Dandy Walker malformation (DWM) is the most common human cerebellar malformation, affecting 1 in every 3000 live births. DWM is an imaging diagnosis that is characterized by three features: cerebellar vermis hypoplasia, an enlarged posterior fossa, and an enlarged fourth ventricle. Although recent advances in neuroimaging have improved diagnosis of DWM, virtually nothing is known about the cellular and histological defects that lead to DWM. One major reason is that little human specific data is available describing the histology of normal and abnormal human fetal cerebellar development. Currently, there is limited published fetal pathology of DWM. There is no comparative analysis available and most studies are confounded by lack of molecular confirmations of diagnoses. We have carried out the first comprehensive histo-pathological analysis of human DWM. Such histo-pathological analysis, that I specifically was responsible for completing, included measuring the length and cell density of certain regions of the developing cerebellum in the 36 DWM cases, such as the external granule layer and the rhombic lip. Our results indicate a significant reduction in size and area of neuronal progenitor zones in the developing human cerebellum. We also observe aberrations in the developmental trajectories of specific cell types like Purkinje cells, and progenitor zones like the rhombic lip. Through our analysis of the human fetal DW cerebellum, we begin to directly address the developmental pathology of human DWM beyond that of the mouse models that share similar pathology. We believe our studies will fundamentally improve our view and understanding of the biology of the human cerebellar development and give us insights on the developmental pathogenesis of DWM.