"Art is a Hardy Plant:" : Benjamin Henry Latrobe and the cultivation of a transitional aesthetics

Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Architecture, 2012.This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.Cataloged from student-submitted PDF version of thesis.Includes bibliographical references (p. [161]-164).This thesis suggests that architect Benjamin Henry Latrobe's engagement with American scientific discourses gave rise to a transitional aesthetics that radically refigured his European-derived notions of art and architecture. Looking at a range of works by Latrobe -- a selection of theoretical writings, the Essay on Landscape (a watercolor instruction manual, 1798-1799), and the Philadelphia Waterworks (1798-1801) -- I analyze his magpie borrowings of climate, geology, and natural history. These borrowings were sometimes awkward and were by no means uniformly successful; however, Latrobe's persistence in the face of failure underscores the importance he accorded to establishing, by any means possible, a mutual correspondence between nature, society, and art. Sometimes called "the father of American architecture," the British-born Latrobe (1764-1820) has generally been recognized for his large, nineteenth-century projects. Focusing on his financial and technical struggles around works like the US Capitol and the Baltimore Exchange, the prevailing historical narrative has emphasized the disjunct between the immigrant Latrobe's professional ambitions and the capabilities of the young American nation. In this thesis, I argue that an emphasis on Latrobe's embattled practice tells us little about the conceptual field that drove his work. More importantly, it ignores the ways in which a larger discursive and physical context transformed the architect's own understanding of his work and its function in a new democratic society. Recognizing, and valuing, the presence of nature in Latrobe's writings offers us a new way of understanding the architect's practice as one attuned to the prevailing physical and social concerns of the period.by Jennifer Y. Chuong.S.M

AI is a viable alternative to high throughput screening: a 318-target study

: High throughput screening (HTS) is routinely used to identify bioactive small molecules. This requires physical compounds, which limits coverage of accessible chemical space. Computational approaches combined with vast on-demand chemical libraries can access far greater chemical space, provided that the predictive accuracy is sufficient to identify useful molecules. Through the largest and most diverse virtual HTS campaign reported to date, comprising 318 individual projects, we demonstrate that our AtomNet® convolutional neural network successfully finds novel hits across every major therapeutic area and protein class. We address historical limitations of computational screening by demonstrating success for target proteins without known binders, high-quality X-ray crystal structures, or manual cherry-picking of compounds. We show that the molecules selected by the AtomNet® model are novel drug-like scaffolds rather than minor modifications to known bioactive compounds. Our empirical results suggest that computational methods can substantially replace HTS as the first step of small-molecule drug discovery

AAPM Medical Physics Practice Guideline 14.a: Yttrium-90 microsphere radioembolization.

Radioembolization using Yttrium-90 (90 Y) microspheres is widely used to treat primary and metastatic liver tumors. The present work provides minimum practice guidelines for establishing and supporting such a program. Medical physicists play a key role in patient and staff safety during these procedures. Products currently available are identified and their properties and suppliers summarized. Appropriateness for use is the domain of the treating physician. Patient work up starts with pre-treatment imaging. First, a mapping study using Technetium-99m (Tc-99m ) is carried out to quantify the lung shunt fraction (LSF) and to characterize the vascular supply of the liver. An MRI, CT, or a PET-CT scan is used to obtain information on the tumor burden. The tumor volume, LSF, tumor histology, and other pertinent patient characteristics are used to decide the type and quantity of 90 Y to be ordered. On the day of treatment, the appropriate dose is assayed using a dose calibrator with a calibration traceable to a national standard. In the treatment suite, the care team led by an interventional radiologist delivers the dose using real-time image guidance. The treatment suite is posted as a radioactive area during the procedure and staff wear radiation dosimeters. The treatment room, patient, and staff are surveyed post-procedure. The dose delivered to the patient is determined from the ratio of pre-treatment and residual waste exposure rate measurements. Establishing such a treatment modality is a major undertaking requiring an institutional radioactive materials license amendment complying with appropriate federal and state radiation regulations and appropriate staff training commensurate with their respective role and function in the planning and delivery of the procedure. Training, documentation, and areas for potential failure modes are identified and guidance is provided to ameliorate them

Long-Term Multi-Institutional Outcomes of 5-Fraction Ablative Stereotactic MR-Guided Adaptive Radiation Therapy (SMART) for Inoperable Pancreas Cancer With Median Prescribed Biologically Effective Dose of 100 Gy10

