A pinched nerve in the hip can cause numbness, tingliness, weakness, and pain. A pinched/compressed nerve creates pressure that can result from a bone structural issue like hip misalignment or the nerve getting overly stretched, stuck, twisted, or kinked. The pressure obstructs the neural pathways and decreases neural activity. This causes pain. If discomfort or pain is present, chiropractic, physical rehabilitation, rest, exercise, and ice and heat can release and reset the nerve and help prevent re-injury.
Pinched Nerve In The Hip
A pinched or compressed nerve results from pressure being applied to the nerve. A pinched nerve in the hip often causes pain in the groin region, radiating down the inner thigh to the knee. The pain can feel like a dull ache or a sharp, burning pain. Individuals also report tightness, numbness, or a tingling sensation in the buttocks. The most common causes include:
Unhealthy posture.
Sitting for too long without moving around.
Misaligned bone or cartilage.
Muscle strain.
Pregnancy.
Obesity.
Inflamed tissue.
Herniated disc.
Arthritis.
Bone spurs.
Chiropractic
Different causes require different treatment approaches. For example, an obese individual could require chiropractic adjustments, specific exercises/stretches, and diet adjustments to address the whole body. The recommended treatment plans can vary but usually include:
Physical therapeutic massage.
Manipulative therapies of the joints and muscles.
Mobilization of the joints.
Soft tissue treatments.
Spinal decompression.
Exercise.
Walking and activity can worsen the pain when the hip presents with pain. This can cause the rest of the body to compensate by shifting the weight to the healthy side, which can cause even more pain in the back or legs or cause another injury. Regular chiropractic hip adjustments will improve posture, maintaining muscle and skeleton alignment that will prevent pinching nerves in the hip.
Chiropractic Hip Treatment
References
Ahuja, Vanita, et al. “Chronic hip pain in adults: Current knowledge and future prospective.” Journal of anaesthesiology, clinical pharmacology vol. 36,4 (2020): 450-457. doi:10.4103/joacp.JOACP_170_19
Christmas, Colleen, et al. “How common is hip pain among older adults? Results from the Third National Health and Nutrition Examination Survey.” The Journal of family practice vol. 51,4 (2002): 345-8.
“Free Communications: Case Reports: Hip.” Journal of Athletic Training vol. 38,2 Suppl (2003): S.73–S.74.
Spondylitis Anti-Inflammation Diet: Individuals who have a chronic back pain condition can be recommended to have two or more vertebrae fused to correct the problem/s and alleviate the pain. However, a form of inflammatory spinal arthritis can cause the vertebrae to fuse by themselves, known as ankylosing spondylitis. One recommended way to bring pain relief is by eating an anti-inflammatory diet. Studies have shown that a low-inflammatory diet can help improve spondylitis symptoms.
Spondylitis Anti-Inflammation Diet
Ankylosing spondylitis is a progressive inflammatory disease that primarily affects the spine; however, individual symptoms vary. Symptoms include stiffness and pain in the neck, hips, low back, and fatigue. There is no definite pattern meaning:
Symptoms can improve.
Symptoms can worsen or flare up.
Symptoms can stop for a period of time.
Women are affected more often than men with no known cause. There is no cure for ankylosing spondylitis, but treatments and self-care can slow down the disease’s progression and help manage symptoms.
Diet and Inflammation
Diet is not the root cause of inflammatory disease, but eating inflammation-causing foods can worsen symptoms. Reducing inflammation can help alleviate pain.
Eliminating foods that cause or increase inflammation is recommended to help the body become stronger and manage symptoms.
Functional medicine practitioners can help guide individuals on maximizing healthy nutrition and using it to reduce pain and symptoms.
If an individual has a genetic predisposition, their diet can be crucial to calm down the symptoms and help turn the autoimmune disease around.
A spondylitis anti-inflammation diet should be rich in vegetables, fruit, whole grains, and omega-3 fatty acids. Evidence shows that a diet low in starches can lead to less ankylosing spondylitis activity. Low-starch can also help limit the presence of Klebsiella pneumoniae, a bacteria that feeds on starch and is a known trigger for the onset and development of ankylosing spondylitis.
