Lutzjohansen7197
Medical devices for hard-to-heal wound healing are classified into two types (1) devices for promoting re-epithelialisation; and (2) devices for improving the wound bed. selleck For medical devices for promoting re-epithelialisation, we suggest setting complete wound closure, percent wound area reduction or distance moved by the wound edge as the primary endpoint in single-arm trials for hard-to-heal wounds. For medical devices for improving the wound bed, we suggest setting the period in which wounds can be closed by secondary intention or a simple procedure, such as the primary endpoint.Skin healing defects severely impair the quality of life of millions of people and burden healthcare systems globally. The therapeutic approach to these pathologies still represents a challenge. Novel scaffolds, used as dermal substitutes, possibly represent a promising strategy in complex wound management. Integra Flowable Wound Matrix (IFWM) is composed of a lyophilised, micronised form of collagen/chondroitin sulphate matrix, already used in regenerative medicine and endorsed in the therapy of diabetic foot lesions. In this paper, IFWM was applied to a tunnelling hard-to-heal skin lesion in order to restore tissue integrity. Although the different phases of skin wound healing are well established, the molecular mechanism underpinning IFWM-induced tissue repair are almost unknown. Here, we report, for the first time, the comparative analysis of molecular, histological and clinical observations of the healing process of a hard-to-heal tunnelling skin wound. The therapeutic success of this clinical case allowed us to recommend the use of IFWM as a tissue substitute in this rare type of hard-to-heal wound in which the high inflammatory status hampered the natural healing process.We report the successful treatment of two cases of difficult-to-treat pressure ulcers with botulinum toxin type A (BoNT-A). A 71-year-old male patient with Parkinson's disease presented with severe hand grip deformities of the fingers and a pressure ulcer (PU) on the right hand. He received 240U of BoNT-A into the upper limb muscles, which improved finger mobility during passive extension and resulted in resolution of the palm PU. No recurrence was noted. A 69-year-old female patient with Lewy body dementia presented with a PU on the palm side of the middle finger apex of the right hand, with exposure of the phalanx bone and dark red oedematous granulation of the tip of the finger. Severe muscle tone was noted. She received 240U of BoNT-A injected into the muscles of the upper extremities. This resulted in the disappearance of the contracture between the middle finger cusp and palm, and prompt healing of the PU. A protective finger orthosis was also used to improve hand finger grip and prevent further PUs. Although BoNT-A injection resulted in only slight improvement in the range of motion, it produced relief of pressure with consequent healing of the PU. Injection of BoNT-A into the affected muscles of the patients in this case report was effective in reducing flexor muscle tone, relief of pressure on the palm skin and healing of hand PUs.
People with active diabetic foot disease should be rapidly referred by health professionals along a pathway of care to a multidisciplinary foot team. The aim was to investigate patients' self-reported understanding of their foot risk status and reasons for their referral to a multidisciplinary foot team.
This seven-month service evaluation included consecutive newly referred patients. Participants completed a questionnaire which asked firstly about their understanding of their foot risk status, secondly about their pathway of care before presentation to the multidisciplinary foot team, and thirdly about their interest in diabetes-related foot education and preferred learning style.
There were 202 participants; 65% were male, mean age was 64±15 years (mean±standard deviation (SD)), 86% had type 2 diabetes, and mean HbA1c was 65±23mmol/mol (8.3±3.7%). Only 4% of participants knew their current foot risk status and 52% did not know why their care had been escalated to a multidisciplinary foot clinic. Partigement.The aim of this study was to investigate the effects of direct creatine infusion on fetal systemic metabolic and cardiovascular responses to mild acute in utero hypoxia. Pregnant ewes (n = 28) were surgically instrumented at 118 days gestation (dGa). A constant intravenous infusion of creatine (6 mg·kg-1·h-1) or isovolumetric saline (1.5 mL·h-1) began at 121 dGa. After 10 days, fetuses were subjected to 10-min umbilical cord occlusion (UCO) to induce mild global hypoxia (saline-UCO, n = 8; creatine-UCO, n = 7) or sham UCO (saline-control, n = 6; creatine-control, n = 7). Cardiovascular, arterial blood gases and metabolites, and plasma creatine were monitored before, during, and then for 72 h following the UCO. Total creatine content in discrete fetal brain regions was also measured. Fetal creatine infusion increased plasma concentrations fivefold but had no significant effects on any measurement pre-UCO. Creatine did not alter fetal physiology during the UCO or in the early recovery stage, up to 24 h after UCts that increasing creatine tissue availability may be an adaptive response against the effects of hypoxia.Spinal cord epidural stimulation (scES) combined with activity-based training can promote motor function recovery in individuals with motor complete spinal cord injury (SCI). The characteristics of motor neuron recruitment, which influence different aspects of motor control, are still unknown when motor function is promoted by scES. Here, we enrolled five individuals with chronic motor complete SCI implanted with an