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Spinal Health at the Gym—Form Matters!

Spinal Health at the Gym—Form Matters!

Whether you are an athlete training for competition or someone who visits the gym regularly just to keep fit, protecting your back and spine from injuries during workouts is important. A large-scale University of Arkansas study found that after injuries to the hand, injuries to areas ranging from the neck to the lower back were the most common type of gym-related injuries.

Back injuries at the gym are more common today due to the large amounts of time we spend sitting at a desk or hunched over a computer. According to personal trainer Justin Price, a specialist in functional fitness and corrective exercise, “If someone is rounded throughout the day in their upper back, and then they go to the gym and do an overhead shoulder lift standing, their upper back cannot extend properly. They straighten and arch upward from their lower back, which has a nervous breakdown because it’s getting all the stress.”

Price suggests that in order to avoid injury you consider getting a personal trainer who can show you the proper way of performing exercises and using equipment. The most important way to maintain good spinal health is to strengthen your core muscles. These are the muscles that lend strength and support to the spine, and which tend to become weakened with long periods of sitting. Following are a few tips on how to use proper form when exercising or lifting weights in the gym.

Tighten your gluteus muscles – When performing a squat, deadlift, or during pushups, be sure to squeeze your glutes. This ensures that the muscles connecting your lumbar and sacral areas are locked so your hips and lower back move as a single unit. Otherwise there is a tendency for the lower back to curve, with the vertebral discs being exposed to more stress than they are designed to handle.

Tighten your abs – So as to keep your spine from arching too much in either direction, tighten your abdominal muscles like you are preparing to be punched in the stomach. This will provide stability to the spine as you bend and lift.

Pull your shoulders down and back – A rounded upper back is one of the leading causes of back injury. It increases pressure on the front side of the vertebral disks, increasing the risk of disc herniation.

Keep hips and shoulders aligned – Back injuries happen more often when twisting and bending. Ensure that your hips and shoulders move as one unit. If you need to change direction, lead with the hips and the shoulders will follow. If you lead first with the shoulders, the hips tend to fall behind, too late to keep from overstraining the low back muscles.

 

How Do Chiropractors Know If Your Spine is Out of Alignment?

How Do Chiropractors Know If Your Spine is Out of Alignment?

Views of the spine
Human Spine

Having a misaligned spine (also called a spinal subluxation) can negatively affect your daily life in a number of ways.  It can not only cause pain in the back and neck, but can also cause pain in the rest of the body because of the pressure that the misaligned vertebrae place on nerves in the spinal column.  For example, many people suffer from sciatica (a condition in which pain can be felt shooting down the leg as far as the foot) due to a misaligned vertebral disc putting pressure on the spinal nerve roots.  A chiropractor can diagnose if your pain is due to your spine being misaligned and can perform a spinal adjustment to restore proper alignment and range of movement, relieving pain.

Spinal subluxations are very common.  They occur when one or more of your 24 bony vertebrae (most people actually have 33 vertebrae counting the nine that are fused to form the sacrum and coccyx) are pulled out of alignment with one another.  This can happen for a variety of reasons.  Among the most frequent contributors to spinal misalignment are an injury, a sudden jar, fall or trauma, bad posture, stress, inactivity, obesity, repetitive motions and lifting something improperly.  When your spine becomes misaligned, your range of motion can become more restricted, with or without accompanying pain.  Although spinal misalignments can happen quickly (usually in the case of an accident or acute injury), they can also occur over time due to weak postural muscles. This is often the case with those who sit at a desk for hours each day.

A chiropractor may use a variety of different diagnostic techniques to determine if your spine is out of alignment.  Most chiropractors can easily spot a subluxation, as body posture reflects any misalignment.  For example, when lying down, one leg will appear shorter than the other.  When standing up, the body may lean to one side, or the head may tilt to the left or right.  Also, one shoulder or hip may appear higher than the other, and the distribution of body weight may favor one foot or the other.

Other things that your chiropractor may do to determine if your spine is out of alignment are to check your range of motion (reduced range of motion usually indicates a misalignment), press along your spine (called palpation) to evaluate joint function, perform strength testing and look for changes in muscle tone.  He or she may also order x-rays of the spine to be taken, so as to have a visual confirmation of your spinal subluxation.

Once the misalignment has been pinpointed, your chiropractor will perform a spinal adjustment that will move your vertebrae back into alignment, restoring correct posture and alleviating pain that may have been caused by the misalignment.

