Why U.S. Efforts to Promote the Rule of Law in Afghanistan Failed

Promoting the rule of law in Afghanistan has been a major U.S. foreign policy objective since the collapse of the Taliban regime in late 2001. Policymakers invested heavily in building a modern democratic state bound by the rule of law as a means to consolidate a liberal post-conflict order. Eventually, justice-sector support also became a cornerstone of counterinsurgency efforts against the reconstituted Taliban. Yet a systematic analysis of the major U.S.-backed initiatives from 2004 to 2014 finds that assistance was consistently based on dubious assumptions and questionable strategic choices. These programs failed to advance the rule of law even as spending increased dramatically during President Barack Obama's administration. Aid helped enable rent seeking and a culture of impunity among Afghan state officials. Despite widespread claims to the contrary, rule-of-law initiatives did not bolster counterinsurgency efforts. The U.S. experience in Afghanistan highlights that effective rule-of-law aid cannot be merely technocratic. To have a reasonable prospect of success, rule-of-law promotion efforts must engage with the local foundations of legitimate legal order, which are often rooted in nonstate authority, and enjoy the support of credible domestic partners, including high-level state officials

Visuospatial Integration: Paleoanthropological and Archaeological Perspectives

The visuospatial system integrates inner and outer functional processes, organizing spatial, temporal, and social interactions between the brain, body, and environment. These processes involve sensorimotor networks like the eye–hand circuit, which is especially important to primates, given their reliance on vision and touch as primary sensory modalities and the use of the hands in social and environmental interactions. At the same time, visuospatial cognition is intimately connected with memory, self-awareness, and simulation capacity. In the present article, we review issues associated with investigating visuospatial integration in extinct human groups through the use of anatomical and behavioral data gleaned from the paleontological and archaeological records. In modern humans, paleoneurological analyses have demonstrated noticeable and unique morphological changes in the parietal cortex, a region crucial to visuospatial management. Archaeological data provides information on hand–tool interaction, the spatial behavior of past populations, and their interaction with the environment. Visuospatial integration may represent a critical bridge between extended cognition, self-awareness, and social perception. As such, visuospatial functions are relevant to the hypothesis that human evolution is characterized by changes in brain–body–environment interactions and relations, which enhance integration between internal and external cognitive components through neural plasticity and the development of a specialized embodiment capacity. We therefore advocate the investigation of visuospatial functions in past populations through the paleoneurological study of anatomical elements and archaeological analysis of visuospatial behaviors

Method for selective ablation of undifferentiated human pluripotent stem cell populations for cell-based therapies

Human pluripotent stem cells (PSCs), which are composed of embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs), provide an opportunity to advance cardiac cell therapy–based clinical trials. However, an important hurdle that must be overcome is the risk of teratoma formation after cell transplantation due to the proliferative capacity of residual undifferentiated PSCs in differentiation batches. To tackle this problem, we propose the use of a minimal noncardiotoxic doxorubicin dose as a purifying agent to selectively target rapidly proliferating stem cells for cell death, which will provide a purer population of terminally differentiated cardiomyocytes before cell transplantation. In this study, we determined an appropriate in vitro doxorubicin dose that (a) eliminates residual undifferentiated stem cells before cell injection to prevent teratoma formation after cell transplantation and (b) does not cause cardiotoxicity in ESC-derived cardiomyocytes (CMs) as demonstrated through contractility analysis, electrophysiology, topoisomerase activity assay, and quantification of reactive oxygen species generation. This study establishes a potentially novel method for tumorigenic-free cell therapy studies aimed at clinical applications of cardiac cell transplantation