Michael W. Keith

Bio: Michael W. Keith is an academic researcher from Case Western Reserve University. The author has contributed to research in topics: Functional electrical stimulation & Guideline. The author has an hindex of 43, co-authored 93 publications receiving 6261 citations. Previous affiliations of Michael W. Keith include MetroHealth & Wright State University.

American Academy of Orthopaedic Surgeons clinical practice guideline on: the diagnosis of periprosthetic joint infections of the hip and knee.

Abstract: AAOS Guideline on The Diagnosis of Periprosthetic Joint Infections of the Hip and Knee Summary of Recommendations The following is a summary of the recommendations in the AAOS’ clinical practice guideline, The Diagnosis of Periprosthetic Joint Infections of the Hip and Knee. This summary does not contain rationales that explain how and why these recommendations were developed nor does it contain the evidence supporting these recommendations. All readers of this summary are strongly encouraged to consult the full guideline and evidence report for this information. We are confident that those who read the full guideline and evidence report will note that the recommendations were developed using systematic evidence-based processes designed to combat bias, enhance transparency, and promote reproducibility. This summary of recommendations is not intended to stand alone. Clinical decisions should be made in light of all circumstances presented by the patient. Procedures applicable to the individual patient rely on mutual communication between patient, physician, and other healthcare practitioners. 1. In the absence of reliable evidence about risk stratification of patients with a potential periprosthetic joint infection, it is the opinion of the work group that testing strategies be planned …

An Externally Powered, Multichannel, Implantable Stimulator for Versatile Control of Paralyzed Muscle

Abstract: Through the use of semicustom integrated circuit technology, an implantable muscle stimulator has been developed. The unit is small, lightweight, has low power consumption, and is intended for permanent usage. The stimulator circuitry is externally controlled and powered by a single encoded radio frequency carrier. Up to eight independently controlled stimulus output channels are provided, with output channel selection, stimulus pulse width, and stimulus pulse frequency under external control. A constant current biphasic stimulus pulse is used, in which the stimulus current amplitude can be preset by a single resistor value. The stimulator circuitry has been implemented in thick film hybrid form, and has undergone laboratory evaluation for 48 months.

Diagnosis of periprosthetic joint infections of the hip and knee.

Abstract: No preferred test for diagnosis of periprosthetic joint infection exists, and the algorithm for the workup of patients suspected of infection remains unclear. The work group evaluated the available literature to determine the role of each diagnostic modality and devise a practical algorithm that allows physicians to reach diagnosis of periprosthetic joint infection. Ten of the 15 recommendations have strong or moderate evidence in support. These include matters involving erythrocyte sedimentation rate and C-reactive protein level testing, knee and hip aspiration, and stopping the use of antibiotics prior to obtaining intra-articular cultures. The group recommends against the use of intraoperative Gram stain but does recommend the use of frozen sections of peri-implant tissues in reoperation patients in whom infection has not been established, as well as multiple cultures in reoperation patients being assessed for infection. The group recommends against initiating antibiotic treatment in patients with suspected infection until after joint cultures have been obtained, but recommends that prophylactic preoperative antibiotics not be withheld in patients at lower probability for infection.

Brain-computer interfaces for communication and control

Abstract: The brain's electrical signals enable people without muscle control to physically interact with the world.

Brain-computer interface technology: a review of the first international meeting

Abstract: Over the past decade, many laboratories have begun to explore brain-computer interface (BCI) technology as a radically new communication option for those with neuromuscular impairments that prevent them from using conventional augmentative communication methods. BCI's provide these users with communication channels that do not depend on peripheral nerves and muscles. This article summarizes the first international meeting devoted to BCI research and development. Current BCI's use electroencephalographic (EEG) activity recorded at the scalp or single-unit activity recorded from within cortex to control cursor movement, select letters or icons, or operate a neuroprosthesis. The central element in each BCI is a translation algorithm that converts electrophysiological input from the user into output that controls external devices. BCI operation depends on effective interaction between two adaptive controllers, the user who encodes his or her commands in the electrophysiological input provided to the BCI, and the BCI which recognizes the commands contained in the input and expresses them in device control. Current BCI's have maximum information transfer rates of 5-25 b/min. Achievement of greater speed and accuracy depends on improvements in signal processing, translation algorithms, and user training. These improvements depend on increased interdisciplinary cooperation between neuroscientists, engineers, computer programmers, psychologists, and rehabilitation specialists, and on adoption and widespread application of objective methods for evaluating alternative methods. The practical use of BCI technology depends on the development of appropriate applications, identification of appropriate user groups, and careful attention to the needs and desires of individual users. BCI research and development will also benefit from greater emphasis on peer-reviewed publications, and from adoption of standard venues for presentations and discussion.

Targeting recovery: Priorities of the spinal cord-injured population

Abstract: In the United States alone, there are more than 200,000 individuals living with a chronic spinal cord injury (SCI). Healthcare for these individuals creates a significant economic burden for the country, not to mention the physiological, psychological, and social suffering these people endure everyday. Regaining partial function can lead to greater independence, thereby improving quality of life. To ascertain what functions are most important to the SCI population, in regard to enhancing quality of life, a novel survey was performed in which subjects were asked to rank seven functions in order of importance to their quality of life. The survey was distributed via email, postal mail, the internet, interview, and word of mouth to the SCI community at large. A total of 681 responses were completed. Regaining arm and hand function was most important to quadriplegics, while regaining sexual function was the highest priority for paraplegics. Improving bladder and bowel function was of shared importance to both injury groups. A longitudinal analysis revealed only slight differences between individuals injured 3 years. The majority of participants indicated that exercise was important to functional recovery, yet more than half either did not have access to exercise or did not have access to a trained therapist to oversee that exercise. In order to improve the relevance of research in this area, the concerns of the SCI population must be better known and taken into account. This approach is consistent with and emphasized by the new NIH roadmap to discovery.