We assessed the usefulness of remote rehabilitation therapy for coronavirus disease (COVID-19) patients from 24 April to 24 May 2020 in Tokyo Medical and University. A rehabilitation modality was devised to be applied from green area (not-infected area) to red area (infected area) using a mobile terminal. This allowed 18 of 43 patients to be treated indirectly by remote rehabilitation. The patients were significantly younger than those undergoing direct rehabilitation. Four patients switched from direct to remote rehabilitation in the course. All patients undergoing remote rehabilitation were discharged home or to a hotel. No serious adverse events were observed. Remote rehabilitation was an effective and safe modality against the transmission of infection and could facilitate rehabilitation of patients in COVID-19 wards Objective: To describe the effectiveness and risk manage ment of remote rehabilitation for coronavirus disease (COVID-19) patients in general wards. Design: Single-centre, retrospective, observational study. Patients: COVID-19 patients undergoing rehabilitation (24 April to 24 May 2020). Methods: All COVID-19 inpatients undergoing rehabilitation in the general ward of Tokyo Medical and Dental University were assessed. Data were collected on age, sex, physical ability, rehabilitation modality (remote/direct), need for intubation or extracorporeal membrane oxygenation, degree of pneumonia, oxygen therapy from the start of rehabilitation, D-dimer and C-reactive protein levels, and rehabilitation-related complications. Activities of daily living were measured using the Barthel Index. Results: Out of a total of 43 patients, 14 were initially provided with remote rehabilitation and 29 with direct (hands-on) rehabilitation. Four patients were switched from direct to remote rehabilitation during the study, thus at the end of the study there were 18 in the remote rehabilitation group and 25 in the direct rehabilitation group. Patients in remote rehabilitation were significantly younger than those in direct rehabilitation. Of 12 patients who required intubation, 3 were given remote rehabilitation. One extracorporeal membrane oxygenation survivor underwent direct rehabilitation. All patients on remote rehabilitation were discharged home or to a hotel. Twelve out of 29 patients on direct rehabilitation were transferred to a rehabilitation hospital due to delayed recovery of activities of daily living. No serious adverse events occurred. Conclusion: Effective and safe remote rehabilitation was performed in 41.9% of COVID-19 patients in this study, which resulted in which facilitated rehabilitation in COVID-19 specialized general wards.
To improve the management outcomes and diagnostic accuracy of the ulnar collateral ligament (UCL) injury, the anatomy of the medial side of the elbow joint is necessary to be understood in terms of the periarticular surroundings rather than the specific ligaments. The aim of this study was to anatomically clarify the medial side of the elbow joint in terms of the tendinous structures and joint capsule. We conducted a descriptive anatomical study of 23 embalmed cadaveric elbows. We macroscopically analyzed the relationship between the flexor pronator muscles (FPMs) and the joint capsule in 10 elbows, histologically analyzed in 6 elbows, and observed the bone morphology through micro computed tomography in 7 elbows. The two tendinous septa (TS) were found: between the pronator teres (PT) and flexor digitorum superficial (FDS) muscles, and between the FDS and flexor carpi ulnaris (FCU) muscles. These two TS are connected to the medial part of the brachialis tendon, deep aponeurosis of the FDS, and FCU to form the tendinous complex, which linked the humeroulnar joint and could not be histologically separated from each other. Moreover, the capsule of the humeroulnar joint under the tendinous complex had attachment on the ST of 7 mm width. The two TS, the brachialis tendon, the deep FDS and FCU aponeuroses, and the joint capsule linked the humeroulnar joint. These anatomical findings could lead to a paradigm shift in the prevention, diagnosis, and treatment of UCL injuries in baseball players. Clin. Anat. 32:379–389, 2019. © 2018 The Authors. Clinical Anatomy published by Wiley Periodicals, Inc. on behalf of American Association of Clinical Anatomists.
BackgroundAdult acquired flatfoot deformity (AAFD) is caused by impaired medial ligamentous structures and posterior tibialis tendon dysfunction (PTTD). Although degeneration and trauma could separately cause AAFD, how these factors interact in the pathomechanism of AAFD is unclear. The joint capsule in the medial ankle is considered an important structure, providing passive stability by limiting joint movement. Previous reports on the joint capsule suggest its involvement in pathological changes of the ankle, but because of the high priority placed on the ligaments, few reports address the ankle joint from the joint capsule standpoint. The current study aimed to anatomically examine the medial ankle joint, focusing on the deltoid and spring ligaments in perspective of the joint capsule.MethodsWe conducted a descriptive anatomical study of 19 embalmed cadavers (mean 82.7 years, range 58 to 99). We included 22 embalmed cadaveric ankles. We detached the joint capsule in 16 ankles from the anterior to posteromedial joint, analyzed the capsular attachments of the ankle and adjacent joints, and measured the widths of the bony attachments. We histologically analyzed the joint capsule using Masson’s trichrome staining in 6 ankles.ResultsThe capsule could be separated as a continuous sheet, including 3 different tissues. The anterior capsule was composed of fatty tissue. Between the medial malleolus and talus, the capsule was strongly connected and was composed of fibrous tissue, normally referred to as the deep deltoid ligament. The tibial attachment formed a steric groove, and the talar side of the attachment formed an elliptical depressed area. On the medial part of the subtalar and talonavicular joints, the capsule covered the joints as cartilaginous tissue, normally referred to as the superomedial ligament of the spring ligament. The outer side of the cartilaginous and fibrous tissue formed the sheath floor of the posterior tibialis tendon. Histological analysis revealed three different tissue types.ConclusionsThe capsules of the ankle, subtalar, and talonavicular joints could be detached as a continuous sheet. The deltoid and the superomedial ligament of the spring ligaments could be interpreted as a part of the continuous capsule, which had different histological features.Level of evidenceDescriptive Laboratory Study.
Objectives: The aim of the study was to describe the characteristics and efficiency of rehabilitation for patients diagnosed with moderate-to-severe coronavirus disease (COVID-19). Methods: We retrospectively assessed the medical records of patients with COVID-19 who underwent rehabilitation for early mobilization and to maintain activities of daily living at our hospital between April 21 and August 20, 2020. The following patient data were evaluated: age, sex, diseases, and the total number of sessions completed by patients with severe COVID-19 in the intensive care unit (ICU) and by patients with moderate disease in the general COVID-19 wards. The number of daily sessions performed by physiotherapists was also evaluated. Results: Of 161 patients with COVID-19 admitted during the study period, 95 underwent rehabilitation (78 in the general COVID-19 wards and 17 in the ICU). These 95 COVID-19 patients completed 1035 rehabilitation sessions in total (882 in the general ward and 153 in the ICU). Polymerase chain reaction test results for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) were positive for 79 patients on the initiation of rehabilitation. Moreover, 86 sessions were supervised remotely, thereby reducing the duration of the medical staff’s stay in the SARS-CoV-2 isolation area. Patients with COVID-19 in the ICU received significantly more daily physiotherapy sessions than general ward patients (P<0.001). Each physiotherapist performed, on average, 4.6 sessions daily, with 4.3 daily sessions being performed wearing personal protective equipment (PPE). Conclusions: COVID-19 rehabilitation required more efforts as wearing PPE was necessary for most cases although tried with remote rehabilitation in some cases. Overall, a longer rehabilitation period was needed for ICU patients.
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