Select a community of interest in your region. Perform a physical assessment of the community.
Perform a direct assessment of a community of interest using the “Functional Health Patterns Community Assessment Guide.”
Interview a community health and public health provider regarding that person’s role and experiences within the community.
Interviews can take place in-person, by phone, or by Skype.
Develop interview questions to gather information about the role of the provider in the community and the health issues faced by the chosen community.
Complete the “Provider Interview Acknowledgement Form” prior to conducting the interview. Submit this document separately in its respective drop box.
Compile key findings from the interview, including the interview questions used, and submit these with the presentation.
Create a PowerPoint presentation of 15-20 slides (slide count does not include title and references slide) describing the chosen community interest.
Include the following in your presentation:
Description of community and community boundaries: the people and the geographic, geopolitical, financial, educational level; ethnic and phenomenological features of the community, as well as types of social interactions; common goals and interests; and barriers, and challenges, including any identified social determinates of health.
Summary of community assessment: (a) funding sources and (b) partnerships.
Summary of interview with community health/public health provider.
Identification of an issue that is lacking or an opportunity for health promotion.
A conclusion summarizing your key findings and a discussion of your impressions of the general health of the community.
odies in the dorsal ganglia.  Evoked potentials or evoked responses, measures the electrophysiologic responses of the apprehensive device to distinct stimuli. Theoretically, almost any sensory modality may be tested, but in medical practice most effective few are used in ordinary foundation.  Evoked potentials demonstrate abnormal sensory characteristic while the neurologic check consequences do not screen abnormalities. It well-knownshows clinically unsuspected pathology while demyelinating sickness is suspected. It determines the anatomic distribution of a disorder procedure and it objectively video display units the circumstance whether the affected person is progressing or no longer.  visual evoked potential examines the characteristic of the visible pathway beginning from the retina going to the occipital cortex. It particularly measures the capacity of the visible pathways to conduct from the optic nerve, to theoptic chiasm and optic radiations going to the occipital cortex. Brainstem auditory evoked potentials measure the function of the auditory nerve and auditory pathways in the brainstem.  Somatosensory evoked potential is a diagnostic test to evaluate the velocity of impulse conduction throughout the spinal twine. The stated methodology is consists of the use of electrical stimulus within the nerves of legs and arms measuring the impulse generated by means of unique points within the body. Electrodiagnostics is utilized to take a look at lumbosacral radiculopathy probably underlying low back ache. The examinations function an extension of the physical examination and scientific history furthermore it enhances the neuroimaging research. a number of the commonplace low back pathologies amenable to electrodiagnostic studies encompass spinal stenosis and lumbosacral disc herniation. The electrodiagnostics can assist within the choice making techniques when thinking about surgical control.  Electrodiagnostic research are essential part of the diagnostic evaluation whilst the physical exam or records shows that neural systems may make contributions as symptom mills. Lumbosacral radiculopathies, peripheral nerve accidents and plexopathies are of number one problem whilst examining patients having low back pain. The study assists in quantifying neurophysiologic accidents and changes the use of the said techniques. Bone scan A bone scan suggests the photos of metabolic interest of the skeleton. Conventionally, it's far carried out with the aid of imaging radionuclide whose body structure carefully resembles a metabolic activity in the bone. Nuclear scintigraphy of the bone commonly uses the radionuclides fluoride-18 (F-18) or technetium-99m (Tc-99m). Tc-99m is generally attached to medronic acid (Tc-99m MDP) and F-18 integrated into sodium fluoride (F-18 NaF). The molecules are injected intravenously at the same time as a nuclear camera that consists of salt crystal captures the decay of photons from radioisotope. that is attained thru the method of fluorescence or scintillation that takes place whilst the photon released by the radionuclide hits the salt crystals in the nuclear digicam. The scintillations are converted to snap shots for interpretation with the aid of nuclear medicine specialist.  A bone scan is used applied to: >GET ANSWER