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Alford Higgins posted an update 6 months, 2 weeks ago
It has been proposed that hyperperfusion of perforators and distension of anastomotic vessels may be a mechanism by which large perforator flaps are perfused. This study investigates whether increasing perfusion pressure of radiographic contrast in cadaveric studies altered the radiographic appearance of vessels, particularly by distending their anastomotic connections.
From 10 fresh cadavers, bilateral upper limbs above the elbow were removed. Three cadavers were excluded. Seven pairs of limbs were injected with lead oxide solutions via the brachial artery while distally monitoring intravascular pressure in the radial artery using a pressure transducer. One limb was injected slowly (0.5 mL/s) and the other rapidly (1.5 mL/s) to produce low and high perfusion pressures, respectively. Skin and subcutaneous tissue were then removed and radiographed.
The filling of perforators and their larger caliber branches appeared unchanged between low- and high-pressure injections, with
(
= 0.32) and
(
= 0.94)
(
= 0.10). However, high-pressure injections revealed arteriovenous shunting with filling of the tributaries of the major veins.
This study demonstrated that increased perfusion pressure of the cutaneous arteries (1) did not change the caliber of vessels; (2) did not convert choke to true anastomoses; and (3) revealed arteriovenous shunting between major vessels with retrograde filling of venous tributaries as pressure increased. This suggests that it is not possible to distend anastomotic connections between vascular territories by increasing perfusion alone.
This study demonstrated that increased perfusion pressure of the cutaneous arteries (1) did not change the caliber of vessels; (2) did not convert choke to true anastomoses; and (3) revealed arteriovenous shunting between major vessels with retrograde filling of venous tributaries as pressure increased. This suggests that it is not possible to distend anastomotic connections between vascular territories by increasing perfusion alone.
The first visible change in an aging face and neck is the loss of neck contour, which can be corrected by treating the platysmal bands; however, it remains unclear as to which is the best strategy to approach these bands. The aim of the present study is to verify whether the lateral platysmal bands approaches, before the medial ones, cause widening of the gap between them.
This is a prospective, randomized, comparative study involving 30 individuals presenting various stages of neck and facial flaccidity and sagging. The patients were split into 2 groups according to the lateral platysmal approach (group A lateral platysmal traction/plication; group B lateral platysmal undermined/traction). A protocol was established to measure the gap between the medial bands, 3 and 5 cm away from the chin, before and after superficial musculoaponeurotic system/platysma lateral suspension. Measurements were taken using a compass and a ruler. The endpoint was to determine whether the gap between the medial platysmal bandsned, does not lead to a widening of the gap between the medial platysmal bands.In recent years, alveolar bone grafting has emerged as the first treatment choice for space closure in the secondary dentition. Despite this, a high possibility of failure still exists for patients with a vertical discrepancy of cleft segments. This is attributed to the absence of valid contact between the grafted bone and the surfaces of bone segments in the cleft region. In cases of minor discrepancies, the vertical distance can be reduced orthodontically, allowing for subsequent alveolar bone grafting.1 However, in severe cases, isolated orthodontic treatment is not viable due to a high risk of periodontal problems and increased tooth mobility. Under the circumstances, surgical intervention is essential. Herein, we report a case in which the alveolar segment is aligned using a novel application of segmental maxillary osteotomy to rotate the segment with a subperiosteal tunnel. Rigid fixation of the segment in the desired position is then performed with concurrent bone grafting. Therefore, performing segmental maxillary osteotomy before bone grafting could be an alternative to correcting the vertical discrepancy encountered in cleft patients.
Management of facial rejuvenation by the thread lift procedure has evolved over the past few years. The role of deep plane thread lift for buccal fat pad reposition was advocated. However, there are concerns about the risks and the feasibility of the deep plane thread lift. This study was designed to determine whether the deep plane thread lift could achieve effective aesthetic results and to investigate the possible risks of critical tissue injury through cadaveric studies.
Twelve fresh frozen cephalic specimens of 8 male and 4 female Asian body donors (mean age, 63.3 ± 8.0 years) were investigated. The deep plane thread lifts for reposition of the buccal fat pads were performed for all the left hemifaces. AICAR Cadaveric dissections were performed to investigate the moving distance of the buccal fat pad and to examine the surrounding tissue of the passage of the deep plane thread lift.
The average moving distance of the buccal fat pads after the deep plane thread lift was 3.73 cm. The difference in moving distance of buccal fat pads between bilateral sides was statistically significant (
< 0.001). No injuries of the critical vessels or nerves were found after cadaveric dissection. The passage of the deep plane thread lift was evaluated.
The deep plane thread lift for reposition of the buccal fat pad is a safe, effective, and practical method.
The deep plane thread lift for reposition of the buccal fat pad is a safe, effective, and practical method.
Primary breast augmentation in small, pointed, or tubular breasts using axillary skin incision, submuscular cohesive gel implants, and intraoperative tissue expansion dramatically reduces complications.
A 2.5- to 3.5-cm-long incision is made in the hair-bearing part of the axillae beside a natural fold. Incisions are opened using dissection away from the axillae, and an opening is made underneath the muscle on top of the thoracic cage. Blunt finger dissection is performed, and temporary breast expanders and special dissectors are inserted. The expanders create volume and desired breast shape. Sterility is ensured by entering implant pockets only with expanders and elevators and changing gloves before placing implants. No irrigation or antibiotic solution is used on implants or in the pockets. One thousand three hundred ten breast augmentations were performed between 2004 and 2019 (including a 2-year follow-up) using textured, cohesive round implants. Patients were followed up 3-4 months postoperatively. The parameters analyzed were size, shape, firmness, scars, and sensation in the nipple areola complexes.
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