An infant with localized bronchial malacia was treated with a computer-printed bioresorbable three-dimensional splint. Placement of the splint resulted in improved ventilation.
To the Editor:
...Tracheobronchomalacia in newborns, which manifests with dynamic airway collapse and respiratory insufficiency, is difficult to treat.
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In an infant with tracheobronchomalacia, we implanted a customized, bioresorbable tracheal splint, created with a computer-aided design based on a computed tomographic image of the patient's airway and fabricated with the use of laser-based three-dimensional printing, to treat this life-threatening condition.
At birth at 35 weeks' gestation, the patient did not have respiratory distress and otherwise appeared to be in normal health. At 6 weeks of age, he had chest-wall retractions and difficulty feeding. By 2 months of age, his . . .
Current limitations in the supply of ventilators during the Covid19 pandemic have limited respiratory support for patients with respiratory failure. Split ventilation allows a single ventilator to be ...used for more than one patient but is not practicable due to requirements for matched patient settings, risks of cross-contamination, harmful interference between patients and the inability to individualize ventilator support parameters. We hypothesized that a system could be developed to circumvent these limitations.
A novel delivery system was developed to allow individualized peak inspiratory pressure settings and PEEP using a pressure regulatory valve, developed de novo, and an inline PEEP 'booster'. One-way valves, filters, monitoring ports and wye splitters were assembled in-line to complete the system and achieve the design targets. This system was then tested to see if previously described limitations could be addressed. The system was investigated in mechanical and animal trials (ultimately with a pig and sheep concurrently ventilated from the same ventilator). The system demonstrated the ability to provide ventilation across clinically relevant scenarios including circuit occlusion, unmatched physiology, and a surgical procedure, while allowing significantly different pressures to be safely delivered to each animal for individualized support.
In settings of limited ventilator availability, systems can be developed to allow increased delivery of ventilator support to patients. This enables more rapid deployment of ventilator capacity under constraints of time, space and financial cost. These systems can be smaller, lighter, more readily stored and more rapidly deployable than ventilators. However, optimizing ventilator support for patients with individualized ventilation parameters will still be dependent upon ease of use and the availability of medical personnel.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
To determine the potential of an integrated, image-based computer-aided design (CAD) and 3-dimensional (3D) printing approach to engineer scaffolds for head and neck cartilaginous reconstruction for ...auricular and nasal reconstruction.
Proof of concept revealing novel methods for bioscaffold production with in vitro and in vivo animal data.
Multidisciplinary effort encompassing 2 academic institutions.
Digital Imaging and Communications in Medicine (DICOM) computed tomography scans were segmented and utilized in image-based CAD to create porous, anatomic structures. Bioresorbable polycaprolactone scaffolds with spherical and random porous architecture were produced using a laser-based 3D printing process. Subcutaneous in vivo implantation of auricular and nasal scaffolds was performed in a porcine model. Auricular scaffolds were seeded with chondrogenic growth factors in a hyaluronic acid/collagen hydrogel and cultured in vitro over 2 months' duration.
Auricular and nasal constructs with several types of microporous architecture were rapidly manufactured with high fidelity to human patient anatomy. Subcutaneous in vivo implantation of auricular and nasal scaffolds resulted in an excellent appearance and complete soft tissue ingrowth. Histological analysis of in vitro scaffolds demonstrated native-appearing cartilaginous growth that respected the boundaries of the scaffold.
Integrated, image-based CAD and 3D printing processes generated patient-specific nasal and auricular scaffolds that supported cartilage regeneration.
Present an excellent outcome for a rare pterygium colli reconstruction.
Establish techniques that have yielded a successful aesthetic and functional outcome for a patient with pterygium colli in a ...procedure that lacks consensus.
Surgical pearls-description of considerations for a successful reconstruction. An academic practice. Pediatric patient with Turner's syndrome who underwent neck and auricular reconstruction.
Objectives/Hypothesis
To report the clinical safety and efficacy of three‐dimensional (3D)–printed, patient‐specific, bioresorbable airway splints in a cohort of critically ill children with severe ...tracheobronchomalacia.