Foods To Eat
Leafy greens
These include spinach, kale, Swiss chard, and collard greens containing magnesiumand polyphenols that reduce inflammation.
These can be raw or cooked with garlic and olive oil added to maximize benefits.
Cruciferous vegetables
These contain sulforaphane, anantioxidantthat includes broccoli cauliflower and can be eaten raw or cooked, roasted with olive oil, sauteed, and stir-fried.
Allium Vegetables
These contain sulfuric compounds and quercetin,a flavonoidthat helps reduce inflammation.
These include red and yellow onions, leeks, garlic, and shallots.
They can be eaten raw or cooked in salads, stir-frys, and sandwiches.
Berries
These contain anthocyanin,an antioxidant flavonoid, and other antioxidants and polyphenols that help with inflammation.
These include strawberries, raspberries, blueberries, blackberries and can be eaten raw, in smoothies, in salads, with oatmeal, or mixed in unsweetened yogurt.
Fruits
Certain fruits contain quercetin and polyphenols to help with inflammation.
These include apples, cherries, oranges.
Healthy oils
Contain oleocanthalwhich acts similar to nonsteroidal anti-inflammatory medications and contains various antioxidants.
These include olive oil for low heat cooking and avocado oil for high heat cooking to replace butter and margarine.
It can be served in dressings and drizzled on foods.
Examples include walnuts, almonds, peanuts, pistachios, chia seeds, and ground flaxseeds.
These can be served as snacks, salads, mixed in side dishes, topping, or added to unsweetened yogurt or oatmeal.
Fatty fish
Omega-3 fatty acids help reduce inflammation.
Examples include salmon, cod, rainbow trout, mackerel, and sardines.
These can be baked, sauteed, grilled, mixed into salads, and stir fry.
Avoid These Foods
When making lifestyle adjustments for a spondylitis anti-inflammation diet, focus on reducing or removing processed foods and saturated fats. These include:
Sugars from all sources like soda, sugary drinks, shakes, candy, and desserts.
Trans fats, like those in fried foods like chips and fries.
Individuals may not be symptomatic with certain foods, but that doesn’t mean the foods should be consumed. Gluten, dairy, and eggs can cause potential problems as they compromise the gut and the immune system. These can set back the individual’s healing or remission.
Body Composition
What Happens To The Body When Eating Fruit
Fruit is made up of simple sugar called fructose, providing the body with a carbohydrate energy source. The natural sugar the body gets from a piece of fruit is not the same as processed fructose added to processed products like fructose corn syrup. Processed products are typically filled with empty calories and very little nutrition. When the body has fruit, the liver processes fructose before getting absorbed through the small intestine. Research shows that exposing the gut to more fiber-rich foods like fruit helps the gut achieve an anti-obese condition by increasing the good bacteria and reducing the obese bacteria. Essential nutrients from fruit include:
Folate
Vitamin C
Vitamin B1
The USDA recommends making half of each meal/plate be fruit and vegetables.
Macfarlane, Tatiana V et al. “Relationship between diet and ankylosing spondylitis: A systematic review.” European journal of rheumatology vol. 5,1 (2018): 45-52. doi:10.5152/eurjrheum.2017.16103
Nielsen, Forrest H. “Magnesium deficiency and increased inflammation: current perspectives.” Journal of inflammation research vol. 11 25-34. January 18 2018, doi:10.2147/JIR.S136742
Rashid T, Wilson C, Ebringer A. The Link between Ankylosing Spondylitis, Crohn’s Disease, Klebsiella, and Starch Consumption. Clin Dev Immunol. 2013;2013:872632. doi: 10.1155/2013/872632.
Sharma, Satya P et al. “Paradoxical Effects of Fruit on Obesity.” Nutrients vol. 8,10 633. 14 Oct. 2016, doi:10.3390/nu8100633
van Buul, Vincent J et al. “Misconceptions about fructose-containing sugars and their role in the obesity epidemic.” Nutrition research reviews vol. 27,1 (2014): 119-30. doi:10.1017/S0954422414000067
Flexibility and range of motion are essential elements for an individual’s overall health, physical fitness, and quality of life. Healthy flexibility helps the body:
Maintain a physically active lifestyle.
