Tendon Education

To give women more education about what can happen after taking fluoroquinolones, I am on a path to help them understand what can be done to help improve the situation after having complications from these drugs. What you take for infections could change your life for the worse. So on my hunt, I found an article that I decided to share in its entirety. This is because many times, links no longer work after a few years.

This is the third blog in this serious about these drugs and if you missed the first two, you should read them first.

http://www.meshangels.com/fluoroquinolone-warning/ and http://www.meshangels.com/tendons-and-fluoroquinolones/

The Risk of Fluoroquinolone-induced Tendinopathy and Tendon Rupture

What Does The Clinician Need To Know?
Tendinopathy induced by fluoroquinolone (FQ) antibiotics is a topic of controversy, with many researchers believing in a direct causal relationship while others believing that the risk is negligible. With the advent of a “black-box warning” mandated by the United States Food and Drug Administration (FDA), there is enough data to suggest that FQs should be used cautiously in a selected population of patients. This review is designed to unveil for the clinician the pathophysiology, epidemiology, treatment options, and outcomes related to FQ-induced tendinitis and tendon rupture.

How was fluoroquinolone-induced tendinopathy originally recognized?

The first published report of Achilles tendinopathy associated with FQs was published in New Zealand in 1983. In this case, a 56-year-old renal transplant patient was treated with norfloxacin for a urinary tract infection and septicemia. Subsequently, there have been many other anecdotal case reports and case-controlled studies reporting similar findings, most of them originating from France. FQs are a popular class of antibiotics with broad-spectrum coverage including several Gram-negative pathogens. High oral bioavailability with extensive tissue penetration support the use of FQ antibiotics for a wide variety of bacterial infections, with the mode of excretion being predominantly renal. FQs are commonly prescribed to adults treated on an outpatient basis for community-acquired infections involving the respiratory, urogenital, and gastrointestinal tracts. FQs exhibit a high affinity for connective tissue with concentrations in the bone and cartilage that exceed those measured in serum, making them ideal for joint and bone infections. Achilles tendinitis or rupture is among the most serious side effects associated with FQ use, with reports markedly increasing, especially with ciprofloxacin, a very popular FQ used orally in the ambulatory setting.

Which FQs have been associated with tendinopathy/tendon rupture?

In a World Health Organization (WHO) survey in Australia of tendon disorders associated with FQ use, ciprofloxacin was found to be the causal agent in 90 percent of cases, with the risk of tendinopathy appearing to be dose independent. 90% is HUGE. Note; these drugs have different names in different countries.

Additional reports have also been noted with norfloxacin, pefloxacin, ofloxacin, and recently levofloxacin as precipitating agents. The large body of data provided by clinical reports, histopathological examination, and experimental studies provides cogent evidence supporting a direct link between FQ use and tendonitis/tendon rupture. As of July 2008, the FDA mandated that all FQ products have a black-box warning indicating an increased risk in adverse events including tendon rupture. FQ products affected by the labeling changes include ciprofloxacin (Cipro, Bayer, and generics), extended-release ciprofloxacin (Cipro XR, Bayer; Proquin XR, Depomed), gemifloxacin (Factive, Oscient), levofloxacin (Levaquin, Ortho McNeil), moxifloxacin (Avelox, Bayer), norfloxacin (Noroxin, Merck), and ofloxacin (Floxin, Ortho McNeil, and generic).

What are the risk factors associated with FQ-induced tendinopathy/tendon rupture?

Risk factors associated with FQ-induced tendon disorders include age greater than 60 years, corticosteroid therapy, renal failure, diabetes mellitus, and a history of musculoskeletal disorders. Further details on risk factors associated with FQ use are discussed below.

What FQ agents other than ciprofloxacin have been reported to predispose patients to tendinopathy/tendon rupture?

According to past epidemiological studies, pefloxacin and ofloxacin were frequently associated with tendon disorders based on case reports. Overall, ofloxacin appears to exhibit a stronger association.