The Opioid Crisis’ Latest Victims: Addicted Babies

The Opioid Crisis’ Latest Victims: Addicted Babies

(NU) – And now the nation’s opioid crisis is putting newborn babies at risk.
The use of prescription painkillers like OxyContin by women during pregnancy has resulted in what’s being called “an explosion” of infants as addicted to the drugs as their mothers. Newly published data in JAMA Pediatrics shows the number of cases of neonatal abstinence syndrome (NAS) has risen five-fold in the U.S. from 2000 to 2012 – that’s nearly 22,000 affected inf ants in that last year alone – and the reality behind those stats is heart-wrenching. “The babies, they really suffer,
just like adults do when they withdraw from narcotics,” Dr. Terrie Inder, chair of pediatric new born medicine at Boston’s Brigham and Women’s Hospital, told CBS News. “The babies are very irritable and sometimes have high heart rates, sweating, flushing, diarrhea. They cry a lot.”

Heightening experts’ concern: The crucial early “bonding” between mother and child is disrupted, given the babies’ average hospital stay of 24 days. The mothers, often unaware of the potential collateral damage from the painkillers they’ve been taking, experience what Inder calls “anxiety and guilt.”

Back and neck discomfort is especially common during pregnancy since women’s postural changes can result in spine and pelvic pain.

The open question is whether this latest development, combined with the Centers for Disease Control and Prevention’s call last year for physicians to dramatically curtail prescribing opioids will encourage more women to seek alternatives like drug-free chiropractic care. “All chiropractors are trained to work with women who are pregnant,”, The American Pregnancy Association says, lauding their expertise in “establishing pelvic balance and alignment.”

If you are expecting a baby or know someone who is, Dr. Oblander is well-trained in taking care of women during their pregnancies. Be sure to take good care of yourself and give our office a call if you experience back or hip pain during your pregnancy!

(Article shared from News USA)

I Trust Chiropractic Care

I Trust Chiropractic Care

Clinton Romesha

“When I first consulted a doctor of chiropractic for back pain, it was discovered that my pelvis was imbalanced – little surprise after many years of carrying military gear in all kinds of terrain. Aligning my hips and lower back, along with stretching and healthy living advice, made all the difference for me. Chiropractic is a natural alternative, and I am grateful for this car that has kept me away from having to mask my pain with addictive painkillers and their harmful side-effects. I encourage my brother and sister Veterans to consider chiropractic for healthier living.”   –  Clinton Romesha

 

In a 2013 ceremony, U.S.Army Staff sergeant Clinton Romesha received the Medal of Honor for acts of gallantry on 10/3/2009, during Operation Enduring Freedom in Afghanistan.

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Neck Pain Causes

Neck Pain Causes

By John H. Shim, MD, FACS

In order to effectively treat neck pain, it’s important to understand the underlying medical condition that’s causing the pain. This is especially true if the pain has lasted 4 or more weeks.

Cervical spine disorders.
Most Common Neck Pain Causes: Strains and Sprains

The most common causes of neck pain—strains and sprains—heal within a few days or weeks. A strain is when a muscle or tendon has been irritated by overuse or overextension. Similarly, a sprain is when a ligament has been irritated by overuse or overextension.

Common causes of neck strains and sprains include:

    • Sleeping in wrong position. Often referred to as a “crick” in the neck, a person might wake up in the morning with neck pain due to sleeping in an awkward or atypical position that overextended the neck.
    • Sports injury. A person could move the neck suddenly and/or in an unusual way in a new sport, or a player could have a collision or fall. A common sports collision injury is a stinger, which happens when nerves in the neck/shoulder are impacted and pain, numbness, and weakness can radiate down the shoulder, arm, and hand.
    • Poor posture. Whether it’s at work, home, and/or commuting, poor posture can lead to neck problems. If a person’s head is often tilted forward for long periods of time, then the neck’s muscles, tendons, and ligaments need to work harder. Poor posture can be problematic during any number of activities, including working at a computer, watching TV, riding the train, reading a book, gardening, and more. Text neck, for example, is an increasingly common problem that develops in anyone who spends hours looking down at the phone while texting.
    • Repetitive motions. Turning the head in a repetitive manner, such as side to side while dancing or swimming, may lead to overuse of the neck’s muscles, tendons, and ligaments.
    • Holding the head in unusual position. Anything that requires holding the head in an unusual way for long periods of time could cause neck strains and sprains. Some examples include having a long conversation while cradling a phone between the head and shoulder, or spending an afternoon looking up at an air show.
    • Whiplash. In a whiplash injury, the head and neck are forced suddenly backward and immediately forward with a great deal of force. The soft tissues along and near the cervical spine can be torn or ruptured as a result. This type of injury commonly occurs in an auto accident that involves a rear-end collision.