Maintain strength.
Improve endurance.
Prevent injury.
Flexibility and Range of Motion
Joint stiffness and pain can make it challenging to engage in everyday activities and maintain mobile, physical, emotional, and internal health. To keep the body flexible and moving, individuals need to use their entire body and range of movement. Becoming sedentary affects the body’s flexibility, leading to slowed/blocked blood circulation, nerve energy signal disruption, and sickness. To improve flexibility and range of motion, it is recommended to include:
Stretching the body
Regular exercise and physical activity
Yoga
Healthy diet
Healthy weight
Proper sleep
For individuals with stiffened muscles and joints, chiropractic medicine can increase the body’s flexibility, improving the range of motion in the joints. Chiropractic optimizes the function of the joints, improving mobility with less pain. When living with arthritis, chiropractic is an excellent therapy to decrease pain and activate the body’s natural healing abilities. Chiropractic adjustments align the spine and improve nervous system function.
Nerve Pressure
Nerve pressure can cause pain or tingling sensations that can become difficult to manage. A shifted misaligned spine can compress nerve endings, causing pain that presents with or without movement. Getting the body in motion and moving around is essential to treat stiffness and joint pain. The objective of chiropractic is to align the spine and body and relieve pressure on the nerves helping the body gain back its flexibility and range of motion. Once the body is adjusted, the nerve endings are no longer irritated, relieving the pain. Chiropractic uses various techniques to deal with areas of compression, including stretching, percussive massage, low-laser therapy, ultrasound, and strengthening exercises.
Chiropractic adjustments relieve pain and improve mobility.
Strengthening exercises to keep the spine in proper alignment.
Exercising keeps the adjustments in place.
A careful assessment of the condition will determine the cause of stiffness and joint immobility. Chiropractic can treat the joints, bones, and muscles to improve flexibility manage muscle spasms and soft tissue tenderness to alleviate symptoms restoring and improving range of motion. Chiropractic adjustments are combined with therapeutically designed stretches and exercises to perform at home, along with an anti-inflammation diet and supplements.
Body Composition
Zinc
Zinc is an essential nutrient that provides overall immune function. It is a powerful antioxidant that helps prevent and reduce oxidative stress and inflammation responses. Various bodily chemical reactions require Zinc. Zinc is necessary for muscle protein synthesisand hormone regulation. Zinc deficiency is common in older individuals and has been connected with degenerative diseases that include:
Green, S et al. “Physiotherapy interventions for shoulder pain.” The Cochrane database of systematic reviews vol. 2003,2 (2003): CD004258. doi:10.1002/14651858.CD004258
Hartvigsen, Jan et al. “What low back pain is and why we need to pay attention.” Lancet (London, England) vol. 391,10137 (2018): 2356-2367. doi:10.1016/S0140-6736(18)30480-X
Kavuncu, Vural, and Deniz Evcik. “Physiotherapy in rheumatoid arthritis.” MedGenMed: Medscape general medicine vol. 6,2 3. 17 May. 2004
Page, Carolyn J et al. “Physiotherapy management of knee osteoarthritis.” International journal of rheumatic diseases vol. 14,2 (2011): 145-51. doi:10.1111/j.1756-185X.2011.01612.x
Wessels, Inga et al. “Zinc as a Gatekeeper of Immune Function.” Nutrients vol. 9,12 1286. 25 Nov. 2017, doi:10.3390/nu9121286
Musculoskeletal Disorders, or MSDs, are injuries, conditions, and disorders that affect the body’s musculoskeletal system. It includes the muscles, tendons, ligaments, nerves, discs, blood vessels, bones, and joints. MSDs are common, and the risk of developing them increases with age. The severity of an MSD can vary. They cause discomfort, recurrent pain, stiffness, swelling, and aching that interfere with everyday activities. Early diagnosis and treatment can alleviate symptoms and improve long-term health. Common disorders include:
The term musculoskeletal disorder is used as it accurately describes the injury or condition. Other terms used are repetitive motion injury, repetitive stress injury, and overuse injury. When individuals are exposed to MSD risk factors, they begin to fatigue. This can start a musculoskeletal imbalance. With time, fatigue completely overtakes recovery/healing, and the musculoskeletal imbalance continues, a musculoskeletal disorder develops. The risk factors are broken into two categories: work-related/ergonomic risk factors and individual-related risk factors.