What basic information is known about Achilles tendinopathy?

Achilles tendinopathy is considered an overuse syndrome from excessive loading of the tendon during vigorous training activity. Possible mechanical causes include poor gastrocnemius-soleus flexibility, low-flexibility shoes, muscle fatigue resulting in tendon elongation, and micro-tearing. Achilles tendon rupture (ATR) is a condition that manifests as a complete or partial rupture of the Achilles tendon. The prevalence of ATR has been reported in a number of studies with a range of 6 to 37/100,000 persons and increases with age. There is a peak incidence of ATR in middle-aged individuals due to weakening of the tendon from a decline in physical activity, although rheumatoid arthritis, male gender (2:1), and use of corticosteroids are additional risk factors. Exposure to corticosteroids, both systemic and with local application, has been reported to be a common antecedent of ATR and is thought to increase risk of rupture through tendon atrophy and weakening. The combination of corticosteroid use, renal failure, and FQ use has been associated with ATR up to one year after FQ antibiotic exposure. Up to one year after the drug was given. Achilles tendonitis precedes acute rupture when associated with FQ-induced tendinopathy. Although most young individuals recover completely following tendon rupture, ATR can be associated with considerable morbidity and loss of function, especially among the elderly, thus emphasizing the importance of assessing for risk factors and recognizing early symptoms of tendinitis.

What adverse events are associated with FQ use?
Gastrointestinal is another symptom of complications from these drugs.

The most common adverse effects associated with FQ use are gastrointestinal (1–7%), neurological (0.1–0.3%), cutaneous eruptions (0.5–2.5%), gait disturbances (<1%), elevation of serum transaminases (1.8–2.5%), and hematological abnormalities (very rare). These side effects associated with fluoroquinolones are infrequent (usually 4–8%), overall minor or mild in severity (1–2.8% requiring cessation of treatment), dose dependent, and reversible.

What epidemiological and clinical data are available about FQ-induced tendinopathy including tendon rupture?

FQ-induced tendinopathy has been observed at various dosages, with the most profound effects at higher dosages. The average age of FQ-induced tendinopathy is 64 years, with a male-to-female ratio of 2:1, and a 27-percent incidence of bilateral involvement. Although more than 95 percent of cases of tendinitis/rupture secondary to FQ involve the Achilles tendon, other reported sites of tendon involvement include the quadriceps, peroneus brevis, and rotator cuff. Yes other areas are affected. Although there is no definitive explanation as to why drug-induced tendinopathy/rupture most frequently involves the Achilles tendon, it has been theorized that the rapid and immense loading during weight-bearing activities (i.e., walking, running, athletic activities) may place the Achilles tendon at greater risk than other tendon sites. Based on epidemiological data, when compared to other classes of antibiotics, FQs demonstrate a 3.8-fold greater risk for development of Achilles tendinitis/rupture. In addition, in a large population-based case control analysis, patients treated with FQs exhibited a substantially increased risk of developing tendon disorders overall (1.7-fold), tendon rupture (1.3-fold), and ATR (4.1-fold). In the same study, compared to age-matched controls, patients taking FQs with concurrent exposure to corticosteroids were found to experience a compounding effect on the risk of tendon rupture, specifically a 46-fold greater predisposition. Age also appears to correlate with a greater risk of FQ-induced tendinopathy. It has been estimated that 2 to 6 percent of all ATRs among patients greater than 60 years of age could be attributed to the use of a FQ. Additionally, patients greater than 60 years of age who were recently treated with a FQ for 1 to 30 days were at a 1.5-fold and a 2.7-fold greater risk for development of tendon disorders and tendon rupture as compared to patients less than 60 years of age, respectively. Some authors have recommended that patients with a history of Achilles tendinitis and advanced age should not be prescribed FQ antibiotics. Although the prevalence of FQ-induced tendon injury is low in the general population (0.14–0.4%), the risk of tendinitis/tendon rupture is substantially increased in patients with chronic renal failure, hemodialysis, and systemic corticosteroid therapy. Decreased renal clearance of FQ may also play a contributory role in predisposing patients to tendinopathies. In addition, according to the FDA safety information and adverse event reporting program, kidney, heart, and lung transplant recipients are at an increased risk for development of tendinopathies associated with FQ use. Obesity, hyperlipidemia, hyperparathyroidism, musculoskeletal disorders, and diabetes are all well-established risk factors for tendinopathy/tendon rupture, and with their risk potential possibly exacerbated by concurrent FQ exposure. Note; my daughter was 37 years old, not obese and had no illnesses or diseases, past or present when she was given this drug. However after you have gone through mesh complications you will be at higher risk of severe drug reactions.

