Public Use and the Original Understanding of the So-Called Takings Clause

Eminent domain has evolved to encourage almost every conceivable type of economic development. In response, opponents have argued that the proposed takings are not for a public use as that term is used in the Fifth Amendment. They argue that public use was intended to operate as a substantive limit on government takings. Part I of this Article will explore the civil law theories that inform most modem judicial and scholarly commentary on eminent domain and the confusion that has resulted from this relatively recent misreading of the constitutional history and text. However, judicial supervision of legislative expropriations would have been foreign to the Founding Generation, who generally understood that the principle of consent inherent in a representative government reserved the sole power to expropriate property to the legislature. Thus, Parts IE and III show that the origins of eminent domain are found in the long struggle for legislative supremacy between Crown and Parliament that also culminated in the American Revolution. From early on, English law prohibited the Crown from expropriating property; Parliament alone expropriated property, which was an exercise of its right to consent on behalf of the estates. Part IV argues that American theorists drew on this heritage and left little room for supervision by the judicial branch. The drafters of the Fifth Amendment, drew upon this principle of consent to ensure that property would be safe from executive expropriation. Aside from the requirement that an owner receive compensation, Congress did not intend to limit the pre-existing power of the legislature to expropriate property. Thus, Part V concludes that what is commonly thought to be a takings clause is nothing more than a compensation clause

The Double Loaded LV: High Prevalence of Hypertensive LVH Preceding the Development of Severe Aortic Stenosis

Background: It is generally assumed that left ventricular hypertrophy (LVH) in aortic stenosis (AS) is a compensatory adaptation to chronic outflow obstruction. However the advent of TAVR has stimulated more focus on AS in older patients, most of whom have antecedent hypertension (HTN). Accordingly our aim was to investigate the interaction between HTN and AS on LV remodeling in contemporary practice. Methods: We studied 33 consecutive patients with AV peak velocity (PV) \u3e2.5 m/s on their initial echo and a PV of \u3e3.5 m/s on a subsequent study performed at least 5 years later. Patients’ demographics and clinical information were collected. Peak intraventricular pressure (IVP, mmHg) was defined as the sum of systolic arterial pressure and peak intraventricular gradient.Data were analyzed using descriptive statistics, paired- samples T test, and linear correlation. Results: Of our sample (46% women, mean age of 82±11 y), 29 (88%) had a history of hypertension. The average interval between the two echo studies was 6.2±1 years. As expected, wall thickness, LV Mass, and relative wall thickness increased over time. There was no correlation between change in LV mass index (LVMi, g/m2) and peak IVP, PV or AV MG. However change in LVMi did correlate inversely with baseline LVMi (r= -0.37, p= 0.03). Conclusion: Most patients seen in our practice with severe AS have antecedent hypertension and LVH. LVH worsens in parallel with worsening severity of AS. Remodeling in these patients features increasing concentric remodeling of the LV, rather than LV dilation. Given these findings, we speculate that regression of LVH to normal will not be effected by AVR because LVH proceeded hemodynamically severe AS. Strict control of blood pressure might be of equal importance in preventing and ameliorating pressure overload in these patients

Cotranslational Folding Stimulates Programmed Ribosomal Frameshifting in the Alphavirus Structural Polyprotein

Viruses maximize their genetic coding capacity through a variety of biochemical mechanisms, including programmed ribosomal frameshifting (PRF), which facilitates the production of multiple proteins from a single mRNA transcript. PRF is typically stimulated by structural elements within the mRNA that generate mechanical tension between the transcript and ribosome. However, in this work, we show that the forces generated by the cotranslational folding of the nascent polypeptide chain can also enhance PRF. Using an array of biochemical, cellular, and computational techniques, we first demonstrate that the Sindbis virus structural polyprotein forms two competing topological isomers during its biosynthesis at the ribosome-translocon complex. We then show that the formation of one of these topological isomers is linked to PRF. Coarse-grained molecular dynamics simulations reveal that the translocon-mediated membrane integration of a transmembrane domain upstream from the ribosomal slip site generates a force on the nascent polypeptide chain that scales with observed frameshifting. Together, our results indicate that cotranslational folding of this viral protein generates a tension that stimulates PRF. To our knowledge, this constitutes the first example in which the conformational state of the nascent polypeptide chain has been linked to PRF. These findings raise the possibility that, in addition to RNA-mediated translational recoding, a variety of cotranslational folding or binding events may also stimulate PRF

Uniqueness Typing for Resource Management in Message-Passing Concurrency

We view channels as the main form of resources in a message-passing programming paradigm. These channels need to be carefully managed in settings where resources are scarce. To study this problem, we extend the pi-calculus with primitives for channel allocation and deallocation and allow channels to be reused to communicate values of different types. Inevitably, the added expressiveness increases the possibilities for runtime errors. We define a substructural type system which combines uniqueness typing and affine typing to reject these ill-behaved programs

Ticagrelor versus clopidogrel in patients with acute coronary syndromes intended for non-invasive management: substudy from prospective randomised PLATelet inhibition and patient Outcomes (PLATO) trial

Objective To evaluate efficacy and safety outcomes in patients in the PLATelet inhibition and patient Outcomes (PLATO) trial who at randomisation were planned for a non-invasive treatment strategy

Blood-Brain Barrier Breakdown in the Aging Human Hippocampus

The blood-brain barrier (BBB) limits entry of blood-derived products, pathogens, and cells into the brain that is essential for normal neuronal functioning and information processing. Post-mortem tissue analysis indicates BBB damage in Alzheimer’s disease (AD). The timing of BBB breakdown remains, however, elusive. Using an advanced dynamic contrast-enhanced MRI protocol with high spatial and temporal resolutions to quantify regional BBB permeability in the living human brain, we show an age-dependent BBB breakdown in the hippocampus, a region critical for learning and memory that is affected early in AD. The BBB breakdown in the hippocampus and its CA1 and dentate gyrus subdivisions worsened with mild cognitive impairment that correlated with injury to BBB-associated pericytes, as shown by the cerebrospinal fluid analysis. Our data suggest that BBB breakdown is an early event in the aging human brain that begins in the hippocampus and may contribute to cognitive impairment