Title
Physiological Intermolecular Modification Spectroscopy (PIMS) in Ulcerative Colitis With Golimumab
Personalised Medicine: a Break Through Approach for Early Determination of Anti Tumor Necrosis Factor (TNF) Responders and Non Responders Among Patients With Ulcerative Colitis in a Prospective Study With Golimumab (Simponi)
Phase
Phase 4Lead Sponsor
Kliniken im Naturpark AltmuehltalStudy Type
InterventionalStatus
Unknown statusIndication/Condition
Ulcerative ColitisIntervention/Treatment
golimumab ...Study Participants
50Aim of this study is to determine wether the macromolecular spectral characteristic of ulcerative colitis patients - measured by Physiological Intermolecular Modification Spectroscopy (PIMS) - is a predictive factor for response to Simponi treatment
It is widely appreciated that almost all proteins and other biological macromolecular in vivo exist, at least transiently, as components of structural and functional complexes. This transient interaction in simple component solutions have been studied using well established daylight light scattering (LS) method which reflects molecular oscillation (7-12). Protein association, protein unfolding, protein aggregation and cellular crowding are known to affect the normal function of cellular system (13-19). In many cases, the resulting small changes in normal protein-protein intra- and intermolecular interactions are thought to lead to a variety of human diseases (20, 21). Based on these and the acquired knowledge on LS, the cutting edge technology, PIMS has been developed. PIMS is a label free technology that is able to study protein-protein and protein-solvent interactions in multi-component solutions. It provides individual real time dynamic fingerprint of total physiological macromolecular assemblies in a tissue in presence and absence of exogenous molecules (drug or drug candidate, peptide or protein).
This technology is based on dynamic molecular resonance of proteins and macromolecules. Cellular extracts in physiological conditions are frozen at -37°C. Macromolecular spectra are registered as the temperature within the sample raises from -37 to 37°C. This provides, within the organ of interest, dynamic fingerprint of an individual entire macromolecular assemblies. The present technology can therefore rapidly and specifically determine the response of a tissue or cell when an exogenous molecule is administrated. It reflects patient molecular capacity to respond to the drugs effect and allows to identifying different subpopulations within a group in response to a specific treatment. It highlights the responders from non-responders to a given treatment.
Physiological Intermolecular Modification Spectroscopy
Golimumab: Patients with body weight less than 80 kg initial dose of 200 mg, followed by 100 mg at week 2, then 50 mg every 4 weeks, thereafter // Patients with body weight greater than or equal to 80 kg initial dose of 200 mg, followed by 100 mg at week 2, then 100 mg every 4 weeks, thereafter
Inclusion Criteria: moderate to severe active ulcerative colitis qualified for initiating Golimumab therapy, i.e.inadequate response to conventional therapy including corticosteroids and 6-mercaptopurine or azathioprine or intolerance of medical contraindications to such therapies must be able and willing to provide written informed consent must have a negative tuberculosis screening or if inactive (latent) tuberculosis diagnosed anti-tuberculosis therapy to be started before initiation of Golimumab therapy in accordance with local recommendations Exclusion Criteria: cancer type one diabetes current infection and/or inflammation other than related to ulcerative colitis autoimmune diseases any contraindications stated by Golimumab product label