scES unit to study the recruitment order of motor neurons during standing enabled by scES. We recorded high-density electromyography (HD-EMG) signals on the vastus lateralis muscle and inferred the order of recruitment of motor neurons from the relation between amplitude and conduction velocity of the scES-evoked EMG responses along the muscle fibers. Conduction velocity of scES-evoked responses was modulated over time, whereas stimulation parameters and standing condition remained constant, with average values ranging between 3.0 ± 0.1 and 4.4 ± 0.3 m/s. We found that the human spinal circuitry rythmic activity seems to favor orderly recruitment trends.Asthma acute exacerbations (AE) have been investigated using quantitative computed tomography (QCT)-based imaging metrics, but QCT has not yet been used to investigate a comprehensive set of imaging metrics during AE. This study aims to explore imaging features, captured both at segmental and parenchymal scales, during asthma AE compared with those in stable asthma (SA). Two sets of the QCT images at total lung capacity (TLC) and functional residual capacity (FRC) were captured for 14 subjects during asthma AE and in SA phase, respectively. We calculated airway wall thickness (WT), hydraulic diameter (Dh), and airway circularity (Cr) of the 36 segmental airways; percentage of functional small airway disease (fSAD%); percentage of emphysema; tissue fraction (βtiss); and coefficient of variation of βtiss (CV of βtiss). We performed Spearman correlation tests for changes in QCT metrics and pulmonary function tests, measured in AE and SA. During asthma AE, structural metrics, that is, WT, Dh, and Cr, were not chahe asthma acute exacerbation.Effects of life-long physical activity on tendon function have been investigated in cross-sectional studies, but these are at risk of "survivorship" bias. Here, we investigate if life-long side-specific loading is associated with greater cross-sectional area (CSA), mechanical properties, cell density (DNA content) and collagen cross-link composition of the male human patellar tendon (PT), in vivo. Nine seniors and six young male life-long elite badminton players and fencers were included. CSA of the PT obtained by 3-tesla MRI, and ultrasonography-based bilateral PT mechanics were assessed. Collagen fibril characteristics, enzymatic cross-links, non-enzymatic glycation (autofluorescence), collagen and DNA content were measured biochemically in PT biopsies. The elite athletes had a ≥15% side-to-side difference in maximal knee extensor strength, reflecting chronic unilateral sport-specific loading patterns. The PT CSA was greater on the lead extremity compared with the non-lead extremity (17 %, p=0.0001). Furthermore, greater tendon stiffness (18 %, p=0.0404) together with lower tendon stress (22 %, p=0.0005) and tendon strain (18 %, p=0.0433) were observed on the lead extremity. No effects were demonstrated from side-to-side for glycation, enzymatic cross-link, collagen, and DNA content (50%, p=0.1160). Moreover, tendon fibril density was 87±28 fibrils/μm2 on the lead extremity and 68±26 fibrils/μm2 on the non-lead extremity (28%, p=0.0544). Tendon fibril diameter was 86±14 nm on the lead extremity and 94±14 nm on the non-lead extremity (-9%, p=0.1076). These novel data suggest that life-long side-specific loading in males yields greater patellar tendon size and stiffness possibly with concomitant greater fibril density but without changes of collagen cross-link composition.
It is important to understand the rate of complications associated with the increasing burden of revision shoulder arthroplasty. Currently, this has not been well quantified. This review aims to address that deficiency with a focus on complication and reoperation rates, shoulder outcome scores, and comparison of anatomical and reverse prostheses when used in revision surgery.
A Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) systematic review was performed to identify clinical data for patients undergoing revision shoulder arthroplasty. Data were extracted from the literature and pooled for analysis. Complication and reoperation rates were analyzed using a meta-analysis of proportion, and continuous variables underwent comparative subgroup analysis.
A total of 112 studies (5,379 shoulders) were eligible for inclusion, although complete clinical data was not ubiquitous. Indications for revision included component loosening 20% (601/3,041), instability 19% (577/3,041), rotator y; however, revision surgery is associated with high complication rates and better outcomes may be evident following revision to reverse TSA. Cite this article Bone Jt Open 2021;2(8)618-630.Background Body composition and motor skill development are important for the engagement in physical activity and healthy development of children. This study examined the associations between body composition and motor skill development in 3- to 5-year-old children. Methods Data from preschool-aged children (N = 342, 51% males) who participated in the 2012 National Youth Fitness Survey were analyzed. Skinfold measurements (subscapular, calf, and triceps) were taken and percent body fat (%BF) was calculated using sex-specific equations. Lean muscle mass and fat mass were also calculated. Motor skill development was determined by the Test of Gross Motor Development-2nd Edition. Regression analyses were performed to determine the associations among %BF and locomotor skills, object control skills, and overall gross motor quotient (GMQ), controlling for sex, race, and poverty index ratio. Results Most children were classified as with underweight/healthy weight (69%) and 31% were either with overweight or obesity. Average %BF was 17.