The ICD-10 codes for diabetes type 2 are E11 - Type 2 diabetes mellitus and E11.9 - Type 2 diabetes mellitus without complications.
E11 - Type 2 diabetes mellitus: This code is used to indicate a diagnosis of type 2 diabetes without any complications or manifestations.
E11.9 - Type 2 diabetes mellitus without complications: This code is used to indicate a diagnosis of type 2 diabetes without any associated complications.
E11.65 - Type 2 diabetes mellitus with hyperglycemia: This code is used to indicate a diagnosis of type 2 diabetes with high blood sugar levels.
E11.69 - Type 2 diabetes mellitus with other specified complication: This code is used to indicate a diagnosis of type 2 diabetes with any other specific complication, such as peripheral neuropathy or retinopathy.
These codes are used by healthcare providers and insurance companies to accurately document and track a patient's diagnosis and treatment for diabetes type 2. It's important to note that these codes may be updated or revised periodically, so it's important to consult the most current coding resources and guidelines.
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What involves rapid eye movements and that is most closely associated with periods of dreaming?
Rapid eye movement (REM) is a phenomenon that involves rapid eye movements and is most closely associated with periods of dreaming.
The pulse rate and respiration become erratic, the eyes wander quickly in different directions, and the body's muscles briefly have paralysis during REM sleep. This kind of sleep is thought to be essential for both physical and mental well-being. The process of REM sleep is intricate and involves numerous physiological and neurological alterations. Though its precise function is still unknown, REM sleep is recognized to be crucial for memory consolidation, emotional control, and general brain health.
A variety of health issues, including sadness, anxiety, and even physical ailments like heart disease, have been linked in studies to REM sleep abnormalities. It is obvious that REM sleep is essential for both physical and mental health, even if there is still much we don't know about the complexity of sleep and dreaming.
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2. What is the MAIN reason flexibility is important to health?
A. Flexibility allows you to work for prolonged periods without injury.
B. Flexibility helps to prevent or lessen lower back pain.
C. Flexibility increases muscle endurance.
D. Flexibility helps to maintain or reduce body fat.
The FIRST reason why flexibility is crucial for good health -
C. Flexibility increases muscle endurance.
Explain the importance of flexibility/Stretching?Among other advantages, stretching may increase your movement range and lower your risk of injury.
Greater flexibility could:
You can perform better in physical activities.Reduce your risk of getting hurtencourage the entire range of motion in your jointsIncreased blood flow to musclesMake your muscles as efficient as possible.Get more adept at performing daily tasksFollow these recommendations to stretch safely:
Never think of stretching as a warmup. If you strain cold muscles, you could injure yourself. Warm up for five to ten minutes by lightly running or walking before stretching.Try to achieve symmetry. The genetics of flexibility vary slightly amongst people. Concentrate on possessing equal flexibility from side to side rather than aiming for the flexibility of the a dancer or gymnast.Thus, the FIRST reason why flexibility is crucial for good health -
C. Flexibility increases muscle endurance.
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what type of artery is primarily used to distribute blood across the body?
The type of artery that is primarily used to distribute blood across the body is the systemic artery.
Systemic arteries branch from the heart's left ventricle and carry oxygenated blood throughout the body. They branch into smaller arterioles, which branch into even smaller capillaries, where gases and nutrients are exchanged with body tissues. Following the exchange, deoxygenated blood is collected by venules and then veins, which return it to the heart's right atrium.
The systemic arteries are a network of arteries that originate in the heart's left ventricle and distribute oxygenated blood throughout the body. The aorta is the largest systemic artery, giving rise to several major branches that supply blood to different parts of the body. Among these branches are the brachiocephalic artery, the left common carotid artery, the left subclavian artery, the celiac trunk, the superior mesenteric artery, the renal arteries, and the iliac arteries.
The thick muscular walls and elastic fibres of systemic arteries allow them to withstand the high pressure of blood being pumped out of the heart. Their ability to expand and contract also aids in the regulation of blood flow and pressure. As the arteries branch into smaller arterioles and capillaries, their walls thin and become more permeable, allowing gases, nutrients, and waste products to exchange between the blood and tissues.
Overall, the systemic arteries play an important role in blood flow and delivering oxygen and nutrients to all parts of the body. Systemic artery dysfunction can result in a variety of health issues, including high blood pressure, heart disease, and stroke.
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what serotonin pathways does ecstasy affect and why is it slightly addictive?
Ecstasy, also known as MDMA (3,4-methylenedioxymethamphetamine), primarily affects the serotonin pathways in the brain. Specifically, it enhances the release of serotonin from presynaptic neurons and blocks its reuptake, leading to increased levels of serotonin in the synaptic cleft. This results in a feeling of euphoria, increased empathy, and heightened sensory perception, which are the main effects of the drug.
The drug affects the serotonergic system by binding to serotonin transporters (SERTs) on the presynaptic neuron, causing the transporters to move serotonin out of the neuron and into the synaptic cleft. This causes a surge in serotonin levels in the synaptic cleft, which then bind to postsynaptic serotonin receptors, leading to the characteristic effects of ecstasy.
The release of serotonin in response to ecstasy is thought to be responsible for the drug's addictive potential. The prolonged activation of the serotonergic system can lead to downregulation of serotonin receptors and a decrease in serotonin production and release over time. This can result in a "crash" after the drug's effects wear off, as well as long-term changes in the brain's reward system that can lead to cravings and addiction.
In addition to its effects on the serotonergic system, ecstasy can also affect other neurotransmitter systems in the brain, including dopamine and norepinephrine, which can contribute to its addictive potential. Overall, while ecstasy may have short-term benefits in terms of mood and social bonding, its use can lead to long-term risks and negative consequences, including addiction and adverse health effects.
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how much physical activity per week is recommended for cardiorespiratory fitness?
A CMAA is scheduling a new patient over the phone. which of the following information should the CMAA obtain?
A. Next of kin
B. Advance Directives
C. Medical History
D. Demographic Information