Causes of Chronic Neck Pain

Neck pain is considered chronic when it persists for more than 3 months. These conditions tend to stem from problems in the cervical spine either with a facet joint or disc. Common causes include:

  • Cervical degenerative disc disease.
    Everyone experiences wear and tear on the cervical spine over time. It’s natural for the discs to gradually lose hydration and the ability to cushion the spine’s vertebrae. If a disc degenerates enough, it can lead to painful irritation of a cervical nerve in various ways, such as a herniated disc, pinched nerve, or changes in the facet joints that can cause arthritis.
  • Cervical herniated disc A cervical disc is herniated when its jelly-like inner layer, the nucleus pulposus, leaks out through a tear in the disc’s protective outer layer. This could result from an injury or aging. A herniated disc may press against or pinch a cervical nerve, or the inflammatory proteins of the nucleus pulposus may come close enough to a nerve to cause irritation.
  • Cervical osteoarthritis
    When the cartilage in a cervical facet joint wears down enough, it can lead to cervical osteoarthritis, also known as cervical spondylosis. Rather than having the facet joints move smoothly along cartilage as intended, they might grind bone on bone. The joint could become enlarged from inflammation and bone spur growth, causing a nearby nerve to become pinched or pressed
  • Cervical spinal stenosis with myelopathy Spinal stenosis occurs when the spine’s degeneration leads to a narrowing of the spinal canal, such as from a herniated disc that pushes into the spinal canal or bone spurs that grow into the canal. When the spinal canal narrows enough to compress the spinal cord—a large bundle of nerves that runs inside the spinal canal—myelopathy can result. Myelopathy is when compression of the spinal cord starts causing symptoms, such as weakness or problems with coordination in the arms, hands, legs, or feet.
  • Cervical foraminal stenosis This condition occurs when the foramina—the holes in the vertebral construct through which nerve roots that branch off from the spinal cord can exit the spinal canal—become narrowed. This narrowing of the hole can cause irritation for the nerve root that runs through it. Foraminal stenosis is associated with radiating pains in a pattern specific to the nerve that is pinched by the narrowing. In some situations, there is a combination of the cervical stenosis causing myelopathy, as well as the specific nerve pattern associated with a cervical foramen being narrowed.

Other Causes of Neck Pain

While not the most common causes of acute or chronic neck pain, other causes of neck pain could include:

    • Emotional stress. Sometimes muscles in the neck can tighten up and ache in response to stress, anxiety, or depression.
    • Infection. If part of the cervical spine becomes infected, then inflammation could cause neck pain. One example would be meningitis.
    • Myofascial pain. This chronic condition has trigger points, which result from achy muscles and surrounding connective tissues, typically in the upper back or neck. Trigger points can be chronically painful or only painful to the touch. The pain might stay in one spot or it can be referred pain that spreads to/from another area in the body.
    • Fibromyalgia. Fibromyalgia is hard to diagnose, but it typically involves pain in the muscles, tendons, and ligaments in several areas of the body, including in the neck.
    • Spinal tumor. A tumor, such as from cancer, could develop in the cervical spine and press against a nerve. These types of tumors more commonly occur as cancer that has started in another part of the body metastasizes.
    • Spondylolisthesis. This condition occurs when one vertebra slips over the one below it. It can be due to a tiny fracture in the vertebra, or possibly from advanced disc degeneration, or ligament laxity.
    • Ankylosing spondylitis. This progressive arthritis of the spine and pelvis can cause widespread inflammation, pain and stiffness throughout the spine, including the neck.

Risk Factors for Developing Neck Pain

Some research indicates that getting unhealthy amounts of sleep, being inactive, and smoking can all raise the risk of developing neck pain.2 In addition, working longer hours or being in a labor-intensive occupation, such as the military, health care support, or installation and maintenance, may increase the risk for neck pain.3

References

  1. Croft PR, Lewis M, Papageorgiou AC, et al. Risk factors for neck pain: a longitudinal study in the general population. Pain. 2001; 93(3):317-25.
  2. Yang, Haiou PhD; Haldeman, Scott DC, MD, PhD; Nakata, Akinori PhD; Choi, BongKyoo ScD, MPH; Delp, Linda PhD, MPH; Baker, Dean MD, MPH. Work-related risk factors for neck pain in the US working population. Spine. 2015. 40(3):184-192.
Neck Cracking and Grinding: What Does It Mean?

