For this week’s assignment, you will submit an
annotated bibliography of at least 15 sources pertaining to your topic.
The following specifications are required for this assignment:
- Length: 2250 – 3000 words
- Structure: Include a title page
and reference page in APA style. These do not count towards the minimal
word amount for this assignment. - References: Use the appropriate
APA style in-text citations and references for all resources utilized to
answer the questions. Include at least 15 scholarly sources to support
your claims. - Format: Save your assignment as a
Microsoft Word document (.doc or .docx). - File Name: Name your saved file
according to your first initial, last name, and the module number (for
example, “RHall Module 1.docx”)
Topic: Early ambulation of bariatric surgery patients in
intensive care units at Metropolitan Hospital.
Arnold, M., Combs, J., Gach, R., &
Labreche, M. (2021). Overcoming barriers to mobilizing bariatric patients: Three
case studies. International Journal of Safe Patient Handling & Mobility
(SPHM), 11(3), 134–142.
https://web.p.ebscohost.com/ehost/pdfviewer/pdfviewer?vid=7&sid=00b566e8-93b0-4628-a327-34506dfde6cf%40redis
Cameron, S., Ball,
I., Cepinskas, G., Choong, K., Doherty, T. J., Ellis, C. G., Martin, C. M.,
Mele, T. S., Sharpe, M., Shoemaker, J. K., & Fraser, D. D. (2015). Early
mobilization in the critical care unit: A review of adult and pediatric
literature. Journal of Critical Care, 30(4), 664–672. https://doi.org/10.1016/j.jcrc.2015.03.032
Drolet, A., DeJuilio,
P., Harkless, S., Henricks, S., Kamin, E., Leddy, E. A., Lloyd, J. M., Waters,
C., & Williams, S. (2013). Move to improve: The feasibility of using an
early mobility protocol to increase ambulation in the intensive and
intermediate care settings. Physical Therapy, 93(2), 197–207.
https://doi.org/10.2522/ptj.20110400
Dubb, R., Nydahl, P.,
Hermes, C., Schwabbauer, N., Toonstra, A., Parker, A. M., Kaltwasser, A., &
Needham, D. M. (2016). Barriers and strategies for early mobilization of
patients in intensive care units. Annals of the American Thoracic Society,
13(5), 724–730. https://doi.org/10.1513/annalsats.201509-586cme
Fair, L., Leeds, S.
G., Whitfield, E. P., Syed Harris Bokhari, Rasmussen, M., Hasan, S., Davis, D.
G., Arnold, D., Ogola, G., & Ward, M. A. (2023). Enhanced recovery after
surgery protocol in bariatric surgery leads to decreased complications and
shorter length of stay. Pubmed, 33(3), 743–749.
https://doi.org/10.1007/s11695-023-06474-w
Grap, M. J., &
McFetridge, B. (2017). Critical care rehabilitation and early mobilisation: An
emerging standard of care. Intensive and Critical Care Nursing, 28(2),
55–57. https://doi.org/10.1016/j.iccn.2012.02.004
Hildreth, Amy N,
Enniss, Robert S, Preston , & Mitten-Long,. (2023). Surgical intensive
care unit mobility is increased after institution of a computerized mobility
order set and intensive care unit mobility protocol: A prospective cohort
analysis. Proquest.com. https://www.proquest.com/healthcomplete/docview/840258476/7A8A6A08B0874D63PQ/5?accountid=34574
Holsworth, C., &
Gallagher, S. (2017). Managing care of critically ill bariatric patients. AACN
Advanced Critical Care, 28(3), 275–283.
https://doi.org/10.4037/aacnacc2017342
Jones, D. B., Abu-Nuwar,
M. R. A., Ku, C. M., Berk, L.-A. S., Trainor, L. S., & Jones, S. B. (2020).
Less pain and earlier discharge after implementation of a multidisciplinary
enhanced recovery after surgery (ERAS) protocol for laparoscopic sleeve
gastrectomy. Surgical Endoscopy, 34(12), 5574–5582.
https://doi.org/10.1007/s00464-019-07358-w
Krupp, A., Steege,
L., & King, B. (2018). A systematic review evaluating the role of nurses
and processes for delivering early mobility interventions in the intensive care
unit. Intensive and Critical Care Nursing, 47(1), 30–38.
https://doi.org/10.1016/j.iccn.2018.04.003
Leeman, M., van Mil,
S. R., Biter, L. U., Apers, J. A., Verhoef, K., & Dunkelgrun, M. (2020).
Reducing complication rates and hospital readmissions while revising the enhanced
recovery after bariatric surgery (ERABS) protocol. Surgical Endoscopy, 1(1).
https://doi.org/10.1007/s00464-020-07422-w
Line Rokkedal
Jønsson, Nicolai Bang Foss, Janne Orbæk, Morten Laksafoss Lauritsen, Helene
Nygaard Sejrsen, & Morten Tange Kristensen. (2023). Early intensive
mobilization after acute high-risk abdominal surgery: A nonrandomized
prospective feasibility trial. Canadian Journal of Surgery, 66(3),
E236–E245. https://doi.org/10.1503/cjs.008722
Tazreean, R., Nelson,
G., & Twomey, R. (2022). Early mobilization in enhanced recovery after
surgery pathways: Current evidence and recent advancements. Journal of
Comparative Effectiveness Research, 11(2), 121–129.
https://doi.org/10.2217/cer-2021-0258
Thompson, Gower, S T,
Beilby, D S, & Tomlinson, S. (2023). Enhanced recovery after surgery
program for elective abdominal surgery at three victorian hospitals.
Proquest.com.
https://www.proquest.com/healthcomplete/docview/1018134828/C41C260B807740BAPQ/14?accountid=34574
Zutshi, M., Delaney,
C. P., Senagore, A. J., Mekhail, N., Lewis, B., Connor, J. T., & Fazio, V.
W. (2005). Randomized controlled trial comparing the controlled rehabilitation
with early ambulation and diet pathway versus the controlled rehabilitation
with early ambulation and diet with preemptive epidural anesthesia/analgesia
after laparotomy and intestinal resection. The American Journal of Surgery,
189(3), 268–272. https://doi.org/10.1016/j.amjsurg.2004.11.012