https://www.selleckchem.com/ e comparative analysis of regulatory frameworks in different parts of the world is informative, as scientists must be aware of the rationale of regulators to assertively develop new technology and products that will be commercialized. The comparative analysis also provides insight into the main dissonances that must be addressed, fostering the harmonization of local regulatory frameworks. Many unanswered questions still lie ahead for the field of advanced therapies, and empirical evidence will be the most effective way to separate hype from hope and to establish the most sustainable mechanisms to regulate and finance such products in each part of the world. (Clin Ther. 2021;43XXX-XXX) © 2021 Elsevier HS Journals, Inc.Matrix metalloproteinases (MMPs) are a multigene family of proteinases regulating the functions of a large number of signaling and scaffolding molecules that are involved in neuro-inflammation, synaptic dysfunction and neuronal death. MMPs have been associated with neurological conditions, such as Alzheimer's disease (AD), through a sudden and massive upregulation of particular members of the MMP family. Evidence for this hypothesis can be found in the clinical observation of increased MMP1 and MMP3 expression levels in plasma of AD patients compared to control individuals and in the pro-amyloidogenic effects that have been described for additional MMP family members like MMP13, MT1-MMP, and MT5-MMP. Consequently, we investigated the role of MMP1, 3, 13, MT1-MMP, and MT5-MMP in the genetic etiology of AD. We performed full exonic resequencing of these 5 MMPs in 1278 AD patients (mean age at onset [AAO] 74.88 ± 9.10, range 29-96) and 797 age-matched control individuals (mean age at inclusion [AAI] 74.92 ± 6.48, range 65-100) from Flanders-Belgium and identified MMP13 as most promising candidate gene. We identified 6 ultra-rare (≤0.01%) MMP13 missense mutations in 6 patients that were absent from the control cohort. We observe