Ergonomic Factors:
Force
Repetition
Posture
High Task Repetition
Many work tasks and cycles are repetitive and are typically controlled by hourly or daily production targets and work processes.
High task repetition combined with other risks factors like high force and/or awkward postures can contribute to the formation of MSD.
A job is considered highly repetitive if the cycle time is 30 seconds or less.
Forceful Exertions
Many job tasks require high force loads on the body.
Muscle effort increases in response to high force requirements. This increases associated fatigue.
Repetitive or Sustained Awkward Postures
Awkward postures place excessive force on joints, overload the muscles and tendons around affected joints.
The joints of the body are most efficient when they operate close to the mid-range motion of the joint.
The risk of MSD is increased when the joints are worked outside of this mid-range repetitively for sustained periods without a proper amount of recovery time.
Individual Factors
Unhealthy work practices
Lack of physical activity/fitness
Unhealthy habits
Poor diet
Unhealthy Work Practices
Individuals that engage in poor work practices, body mechanics, and lifting techniques are introducing unnecessary risk factors.
These poor practices create unnecessary stress on the body that increases fatigue and decreases the body’s ability to recover properly.
Poor Health Habits
Individuals who smoke, drink excessively, are obese, or exhibit numerous other poor health habits put themselves at risk for musculoskeletal disorders and other chronic diseases.
Insufficient Rest and Recovery
Individuals that do not get adequate rest and recovery put themselves at higher risk.
MSDs develop when fatigue outruns the individual’s recovery system, causing a musculoskeletal imbalance.
Poor Diet, Fitness, and Hydration
Individuals who eat unhealthily are dehydrated, at a poor level of physical fitness, and do not take care of their bodies are putting themselves at a higher risk of developing musculoskeletal and chronic health problems.
Causes
The causes of musculoskeletal disorders are varied. Muscle tissue can be damaged with the wear and tear of daily work, school, and physical activities. Trauma to the body can come from:
Postural strain
Repetitive movements
Overuse
Prolonged immobilization
Jerking movements
Sprains
Dislocations
Falling injuries
Auto accident injuries
Fractures
Direct trauma to the muscle/s
Poor body mechanics can cause spinal alignment problems and muscle shortening, causing other muscles to be strained, causing problems and pain.
Treatment Rehabilitation
A doctor will recommend a treatment plan based on the diagnosis and severity of the symptoms. They may recommend moderate exercise and over-the-counter medications like ibuprofen or acetaminophen to address occasional discomfort or pain. They often recommend chiropractic and physical therapy rehabilitation to learn how to manage pain and discomfort, maintain strength, range of motion, and adjust everyday activities. Different types of manual therapy, or mobilization, can treat body alignment problems. A doctor may prescribe medications like nonsteroidal anti-inflammatories NSAIDs to reduce inflammation and pain for more severe symptoms. For individuals with musculoskeletal disorders like fibromyalgia, medications to increase the body’s level of serotonin and norepinephrine may be prescribed in low doses to modulate sleep, pain, and immune system function.
Body Composition
Types of Pain
Pain can be grouped into three categories:
Early Warning Pain
This is most recognizable after having just touched a pan, and the hand jerks away before realizing how hot the pan is, also known as the withdrawal reflex.
This is a protective mechanism that helps avoid danger and is vital for survival.
Inflammatory Pain
This type of pain happens after an injury or surgery while the body is healing and recovering.
Inflammation prevents the body from performing movements to prevent and avoid re-injury.
Pathological Pain
This type of pain can happen after the body has healed, but the nervous system has been damaged.
This is often the case with individuals who sustain an injury and inform doctors that the injured area is never the same.
If the rehabilitation does not correctly heal the nervous system, protective pain measures can generate a false alarm causing pain signals to fire off.
