Physical Therapy Service
Physical therapy (PT) is a type of treatment provided when health issues make it hard for a person to move around and do routine, everyday activities including those that build motor skills and improve strength, posture, and balance. It may relieve pain, help, improve or restore physical function, and improve fitness. A physician may prescribe PT for long-term problems such as arthritis or COPD. PT can be used alone or with other treatments. Physical therapy is a major component of UAB Physical Medicine and Rehabilitation Services. PT services may be provided at home, in office or clinic, or as part of a hospitalization. PT almost always includes exercise, such as stretching, core exercises, weight lifting, and walking. Licensed physical therapists may use manual therapy, education, and techniques such as heat, cold, water, ultrasound, and electrical stimulation. Patients typically may be taught an exercise program to continue at home.
Spain Rehabilitation Center (SRC) has treated more than 450,000 patients since opening in 1964. Our care team includes specialists from many areas of UAB Medicine, and they use their unique skills and expertise to evaluate and treat each patient. These patient care teams include physiatrists (doctors who specialized in rehabilitation medicine), nurses, nurse practitioners, physical therapists, occupational therapists, speech/language pathologists, psychologists, social workers, rehabilitation professionals, and other health care providers as needed. Our clinicians have the expertise and compassion necessary to develop comprehensive care plans to help patients overcome difficulties and pursue their goals.
SRC’s Spinal Cord Injury (SCI) Model System of Care has had continuous funding since 1972, our National SCI Statistical Center has been funded since 1985, and the Traumatic Brain Injury Model System of Care since 1998. The Samuel Stover, MD, Assistive Technology Laboratory was established in 2008 with major funding from the Christopher and Dana Reeve Foundation. The lab allows spinal cord injury patients to use computer-based equipment to help them deal with disabilities. In 2010, SRC developed its first neuroregenerative science research program, which explores the possibilities of regrowing or repairing nerve tissue, cells, and other bodily building blocks to restore lost function to the brain and spinal cord.
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High-tech Simulators Boost UAB Emergency Department CPR Training
University of Alabama at Birmingham Hospital Emergency Department has acquired two high-tech simulators from the American Heart Association to enhance training for nurses and other emergency department staff on the fine points of proper cardiopulmonary resuscitation.
UAB is the fifth hospital in the United States and the first in Alabama to acquire the technology.
“Emergency department staff at hospitals across the country are required to undergo CPR recertification every two years, but studies have shown that their skills begin to degrade the moment the training session ends, and most people have lost effective skills within 90 days,” said Michael Kurz, M.D., associate professor in the Department of Emergency Medicine. “The new simulators allow us to approach CPR training in a whole new way, and we are seeing remarkable improvement.”
The machines, called RQI or the Resuscitation Quality Improvement system, consist of two sophisticated mannequins — one adult and one pediatric — attached to an even more sophisticated computer system. The machines measure all the variables involved with performing CPR and provide instantaneous feedback as a staff member is practicing.
The RQI machines are housed in the emergency department, which means staff does not have to take time off from work to attend a CPR class. The new training regimen calls for nurses and patient care technicians to undergo 10-minute updates every three months, using different modules that work on different skill sets. The computer records trainees’ performance and tracks their improvement over time. It even records whether trainees have placed their hands in the proper position on the mannequin.
“The machine measures variables such as depth of the CPR compression, the rate and the recoil, and the trainee can see on the screen whether they are reaching the appropriate benchmarks in these areas,” said Michael Lovelace, R.N., an emergency department nurse and lead CPR trainer.
Kurz, who is the vice chair for the Systeims of Care subcommitee for emergency cardiovascular care commitee with the Heart Association, says training every three months rather than at two-year intervals has made a significant difference.
UAB is only the fifth hospital in the nation to have the RQI machines and the first in Alabama. Kurz, who is the vice-chair for the Systems of Care sub-committee for emergency cardiovascular care committee with the Heart Association, says training every three months rather than at two-year intervals has made a significant difference.
“Retention of the skills is better; performance is better,” Kurz said. “One important variable is chest compression fraction, which measures the efficiency of the CPR. Since we began using the RQI machines in June 2015, our overall scores for chest compression fraction have improved 14 percent.”
Kurz says there are five main variables the machine tracks, and he is pushing for the emergency staff to reach a collective average score of 90 on each variable.
“For example, before we began using the RQI machines, our chest compression fraction score was about 72,” he said. “It’s now up to 86, and we should hit 90 in the near future. The RQI machines are having a major impact on enhancing our clinical care.”
Better CPR skills means a better chance of survival for patients with cardiac arrest, and not just in the emergency room. Last spring, UAB Hospital emergency nurse Tamicka Jones was at the Atlanta airport when she saw a group of people attempting to assist in man in obvious distress
“The man’s face was gray, and he had no pulse,” Jones recalled. “I was the only medical professional present, so I began CPR and called for a defibrillator. Training on the RQI machine meant that my skills were sharp, and I had confidence that I was performing CPR at a high level of effectiveness.”
Jones performed CPR and delivered a shock from the defibrillator until the arrival of an EMS crew. She has since heard from the man’s family that he survived.
“Using these machines really changes the paradigm of how we teach and practice CPR,” Kurz said. “This is the largest change in our approach in over 60 years and really brings CPR training into the modern era.”
Source: UAB News