The binding interactions between two cyanine dyes, pseudoisocyanine (PIC) and pinacyanol (PIN), and the cucurbit[n]uril hosts, cucurbit[7]uril (CB7) and cucurbit[6]uril (CB6), were investigated by electronic absorption spectroscopy and DFT computational methods. The CB7 host forms more stable complexes with both dyes than CB6 and the computational studies suggest that the cavity of the smaller host CB6 is not threaded by the dyes. The equilibrium association constants (K) for complexation by CB7 were measured and found to be 2.05 x 10(4) and 3.84 x 10(5) M(-1) for PIC and PIN, respectively, in aqueous media at 23 degrees C. CB7 complexation was found to effectively disrupt the intermolecular forces responsible for the aggregation of both dyes. Thus, CB7 completely disrupts the J-aggregates formed by PIC and the H-aggregates (as well as lower concentrations of J-aggregates) formed by PIN. In both cases a competing guest, 1-aminoadamantane (AD), could be used to adjust the extent of aggregation of the cyanine dye. AD regulates aggregate formation because it forms an extremely stable complex with CB7 (K approximately = 10(12) M(-1)) and exerts a tight control on the CB7 concentration available to interact and bind with the dye.
There continues to be mounting evidence in radiographic, quality of life, and functional outcome studies to support open reduction with internal fixation for the treatment of condylar fractures in patients with malocclusion, significant displacement, or dislocation of the temporomandibular joint. The utilization of three-dimensional trapezoidal miniplates has shown improved outcomes and theoretically enhanced biomechanical properties when compared with traditional fixation with single or double miniplates. Endoscopic-assisted techniques can decrease surgical morbidity, but are technically challenging, require skilled assistants, and utilize specialized equipment.
Objective: To compare the microbial flora of cholesteatoma and normal middle ears using gene-based sequencing analysis. Study Design: Controlled ex vivo human study. Setting: Academic, tertiary medical center. Subjects and Methods: Brush, swab, and tissue samples were each taken from cholesteatoma matrix and uninvolved tissue in patients with previously untreated, acquired cholesteatoma (n = 19) or middle ear mucosa from patients undergoing cochlear implantation with no history of cholesteatoma or previous middle ear surgery (control; n = 12). DNA was isolated from specimens then 16S rRNA gene sequencing was performed. Results: There was no difference in microbial yield between the sampling methods. Cholesteatoma specimens had lower relative abundance of 14 bacterial species compared with controls including Acidovorax sp., Bacillus sp., Masillia sp., Moraxella osloensis, Phenylobacterium conjunctum, Sphingomonas sp., and Staphylococcus epidermidis (all p < 0.05). Alternaria sp. were present on nearly all the specimens. Alternaria sp. and Cladosporium herbarum (both p ≤ 0.05) were lower in the cholesteatoma compared with control group. There was no difference in the relative abundance of any bacteria or fungi between the cholesteatoma matrix and uninvolved middle ear mucosa. Conclusions: Microbiome of cholesteatoma matrix is largely similar to adjacent mucosa. This differs from healthy ears. Further study is needed to understand if middle ear microbiome may impact cholesteatoma pathogenesis or treatment.
ObjectiveUtilization of free tissue transfers in head and neck reconstruction has greatly increased due to their dependability and reliability. Anterolateral thigh (ALT) and rectus abdominus (RA) free flaps may provide too much soft tissue bulk, especially in patients with a large body habitus. A radial forearm free flap (RFFF) may be modified with a “beaver tail” (BT), which provides a flap whose bulk may be tailored to a defect. The purpose of this paper is to describe the technique, how it can be used for a variety of defects and the outcomes of these reconstructions.MethodsA retrospective review of prospectively collected data was performed at single tertiary care center between 2012 and 2022. BT‐RFFF was designed by leaving a fibroadipose tail vascularized to branches of the radial artery or separated from the vascular pedicle and left attached to the proximal portion of the skin paddle. Functional outcomes, tracheostomy dependence, and gastrostomy tube (G‐tube) dependence as well as complications were determined.ResultsFifty‐eight consecutive patients undergoing BTRFFF were included. Defects reconstructed included: oral tongue and/or floor of mouth 32 (55%), oropharynx 10 (17%), parotid 6 (10%), orbit 6 (10%), lateral temporal bone 3 (5%), and mentum 1 (2%). Indications for BTRFF were: need for bulk when the ALT and RA were too thick (53%) and need for a separate subcutaneous flap for contouring or deep defect lining (47%). Complications directly related to beavertail included a widened forearm scar (100%), wrist contracture (2%) partial flap loss (2%), and flap loss requiring a revision flap (3%). Ninety‐three percent of patients with oral/oropharyngeal defects and 12‐month follow‐up tolerated oral intake without aspiration and 76% were tube‐independent. Ninety‐three percent were tracheostomy‐free at last follow‐up.ConclusionThe BTRFF is a useful tool for reconstructing complex 3D defects requiring bulk where an ALT or rectus would otherwise provide too much bulk.
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