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1.
Clin Anat ; 33(6): 960-968, 2020 Sep.
Article in English | MEDLINE | ID: mdl-32449191

ABSTRACT

INTRODUCTION: Integration has been recognized as an important aspect of medical education. After transitioning from a discipline-specific to a systems-based preclinical curriculum, we examined faculty perceptions of the integrated approach and also whether it would lead to better anatomy knowledge retention. METHODS: To understand faculty perspectives, we reviewed curricular materials, interviewed block directors, and observed educational sessions. We analyzed knowledge retention through a 27-question anatomy test, comparing scores from the last class of the discipline-based curriculum and the first two classes of the integrated curriculum. RESULTS: Planning integrated content involves purposeful ordering, is challenging for faculty, and requires additional resources. Evaluation of the integrated approach for anatomy content demonstrated a significant increase in knowledge retention (p = .012; 56.28% vs. 63.98% for old vs. new curriculum). CONCLUSIONS: This study helps the understanding of what is required for curricular integration. Our anatomy evaluation results corroborated the view that contextually embedded information is easier to learn and retain.


Subject(s)
Anatomy/education , Curriculum , Education, Medical, Undergraduate/methods , Educational Measurement , Humans , Learning , Program Evaluation
2.
Teach Learn Med ; 30(3): 242-254, 2018.
Article in English | MEDLINE | ID: mdl-29283669

ABSTRACT

Phenomenon: Systems thinking is the cornerstone of systems-based practice (SBP) and a core competency in medicine and health sciences. Literature regarding how to teach or apply systems thinking in practice is limited. This study aimed to understand how educators in medicine, physical therapy, physician assistant, nursing, and speech-language pathology education programs teach and assess systems thinking and SBP. APPROACH: Twenty-six educators from seven different degree programs across the five professions were interviewed and program descriptions and relevant course syllabi were reviewed. Qualitative analysis was iterative and incorporated inductive and deductive methods as well as a constant comparison of units of data to identify patterns and themes. FINDINGS: Six themes were identified: 1) participants described systems thinking as ranging across four major levels of healthcare (i.e., patient, care team, organization, and external environment); 2) participants associated systems thinking with a wide range of activities across the curriculum including quality improvement, Inter-professional education (IPE), error mitigation, and advocacy; 3) the need for healthcare professionals to understand systems thinking was primarily externally driven; 4) participants perceived that learning systems thinking occurred mainly informally and experientially rather than through formal didactic instruction; 5) participants characterized systems thinking content as interspersed across the curriculum and described a variety of strategies for teaching and assessing it; 6) participants indicated a structured framework and inter-professional approach may enhance teaching and assessment of systems thinking. Insights: Systems thinking means different things to different health professionals. Teaching and assessing systems thinking across the health professions will require further training and practice. Tools, techniques, taxonomies and expertise outside of healthcare may be used to enhance the teaching, assessment, and application of systems thinking and SBP to clinical practice; however, these would need to be adapted and refined for use in healthcare.


Subject(s)
Health Personnel/education , Systems Analysis , Teaching , Clinical Competence , Curriculum , Female , Humans , Interviews as Topic , Male , Qualitative Research
3.
Environ Sci Technol ; 47(21): 12193-200, 2013.
Article in English | MEDLINE | ID: mdl-24090248

ABSTRACT

We evaluated long-term surface water nitrate and atmospheric nitrogen (N) deposition trends for a group of nine predominantly forested Appalachian Mountain watersheds during a recent multidecadal period (1986-2009) in which regional NOx emissions have been progressively reduced. Statistical analysis showed unexpected linear declines in both annual surface water nitrate-N concentrations (mean =46.4%) and yields (mean =47.7%) among the watersheds corresponding to comparable declines in annual wet N deposition (mean =34.4%) resulting from U.S. NOx emission control programs during the same time period. Nitrate-N concentration trends were robust across a large geographical region and appeared insensitive to watershed size across several orders of magnitude-suggesting that the improvements in water quality are probably propagated to surface and estuarine waters downstream. Surface waters are thus responding to declining atmospheric N deposition in much the same way they responded to declining sulfur deposition-although only one watershed showed a 1:1 relationship. Application of a kinetic N saturation model indicated that all nine forested watersheds are exhibiting signs of N saturation as evidenced by a limited, but variable, efficiency of demand for N. Further reductions in N deposition would be expected to produce additional reductions in streamwater N loads.


Subject(s)
Atmosphere/chemistry , Nitrogen/analysis , Water Quality , Appalachian Region , Geography , Kinetics , Models, Theoretical , Nitrates/analysis , Time Factors
4.
Environ Monit Assess ; 185(3): 2123-37, 2013 Mar.
Article in English | MEDLINE | ID: mdl-22644126

