Summary Statement. Bone stress fracture triggers a rapid increase in blood flow in association with mast cell production of inducible nitric oxide synthase (iNOS). NOS inhibition blocks the increase in blood flow and reduces woven bone formation needed for stress fracture healing. Introduction. Vascular-bone interactions are critical in skeletal development and fracture healing. We recently showed that angiogenesis is required for stress fracture healing. However, the changes in vascularity that occur in the first 72 hours after stress fracture can not be explained by angiogenesis. Here, we evaulated early changes in blood flow and vasodilation after either damaging (stress fracture) or non-damaging mechanical loading in rats. Methods. The right forelimbs of adult rats were subjected to cyclic axial compression in vivo. We used two established protocols: damaging loading that creates a stress fracture and leads to woven bone formation (WBF loading), or non-damaging loading that stimulates lamellar bone formation (LBF loading). PET imaging was used to evaluate blood flow and fluoride kinetics based on uptake of . 15. O water and . 18. F fluoride radioisotopes, respectively, at the site of bone formation. To quantify vasodilation, the area of the anterior interosseous artery was measured. Inducible nitric oxide synthase (iNOS) expression was evaluated by immunostaining. Finally, NO production was impaired by administration of L-NAME (N. ω. -nitro-L-arginine methyl ester), a NOS inhibitor. Results. PET Imaging: Damaging WBF loading induced early and persistent increases in blood flow. Blood flow rate was increased ∼30% at 4 hours through 14 days in WBF loaded limbs. Fluoride uptake peaked 7 days after WBF loading, then declined from 7 to 14 days, consistent with the dynamics of woven bone formation described previously. Non-damaging LBF loading did not affect blood flow or fluoride kinetics. Histology: WBF loaded limbs had significantly increased arterial area (+50%) compared to non-loaded limbs at days 1 and 3, with return to normal by day 7. LBF loading did not affect arterial area. Since mast cells are a possible effector of vasodilation, mast cell infiltration and iNOS expression were quantified following loading. iNOS+ mast cells in WBF-loaded limbs were significantly increased on days 1 and 3, with return to normal by day 7. LBF loading was not associated with increases in iNOS+ mast cells. NOS Inhibition: L-NAME blocked the expression of iNOS in mast cells following WBF loading. Additionally, L-NAME treatment abolished the increase in blood flow rate at days 1 and 3, and diminished fluoride uptake at day 3. Finally, L-NAME treatment decreased woven bone formation, with significant decreases in woven bone volume (−27%) and BMD (−26%), compared to vehicle controls. Discussion/Conclusion. Damaging loading produces a stress fracture and leads to woven bone formation (WBF). Prior to bone formation, there is a rapid increase in blood flow rate in association with vasodilation and infiltration of iNOS+ mast cells in the expanded periosteum. Inhibition of NOS blocks the increase in blood flow rate, and ultimately impairs woven bone formation. In contrast, non-damaging (LBF) loading does not affect blood flow rate, vasodilation, or iNOS expression in mast cells. Thus, the vascular response after stress fracture involves an early increase in blood flow by vasodilation, followed by angiogenesis to maintain increased blood flow. Disruption of either response affects subsequent bone formation during stress fracture healing

