View clinical trials related to Persistent Postsurgical Pain.
Filter by:The study is a nationwide, register-based cohort survey study. The objective of this study is to investigate whether weight change is associated with the incidence of persistent postoperative pain following total hip arthroplasty and knee arthroplasty across non-obese and obese and patients.
This study is a nationwide cross-sectional survey on pain and satisfaction after knee arthroplasty (KA). Please find the full protocol uploaded at ClinicalTrials.gov The goal of this observational study is to study pain and satisfaction in patients operated with knee arthroplasty. The main question it aims to answer are: - What is the incidence of persistent postsurgical pain in unselected knee arthroplasty patients - What is the level of satisfaction in unselected knee arthroplasty patients? Participants will be asked to answer a 22-item questionnaire.
This study is a nationwide cross-sectional survey on pain and satisfaction after total hip arthroplasty (THA). Please find the full protocol uploaded on ClinicalTrials.gov
Chronic knee pain remains a disabling disease despite current treatment strategies. There is an increase in the prevalence of osteoarthritis (OA) of the knee in the general population, presently affecting approximately 450,000 individuals in Belgium. A total knee replacement is a viable alternative for severe knee OA that does not respond to conservative therapy. Unfortunately, up to 53% of patients who undergo a total knee replacement develop persistent post-surgical pain (PPSP). There is currently no effective therapy for PPSP. A radiofrequency (RF) treatment applies high frequency current on the nerve responsible for pain conduction, resulting in an interruption of the transmission of pain. This can be applied to the nerves innervating the knee joint - the superolateral, superomedial and inferomedial genicular nerves - and could be an alternative, minimally invasive treatment for patients with knee OA who fail conservative treatments and for patients with PPSP. Data from the recent literature indicates that this treatment leads to a reduction of pain intensity and could result in an improvement of knee function, of the psychological state of the individual, and finally in an increase in health-related quality of life. Furthermore, RF of the genicular nerves could help avoid or delay a total knee replacement therefore potentially contributing to cost reduction. Both cooled and conventional RF treatments are reported in the literature to improve pain. The use of water to cool the RF electrodes results in an increased lesion size by removing heat from adjacent tissue, allowing power delivery to be increased. As a consequence, cooled RF could result in a higher chance of success and longer duration of effect. Until now, the studies performed on cooled RF are industry initiated and a direct comparison between conventional, cooled and a sham procedure is lacking. The aim of the COGENIUS trial is to investigate the effect of the two types of RF treatment on individuals experiencing chronic knee pain that is resistant to conservative treatments. For this purpose, the efficacy and cost-effectiveness of cooled and conventional RF will be compared to a sham procedure in patients suffering from knee OA and PPSP after total knee replacement.
This is an observational clinical study aiming to further the wider understanding of patients who develop persistent pain after Thoracoabdominal Aorta surgery, a surgical cohort who are disproportionately affected. This will be undertaken through a prospective biopsychosocial characterisation of the phenotype of patients undergoing this operation. Increasing numbers of patients are undergoing surgery on the chest for treatment of heart or lung cancer disease. Over the last twenty years, the medical community has become increasingly aware of the long-term effect of this surgery in producing persistent pain, approximately half of all survivors are still in pain around their surgical incision at three months postoperatively and beyond. There is currently no accepted method for preventing this phenomenon. The nervous system mechanisms for the development of persistent pain after surgery are unclear. Some studies suggest it may involve the patient's ability to dampen down pain signals travelling from the incision site to the brain. Humans have an in-built system that produces opiates as well as other pain-relieving molecules in response to injury, e.g. surgery. However, this response varies hugely from person to person and may even be impacted by the psychological state of the individual at the time of surgery. Some of these pain modulating mechanisms can be measured before and after surgery in patients using sensory testing, a robust and established objective method to assess patients'. Identifying patients who are most at risk of a persistent pain state will allow both academics and clinicians to investigate and better target appropriate treatments. Undertaking these longitudinal observational assessments will facilitate an improved mechanistic insight of the transition from acute to pathological pain, with the ultimate goal of improving outcomes for patients'.
One out of 10 patients undergoing surgery develops persistent post-surgical pain (PPSP). Unfortunately, available therapies for treating this pain have limited success. It is therefore of great importance to find strategies to prevent PPSP. The goal of this project is to find new screening tools that identify patients that are at risk for developing PPSP. Tissue injury and inflammation following surgery increase the excitability of spinal nociceptive neurons ("central sensitisation", CS) with pain hypersensitivity as consequence. It is thought that CS plays an important role in persistent pain. The first objective of this project is to assess in human patients if the propensity to develop CS manifested as secondary hyperalgesia before surgery is predictive for PPSP. In addition, we will test if the frequency content of the resting-state EEG reflecting the initial state of the brain will be related to the propensity for developing CS and to the presence of PPSP at two months after surgery.
The proposed study will be a pilot randomized controlled trial comparing treatment as usual (TAU) to treatment as usual plus a brief Acceptance and Commitment Therapy (ACT) intervention (TAU + ACT) with mastectomy and lumpectomy patients identified as at-risk for developing persistent post-operative pain. The ACT intervention is a single individual therapy session scheduled two weeks following surgery. Potential participants will be recruited from the University of Iowa Breast Cancer Clinic. A sample size of n = 30 for each arm will be recruited. An attrition rate of 20% is anticipated so the total N to be recruited for the study is 72 participants. Study measures will consist of self-report questionnaires and medical record data. Data will be collected prior to surgery, one-week after surgery, and 3 months after surgery.
Osteoarthritis (OA) is the single most common cause of disability in mid and late life. About 27 million people in the United States suffer from this incurable process and 10 million have OA of the knee. Total knee replacement (TKR) is a reliable treatment option for patients disabled by knee OA who have failed non-operative treatment; 58% of these surgeries are performed on patients 65 years or older. Despite the overall success of TKR in most cases, persistent postsurgical pain (PPP) of the operated knee remains a common and often difficult to treat postoperative outcome affecting 13-20% of all patients at 6 months post-TKR, which amounts to 65,000-100,000 patients/year in the USA. Important secondary outcomes of PPP are restricted physical mobility and poor quality of life, especially in older patients. Recent findings spanning the pre-, intra- and postoperative periods suggest that the development of PPP after TKR is a multi-factorial process, comprised of both neurophysiologic and psychosocial factors. Likely determinates include preoperative thermal pain sensitivity, anxiety, pain catastrophizing; and postoperative area of secondary mechanical hyperalgesia or hypoalgesia (numbness). There is already agreement that the intensity of early (acute) postoperative pain is one of the factors predicting PPP. To date, most studies have examined the role of risk factors in isolation and/or within a single domain, and no prospective study has comprehensively evaluated the interaction of neurophysiologic and psychosocial variables in the evolution of PPP following TKR. The lack of information regarding how neurophysiologic pathways and patient cognitive/affective states interact over time following otherwise successful TKR has greatly undermined the understanding of PPP after TKR. The proposed project is a single-site, prospective study of 300 OA patients aged 18-85 yrs undergoing primary TKR. The study is designed to identify factors from the pre-, intra- and postoperative phases of TKR that contribute to PPP at 6 months. Specific risk factors were selected because they are potentially modifiable, and therefore may be amenable to intervention. Patients will be assessed from pre-surgery to 6 months post surgery. The proposed multi-factorial and prospective approach to investigating risk factors is a vital next step towards understanding the complex phenomenon of PPP.