What is the latency period between the onset of FQ exposure and development of tendinopathy/tendon rupture?

The mean latency period between the start of FQ treatment and occurrence of tendinopathy has been reported to be a few hours to months, with a median onset of 6 days. In one report, half of tendon ruptures occurred within one week of FQ administration, with symptoms starting within two hours in one patient. Approximately 85 percent of patients present in less than one month, with 20 percent having a history of oral corticosteroid use. Kim was not taking any drugs. Available data indicates that the risk of a person suffering an ATR was three-fold higher within 90 days of using a FQ for the first time. Approximately 41 to 50 percent of patients with FQ-induced tendinopathy experienced ATR even after FQ therapy was discontinued. For Kim it was five days.

What is the suggested pathophysiology of FQ-induced tendinopathy/tendon rupture? When we have taken any rescue dog to the Vet, Kim always ask what type of antibiotic they are giving for an infection, because she will NEVER give any of these drugs to a dog. She always comes home to read up on any other drug before she gives it to one of our dogs. This changed our thinking and our lives FOREVER!

The exact pathophysiology of FQ-induced tendinopathy remains elusive; however, some concepts have been suggested. FQs are synthetic antibiotics that act by inhibiting bacterial DNA gyrase (topoisomerase II). DNA gyrase is directly involved in DNA replication and cell division. Theoretically, FQs should not exert a negative effect on human cell lines because the affected bacterial enzymes have little homology with mammalian DNA gyrase. However, it is possible that FQs have a direct cytotoxic effect on enzymes found in mammalian musculoskeletal tissue. Because animal studies have shown that FQs may damage juvenile weight-bearing joints, most FQs are contraindicated in children and during pregnancy and lactation. FQs have chelating properties against several metal ions (e.g., calcium, magnesium, aluminum), and have been known to cause direct toxicity to type 1 collagen synthesis and promote collagen degradation. Experiments on immature laboratory animals (dogs, rabbits, and rats) have shown that FQs cause cartilage damage by inducing necrosis of chondrocytes (36 hours after treatment), disruption of the extracellular matrix, and formation of vesicles and fissures at the articular surface. In-vitro studies in cultured tendon cells have confirmed the clinical observation that FQs can increase the risk of tendon rupture. Under normal circumstances, the rate of matrix turn-over and tendon fibroblast is low. Other precipitating factors, such as age and corticosteroid use, do not allow the tendon to repair adequately, resulting in irreversible matrix alteration. It has been theorized that FQs disproportionately affect human tendons that have a limited capacity for repair, such as in older patients or structural compromise (i.e., pre-existing tendinopathy or trauma).

What are the clinical manifestations of FQ-induced tendinopathy/tendon rupture?

The Achilles tendon is most commonly affected in FQ-induced tendinopathy, occurring in 89.8 percent of cases; however, other tendons, such as biceps brachii, supraspinatus, and extensor pollicis longus, can also be affected. Other sites included the triceps epicondyle, flexor tendon sheath, patellar tendon, quadriceps muscle, rotator cuff, and subscapularis terrea. Up to 50 percent of cases may present with bilateral involvement. Depending on the degree of involvement of the joint, patients may experience pain, swelling, or inflammation in the tendon area for up to two weeks before rupture occurs. Signs of tendon rupture can include a “snap” or “pop” in the area, bruising, or immobility of the joint. Tendon rupture is almost always preceded by spontaneous pain at the bony insertion 2 to 3cm above the insertion point, believed to be correlated with diminished vascularization at this anatomic site. FQ-induced tendinitis is distinguished from other forms of tendinopathy by both the abrupt onset and sharp pain that occur spontaneously upon walking or palpation. With Achilles involvement, patients can experience difficulty to perform plantar flexion of the foot (Thompson’;s sign).

