In this paper, we are concerned with the existence of local isometric embeddings into Euclidean space for analytic Riemannian metrics g, defined on a domain U⊂Rn, which are singular in the sense that the determinant of the metric tensor is allowed to vanish at an isolated point (say the origin). Specifically, we show that, under suitable technical assumptions, there exists a local analytic isometric embedding u from (U′,Π⁎g) into Euclidean space E(n2+3n−4)/2, where Π:U′→U\\{0} is a finite Riemannian branched cover of a deleted neighborhood of the origin. Our result can thus be thought of as a generalization of the classical Cartan-Janet Theorem to the singular setting in which the metric tensor is degenerate at an isolated point. Our proof uses Leray's ramified Cauchy-Kovalevskaya Theorem for analytic differential systems, in the form obtained by Choquet-Bruhat for non-linear systems.