Study Design
Case series.
Methods
From 2012 to 2018, 15 subjects received 29 splints on their trachea, right and/or left mainstem bronchi. The median age at implantation was 8 months (range, 3–25 months). Nine children were female. Five subjects had a history of extracorporeal membrane oxygenation (ECMO), and 11 required continuous sedation, six of whom required paralytics to maintain adequate ventilation. Thirteen were chronically hospitalized, unable to be discharged, and seven were hospitalized their entire lives. At the time of splint implantation, one subject required ECMO, one required positive airway pressure, and 13 subjects were tracheostomy and ventilator dependent, requiring a median positive end‐expiratory pressure (PEEP) of 14 cm H2O (range, 6–20 cm H20). Outcomes collected included level of respiratory support, disposition, and splint‐related complications.
Results
At the time of discharge from our institution, at a median of 28 days postimplantation (range, 10–56 days), the subject on ECMO was weaned from extracorporeal support, and the subjects who were ventilated via tracheostomy had a median change in PEEP (discharge–baseline) of −2.5 cm H2O (range, −15 to 2 cm H2O, P = .022). At median follow‐up of 8.5 months (range, 0.3–77 months), all but one of the 12 surviving subjects lives at home. Of the 11 survivors who were tracheostomy dependent preoperatively, one is decannulated, one uses a speaking valve, six use a ventilator exclusively at night, and three remain ventilator dependent.
Conclusions
This case series demonstrates the initial clinical efficacy of the 3D‐printed bioresorbable airway splint device in a cohort of critically ill children with severe tracheobronchomalacia.
Level of Evidence
4Laryngoscope, 129:1763–1771, 2019
Objectives:
Telemedicine was increasingly adopted in otolaryngology as a result of the COVID-19 pandemic, but how it compares to in-person visits over the longitudinal course of the pandemic has not ...been characterized. This study compares telemedicine visits to in-person visits on measures of clinical efficiency and patient satisfaction.
Methods:
We examined all in-person and telemedicine encounters that occurred during the 13-month period from April 1, 2020 to April 30, 2021 at a pediatric otolaryngology clinic associated with a large tertiary care children’s hospital. We compared patient demographics, primary encounter diagnoses, completions, cancellations, no-shows, cycle time, and patient satisfaction.
Results:
A total of 19 541 (90.5%) in-person visits and 2051 (9.5%) telemedicine visits were scheduled over the study period. There was no difference in patient age or gender between the visit types. There was a difference in race (75% White or Caucasian for in-person and 73% for telemedicine, P = .007) and average travel distance (53.3 miles for in-person vs 71.0 for telemedicine, P = .000). The most common primary diagnosis was Eustachian tube dysfunction for in-person visits (11.8%) and sleep disordered breathing for telemedicine visits (13.7%). Completion rate was greater for telemedicine visits (52.4% in-person vs 62.5% telemedicine). Cancellations were greater for in-person visits (42.6% in-person vs 24.2% telemedicine), but no-shows were greater for telemedicine (5.0% in-person vs 13.3% telemedicine, all P = .000). Average cycle time was shorter for telemedicine visits (56.5 minutes in-person vs 47.6 minutes telemedicine, P = .000). Patient satisfaction with provider interactions and overall care experience was high for both visit types.
Conclusions:
Telemedicine was utilized more during months of heightened COVID-19 cases, with higher completion rates, fewer cancellations, shorter cycle times, saved travel distance, and comparable patient satisfaction to in-person visits. Telemedicine has the potential to remain an efficient mode of care delivery in the post-pandemic era.
This study aims to determine the effect of auricular scaffold microarchitecture on chondrogenic potential in an in vivo animal model.
DICOM computed tomography (CT) images of a human auricle were ...segmented to create an external anatomic envelope. Image-based design was used to generate 1) orthogonally interconnected spherical pores and 2) randomly interspersed pores, and each were repeated in three dimensions to fill the external auricular envelope. These auricular scaffolds were then 3D printed by laser sintering poly-l-caprolactone, seeded with primary porcine auricular chondrocytes in a hyaluronic acid/collagen hydrogel and cultured in a pro-chondrogenic medium. The auricular scaffolds were then implanted subcutaneously in rats and explanted after 4 weeks for analysis with Safranin O and Hematoxylin and Eosin staining.
