Abstract: Real-time and end point determination of antibiotic effects are disclosed herein. In one example, a surface of a label free biosensor is exposed to a sample including a gram-negative bacteria. A frequency and/or a current of the biosensor is then allowed to reach a constant value. The surface of the biosensor is then exposed to an antibiotic. Using the biosensor, i) a frequency change versus time and a damping resistance versus time, or ii) a current versus voltage or the current versus time at a fixed potential, or iii) both i and ii are then measured. The frequency change versus time and the damping resistance versus time and/or the current versus voltage or the current versus time are correlated to determine an effect of the antibiotic on the gram-negative bacteria. Examples of the label free biosensors and methods for detecting gram-negative bacteria using the label free biosensors are also disclosed.

Abstract: A system for optimizing a patient's insulin dosage regimen over time, comprising at least a first memory for storing data inputs corresponding at least to one or more components in a patient's present insulin dosage regimen, and data inputs corresponding at least to the patient's blood-glucose-level measurements determined at a plurality of times, and a processor operatively connected to the at least first memory. The processor is programmed at least to determine from the data inputs corresponding to the patient's blood-glucose-level measurements determined at a plurality of times whether and by how much to vary at least one of the one or more components in the patient's present insulin dosage regimen in order to maintain the patient's future blood-glucose-level measurements within a predefined range.

Abstract: A framework of cloud service for biological growth is disclosed. The framework of cloud service for biological growth includes a client end, a service provider, an expert end, and an equipment end. The client end has a biological cultivate area, a first processing unit, a first control module, and a first transceiver module. The service provider has a first database, a second processing unit, a data integration module, a web server, a data integration module, and a second transceiver module. The expert end has a second database, a third processing unit, a second monitoring module, a biological growth simulation module, and a third transceiver module. The equipment end has a third database, a fourth processing unit, and a fourth transceiver module.

Abstract: A system and method for predicting, proposing and/or evaluating suitable medication dosing regimens for a specific individual as a function of individual-specific characteristics and observed responses of the specific individual. Mathematical models of observed patient responses are used in determining an initial dose. The system and method use the patient's observed response to the initial dose to refine the model for use to forecast expected responses to proposed dosing regimens more accurately for a specific patient.

Abstract: Infusion systems, infusion devices, and related operating methods are provided. An exemplary method of alerting a user associated with an infusion device delivering fluid to the body of the user involves obtaining a first value for a physiological condition being influenced by the fluid, determining a metric corresponding to a future physiological condition of the user based at least in part on the first value, and automatically generating a first alert based on the metric. After automatically generating the first alert, the method continues by obtaining a second value for the physiological condition of the user and automatically clearing the first alert based at least in part on the second value.

Abstract: Disclosed are systems and methods of detecting an impulse of energy given off by an injection device and determining a dosage of medicine based on the impulse. In one example, a module detects the vibrations given off by dialing a click-wheel on an autoinjector and determining the selected dosage of medicine based on the dialed dosage.

Abstract: A device and method for delivering insulin to a patient is disclosed. The method includes receiving an amount of insulin to deliver to a patient and beginning delivery of the insulin to the patient. The method further includes monitoring the delivery of the insulin to determine whether the insulin pump is able to deliver the entire amount of insulin and maintaining a timer until the insulin pump recommences the delivery of the insulin. The method includes comparing an amount of time indicated by the timer to a threshold. The method further includes generating a first insulin delivery record indicating that a first amount of insulin was delivered when the amount of time indicated by the timer is less than the threshold and a second insulin record indicating that a second amount of insulin was delivered when the amount of time indicated by the timer is greater than the threshold.

Abstract: A method of administering insulin includes receiving blood glucose measurements of a patient at a data processing device from a glucometer. The blood glucose measurements are separated by a time interval. The method also includes receiving patient information at the data processing device and selecting a subcutaneous insulin treatment from a collection of subcutaneous insulin treatments. The selection is based on the blood glucose measurements and the patient information. The selection includes one or more of a subcutaneous standard program, a subcutaneous program without meal boluses, a meal-by-meal subcutaneous program without carbohydrate counting, a meal-by-meal subcutaneous program with carbohydrate counting, and a subcutaneous program for non-diabetic patients. The method also includes executing, using the data processing device, the selected subcutaneous insulin treatment.

Abstract: A system and method for determining the genetic data for one or a small set of cells, or from fragmentary DNA, where a limited quantity of genetic data is available, are disclosed. Genetic data for the target individual is acquired and amplified using known methods, and poorly measured base pairs, missing alleles and missing regions are reconstructed using expected similarities between the target genome and the genome of genetically related subjects. In accordance with one embodiment of the invention, incomplete genetic data is acquired from embryonic cells, fetal cells, or cell-free fetal DNA isolated from the mother's blood, and the incomplete genetic data is reconstructed using the more complete genetic data from a larger sample diploid cells from one or both parents, with or without genetic data from haploid cells from one or both parents, and/or genetic data taken from other related individuals.