References
Asada, Fuminari, and Kenichiro Takano. Nihon eiseigaku zasshi. Japanese journal of hygiene vol. 71,2 (2016): 111-8. doi:10.1265/jjh.71.111
da Costa, Bruno R, and Edgar Ramos Vieira. “Risk factors for work-related musculoskeletal disorders: A systematic review of recent longitudinal studies.” American journal of industrial medicine vol. 53,3 (2010): 285-323. doi:10.1002/ajim.20750
Malińska, Marzena. “Dolegliwości układu mięśniowo-szkieletowego u operatorów komputerowych” [Musculoskeletal disorders among computer operators]. Medycyna pracy vol. 70,4 (2019): 511-521. doi:10.13075/mp.5893.00810
Musculoskeletal system diseases. (n.d.). dmu.edu/medterms/musculoskeletal-system/musculoskeletal-system-diseases/
Roquelaure, Yves et al. “Troubles musculo-squelettiques liés au travail” [Work-related musculoskeletal disorders]. La Revue du praticien vol. 68,1 (2018): 84-90.
Villa-Forte A. (n.d.). Diagnosis of musculoskeletal disorders. merckmanuals.com/home/bone,-joint,-and-muscle-disorders/diagnosis-of-musculoskeletal-disorders/introduction
Arthritis can be a debilitating disease that interferes with everyday life. There are over 20% of adults aged 65 and older that have arthritis along with all the symptoms like pain, stiffness, swelling, and decreased range of motion. The most commonly affected joints include the shoulders, hands, spine, hips, and knees. Arthritis results from damage to joint cartilage from various factors such as age, wear and tear, injury, being overweight, and disease. While medication and surgery are the most common treatment options, an arthritis chiropractor can offer a conservative, natural, non-invasive option to manage symptoms.
Arthritis Chiropractor Helps By
While arthritis, either caused by wear and tear – Osteoarthritis or disease – Rheumatoid Arthritis cannot be cured. An arthritis chiropractor can help manage symptoms and prevent progression. Chiropractors are trained to use various techniques to help alleviate pain and tension, including arthritis. Chiropractic treatment aims to alleviate pain by adjusting, massaging, and realigning the musculoskeletal system to relieve stress, stretch the muscles, ligaments, tendons, and restore balance within the body. They open the body to allow proper/optimal nerve energy and blood circulation. This is beneficial for arthritic joints to reduce unnecessary strain, translating to reduced wear on the joints and keeping the body active.
Benefits
There are significant benefits that regular chiropractic treatment can offer. These include:
Restored range of motion
Joint pain relief
Inflammation alleviation
Improved nerve function for optimal tissue healing
Regular adjustments will keep the body optimally aligned and functioning smoothly.
Arthritis chiropractors can recognize the most subtle changes.
Lifestyle Adjustments
Healthy lifestyle adjustments help manage arthritis.
Guidance on healthy habits that include:
Anti-inflammatory foods
Weight loss
Proper sleep habits
Exercise training
Stress management
The sooner chiropractic care is sought out, the better to prevent symptoms from worsening. Chiropractic can generate great results with less need for medication/s or surgery.
Body Composition
Identifying The Risk of Sarcopenia and Decreased Mobility
As the body ages, it begins to lose muscle mass, and as more sedentary behavior is adopted, the rate of loss increases along with age-related injury. Identifying these age-related changes in muscle and how they relate to frailty risk can be challenging to identify and track. By accurately measuring fat-free mass in each region of the body, Skeletal Muscle Index – SMI quickly specifies muscle mass and frailty risk. Sarcopenia and frailty specifically affect the elderly population, affecting mortality, cognitive function, and quality of life. Loss of muscle in the arms and legs is associated with:
Reductions in mobility
Increased risk of falls
Frailty
Extended hospital stays
Falls and fractures frequently result in a cycle of muscle deterioration. Analysis tools can help track body composition changes to minimize muscle wasting and the risk of impaired mobility. Assessing skeletal muscle mass in outpatient and hospital settings can decrease debilitating outcomes before they happen. The InBody analysis is quick and easy, providing a calculation for skeletal muscle index and the sum of the lean mass in the arms and legs. The ease of performing the InBody test provides physicians more time to work with and educate individuals on adopting lifestyle changes to help prevent sarcopenia.
