Consensus statement for perioperative care in total hip replacement and total knee replacement surgery: Enhanced Recovery After Surgery (ERAS®) Society recommendations.

Background and purpose - There is a large volume of heterogeneous studies across all Enhanced Recovery After Surgery (ERAS®) components within total hip and total knee replacement surgery. This multidisciplinary consensus review summarizes the literature, and proposes recommendations for the perioperative care of patients undergoing total hip replacement and total knee replacement with an ERAS program.Methods - Studies were selected with particular attention being paid to meta-analyses, randomized controlled trials, and large prospective cohort studies that evaluated the efficacy of individual items of the perioperative treatment pathway to expedite the achievement of discharge criteria. A consensus recommendation was reached by the group after critical appraisal of the literature.Results - This consensus statement includes 17 topic areas. Best practice includes optimizing preoperative patient education, anesthetic technique, and transfusion strategy, in combination with an opioid-sparing multimodal analgesic approach and early mobilization. There is insufficient evidence to recommend that one surgical technique (type of approach, use of a minimally invasive technique, prosthesis choice, or use of computer-assisted surgery) over another will independently effect achievement of discharge criteria.Interpretation - Based on the evidence available for each element of perioperative care pathways, the ERAS® Society presents a comprehensive consensus review, for the perioperative care of patients undergoing total hip replacement and total knee replacement surgery within an ERAS® program. This unified protocol should now be further evaluated in order to refine the protocol and verify the strength of these recommendations

Tissue response to poly(ether)urethane-polydimethylsiloxane-fibrin composite scaffolds for controlled delivery of pro-angiogenic growth factors

The development of a scaffold able to mimic the mechanical properties of elastic tissues and to induce local angiogenesis by controlled release of angiogenic growth factors could be applied in the treatment of several ischemic diseases. For this purpose a composite scaffold made of a poly(ether)urethane-polydimethylsiloxane (PEtU-PDMS) semi-interpenetrating polymeric network (semi-IPN) and fibrin loaded growth factors (GFs), such as VEGF and bFGF, was manufactured using spray, phase-inversion technique. To evaluate the contribution of each scaffold component with respect to tissue response and in particular to blood vessel formation, three different scaffold formulations were developed as follows: 1) bare PEtU-PDMS; 2) PEtU-PDMS/Fibrin; and 3) PEtU-PDMS/Fibrin + GFs. Scaffolds were characterized in vitro respect to their morphology, VEGF and bFGF release kinetics and bioactivity. The induction of in vivo angiogenesis after subcutaneous and ischemic hind limb scaffold implantation in adult Wistar rats was evaluated at 7 and 14 days by immunohistological analysis (IHA), while Laser Doppler Perfusion Imaging (LDPI) was performed in the hind limbs at 0, 3, 7, 10 and 14 days. IHA of subcutaneously implanted samples showed that at 7 and 14 days the PEtU-PDMS/Fibrin + GFs scaffold induced a statistically significant increase in number of capillaries compared to bare PEtU-PDMS scaffold. IHA of ischemic hind limb showed that at 14 days the capillary number induced by PEtU-PDMS/Fibrin + GFs scaffolds was higher than that of PEtU-PDMS/Fibrin scaffolds. Moreover, at both time-points PEtU-PDMS/Fibrin scaffolds induced a significant increase in number of capillaries compared to bare PEtU-PDMS scaffolds. LDPI showed that at 10 and 14 days the ischemic/non-ischemic blood perfusion ratio was significantly greater in the PEtU-PDMS/Fibrin + GFs than in the other scaffolds. In conclusion, this study showed that the semi-IPN composite scaffold acting as a pro-angiogenic GFs delivery system has therapeutic potential for the local treatment of ischemic tissue and wound healing

A randomized controlled trial of self-regulated modified constraint-induced movement therapy in sub-acute stroke patients

Background and purpose: Emerging research suggests the use of self-regulation (SR) for improving functional regain in patients post stroke. SR is proposed to produce an added effect to effective modified constraint-induced movement therapy (mCIMT). This study aimed to examine the effect of a self-regulated mCIMT programme (SR-mCIMT) for functional regain in patients with sub-acute stroke. Methods: Eighty-six patients completed the trial: SR-mCIMT, n = 29; mCIMT, n = 31; or conventional functional rehabilitation, n = 26. All interventions were 2-week therapist-guided training. Outcome measurements, taken by a blinded assessor, examined arm function [Action Research Arm Test (ARAT), Fugl-Meyer Assessment (FMA)], daily task performance [Lawton Instrumental Activities of Daily Living Scale (Lawton IADL)] and self-perceived arm use in functional tasks [Motor Activity Log (MAL)]. Results: Significant differences were found with the SR-mCIMT outperforming the other groups after the intervention (ARAT, P = 0.006; FMA, Lawton IADL and MAL, all Ps < 0.001). In terms of the carry-over effect, the SR-mCIMT group outperformed in the hand and coordination subscales of ARAT and FMA (P = 0.012-0.013) and the self-perceived quality of arm use (P = 0.002). Conclusion: A combination of SR and mCIMT could produce an added effect in functional regain in patients post stroke