Female With Right Fronts Parietal Stroke

Neuroscience and neurodevelopment.

1. Using the concept of neuroplasticity explain why patient with right for to-parietal stroke is getting return of voluntary movement in left hand
2. If right fronto-parietal stroke patient had better movement in left hand, would she be less likely to have I attention of that side.
3. How will patients with right front of-parietal stroke have effected visual motor integration?
4. Explain the safety risks you would have to consider with Parkinson’s disease patient when supporting him to engage in his chosen hobby of gardening.
5. Considering Parkinson’s ‘s disease patient , what potential impact would his symptoms have on his ability to fully engage in weekly church?

 

Answered below:

Female With Right Fronts Parietal Stroke

Neuro-development is the growth of the neurological pathways. Neurological developments enhance the intellectual performance of the brain. The study of the nervous system and nervous cell pathways is neuroscience (Hoffmann, Zimmermann and Spengler, 2015). This paper will explore parietal strokes and hand movement. In addition to stroke, parkinsonism and activities of daily living will be covered.

Neuroplasticity

The parietal lobe makes part of the cerebral cortex. The parietal lobe is involved in sensory, perception and vision. Touch, pain, and temperature receptors relay information to the parietal lobe through the thalamus (Camargo, 2017).

Parietal lobe stroke affects the sense of touch and movements. Stroke in one hemisphere of the parietal lobe will affect perception in the opposite side of the body. Parietal stroke causes lack proprioception leading to involuntary movements. Proprioception is the ability to recognize parts of the body in space (Camargo, 2017).

The brain’s ability and capacity to reorganize through the new neural connection formation is neuroplasticity. The neuroplasticity process can take a long time. The process involves synaptic pruning. Synaptic pruning is the ability of the brain to do away with the neural connections that are no longer useful. Life experience determines the process of synaptic pruning (Anderson, 2016).

The unaffected part of the brain takes over the functions of the affected region. Left parietal lobe taking over the functions of the right frontal-parietal lobe makes the left hand exhibit voluntary movements (Anderson, 2016).

Right Fronto-Parietal and Stroke Movement In Left Hand

Patients with right parietal stroke demonstrate a slower pace of recovery in gaining postural attention after the stroke. Lack of symmetry in visuospatial can worsen attention and posturing. The loss of sensation cannot limit the movement of the hand, but on the contrary, affects attention. Some things can be done with the loss of sensation. The voluntary movement achieved after the loss of sensation is not as flexible as before the loss of sensation (Bruno-Petrina, 2018).

Right Front of-Parietal Lobe Stroke And The Visual Motor

Parietal lobe plays a role in vision, which is involved in locating and finding the position of objects. When the stroke affects the right part of the parietal lobe, visuospatial orientation is lost. The patient suffers from a visuospatial loss in the left side of the body (Camargo, 2017).

Safety Risk In Parkinson’s Disease

Parkinson’s disease is a disorder of movement. Parkinson’s disease is a neurologic disease. The disease is linked to decreasing in the level of dopamine in the brain. The patient is unable to control the complex and voluntary movement of the body. Rigidity, bradykinesia, and tremors characterize the disease (Brunner, Suddarth, and Squazzo, 2018).

Parkinson’s disease affects mobility. A patient with parkinsonism who wants to engage in gardening as a hobby needs safety measures. The safety measures should protect the patient against injury. Muscle stiffness in a patient with parkinsonism may impair their flexibility and predispose them to injury (Wilkins, Brown and Barker, 2014)

The patient is unable to control voluntary movement. The chair used by the patient should be secured to prevent swiveling. The patient should always be with a caretaker while gardening. The caretaker should always guide the patient to avoid injuries. The caretaker should assist the patient to grip garden tools properly. The patient should be advised to work slowly and avoid repetitive motions that can cause nerve the irritation (Wilkins, Brown and Barker, 2014).

Impact Of Parkinsonism On Church Activities

The impact of parkinsonism on church activities will also affect home activities because preparation for church activities starts at home. The patient is slow and at risk of falling in the shower. The patient has limitations in initiating purposeful motion like walking towards the church. If the church has staircases, patients are at risk of falling off the stairs. The stairs should have handrails (Wilkins, Brown and Barker, 2014).

Tremors may pose a challenge to the patient while opening the Bible. Resting tremors tend to decrease with purposeful activities, but the speed of doing the action is reduced. Muscle rigidity can worsen the reading of the Bible. Tremors, bradykinesia, and rigidity may reduce the patients’ ability to engage in other activities of the church like singing (Brunner, Suddarth and Squazzo, 2018).

In conclusion, neuroscience and neuro-development are sciences that explain the development of nerves and performance. Understanding the two will have an immense benefit to humanity. The understanding will boost management of stroke and Parkinson’s disease.

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Female With Right Fronts Parietal Stroke. References

Anderson, P. (2016). Electrical Stimulation Improves Hand Movement After Stroke. Retrieved from     https://www.medscape.com/viewarticle/870299

Brunner, L., Suddarth, D. and Squazzo, K. (2018). Study guide for Brunner and Suddarth’s textbook of medical-surgical nursing. 17th ed. Philadelphia: Wolters Kluwer.

Bruno-Petrina, A. (2018). Motor Recovery In Stroke: Recovery Considerations, Theories of Recovery,     Mechanisms of Recovery. Retrieved from https://emedicine.medscape.com/article/324386-   overview#a6

Camargo, E. (2017). Stroke: Highlights of Selected Articles. Stroke, 48(1), 8-57. doi:     10.1161/strokeaha.116.016084

Hoffmann, A., Zimmermann, C., and Spengler, D. (2015). Molecular epigenetic switches in neurodevelopment in health and disease. Frontiers in Behavioral Neuroscience, 9.

Wilkins, A., Brown, J., and Barker, R. (2014). SCA2 presenting as levodopa-responsive parkinsonism in a     young patient from the United Kingdom: A case report. Movement Disorders, 19(5), pp.417-595.