References
Aletaha, Daniel. “Precision medicine and management of rheumatoid arthritis.” Journal of autoimmunity vol. 110 (2020): 102405. doi:10.1016/j.jaut.2020.102405
Beasley, Jeanine. “Osteoarthritis and rheumatoid arthritis: conservative therapeutic management.” Journal of hand therapy: official journal of the American Society of Hand Therapists vol. 25,2 (2012): 163-71; quiz 172. doi:10.1016/j.jht.2011.11.001
Demoruelle, M Kristen, and Kevin D Deane. “Treatment strategies in early rheumatoid arthritis and prevention of rheumatoid arthritis.” Current rheumatology reports vol. 14,5 (2012): 472-80. doi:10.1007/s11926-012-0275-1
Kavuncu, Vural, and Deniz Evcik. “Physiotherapy in rheumatoid arthritis.” MedGenMed: Medscape general medicine vol. 6,2 3. 17 May. 2004
Moon, Jeong Jae et al. “New Skeletal Muscle Mass Index in Diagnosis of Sarcopenia.” Journal of bone metabolism vol. 25,1 (2018): 15-21. doi:10.11005/jbm.2018.25.1.15
Sciatica Causes: The sciatic nerve forms by the union of Lumbar4 to Sacral31 nerve roots and exits the pelvis through the greater sciatic foramen, below the piriformis muscle located deep in the buttocks. The nerve runs down the back of the thigh, into the leg, and ends in the foot. The sciatic nerve becomes inflamed, irritated, and/or mechanically compressed. Any type of pain and/or neurological symptom/s from the sciatic nerve is referred to as sciatica. Sciatica is a type of lumbar radiculopathy, which means that the pain originates from the low back and/or sacral nerve roots.
Sciatica Causes
Physical forces on the nerve can cause mechanical compression due to the following conditions:
Herniated Discs
A disc in the lower back can bulge or herniate, causing irritation and/or compression of a sciatic nerve root.
Foraminal Stenosis
Stenosis, the intervertebral opening through which the nerve roots travel, begins to narrow/close in, can compress or irritate the sciatic nerve.
Degeneration
Degenerative changes in the spine like the thickening of facet joint capsules and/or ligaments can compress the sciatic nerve.
Segmental Instability
Instability of a spinal vertebral segment that happens if one vertebra slips over the one beneath it – spondylolisthesis
Complete dislocation of one or more vertebrae can compress the nerve root/s of the nerve.
Other Sciatica Causes
Tumors, cysts, infections, or abscesses in the lower spine or pelvic region can also cause sciatic nerve compression.
Chemical Inflammation
Chemical irritants can include hyaluronic acid and/or fibronectin/protein fragments that leak out of degenerated or herniated discs. These irritants can cause inflammation and/or irritation of the sciatic nerve.
Degenerated discs can cause nerve tissues to grow into the disc, penetrating the outer and inner layers of the disc, causing sciatica. Immune system responses can contribute to pain when exposed to disc fluid.
Substances such as glycosphingolipids/fats and neurofilaments /protein polymers secreted by the immune system are increased in individuals with sciatica. These substances are released from the reaction between nerve roots and exposed disc material, causing inflammation.
Job Occupation
Individuals with specific jobs have an increased risk of developing sciatica. Examples include:
Truck drivers
Desk workers
Teachers
Warehouse workers
Machine workers
Plumbers
Electricians
Carpenters
Fitness trainers
Sitting and standing for long periods, using improper posture, constantly bending, twisting, reaching, and regularly lifting are risk factors for sciatica.
Piriformis Syndrome
Piriformis syndrome is a condition where the piriformis muscle swells and spasms from overuse or inflammation irritating the sciatic nerve that is right underneath. The nerve can get trapped in the muscle causing sciatica-like symptoms that include:
Pain follows the same pattern in the leg as a compressed sciatic nerve root.