Abstract: A system and method for determining the genetic data for one or a small set of cells, or from fragmentary DNA, where a limited quantity of genetic data is available, are disclosed. Genetic data for the target individual is acquired and amplified using known methods, and poorly measured base pairs, missing alleles and missing regions are reconstructed using expected similarities between the target genome and the genome of genetically related subjects. In accordance with one embodiment of the invention, incomplete genetic data is acquired from embryonic cells, fetal cells, or cell-free fetal DNA isolated from the mother's blood, and the incomplete genetic data is reconstructed using the more complete genetic data from a larger sample diploid cells from one or both parents, with or without genetic data from haploid cells from one or both parents, and/or genetic data taken from other related individuals.

Abstract: Systems and methods for objectively assessing physical performance of a subject and generating programs specifically tailored to correct any physical deficiencies identified during that assessment. Generally, the assessments may produce results in binary format so that the assessments may be conducted objectively. Additionally, the recommended exercise programs may be generated based on the results of those assessments so that the recommended exercise programs target the identified physical deficiencies.

Abstract: Disclosed herein are methods for determining the copy number of a chromosome in a fetus in the context of non-invasive prenatal diagnosis. In an embodiment, the measured genetic data from a sample of genetic material that contains both fetal DNA and maternal DNA is analyzed, along with the genetic data from the biological parents of the fetus, and the copy number of the chromosome of interest is determined. In an embodiment, the maternal serum is measured using a single-nucleotide polymorphism (SNP) microarray, along with parental genomic data, and the determination of the chromosome copy number is used to make clinical decisions pertaining to the fetus.

Abstract: A method for monitoring movement of disease across agricultural areas of interest including providing, using one or more processors and one or more data storage devices, a virtual zone generator and disease movement monitor, defining, using the virtual zone generator, a plurality a virtual zones, each virtual zone corresponding to an agricultural geographic area of interest and identifying a location for the agricultural geographic area of interest, receiving a plurality of raw-data sets from a plurality of tracking devices, each tracking device corresponding to a vector or fomite that has the potential to carry a disease detrimental to agriculture, each raw data set corresponding to a tracking device and comprising an identification code identifying the tracking device, a timestamp corresponding to the time the raw data was generated by the tracking device, and location information for the tracking device, and generating disease movement data, using the disease movement monitor, by correlating the raw data s

Abstract: Provided are biological methods for measuring enzyme activity. The methods include generating reactions, and contacting each reaction generated with a set of internal standards, where each of the internal standards includes a different amount of product. The methods also include generating a standard curve for each of the reactions from the internal standards in each of the reactions.

Abstract: The invention provides methods, systems, and computer readable medium for detecting ploidy of chromosome segments or entire chromosomes, for detecting single nucleotide variants and for detecting both ploidy of chromosome segments and single nucleotide variants. In some aspects, the invention provides methods, systems, and computer readable medium for detecting cancer or a chromosomal abnormality in a gestating fetus.

Abstract: A medical apparatus for extracorporeal blood treatment and a method for determining blood parameter value have been provided. The medical apparatus has a control unit (9) configured for taking from a storage memory (10) a plurality of blood parameter value measures each made through the sensors (8) provided on the bloodline set of each of a machines plurality at different patient treatment sessions; all the blood parameter values relate to the same patient; receiving at least a corresponding laboratory measured valise of the same blood parameter relating to the same patient and a laboratory measurement time; determining a correction factor function of a difference between a measured value made though the sensor and a laboratory measured value; obtaining an actual value of said blood parameter by varying at least the last measure made through the sensor by means of the correcting factor.

Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.

Abstract: A hematological analyzer for measuring blood, sets a body fluid measurement mode; receives a measurement start instruction; irradiates a measurement sample with light and obtains optical information from cells contained in the measurement sample; and classifies at least white blood cells and nucleated cells other than white blood cells contained in the measurement sample, and counts the white blood cells and nucleated cells other than white blood cells based on the optical information obtained from the cells in the measurement sample prepared from a body fluid sample and white blood cell measuring reagent when the body fluid measurement mode has been set and the measurement start instruction has been selected, is disclosed. A method for analyzing body fluid and a computer program product are also disclosed.

Abstract: Methods, apparatuses, and systems are disclosed for analyzing quality control (QC) strategies that are applied to testing processes an analyte in order to meet an acceptable level of probability of patient harm that could result from incorrect test results. The measure of patient harm takes into account severity of patient harm, as well as its occurrence. Methods include calculating, based on the parameters of the QC strategies and the test apparatus, an expected number of incorrect final results E(Nuf) due to a test system failure. The value of E(Nuf) can be used as part of a calculation of a predicted level of probability patient harm. The ratio of the acceptable level of probability of patient harm to the predicted level of probability patient harm can determine the adequacy of the QC strategies.

Abstract: Provided are systems and methods for plant stress mitigation. The systems provided comprises three key components to perform a self-standardized algorithm for identifying/measuring significant stress conditions within a short time window (for example 1 to 3 days). After identification of a significant stress condition, plants under stress can be treated with a composition comprising an ethylene synthesis or perception inhibitor, for example 1-methylcyclopropene (1-MCP). Also provided are methods for identifying plant genes in response to stress using the system disclosed herein.