Gain-cell embedded DRAM (GC-eDRAM) is an attractive alternative to conventional SRAM due to its high-density, low-leakage, and inherent two-ported functionality. However, its dynamic storage mechanism requires power-hungry refresh cycles to maintain data. This problem is aggravated due to the impact of Process-Voltage-Temperature (PVT) variations at deeply-scaled technology nodes and low voltages. In this paper, we present a GC-eDRAM with body-bias compensated readout, which is dynamically configured to extend the data retention time (DRT) of the memory under varying operating conditions. The proposed GC-eDRAM exploits the body-biasing capabilities of FD-SOI technology to adjust the switching threshold of the sense inverter under PVT variations. An additional, unbiased, sense inverter is added to provide a dual sampling mechanism to the readout path, enabling error detection to further reduce design guard bands. An 8 kb GC-eDRAM with integrated body-bias compensated readout and error detection was implemented in 28 nm FD-SOI technology. Silicon measurements of the manufactured array demonstrate up-to 75% DRT improvement and up-to 86% energy savings under PVT and frequency variations compared to a conventional guard banded memory design.