The Association of Surgical Setting With Opioid Prescribing Patterns Following Wide-Awake Trigger Finger Release.

INTRODUCTION: Wide-awake and office-based hand surgeries are increasingly common. The association of these techniques with postoperative pain and pain control has garnered recent attention. A prior study demonstrated that office-based trigger finger release (TFR) were associated with decreased perioperative opioid prescriptions compared to those performed in the operating room. The current study provides an in-depth analysis of the association between surgical setting and perioperative opioid prescriptions for wide-awake TFR. METHODS: Patients undergoing TFR between 2010 and 2021 were identified in PearlDiver, a national administrative claims database. Exclusion criteria were age <18 years, <6 months of preoperative data, <1 month of postoperative data, bilateral TFR, and concomitant hand surgery. To identify wide-awake cases, patients with procedural codes for general anesthesia, monitored anesthesia care, sedation and regional blocks were excluded. Patients were stratified by surgical setting (office or operating room), then matched based on age, sex, Elixhauser Comorbidity Index score, and geographic region. Patients with prior opioid prescriptions, opioid dependence, opioid abuse, substance use disorder, chronic back/neck pain, generalized anxiety, and major depression were identified. Perioperative opioid prescriptions (those filled within 7 days before or 30 days after surgery) were characterized. RESULTS: There were 16,604 matched wide-awake TFR patients in each cohort. In the cohort of office-based patients, 4,993 (30%) filled a prescription for perioperative opioids, in contrast to 8,763 (53%) patients who underwent surgery in the operating room. This disparity was statistically significant in both univariate and multivariate analyses. Univariate analysis indicated that office-based surgeries were linked to lower morphine milligram equivalents (MME) in opioid prescriptions than those performed in operating rooms (median of 140 vs 150, respectively). However, multivariate analysis demonstrated that opioid prescriptions for office-based surgeries were actually associated with greater MME. CONCLUSIONS: Patients undergoing office-based TFR were less likely to fill perioperative opioid prescriptions but were prescribed opioids with greater MME. In wide-awake TFR, it appears that a disparity may exist in patient and provider beliefs about postoperative pain control. Future patient- and provider-level investigations may produce insights into perceptions of postoperative pain and pain control, which may be useful for reducing opioid prescriptions across surgical settings.

Novel Approach to Difficult Spinal Reconstruction: Bilateral Simultaneous Rib and Iliac Crest Vascularized Bone Graft Spinoplastic Surgery.

Pseudoarthrosis is a severe complication of spinal fusion surgery with occurrence rates as high as 35%-40%. Current options of revision surgery to correct pseudoarthrosis frequently carry high failure rates and risk of developing junctional kyphosis. Pedicled vascularized bone grafts (VBGs) are an innovative approach to boost spinal fusion rates via improving structural integrity and increasing the delivery of blood to the donor site. This versatile technique can be performed at different spinal levels without additional skin incisions and with minimal added operative time. Here we present the first bilateral rib and iliac crest VBG spinoplastic surgery performed to augment spinal fusion in a 68-year-old woman with distal junctional kyphosis and severe positive sagittal balance with low back and neck pain and significant difficulty standing upright. The patient had history of multiple spinal operations with preoperative CT imaging demonstrating loosening and pull out of L3 and fracture of L2 screws. She underwent two-stage surgical treatment involving anterior lumbar interbody fusion L3-S1 followed by removal of hardware, T4 to pelvis fusion with L2-3 prone lateral interbody fusion, and T11-S1 posterior column osteotomies. The surgery was augmented by bilateral rib and iliac crest VBGs performed by plastic surgery. At three-month follow-up the patient demonstrated functional improvement, being able to maintain upright posture and walk; was satisfied with the result of the surgery; and demonstrated no graft-related complications. In conclusion, utilization of pedicled VBGs is a novel, promising approach to augment spinal surgery in high risk patients.

A hypomorphic variant in the translocase of the outer mitochondrial membrane complex subunit TOMM7 causes short stature and developmental delay.

Mitochondrial diseases are a heterogeneous group of genetic disorders caused by pathogenic variants in genes encoding gene products that regulate mitochondrial function. These genes are located either in the mitochondrial or in the nuclear genome. The TOMM7 gene encodes a regulatory subunit of the translocase of outer mitochondrial membrane (TOM) complex that plays an essential role in translocation of nuclear-encoded mitochondrial proteins into mitochondria. We report an individual with a homozygous variant in TOMM7 (c.73T>C, p.Trp25Arg) that presented with a syndromic short stature, skeletal abnormalities, muscle hypotonia, microvesicular liver steatosis, and developmental delay. Analysis of mouse models strongly suggested that the identified variant is hypomorphic because mice homozygous for this variant showed a milder phenotype than those with homozygous Tomm7 deletion. These Tomm7 mutant mice show pathological changes consistent with mitochondrial dysfunction, including growth defects, severe lipoatrophy, and lipid accumulation in the liver. These mice die prematurely following a rapidly progressive weight loss during the last week of their lives. Tomm7 deficiency causes a unique alteration in mitochondrial function; despite the bioenergetic deficiency, mutant cells show increased oxygen consumption with normal responses to electron transport chain (ETC) inhibitors, suggesting that Tomm7 deficiency leads to an uncoupling between oxidation and ATP synthesis without impairing the function of the tricarboxylic cycle metabolism or ETC. This study presents evidence that a hypomorphic variant in one of the genes encoding a subunit of the TOM complex causes mitochondrial disease.

Cellular Senescence in Aging, Tissue Repair, and Regeneration.

SUMMARY: Society and our healthcare system are facing unprecedented challenges due to the expansion of the older population. As plastic surgeons, we can improve care of our older patients through understanding the mechanisms of aging that inevitably impact their outcomes and well-being. One of the major hallmarks of aging, cellular senescence, has recently become the focus of vigorous research in academia and industry. Senescent cells, which are metabolically active but in a state of stable cell cycle arrest, are implicated in causing aging and numerous age-related diseases. Further characterization of the biology of senescence revealed that it can be both detrimental and beneficial to organisms depending on tissue context and senescence chronicity. Here, we review the role of cellular senescence in aging, wound healing, tissue regeneration, and other domains relevant to plastic surgery. We also review the current state of research on therapeutics that modulate senescence to improve conditions of aging.

MicroRNAs in cartilage development and dysplasia.

Small regulatory microRNAs (miRNAs) post-transcriptionally suppress gene expression. MiRNAs expressed in skeletal progenitor cells and chondrocytes regulate diverse aspects of cellular function and thus skeletal development. In this review, we discuss the role of miRNAs in skeletal development, particularly focusing on those whose physiological roles were revealed in vivo. Deregulation of miRNAs is found in multiple acquired diseases such as cancer; however congenital diseases caused by mutations in miRNA genes are very rare. Among those are mutations in miR-140 and miR-17~92 miRNAs which cause skeletal dysplasias. We also discuss pathological mechanisms underlining these skeletal dysplasias.