Auricular constructs with two micropore architectures were rapidly manufactured with high fidelity anatomic appearance. Subcutaneous implantation of the scaffolds resulted in excellent external appearance of both anterior and posterior auricular surfaces. Analysis on explantation showed that the defined, spherical micropore architecture yielded histologic evidence of more robust chondrogenic tissue formation as demonstrated by Safranin O and Hematoxylin and Eosin staining.
Image-based computer-aided design and 3D printing offers an exciting new avenue for the tissue-engineered auricle. In early pilot work, creation of spherical micropores within the scaffold architecture appears to impart greater chondrogenicity of the bioscaffold. This advantage could be related to differences in permeability allowing greater cell migration and nutrient flow, differences in surface area allowing different cell aggregation, or a combination of both factors. The ability to design an anatomically correct scaffold that maintains its structural integrity while also promoting auricular cartilage growth represents an important step towards clinical applicability of this new technology.
The study demonstrates use of a novel intervention for severe tracheobronchomalacia (TBM).
To test a novel, 3-dimensionally (3D) printed, bioresorbable airway splint for efficacy in extending ...survival in a porcine model of severe, life-threatening TBM.
A randomized, prospective animal trial was used to evaluate an external airway splint as treatment of severe, life-threatening TBM in a multi-institutional, multidisciplinary collaboration between a biomedical engineering department and an academic animal surgery center. Six 2-month-old Yorkshire pigs underwent tracheal cartilage division and inner tracheal lumen dissociation and were randomly assigned to splint treatment (n = 3) or control groups (n = 3). Two additional pigs had the splint placed over their normal trachea.
A 3D-printed, bioresorbable airway splint was assessed in a porcine animal model of life-threatening TBM. The open-cylindrical, bellow-shaped, porous polycaprolactone splint was placed externally and designed to suspend the underlying collapsed airway. Two additional animals were splinted without model creation.
The observer-based Westley Clinical Croup Scale was used to assess the clinical condition of animals postoperatively. Animal survival time was noted.
Complete or nearly complete tracheal lumen collapse was observed in each animal, with resolution of symptoms in all of the experimental animals after splint placement. Using our severe TBM animal model, survival was significantly longer in the experimental group receiving the airway splint after model creation than in the control group (P = .0495).
A multidisciplinary effort producing a computer-aided designed, computer-aided manufactured bioresorbable tracheobronchial splint was tested in a porcine model of severe TBM and was found to extend survival time. Mortality in the splinted group was ascribed to the TBM model based on the lack of respiratory distress in splinted pigs, long-term survival in animals implanted with the splint without TBM, and necropsy findings.
Objective:
The COVID-19 pandemic has introduced a period of social isolation that has challenged the ability of providers to uphold in-person patient care. Although commonplace in pediatric ...otolaryngology, multidisciplinary clinics pose a unique challenge during this time due to increased infection risk from multiple patient-provider interactions. Guidance on the application of telemedicine for multidisciplinary clinics in pediatric otolaryngology is limited.
Methods:
We provide comprehensive guidance on best practices for conducting telemedicine visits for a number of multidisciplinary otolaryngology clinics using our experiences at a single tertiary care children’s hospital. A review of literature to support the adoption of telemedicine in multidisciplinary pediatric otolaryngology is also incorporated.
Results:
Telemedicine was successfully adopted for 7 multidisciplinary pediatric clinics with a variety of specialists: aerodigestive disorders, congenital hearing loss, microtia/aural atresia, orofacial clefting, sleep disorders, tracheostomy care, and velopharyngeal dysfunction.
Conclusions:
Telemedicine is feasible for a variety of multidisciplinary clinics and its optimization is critical for providing care to complex pediatric otolaryngology patients during the COVID-19 pandemic and beyond.