Jude Opoku-Agyeman scite author profile

Jude Opoku-Agyeman

4Publications

33Citation Statements Received

71Citation Statements Given

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Affiliations

Reading Hospital, Philadelphia College of Osteopathic Medicine, Arnot Ogden Medical Center

Publications

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Use of Negative-Pressure Wound Therapy With Instillation and Dwell Time: An Overview

Faust

Opoku-Agyeman

Behnam

2020

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Summary: The use of negative-pressure wound therapy (NPWT) has become an established therapy for wound management. There have been many advancements in the technology of NPWT including NPWT with instillation and dwell (NPWTi-d). NPWTi-d promotes wound healing by wound cleansing, irrigation, and nonexcisional debridement. NPWTi-d has been shown in comparative clinical studies to decrease the time to definitive wound healing and length of hospitalization. NPWTi-d—using a reticulated open-cell foam dressing with “through” holes (ROCF-CC)—has been postulated to facilitate solubilization, detachment, and elimination of infectious materials, such as slough and thick exudate, before or after operative debridement, and in cases where surgical debridement is not an option. The authors provide an overview on the use of NPWTi-d by reviewing the components of the system, proposed mechanism of action, clinical outcomes, and current consensus guidelines for its utilization.

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Flap Viability after Direct Immediate Application of Negative Pressure Wound Therapy on Free Flaps: A Systematic Review and Pooled Analysis of Reported Outcomes

Opoku-Agyeman

Matera

Simone

et al. 2019

J Reconstr Microsurg Open

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Background The use of negative pressure wound therapy (NPWT) devices has gained wide acceptance in the management of wounds. There have been a few reported cases of its use immediately after free tissue transfer. This is the first systematic review and pooled analysis on the immediate use of NPWT for free flaps with emphasis on the rate of free flap loss. Methods The authors performed a systematic review that focused on the rate of total free flap loss after immediate application of NPWT. EMBASE, Cochrane Library, Ovid Medicine, MEDLINE, Google Scholar, and PubMed databases were searched from 1997 to April of 2019. Peer-reviewed articles published in the English language were included. Results Ten articles were included in the review, yielding 211 free flap procedures. All studies were retrospective cohort studies except for two that were prospective studies and one that was a case series. The overall complete flap failure rate was n = 7 (3.3%). The most commonly reconstructed area was the lower extremity (n = 158 [74.9%]) followed by head and neck (n = 42 [19.9%]) and upper extremity (n = 11 [5.2%]). The vacuum pressure ranged from 75 to 125 mm/Hg. The time of application of the NPWT ranged from 5 to 7 days. The etiologies of wound defects were from trauma (n = 82 [63.6%]), tumor extirpation (n = 43 [33.3%]), and infection and burn (n = 4 [3.1%]). Conclusion The immediate application of NPWT on free flaps does not seem to be associated with an increased risk of flap failure.

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Surgical configurations of the pectoralis major flap for reconstruction of sternoclavicular defects: a systematic review and new classification of described techniques

2019

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Objectives The pectoralis major flap has been considered the workhorse flap for chest and sternoclavicular defect reconstruction. There have been many configurations of the pectoralis major flap reported in the literature for use in reconstruction sternoclavicular defects either involving bone, soft tissue elements, or both. This study reviews the different configurations of the pectoralis major flap for sternoclavicular defect reconstruction and provides the first ever classification for these techniques. We also provide an algorithm for the selection of these flap variants for sternoclavicular defect reconstruction. Methods EMBASE, Cochrane library, Ovid medicine and PubMed databases were searched from its inception to August of 2019. We included all studies describing surgical management of sternoclavicular defects. The studies were reviewed, and the different configurations of the pectoralis major flap used for sternoclavicular defect reconstruction were cataloged. We then proposed a new classification system for these procedures. Results The study included 6 articles published in the English language that provided a descriptive procedure for the use of pectoralis major flap in the reconstruction of sternoclavicular defects. The procedures were classified into three broad categories. In Type 1, the whole pectoris muscle is used. In Type 2, the pectoralis muscle is split and either advanced medially (type 2a) or rotated (type 2b) to fill the defect. In type 3, the clavicular portion of the pectoralis is islandized on a pedicle, either the thoracoacromial artery (type 3a) or the deltoid branch of the thoracoacromial artery (type 3b). Conclusion There are multiple configurations of the pectoralis flap reported in the English language literature for the reconstruction of sternoclavicular defects. Our classification system, the Opoku Classification will help surgeons select the appropriate configuration of the pectoralis major flap for sternoclavicular joint defect reconstruction based on size of defect, the status of the vascular anatomy, and acceptability of upper extremity disability. It will also help facilitate communication when describing the different configurations of the pectoralis major flap for reconstruction of sternoclavicular joint defects.

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Surgical Configurations of the Pectoralis Major flap for Reconstruction of Sternoclavicular Defects: A Systematic Review and New Classification of Described Techniques

Opoku-Agyeman

Matera

Simone

2019

Preprint

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Objectives : The pectoralis major flap has been considered the workhorse flap for chest and sternoclavicular defect reconstruction. There have been many configurations of the pectoralis major flap reported in the literature for use in reconstruction sternoclavicular defects either involving bone, soft tissue elements, or both. This study reviews the different configurations of the pectoralis major flap for sternoclavicular defect reconstruction and provides the first ever classification for these techniques. We also provide an algorithm for the selection of these flap variants for sternoclavicular defect reconstruction Methods : EMBASE, Cochrane library, Ovid medicine and PubMed databases were searched from its inception to August of 2019. We included all studies describing surgical management of sternoclavicular defects. The studies were reviewed, and the different configurations of the pectoralis major flap used for sternoclavicular defect reconstruction were cataloged. We then proposed a new classification system for these procedures. Results : The study included 6 articles published in the English language that provided a descriptive procedure for the use of pectoralis major flap in the reconstruction of sternoclavicular defects. The procedures were classified into three broad categories. In Type 1, the whole pectoris muscle is used. In Type 2, the pectoralis muscle is split and either advanced medially (type 2a) or rotated (type 2b) to fill the defect. In type 3, the clavicular portion of the pectoralis is islandized on a pedicle, either the thoracoacromial artery (type 3a) or the deltoid branch of the thoracoacromial artery (type 3b). Conclusion: There are multiple configurations of the pectoralis flap reported in the English language literature for the reconstruction of sternoclavicular defects . Our classification system, The Opoku Classification will help surgeons select the appropriate configuration of the pectoralis major flap for sternoclavicular joint defect reconstruction based on size of defect, the status of the vascular anatomy, and acceptability of upper extremity disability. It will also help facilitate communication when describing the different configurations of the pectoralis major flap for reconstruction of sternoclavicular joint defects.

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