Laboratory Skills aquired and topics learned during Pricipals of Biomedical Sciences:
Bacterial identification
Gram Staining
Gel Electrophoresis
PCR
Restriction Enzyme Digestion
DNA Analysis
Crime Scene Investigation
Glucose Tolerance Testing
Calorimetry
Food Testing with Chemical Indicators
Micropipetting
Food Labels Analysis
Biochemistry
Experimental Design
Centrifuging and Hemotocrit Analysis
Karyotyping
Protein Synthesis
HIPAA
Genetic Counseling and Probabilities
Blood Pressure Analysis
Heart Rate Analysis
Electrocardiogram Analysis
Microscopy
Gram Staining
Gel Electrophoresis
PCR
Restriction Enzyme Digestion
DNA Analysis
Crime Scene Investigation
Glucose Tolerance Testing
Calorimetry
Food Testing with Chemical Indicators
Micropipetting
Food Labels Analysis
Biochemistry
Experimental Design
Centrifuging and Hemotocrit Analysis
Karyotyping
Protein Synthesis
HIPAA
Genetic Counseling and Probabilities
Blood Pressure Analysis
Heart Rate Analysis
Electrocardiogram Analysis
Microscopy
Laboratory skills aquired and topics learned during Human Body Systems
Medical terminology including directional terms and regional terms
Tissue microscopy
Forensic anthropology including bone identification by gender, race, height, and age
Equation of a line for height prediction
Molecular biology
Biometrics: fingerprints, retinal patterns, facial features
Vision screening including vidual perception, visual acuity, depth perception, peripheral vision, color vision, and interpretation of optical illusions
Enzyme catalyzed reactions using manipulation of temperature, pH and concentration of enzyme or substrate
Nutritional health analysis including BMI and BMR
Analyze data collected using a spirometer to determine tidal volume, vital capacity, and minute volume
Dissection of the eye, kidney, synovial joint, cross section of large bone
Mathematical calculations of flomerular filtration rate
Nomenclature for bones, muscles, and vessels
Origins, insertions, actions
Measure range of motion using goniometer
Find various pulse points around the body and use heart rate data to calculate an ankle brachial index (ABI)
Interpret EMG and grip strength data to assess muscle fatigue
Exercise physiology
Tissue microscopy
Forensic anthropology including bone identification by gender, race, height, and age
Equation of a line for height prediction
Molecular biology
Biometrics: fingerprints, retinal patterns, facial features
Vision screening including vidual perception, visual acuity, depth perception, peripheral vision, color vision, and interpretation of optical illusions
Enzyme catalyzed reactions using manipulation of temperature, pH and concentration of enzyme or substrate
Nutritional health analysis including BMI and BMR
Analyze data collected using a spirometer to determine tidal volume, vital capacity, and minute volume
Dissection of the eye, kidney, synovial joint, cross section of large bone
Mathematical calculations of flomerular filtration rate
Nomenclature for bones, muscles, and vessels
Origins, insertions, actions
Measure range of motion using goniometer
Find various pulse points around the body and use heart rate data to calculate an ankle brachial index (ABI)
Interpret EMG and grip strength data to assess muscle fatigue
Exercise physiology
Laboratory skills aquired and topics learned during Medical Interventions
Use bioinformatics to identify disease pathogens
ELISA
Epidemiology
Serial dilutions
Antibiotic resistance
Agar plate streaking and bacterial growth
Bioethics
Audiology (sensorineural vs. conductive hearing loss)
Perform Rinne and Pure Tone tests to evaluate hearing loss
Perform engineering of plasmids
Molecular biology including restriction enzymes
Recombinant DNA technology
DNA genetic diagnosis
Reproductive cloning
Viral vector transfer to human DNA
Radiology
DNA microarray
Correlation coefficient
Microscopy for visual observation of normal vs. cancer cells
Marker analysis
Cancer risk factors and screening
Chemotherapy
Biofeedback therapy
Prosthetic limbs
Experimental design
Personalized medicine
Nanotechnology
Clinical trials (controlled, randomized, double blind studies)
Bacterial transformation
Plasmids
Chromatography
Protein electrophoresis
Transformation efficiency
Protein purification
Molecular weight calculation
Hemodialysis
Peritoneal dialysis
Kidney transplant
Surgical transplant techniques
Blood typing and HLA typing
Laparoscopy
Xenotransplantation
Tissue engineering
ELISA
Epidemiology
Serial dilutions
Antibiotic resistance
Agar plate streaking and bacterial growth
Bioethics
Audiology (sensorineural vs. conductive hearing loss)
Perform Rinne and Pure Tone tests to evaluate hearing loss
Perform engineering of plasmids
Molecular biology including restriction enzymes
Recombinant DNA technology
DNA genetic diagnosis
Reproductive cloning
Viral vector transfer to human DNA
Radiology
DNA microarray
Correlation coefficient
Microscopy for visual observation of normal vs. cancer cells
Marker analysis
Cancer risk factors and screening
Chemotherapy
Biofeedback therapy
Prosthetic limbs
Experimental design
Personalized medicine
Nanotechnology
Clinical trials (controlled, randomized, double blind studies)
Bacterial transformation
Plasmids
Chromatography
Protein electrophoresis
Transformation efficiency
Protein purification
Molecular weight calculation
Hemodialysis
Peritoneal dialysis
Kidney transplant
Surgical transplant techniques
Blood typing and HLA typing
Laparoscopy
Xenotransplantation
Tissue engineering