Neck Cracking and Grinding: What Does It Mean?

Most people at some point have heard cracking or grinding noises in their neck upon movement. These sounds, also called crepitus, are usually painless and typically do not represent anything serious.

However, if the neck cracking noise is accompanied by pain, swelling, or some other concerning symptoms, then it may represent a problem that should be checked by a qualified health professional.

Possible Causes of Neck Cracking

Crepitus, sometimes called crepitation or cavitation, refers to any type of noise or sensation such as a cracking, popping, snapping, or grinding sound that is heard during neck movement. For example, feeling a cracking sensation in the neck when turning the head to back up the car.

Crepitus can occur in any moveable joint in the body, and there are many moveable joints in the neck. The neck joints are bathed in an oily-like substance call synovial fluid, which allows motion to freely occur in between the bones.

The underlying cause of crepitus in the neck is still not yet fully understood.

Some likely causes of the neck cracking sound include:

Synovial joint fluid pressure changes
Various studies have been performed purposely cracking the synovial joints of the fingers, but the conclusions in medical literature as to what is actually making the noise have been mixed. In particular, a study published in 1971 indicated that the cracking sound of a joint was caused by the bursting of a gaseous bubble in the joint’s synovial fluid.1 However, a study published in 2015 reported that the cracking sound was actually from the bubble being created.2

Ligament or tendon moving around bone
Another possible factor in neck cracking could be the snapping sound of ligaments and/or tendons as they move over bones or other muscles or tendons located in the neck region.

Bone on bone grinding
While an uncommon cause of neck cracking, it’s possible for bone to grind against bone if the cartilage has worn down. This condition is called osteoarthritis. It occurs gradually with the normal aging process, or it can be accelerated if there has been a traumatic injury such as whiplash or a sports-related injury

This type of crepitation is typically accompanied by pain, limited neck motion, and the cracking sound is usually repeated over and over with each movement. This experience is in contrast to the typical gas bubble formation crack, where it typically takes about 20 minutes before cavitation, or the cracking, can again occur.

Can You Really “Bank” Sleep?

Can You Really “Bank” Sleep?

striped-cat-sleeping-on-chair

Banking sleep to save energy for later? To most people, this idea probably sounds too good to be true. At the very least, it probably seems to defy common sense and or runs counter to the way we think our bodies work. However, it actually turns out that banking sleep is possible—within limits.

A great deal of research has been conducted on this subject.  In one particular study, American scientists invited a number of volunteers to adjust their sleep patterns so that researchers could observe the effects. For a week, half of the volunteers were permitted to sleep more than usual, and the remaining volunteers were made to sleep according to their usual pattern.

“After this week of either extended or habitual sleep per night, all the volunteers came to the lab and they were given three hours of sleep, per night, for a week,” says Tracy Rupp of the Walter Reed Army Institute of Research. The volunteers were then assigned tasks of varying difficulty, and those who had banked their sleep were more unaffected throughout the sleep restriction.

Rupp elaborates: “They showed less performance deterioration with regards to reaction time and alertness than the group that had been given the habitual prior sleep.”

The study also revealed that a week after the experiment, the banked sleepers were recuperating faster from deficiency of sleep than the others were. Rupp again: “What we’re basically saying is if you fill up your reserves and pay back your sleep debt ahead of time, you’re better equipped to deal with the sleep loss challenge.”

While these results may sound great, there are limits to what banking sleep can do for you. “It’s a strategy that’s only partially successful,” explains Michael J. Breus, Ph.D., in the November 2013 issue of Psychology Today. “New research indicates that although some of the negative effects of a week of insufficient sleep can be remedied with extra sleep on the weekend, others cannot. Researchers at Penn State University College of Medicine studied the effects of weekend recovery sleep after a week of mild sleep deprivation. They found that make-up sleep on the weekends erased only some of the deficits associated with not sleeping enough the previous week.”