ABSTRACT

Management of stream nutrients is becoming increasingly important in order to protect both water quality and aquatic resources throughout the USA. Using an extensive water quality database from the long-term Maryland Biological Stream Survey (MBSS), we describe nutrient relationships to landscape characteristics as total nitrogen (TN) and total phosphorus (TP) of small-order, non-tidal streams in USEPA L2 and L3 ecoregions in Maryland and by MBSS stream order at the L2 and L3 ecoregion levels. To protect stream ecosystem integrity, preliminary reference nutrient estimates (TN and TP) as percentiles (25th of all stream reaches and 75th of stream reference reaches) for the six Maryland L3 ecoregions are: Blue Ridge TN 0.29 and 0.64 mg/L, TP 0.0065 and 0.0090 mg/L; Central Appalachians TN 0.40 and 1.0 mg/L, TP 0.0060 and 0.015 mg/L; Middle Atlantic Coastal Plains TN 0.93 and 2.5 mg/L, TP 0.094 and 0.065 mg/L; Northern Piedmont TN 1.6 and 1.8 mg/L, TP 0.010 and 0.015 mg/L; Ridge and Valley TN 0.40 and 0.98 mg/L, TP 0.0063 and 0.012 mg/L; and Southeastern Plains TN 0.33 and 0.82 mg/L, TP 0.016 and 0.042 mg/L. High levels of both TN and TP are present in many streams found in non-tidal watersheds associated with all Maryland ecoregions, but are especially elevated in the Northern Piedmont and Middle Atlantic Coastal Plain ecoregions, with the latter second-order streams (average TN > 2.9 mg/L) significantly higher than all other ecoregion-order combinations. Across all six ecoregions, mean nutrient loading for both TN and TP was generally equivalent in first-order streams to nutrient concentrations seen in both second- and third-order streams, indicating a definite need to increase efforts in preventing nutrients from entering first-order streams. Small-order stream nutrient levels are the drivers for subsequent TN and TP inputs into the upper freshwater tidal reaches of the Chesapeake Bay, resulting in a potential risk for altered estuarine ecosystems.


Subject(s)
Environmental Monitoring , Nitrogen/analysis , Phosphorus/analysis , Water Pollutants, Chemical/analysis , Ecosystem , Maryland , Nitrogen/standards , Phosphorus/standards , Water Pollutants, Chemical/standards , Water Pollution, Chemical/statistics & numerical data
5.
Environ Monit Assess ; 178(1-4): 221-35, 2011 Jul.
Article in English | MEDLINE | ID: mdl-20890788

ABSTRACT

Using a spatially extensive database from the Maryland Biological Stream Survey (MBSS), we describe nutrient relationships of small-order, non-tidal streams to Maryland watershed basins, Maryland Tributary Strategy basins, and stream order. In addition, we estimate the number of stream km affected by nutrient loading, using derived nutrient criteria. Based on the MBSS spring water quality sampling, we determined several important factors relating to nutrient levels in non-tidal streams. There are strong linear relationships of nutrients to the percentage of agriculture and forested land present within MBSS sampling strata. Both mean total nitrogen (TN) and mean total phosphorus (TP) levels for watershed basins by stream order show exceedances of derived nutrient reference criteria for Maryland. Four Maryland basins have over 85% of their stream kilometers exceeding the TN criterion, with three basins over 90% of the TP criterion. To protect small stream integrity in Maryland, we recommend an upper stream TN criterion between 1.34 and 1.68 mg/L and an upper stream TP criterion between 0.025 and 0.037 mg/L, based on quantile analyses. Elevated levels of both TN and TP are present in non-tidal streams, with subsequent nutrient inputs into the upper freshwater tidal reaches of the Chesapeake Bay.


Subject(s)
Nitrogen/analysis , Phosphorus/analysis , Rivers/chemistry , Water Pollutants, Chemical/analysis , Environmental Monitoring , Maryland
6.
Environ Sci Technol ; 42(1): 56-61, 2008 Jan 01.
Article in English | MEDLINE | ID: mdl-18350875

ABSTRACT

Recovery of streamwater acid neutralizing capacity (ANC) resulting from declines in regional acid deposition was examined using contemporary (1990-2005) data from two long-term monitoring stations located on the Appalachian Plateau in western Maryland, U.S. Two computational methods were used to estimate daily, monthly, and annual fluxes and discharge-weighted concentrations of ANC, sulfate, nitrate, and base cations over the period of record, and two statistical methods were used to evaluate long-term trends in fluxes and concentrations. The methods used to estimate concentrations, as well as the statistical techniques, produced very similar results, underlining the robustness of the identified trends. We found clear evidence that streamwater sulfate concentrations have declined at an average rate of about 3 microeq L(-1) yr(-1) at the two sites due to a 34% reduction in wet atmospheric sulfur deposition. Trends in nitrate concentrations appear to be related to other watershed factors, especially forest disturbance. The best evidence of recovery is based on a doubling of ANC (from 21 to 42 microeq L(-1)) at the more acid-sensitive site over the 16-year period. A slowing, or possible reversal, in the sulfate, nitrate, and SBC trends is evident in our data and may portend a decline in the rate of--or end to--further recovery.


Subject(s)
Acid Rain , Rivers/chemistry , Water Pollutants, Chemical/analysis , Cations/analysis , Environmental Monitoring , Hydrogen-Ion Concentration , Maryland , Nitrates/analysis , Sulfates/analysis
7.
Environ Sci Technol ; 41(16): 5601-7, 2007 Aug 15.
Article in English | MEDLINE | ID: mdl-17874761

ABSTRACT

In this study we report on changes in the magnitude and mechanisms of episodic acidification of a small acid-sensitive stream in western Maryland (U.S.) during the 1990s, a period in which wet sulfate deposition declined by 10-25% due to implementation of the Clean Air Act Amendments (CAAA) of 1990. We observed a relatively minor trend in the magnitude of episodic acidification over this period, as measured bytransient changes in acid neutralizing capacity (deltaANC) and minimum values of ANC (ANC(min)) during 22 events sampled prior to and following CAAA implementation. Any relationship to changes in atmospheric deposition appears to be confounded by large hydroclimatological variability between the two sampling periods. Nonetheless, results obtained prior to implementation of the CAAA indicated that the mechanism of episodic acidification was mostly attributable to flushing of accumulated sulfate from the watershed, whereas results obtained post-CAAA indicated domination by base cation dilution. This shift in the mechanism of episodic acidification is qualitatively consistent with hydrochemical theory, as well as with empirical results from surface waters in other regions where dramatic declines in sulfate deposition have taken place.


Subject(s)
Acids/analysis , Rivers/chemistry , Acids/chemistry , Geography , Maryland , Sulfates/chemistry , Water Movements
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