Capturing objective data of the postoperative changes in the mobility of patients is expected to generate a better understanding of the effect of postoperative treatment. Until recently, the collection of gait-related data was limited to controlled clinical environments. The emergence of accurate wearable accelerometers with sufficient runtime, however, enables the long-term measurement and extraction of mobility parameters, such as “real-world walking speed”. An interim analysis of 1967 hours of actibelt data (3D accelerometer, 100 Hz) from 5 patients (planned total 20) with a femur fracture and 5 patients (planned total 20) with a humerus fracture from a geriatric population at two different sites of the university hospital of the Ludwigs-Maximilian-University in Munich was performed. Mobility data was captured during several days of stationary treatment starting directly after surgery and during a short follow-up visit six weeks after the surgery. Preliminary results show an increase of the mean walking speed between the two visits independent of the type of fracture. Patients with a humerus fracture tended to walk faster than patients with a femur fracture during both visits. The data also reveals an unexpected low level of mobility during the stationary stay. Mobile accelerometry can be used to evaluate different postoperative mobilisation strategies and even provide near-time feedback in geriatric trauma patients.

Introduction

Aged trauma patients with proximal femur fractures are prone to various complications. They may be associated with their comorbidities which also need to be adressed. These complications limit the patient”s postoperative health status and subsequently their activity and independency. As an attempt to improve the postoperative management of aged hip fracture patients a better understanding of the postoperative condition in these patients is necessary. Therefore, this meta-analysis is intended to provide an overview of postoperative complications in the elderly hip fracture patients and to improve the understanding of an adequate postoperative management.

Objectives

Aged trauma patients are at high risk for various comorbidities and loss of function following hip fracture. Consequently a multidisciplinary approach for the treatment of these patients has become more famous in order to maintain the patients” activity level and health status prior to trauma. This study evaluates the effect of a multidisciplinary inpatient rehabilitation on the short- and long-term functional status of geriatric patients following hip fracture surgery.

Background

Polypharmacy of elderly trauma patients entails further difficulties in addition to the fracture treatment. Impaired renal function, altered metabolism and drugs that are potentially delirious or inhibit ossification, are only a few examples which must be carefully considered for the medication in elderly patients. The aim of this study was to investigate, if medication errors could be prevented by orthogeriatric comanagement compared to conventional trauma treatment.

With around 20–40% of our bodyweight, skeletal muscles are the biggest organ complex of the human body. Being a metabolic active tissue, muscle mass, function and fibertype composition is highly regulated in a tight spatial-temporal manner. In geriatric patients, it is essentially important to understand the underlying mechanisms of the age related losses of fiber size and total number of fibers, as well as fibertype shifting.

To date, there have been few studies dealing with gene expression profiling of skeletal muscles, mostly focusing on age related differences in whole-muscle specimen. Being carried out on mouse or rat limb muscles, most other studies do not represent the conditions of human muscle, due to the differences in fibertype composition. Our study provides a fibertype-specific approach for whole-genome expression analysis in human skeletal muscle.

22 fresh frozen biceps brachii and quadriceps femoris muscle samples were acquired from the muscle bank of the Friedrich-Baur-Institut, Department of Neurology, Ludwig-Maximilians-University, Munich, Germany. Consecutive cross-sections were used for immunohistochemical myosine-heavy-chain-staining and individual fibers were acquired by laser-capture-microdissection. Around 100 cells of each fibertype of each biopsy were dissected, reversely transcribed, pre-amplified and labeled for microarray analysis. Fiber type-specific gene expression was analyzed with ANOVA. Correction for multiple testing was performed using the Benjamini-Hochberg procedure with a conservative threshold and the pathway analysis was carried out using the Ingenuity Pathway Analysis program (QIAGEN).

By comparing type I vs. type IIa, type I vs. type IIx and type IIa vs. type IIx, we could identify 2855, 2865 and 510 differentially expressed genes. As expected, many differentially regulated genes belong to functional groups like cytoskeleton, muscle contraction and energy metabolism, proving the feasibility of our study. However, many genes that are involved in the response to oxidative stress were also differently regulated, showing distinct mechanisms of the different fiber types, of coping with oxidative stress. In consensus with available literature, the relative proportion of type I fibers seemed to increase with age. Despite higher levels of oxidative stress, type I fibers seem to have more efficient antioxidative mechanisms in comparison to type IIa and IIx fibers, which might explain the higher vulnerability of members of the type II family to oxidative stress. Furthermore, genes that are involved in fibertype specification were also regulated differently. However, we could not verify an age-specific activation of pathways involved in fibertype shifting. Whether fibertype shifting is solely due to disproportionate loss of type II fibers, or also in vivo - transdifferentiation of fibers, has to be investigated further.

Abstract

In aged trauma patients the basic prerequisite is early mobilization and full weight-bearing, as immobilization can trigger various complications such as pressure ulcers, pneumonia, urinary tract infections and others. Mortality of elderly patients increases significantly in fracture patients with partial weight-bearing compared to populations with total weight-bearing. Besides the limited physical strength in these patients, partial-weight bearing is however frequently used for the aftercare of hip fracture patients. Therefore, the present study aims to evaluate mobility of aged hip fracture patients with regards to weight-bearing and postoperative mobility.