Tingling
Numbness
Discomfort from piriformis syndrome feels similar to sciatica, but it is not caused by compressed sciatic nerve root. Piriformis pain comes from compression of the sciatic nerve near the piriformis muscle.
Genetic Sciatica Causes
Sciatica caused by degenerated and/or herniated discs can be genetic. Research has shown that certain genetic factors are more prevalent in individuals with back and spinal problems. These congenital disabilities can cause the discs to become weak and susceptible to external stress. With time the proteins in the disc break down, compromising the integrity and function.
Arthritis and Joint Issues
Arthritis or other inflammatory conditions around the hip joint can cause pain down the leg, similar to sciatica. This is referred pain that spreads out from the source and is not radicular nerve pain that originates in the nerve roots.
Conditions like sacroiliac joint dysfunction or sacroiliitiscan cause sciatica-like pain that runs down the back of the thigh but usually ends before or at the knee.
The pain can be acute and debilitating, like sciatica but is caused by an abnormal motion or malalignment of the sacroiliac joint.
Body Composition
Normal Cholesterol Ranges
High cholesterol can lead to severe consequences when left untreated, but it can be difficult to spot with no noticeable warning signs. This is why it’s essential to monitor cholesterol levels with blood tests, especially if there is an increased risk. Example of normal cholesterol levels for adults 20 years of age or older:
Total cholesterol 125-200 mg/dL
LDL <100 mg/dL
HDL >40 mg/dL men, >50 mg/dL women
Lifestyle
Lack of physical activity contributes to high cholesterol levels.
Diets that mainly consist of processed foods and saturated fats increase the risk of high LDL levels.
Smoking can lower HDL levels.
Aging
Individual risk for developing high cholesterol tends to increase as the body advances in age. This is why it is recommended to have regular physicals and blood tests.
Genetics
Some individuals are more genetically predisposed to developing high cholesterol and heart disease.
Knowing family medical history can help predict whether it may become a problem.
References
Davis D, Maini K, Vasudevan A. Sciatica. [Updated 2021 Sep 2]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2021 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK507908/
Giuffre BA, Jeanmonod R. Anatomy, Sciatic Nerve. [Updated 2021 Jul 29]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2021 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK482431/
Hicks BL, Lam JC, Varacallo M. Piriformis Syndrome. [Updated 2021 Jul 18]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2021 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK448172/
Raj MA, Ampat G, Varacallo M. Sacroiliac Joint Pain. [Updated 2021 Aug 30]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2021 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK470299/
Psoriatic arthritis can develop in individuals who have psoriasis, affecting various joints, especially the knees. Psoriasis is a skin condition that causes skin cells to build up and form patches of itchy, dry skin known as plaques. Psoriatic arthritis is a long-term inflammatory disease that can cause inflammation, stiffness, and pain. Symptoms can progressively worsen over time without treatment. Early diagnosis is vital to minimize damage to the joints and slow the condition’s progress with treatment.
Psoriatic Arthritis
Psoriatic arthritis symptoms like stiffness and swelling can present differently from person to person. For example, some individuals with psoriatic knee arthritis will experience stiffness or pain in one knee, while others experience symptoms in both knees. Psoriatic arthritis in the knee can also cause swelling in the surrounding:
Ligaments
Tendons
Synovial membranes
Symptoms can also present in the:
Elbows
Feet
Hands
Symptoms
Symptoms usually begin between the ages of 30 and 50. Common symptoms include:
Stiffness after resting or sleeping.
Swelling.
Inflammation in the knee and surrounding area.
Warm or hot skin on the knee from the inflammation.
Pain in and around the joints, tendons, or ligaments.
Joint sticking, difficulty moving, or reduced range of motion.
Other symptoms include:
Back pain
Fatigue
Pain and redness in the eyes
Swollen fingers or toes
Difficulty walking from pain in the feet or Achilles tendon.
The severity of psoriasis does not determine psoriatic arthritis symptoms. Symptoms can go through a pattern of relapses and remissions. Individuals can have a sudden attack where symptoms get worse over a short time. After the flare-up, symptoms can improve as the condition goes into remission. Symptoms may not present for a long time until another flare-up. For example, an individual may have severe psoriasis but only mild psoriatic arthritis.