Our knowledge of primary bone marrow edema (BME) of the knee is still limited. A major contributing factor is that it shares several radiological findings with a number of vascular, traumatic, and inflammatory conditions having different histopathological features and etiologies. BME can be primary or secondary. The most commonly associated conditions are osteonecrosis, osteochondritis dissecans, complex regional pain syndrome, mechanical strain such as bone contusion/bruising, micro-fracture, stress fracture, osteoarthritis, and tumor. The etiology and pathogenesis of primary BME are unclear. Conservative treatment includes analgesics, non-steroidal anti-inflammatory drugs, weight-bearing limitations, physiotherapy, pulsed electromagnetic fields, prostacyclin, and bisphosphonates. Surgical treatment, with simple perforation, fragment stabilization, combined scraping and perforation, and eventually osteochondral or chondrocyte transplant, is reserved for the late stages. This retrospective study of a cohort of patients with primary BME of the knee was undertaken to describe their clinical and demographic characteristics, identify possible risk factors, and assess treatment outcomes. We reviewed the records of 48 patients with primary BME of the knee diagnosed on MRI by two radiologists and two orthopedists. History, medications, pain type, leisure activities, smoking habits, allergies, and environmental factors were examined. Analysis of patients’ characteristics highlighted that slightly overweight middle-aged female smokers with a sedentary lifestyle are the typical patients with primary BME of the knee. In all patients, the chief symptom was intractable day and night pain (mean value, 8.5/10 on the numerical rating scale) with active as well as passive movement, regardless of BME extent. Half of the patients suffered from thyroid disorders; indeed, the probability of having a thyroid disorder was higher in our patients than in two unselected groups of patients, one referred to our orthopedic center (odds ratio, 18.5) and another suffering from no knee conditions (odds ratio, 9.8). Before pain onset, 56.3% of our cohort had experienced a stressful event (mourning, dismissal from work, concern related to the COVID-19 pandemic). After conservative treatment, despite the clinical improvement and edema resolution on MRI, 93.8% of patients described two new symptoms: a burning sensation in the region of the former edema and a reduced ipsilateral patellar reflex. These data suggest that even though the primary BME did resolve on MRI, the knee did not achieve full healing

Abstract. Background/Objectives. The incidence of reverse total shoulder replacement (rTSR) implantation is increasing globally, but apprehension exists regarding complications and associated challenges. We retrospectively analysed the senior author's series of rTSR from a tertiary centre using the VAIOS shoulder system, a modular 4th generation implant. We hypothesised that the revision rTSR cohort would have less favourable outcomes and more complications. Methods. 114 patients underwent rTSR with the VAIOS system, over 7 years. The primary outcome was implant survival. Secondary outcomes were Oxford shoulder scores (OSS), radiographic analysis (scapular notching, tuberosity osteolysis, and periprosthetic radiolucent lines) and complications. Results. There were 55 Primary rTSR, 31 Revision rTSR and 28 Trauma rTSR. Implant survival: Primary rTSR- 0 revisions, average 3.35-year follow-up. Revision rTSR-1 revision (4.17%), average 3.52-year follow-up. Trauma rTSR- 1 revision (3.57%), average 4.56-year follow-up OSS: Average OSS improved from 15.39 to 33.8 (Primary rTSR) and from 15.11 to 29.1 (Revision rTSR). Average post-operative OSS for the Trauma rTSR was 31.4 Radiological analysis and complications: Low incidence of scapular notching One hairline fracture below the tip of stem, noted incidentally, which required no treatment. One periprosthetic fracture after alcohol related fall. Treated non-surgically One joint infection requiring two-stage revision to rTSR. One dislocation noted at 2 year follow up. This patient had undergone nerve grafting within 6 months of rTSR for axillary nerve injury sustained during the original fracture dislocation. One acromial fracture with tibial and distal humeral fracture after a fall. Conclusions. The 4th generation modular VAIOS implant is a reliable option for various indications. The revision rTSR cohort had favourable outcomes with low complication rates. In this series, early-to-medium term results suggest lower revision rates and good functional outcomes when compared to published reports. We plan to monitor long-term implant survivorship and patient reported outcomes. Declaration of Interest. (a) fully declare any financial or other potential conflict of interest

The arterial supply of the talus has been extensively studied in the past but there is a paucity of information on the arterial supply to the navicular and a very limited understanding of the intra-osseous supply to the surface of either of these bones. This is despite the likely importance of this supply in relation to conditions such as osteochondral lesions of the dome of the talus, and avascular necrosis and stress fracture of the navicular. Using cadaveric limbs, dissection of the source vessels was performed followed by arterial injection of latex. The talus and navicular were then removed en bloc, preserving the integrity of the injected arterial vasculature. The specimens were then processed using a new, accelerated diaphanisation technique. This rendered the tissue transparent, allowing the injected vessels to be visualised and then mapped onto a 3D virtual reconstruction of the bone. The vasculature to the subchondral surfaces of the talus and navicular, and the source vessel entry points that provide arterial supply into the navicular were identified. This study gives quantifiable evidence of the areas of consistently poor blood supply which may help explain the clinical pattern of talar and navicular pathology. It also provides as yet unpublished information on the arterial supply of the human navicular bone