Your search keyword '"Superficial Back Muscles blood supply"' showing total 4 results

1. Akute Blutung aus der linken A. transversa colli: Eine seltene Manifestation des „Sicherheitsgurt-Syndroms“.

Author

Franke M, Franke J, and Mückner K

Subjects

Acute Disease, Angiography, Humans, Magnetic Resonance Imaging, Superficial Back Muscles blood supply, Syndrome, Tomography, X-Ray Computed, Arteries injuries, Hemorrhage etiology, Neck blood supply, Seat Belts adverse effects

Abstract

Competing Interests: Die Autorinnen/Autoren geben an, dass kein Interessenkonflikt besteht.

Published

2020

2. Trapezius perforator flaps: anatomical basis using 58 dissections.

Author

Manyacka Ma Nyemb P, Fontaine C, Martinot-Duquennoy V, Demondion X, and Ndoye JM

Subjects

Adult, Aged, Aged, 80 and over, Cadaver, Dissection, Female, Humans, Male, Middle Aged, Neck surgery, Perforator Flap transplantation, Superficial Back Muscles transplantation, Thoracic Wall surgery, Anatomic Landmarks, Arteries anatomy & histology, Perforator Flap blood supply, Plastic Surgery Procedures methods, Superficial Back Muscles blood supply

Abstract

Introduction: The trapezius muscle is a good option for soft tissue defects in the cervical and thoracic regions. However, pedicled flaps raised from perforators in the trapezius are rare. Through a series of cadaver dissections, the authors aim to map the perforating arteries in the trapezius muscle., Materials and Methods: Dissection of 58 anatomical regions in 32 cadavers was carried out. The perforating arteries of the trapezius were inventoried based on their location, dimensions and frequency using the scapular spine and spinous process line as landmarks., Results: In 78% of cases, the main perforators of the trapezius were located along two vertical lines parallel to the spinous process line, 5-6 cm on either side of it, between the scapular spine laterally, the tip of the scapula caudally and the superior margin of the trapezius cranially. On each side of the spinous process line, we found an average of 16 perforators (range 5-27) with an average diameter of 0.6 mm (range 0.1-2.6 mm)., Conclusion: Our study shows that surgeons can use fixed landmarks when developing trapezius perforator flaps.

Published

2018

3. Binding of indocyanine green in polycaprolactone fibers using blend electrospinning for in vivo laser-assisted vascular anastomosis.

Author

Schönfeld A, Kabra ZM, Constantinescu M, Bosshardt D, Stoffel MH, Peters K, and Frenz M

Subjects

Anastomosis, Surgical, Animals, Aorta surgery, Feasibility Studies, Femoral Artery surgery, In Vitro Techniques, Microsurgery methods, Rabbits, Superficial Back Muscles blood supply, Surgical Flaps blood supply, Surgical Flaps surgery, Swine, Tensile Strength, Arteries surgery, Fluorescent Dyes, Indocyanine Green, Lasers, Semiconductor therapeutic use, Polyesters, Prostheses and Implants, Vascular Surgical Procedures methods

Abstract

Background and Objective: The clinical application of laser-assisted vascular anastomosis is afflicted by unreliable and low bonding strengths as well as tedious handling during microvascular surgery. The challenge to be met arises from the flow-off of the chromophore during soldering that changes the absorption and stains the surrounding tissue, leading to an uncontrollable thermal damage zone. In this study, we investigated the feasibility to produce an indocyanine green (ICG)-loaded patch by electrospinning and tested its applicability to both in vitro and in vivo microvascular laser soldering., Materials and Methods: A blend of polycaprolactone and ICG was electrospun to produce a pliable patch. Prior to soldering, the patch was soaked in 40% wt. bovine serum albumin solution. The solder patch was wrapped in vitro around blood vessel stumps of rabbit aortas. An intraluminal balloon catheter enabled an easy alignment and held the setup in place. The soldering energy was delivered via a diffusor fiber from the vessel lumen using a diode laser at 810 nm. During the procedure, the surface temperature was observed with an infrared camera. Afterward, samples were embedded in methylmethacrylate and epon to study thermal damage. The quality of the fusion was assessed by measuring the tensile strength. After in vitro tests with rabbit aortas, eight large white pigs were subjected to an acute in vivo experiment, and the artery of the latissimus dorsi flap was anastomosed to the distal femoral artery., Results: The ICG-loaded patch, produced by electrospinning, has a thickness of 279 ± 62 μm, a fiber diameter of 1.20 ± 0.19 μm, and an attenuation coefficient of 1,119 ± 183 cm -1 at a wavelength of 790 nm. The patch was pliable and easy to handle during surgery. No leakage of the chromophore was observed. Thermal damage was restricted to the Tunica adventitia and Tunica media and the area of the vessel wall that was covered with the patch. Six pigs were successfully treated, without any bleeding and with a continuous blood flow. The in vivo flap model yielded a similar tensile strength compared to in vitro laser-assisted vascular anastomoses (138 ± 52 vs. 117 ± 30 mN/mm 2 )., Conclusion: Our study demonstrated the applicability of the ICG-loaded patch for laser-assisted vascular anastomosis. By using electrospinning, ICG could be bound to polymer fibers, avoiding its flow-off and the staining of the surrounding tissue. This patch demonstrated several advantages over liquid solder as it was easier to apply, ensured a high and reliable bonding strength while maintaining a constant concentration of ICG concentration during the surgery. Lasers Surg. Med. 49:928-939, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2017

4. [Anatomical study of muscular latissimus dorsi surface vascularized by the transverse branch of thoraco-dorsal artery].

Author

Boucher F, Pinatel B, Shipkov H, Mertens P, Rouviere O, Braye F, and Mojallal A

Subjects

Cadaver, Humans, Arteries, Perforator Flap, Superficial Back Muscles blood supply

Abstract

Introduction: The latissimus dorsi muscle flap is a type V according to Mathes and Nahai. It is vascularized by a proximal main pedicle represented by the thoraco-dorsal pedicle and pedicle distal accessory represented by the dorsal branches of the posterior intercostal arteries. The main thoraco-dorsal pedicle has a descending branch and a transverse branch. This anatomical study clarifies the muscular territory vascularized by the transverse branch of thoraco-dorsal artery for a secondary use after harvesting a thoraco-dorsal artery perforator flap or a muscle-sparing latissimus dorsi flap., Material and Methods: Our study focused on ten dissections latissimus dorsi muscle taken from five fresh cadavers chest, carried out within the University Department of Anatomy. The descending branch of thoraco-dorsal artery was ligated, the transverse branch was cannulated and injected with a mixture of barium sulfate/gelatin. After freezing, a static angiotomodensitometry (3D) of each flap was performed., Results: The average muscular surface vascularized by the transverse branch is measured at 80% (77% minimum value, maximum value 83%) of the complete latissimus dorsi muscle. Intermuscular connections between the two branches of thoraco-dorsal pedicle were shown., Conclusion: The use of a ipsilateral latissimus dorsi muscle is a therapeutic option after harvesting a thoraco-dorsal artery perforator flap (TAP) or a muscle-sparing latissimus dorsi flap (MSLD-flap)., (Copyright © 2014 Elsevier Masson SAS. All rights reserved.)

Published

2014