Banking sleep isn’t limited to sleeping longer nights. Naps can be extremely effective as well—within limits, of course. According to Science Focus, “A 1991 study at Wright State University in Dayton, Ohio found that after an ordinary night’s sleep, subjects could take an extra nap in the afternoon and then work through the night with greater alertness that a control group who didn’t nap. The study also found that performance is proportional to the length of the nap—but the effect doesn’t last.

After a second consecutive night without sleep, all of the subjects performed equally badly, regardless of how much sleep they had initially. It may be that all of us are normally slightly sleep-deprived and one really good night’s sleep will bring us back up to 100%, but that the ‘tank’ isn’t big enough to buffer us against more than one all-nighter.”

The practical uses of banking sleep go beyond needing to pull an all-nighter before finals or a big presentation at work. Dr. Winter, a member of the American Academy of Sleep Medicine, puts it thusly: “If you knew you were going to give birth on a particular day, for example, you could sleep for 10 hours a day for multiple days before the event, and be fine.”

Lastly, it is important to consider the host of negative effects of sleep deprivation. Memory loss, obesity, and even early death comprise some of these consequences. The moral of the story here is that banking sleep in advance may actually be a reasonable short-term strategy for coping with an isolated event (like giving birth). However, the best long-term strategy for staying healthy and performing well is to get a good night’s sleep as consistently as possible.

 

Endurance Sports Provide a Boost to the Body’s Nervous System

Endurance Sports Provide a Boost to the Body’s Nervous System

woman-running-in-cold-arid-land

It’s well known that training in certain sports can improve a person’s endurance. If you’re a runner, for example, you know that as you continue to run every day or according to whatever training schedule you follow, you gradually develop the ability to run further, faster, and for longer periods of time. But did you know modern science doesn’t have a complete understanding of why or how this actually happens? Experts still have a lot of unanswered questions about the exact mechanisms at work when an endurance sport triggers these kinds of performance improvements.

When it comes to muscle strength, there’s certainly an element of adaptation at work—it’s clear that the phrase “use it and strengthen it” is every bit as true as “use it or lose it”. But muscle strength isn’t the whole story. Many long-distance runners would probably tell you that their coordination and ability to deal with rough surfaces and obstacles also seem to increase with practice. To them, it seems as if their muscle-brain communication has improved along with their muscle strength.

According to a study conducted at the Biozentrum of the University of Basel, not only may the runners’ perception be correct, but researchers may also have found one of the mechanisms that cause the improvements the runners are noticing. Their research suggests that endurance sports not only change the condition and fitness of your muscles, they also improve the neuronal connections to individual muscle fibers, based on a type of muscle-induced feedback, all accomplished through increased levels of a blood protein called PGC1α.

PGC1α seems to play a major role in muscle adaptation because it regulates the genes that cause muscle cells to change to keep up with the greater demands being placed on them. When your muscles are inactive (or diseased), they contain a low concentration of PGC1α. When the muscles are more challenged, however – for example when running for long distances – PGC1α levels increase. Professor Christoph Handschin and his colleagues in Basel have been able to show that this increase in PGC1α not only increases muscle size and strength, it also improves upstream synaptic nerve connections to and from the muscles.

The presence of more PGC1α improves the health of the synapses that link the muscles to the brain, allowing the muscles to change and develop new activation patterns, based on changing requirements placed upon them by the exercise. In effect, the more you train, the more PGC1α is in your muscles, and the more quickly they are able to “learn” how to become stronger and more adaptable to challenges.

However, the most surprising part of this study, published in the journal Nature Communication may be that Professor Handschin and his colleagues were able to induce this same improvement in synaptic communication by introducing higher concentrations of PGC1α into the muscles artificially. As the researchers increased PGC1α levels, the muscles became stronger and the neuronal connections became stronger, just as if the subjects had been performing endurance training.

These findings are seen as possibly having therapeutic applications in the treatment of diseases such as muscle wasting and amyotrophic lateral sclerosis (ALS or Lou Gehrig’s Disease). As Handschin explains, “In patients, whose muscles due to their illness are too weak to move on their own, an increase in PGC1α levels could strengthen muscles and nerves until the patients can move enough to finally do some physical therapy and to further improve their mobility.” Then after some improvement to their muscles as the result of pharmacological treatment, the patients could continue to improve their muscle strength through practicing endurance sports.

But for healthy people, there’s a much simpler message—certain types of sports normally associated with endurance-building also build muscle coordination and adaptability.  Not only is this type of exercise good for cardiovascular and musculoskeletal health, it also seems to pay big “fitness dividends” for your body’s nervous system.