Purpose/Objective(s): Randomized trials have shown improved local control (LC) but no overall survival (OS) benefit with the addition of non-ablative radiation therapy (RT) dose compared to chemotherapy (CT) alone for pancreas cancer (PCa). Emerging data suggest that dose-escalated RT may improve LC and OS. A few studies suggest that stereotactic magnetic resonance-guided adaptive RT (SMART) can facilitate the safe delivery of ablative dose for inoperable PCa, although long-term outcomes are not well understood. Materials/Methods: Inoperable PCa patients who received SMART were identified from the RSSearch Registry. Patients with \u3c 3 months (mo.) follow-up after SMART were excluded. LC, progression free survival (PFS), and OS were estimated using the Kaplan-Meier method. LC was evaluated according to RECIST 1.1 criteria. Acute toxicity was considered within 90 days of SMART and evaluated by CTCAE v4 criteria. Results: A total of 148 PCa patients were treated on a 0.35T MR LINAC across 3 institutions between 2018-2020. Median age was 68 years (range 47-91), and 73.6% had ECOG 0-1 performance status. Patients had locally advanced (57.4%), borderline resectable (29.1%), or medically inoperable (13.5%) disease. Median CA19-9 at diagnosis was 202.1 U/mL (range 0.9-21,281). Induction CT was delivered to 89.2% for a median 3.9 mo (range 0.2-11.3); FOLFIRINOX (52.7%) or gemcitabine/nab-paclitaxel (23.4%) were common. Median prescribed RT dose was 50 Gy (range 40-50) in 5 fractions, mostly in consecutive days (96.6%) and in breath hold (95.3%). Median biologically effective dose (BED10) was 100 Gy10. All patients were treated with real-time tissue tracking and automated beam gating without fiducial markers. An elective target volume was rarely used (25%). Pancreaticoduodenectomy was performed in 23% at a median 46 days (range 34-304) after SMART. Median follow-up was 16 mo. from diagnosis for all patients (range, 4-39). Median, 1-year, and 2-year LC was not reached (NR), 94.6%, and 83%, respectively. Median, 1-year, and 2-year PFS was 18 mo., 72%, and 35.9%, respectively. Median, 1-year, and 2-year OS was 26 mo., 82%, and 52.7%, respectively. Acute and late grade 3 toxicity possibly related to SMART occurred in 4.1% and 12.8%, respectively. There was no reported grade 4+ toxicity. Conclusion: To our knowledge, this is the largest reported analysis of 5-fraction SMART for inoperable PCa. These data add to the evidence that ablative radiation dose may improve long-term outcomes including OS. Prospective evaluation of this novel approach is warranted with attention directed at optimizing patient selection, understanding the clinical significance of cumulative dose delivered across all adapted fractions, and assessing treatment response after the delivery of ablative dose

Newborn Screening for Severe Combined Immunodeficiency and T-cell Lymphopenia in California, 2010-2017.

Newborn screening for severe combined immunodeficiency (SCID) was instituted in California in 2010. In the ensuing 6.5 years, 3 252 156 infants in the state had DNA from dried blood spots assayed for T-cell receptor excision circles (TRECs). Abnormal TREC results were followed-up with liquid blood testing for T-cell abnormalities. We report the performance of the SCID screening program and the outcomes of infants who were identified. Data that were reviewed and analyzed included demographics, nursery summaries, TREC and lymphocyte flow-cytometry values, and available follow-up, including clinical and genetic diagnoses, treatments, and outcomes. Infants with clinically significant T-cell lymphopenia (TCL) were successfully identified at a rate of 1 in 15 300 births. Of these, 50 cases of SCID, or 1 in 65 000 births (95% confidence interval 1 in 51 000-1 in 90 000) were found. Prompt treatment led to 94% survival. Infants with non-SCID TCL were also identified, diagnosed and managed, including 4 with complete DiGeorge syndrome who received thymus transplants. Although no cases of typical SCID are known to have been missed, 2 infants with delayed-onset leaky SCID had normal neonatal TREC screens but came to clinical attention at 7 and 23 months of age. Population-based TREC testing, although unable to detect immune defects in which T cells are present at birth, is effective for identifying SCID and clinically important TCL with high sensitivity and specificity. The experience in California supports the rapid, widespread adoption of SCID newborn screening