Causes
Psoriatic arthritis develops when the body’s immune system mistakenly attacks healthy cells and tissues. The faulty immune response causes the body to quickly generate new skin cells that stack on top of each other forming plaques. When the condition affects the joints, it leads to inflammation. While there is no apparent cause for psoriatic arthritis, researchers have found connections to genetics and the environment, as well as, individuals with close relatives that have psoriatic arthritis could be more likely to develop the condition. Other factors that could influence the development include:
Severe psoriasis
Traumatic injury/s
Obesity
Nail disease
Smoking
The condition can happen at any age, but according to the National Psoriasis Foundation, most individuals first notice symptoms about ten years after their psoriasis begins. However, only 30% of individuals with psoriasis develop psoriatic arthritis.
Diagnosis
Doctors use imaging tools to diagnose psoriatic arthritis in the knee. They will use:
MRI
X-rays
Ultrasound
To help them check for irregularities or signs of inflammation in the joint and surrounding tissues.
Additional tests are used to rule out other common forms of arthritis like rheumatoid and osteoarthritis.
Blood tests check for inflammation and specific antibodies.
In some cases, a small amount of fluid from the joint is taken to help eliminate the possibility of other underlying conditions like an infection.
Treatment
There is currently no cure for psoriatic arthritis, but treatments are being developed and show promise for long-term management. Current treatments focus on managing symptoms and improving the quality of life for the individual.
Biologics
Biologic medications like tumor necrosis factor or TNF inhibitors are recommended as the first-line therapy for most individuals with a new diagnosis of psoriatic arthritis. These meds help block TNF, which plays a crucial role in inflammation. They have shown to be effective at reducing the severity of symptoms and the frequency of flare-ups. Biologics can cause unwanted side effects, especially in individuals that experience frequent infections and need routine monitoring.
Small Molecule Medications
Individuals that cannot use biologic medications may be recommended a new class of medication called oral small molecules or OSMs. Examples include apremilast – Otezla and tofacitinib – Xeljanz.
Disease-modifying Antirheumatic Drugs
Disease-modifying antirheumatic drugs – DMARDs are a long-term option. They are used to slow the progression of psoriatic arthritis, and examples include methotrexate and cyclosporine. DMARDs work best when an individual begins taking them as early as they can take time to work. However, individuals are encouraged to continue taking them, even if symptoms do not improve right away.
Easing Inflammation
A doctor may prescribe nonsteroidal anti-inflammatory drugs – NSAIDs and corticosteroid injections when knee symptoms flare-up. These are short-term treatments that provide immediate relief, as long-term use can lead to side effects. Individuals can find relief with combined self-care that includes:
Taking over-the-counter NSAIDs like ibuprofen/Advil or naproxen/Aleve.
Applying ice and heat packs.
Gentle exercise to promote a full range of motion.
Gentle stretching or yoga can help relax tight muscles.
However, chiropractic is not the primary treatment for arthritis but is intended to be used in combination to relieve pain, loosen and stretch the muscles and balance the body.
InBody
Strength, Balance, and Improved Body Composition
Functional fitness is the ability to move comfortably every day. The benefits of physical activity also contribute to improved body composition. Working to reach a certain level of functional fitness can help the aging process that has been shown to reduce metabolic rate. Inactivity is why individuals lose Lean Body Mass as they age, leading to increased body fat. Lean Body Mass contributes to the body’s overall Basal Metabolic Rate or BMR, also known as metabolism. This is the number of calories the body needs to support essential functions. Everyone is encouraged to engage in strength training or resistance exercises, but specifically older adults. This can help regain muscle loss which can lead to an increase in lean body mass. The increase in Lean Body Mass increases BMR, which helps prevent fat gain.
References
Chang, K. L., et al. (2015). Chronic pain management: Nonpharmacological therapies for chronic pain [Abstract]. www.ncbi.nlm.nih.gov/pubmed/25970869
Chiropractic care for arthritis. (n.d.). arthritis.org/health-wellness/treatment/complementary-therapies/physical-therapies/chiropractic-care-for-arthritis
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