC | 36 vs 31 |
| Ren | 20 | Tripterygium wilfordii | Placebo | Treatment and prevention recurrence EC | |
| Holtmeier | 108 | Boswellia serrata extract | Placebo | Treatment and prevention recurrence EC | 60 vs 55 |
| Tao | 45 | Tripterygium wilfordii | Mesalazine | Treatment and prevention recurrence EC | 68 vs 61 |
| Liao | 39 | Tripterygium wilfordii | Sulphasalazine | Treatment and prevention recurrence EC | 94 vs 75 |
- Citation: Gómez-Gómez GJ, Masedo &, Yela C, Martínez-Montiel MDP, Casís B. Current stage in inflammatory bowel disease: What is next? World J Gastroenterol 2015; 21(40): 11282-11303
- URL: https://www.wjgnet.com/1007-9327/full/v21/i40/11282.htm
- DOI: https://dx.doi.org/10.3748/wjg.v21.i40.11282