A case report of abdominal compartment syndrome caused by malposition of a femoral venous catheter

Introduction: Venous catheter malposition is a rare event with potential catastrophic consequences. To our knowledge we describe one of the first case reports of an adult presenting with a rare late complication of femoral venous catheter malposition: abdominal compartment syndrome. Presentation of case: A 39 year-old female sustained severe cerebral injury in a road traffic accident. During initial resuscitation a femoral venous catheter was inserted without ultrasound guidance with no immediate concerns. After 48 h whilst in intensive care unit the patient developed progressive abdominal distension. Bedside investigations revealed raised intra-abdominal pressures associated with new organ failure. Subsequent an emergency laparotomy and on-table intravenous contrast radiographs revealed extravasation of contrast into the peritoneal space from the malposition of the catheter into the abdominal cavity. Discussion: Complications of central venous catheterization are associated with adverse events with significant morbidity to the patient as well as having cost implications. Mechanical complications are underreported but are potentially preventable through ultrasound-guided insertion, in accordance with international guidelines. Conclusion: This case report highlights the importance of safe methods of catheter insertion, the need for increased awareness of late femoral catheter malposition and its potential catastrophic consequences

Immediate breast reconstruction with a ‘modified fleur-de-lis’ abdominal-free flap in a patient with previous abdominal surgery

DIEP flap has become the gold standard method for patients undergoing autologous breast reconstruction; however, previous surgery or scars in the abdominal area have been considered a relative contraindication for the use of abdominal tissue. Longitudinal midline abdominal scars may be specially problematic because of the poor midline crossover of blood and the high risk of necrosis of the distal flap. Patients with small breast may be easily reconstructed with hemi-DIEP flap; however, patients with large breast need more tissue available. Our aim is to report a modification of a ‘fleur-de-lis pattern’ for a breast reconstruction in a patient with previous abdominal surgery and large breast. The post-operative course was uneventful, flap did not show blood supply compromise, volume and symmetry are preserved after 6 months post-operative and donor site morbidity has not been observed. This modification may be very useful to avoid complications related to poor blood supply associated with scar tissues. Careful pre-operative planning and the transfer of only well-vascularised tissue are essential for a successful reconstruction

Osteocutaneous Turn-Up Fillet Flaps: A Spare-Parts Orthoplastic Surgery Option for a Functional Posttraumatic Below-Knee Amputation

This article portrays the authors' experience with a complex lower limb bone and soft tissue defect, following chronic osteomyelitis and pathological fracture, which was managed by the multidisciplinary orthoplastic team. The decision for functional amputation versus limb salvage was deemed necessary, enhanced by the principles of “spare parts” in reconstructive microsurgery. This case describes the successful use of the osteocutaneous distal tibia turn-up fillet flap that allowed “lowering the level of the amputation” from a through knee to a below-knee amputation (BKA) to preserve the knee joint function. We comprehensibly review reports of turn-up flaps which effectively lower the level of amputation, also applying “spare-parts” surgery principles and explore how these concepts refine complex orthoplastic approaches when limb salvage is not possible to enhance function. The osteocutaneous distal tibia turn-up fillet flap is a robust technique for modified BKA reconstructions that provides sufficient bone length to achieve a tough, sensate stump and functional knee joint

Pork Belly: A Simulation Training Model for Intramuscular Perforator Dissection

Background:. Free tissue transfer has evolved from muscle flaps to fasciocutaneous flaps. Dissection of the intramuscular course of feeding vessels is technically challenging. Simulation-based microsurgery skills acquisition is moving toward nonliving training models. Living porcine model or human cadavers are currently cost-ineffective methods for the early learning curve in teaching intramuscular dissection. The aim of this study was to validate an inexpensive ex vivo porcine model simulating harvest of the deep inferior epigastric artery perforator (DIEAP) flap, specifically including perforator intramuscular dissection. Methods:. An initial needs analysis and anatomical dissections (characteristics of vascular anatomy) established the necessity and surgical design (step-by-step) of the ex vivo DIEAP flap harvesting model. A pilot study utilizing objective assessment methodology (time to complete flap raising and hand motion analysis) demonstrated the surgeons’ performance. A detailed feedback questionnaire was used to assess the participants’ perception of this model. Results:. Fifty-seven participants completed the initial needs analysis. Fifteen pork bellies were dissected and the vascular anatomical characteristics of the inferior epigastric vessels are presented. Eight surgeons performed the step-by-step flap design demonstrating construct validity in flap raising and intramuscular dissection. All surgeons completed the ex vivo DIEAP harvesting and they recommend this model as the first step in training for intramuscular dissection. Conclusions:. The pork belly simulation is a cheap, easy, ethically considerate, and high-fidelity simulation model for intramuscular dissection for the DIEAP free flap. This study guides future validation trials to explore if the absence of physiological blood flow affects skills acquisition in the intramuscular dissection learning curve. The pork belly could be the first step in perforators dissection before progressing to the in vivo porcine model

Anatomical Variations of the Pectoralis Muscle and Its Importance for Breast Implant Surgery

Background:. In breast augmentation, during submuscular or dual plane dissection, anatomical variations of the inferior and costal origin of the pectoralis major muscle (PMM) play a key role to ensure optimal implant coverage. Especially, a short and narrow muscle or surgical release along the sternum increases the risk of irregularities and animation deformities of the implant. Methods:. In 84 consecutive aesthetic breast augmentations intraoperatively, measurement of PMM dimensions was performed bilaterally. These PMM measurements were then correlated with the preoperative breast width, the inframammary fold, and the placement of the implant’s lower pole. Results:. One hundred sixty-eight PMMs of 84 patients were dissected with a dual plane II or III technique for primary aesthetic breast augmentation. In 88% of breasts, the calculated implants’ lower pole was below the inferiomedial origin of the pectoralis muscle. In 10% of patients, a separation (more than 1 cm wide and 2 cm wide) in the inferior-medial origin of the PMM was noted. An asymmetry more than 0.5 cm in length between the left and right pectoralis major was noted in 36% of patients. Conclusions:. In this series, the anatomy of the PMM demonstrates a substantial variability in width and length and a considerable asymmetry in its dimensions. These findings emphasize the importance of good access and visualization of the origin of the PMM fibers before its division