What histological findings have been found in cases of FQ-induced tendinopathy? You may not know this but long before my mesh implant, I took a drug after being told it was to keep my BP normal. I stopped taking that drug three months later but it took a year to feel okay. My BP was not too high by the way and it went back to normal. I have white coat syndrome and when I go to a doctor, my BP rises. What happened was a severe case of intestinal edema which was swelling cause by hives in my intestines caused by a drug called Lisinopril. Edema can happen anywhere in the body because of many prescription drugs. You know when something is wrong and you should listen to your body signs and do what you have to do to stay well even if it means NOT listening to your doctor if they won’t listen to you.

Histologically, interstitial edema and severe degenerative changes with absence of an inflammatory infiltrate are seen in FQ-induced tendinopathy, findings which have also been observed in overuse conditions in athletes. Chondrocyte depletion and fissures on adjacent nonruptured tendons are also suggestive of direct toxicity related to FQ exposure. Importantly, these findings lack specificity and closely resemble those found with idiopathic tendon ruptures. In one study, FQ-induced Achilles tendinopathy showed necrosis and cystic changes that are not found in nondrug-associated tendinopathies. Because histopathological findings are similar to those observed in overuse conditions in athletes, support is given to the theory that FQs alter cellular function and create a change in the cell-to-matrix ratio.

Are any radiological imaging procedures helpful in assessing FQ-induced tendinopathy/tendon rupture?

Both ultrasound and magnetic radiographic imaging (MRI) can provide information on the morphology of tendons and their surrounding structures. These imaging procedures are useful in evaluating the various stages of degeneration, which helps in differentiating between peritendinitis and tendinosis. Although the role of plain radiography is limited in assessing soft tissue injury such as tendinopathy, the presence or absence of a fracture can be evaluated in this manner. Ultrasonography is relatively inexpensive and is a readily available imaging method that can be used to confirm partial or complete tendon rupture. Hypoechoic areas, consistent with degenerative tissue, and increased tendon thickness are important findings on ultrasound. Findings of acute tears include gaps at the site of rupture, hyperemic torn tendon ends, and fluid collection around the rupture site. MRI is also useful in identifying tendinopathy and can provide more precise information about the extent of involvement. Consistent with tendinosis, an MRI may also show extensive thickening of the tendons from insertion to the musculotendinous junction. Importantly, patients who are asymptomatic may also exhibit MRI abnormalities corresponding to edema secondary to ischemia.

What is the management of FQ-induced tendinopathy/tendon rupture? Sadly women are having more and more surgeries even after their mesh has been removed, and I think they are related to these drugs.

After identifying the severity of involvement in a case of tendinopathy induced by a FQ antibiotic, treatment should include rest and decreasing the physical load on the tendon. Treatment with a FQ should be discontinued and physical therapy initiated. During the first month of rehabilitation of an Achilles tendinopathy, the affected tendon should be protected with a heel lift, counterforce bracing, and crutches to decrease the tensile load transmitted to the Achilles tendon during walking for six weeks to six months. Approximately 50 percent of patients will recover within 30 days, with 25 percent of patients having symptoms persistent for longer than two months. In certain instances, strict bed rest with an attendant, especially in the elderly, may be required. Because rupture can occur even late in the course of treatment or after discontinuation of FQ use, patients receiving a FQ should be counseled to seek medical attention immediately if symptoms, such as redness, pain, swelling, and stiffness, develop. Tendinosis usually recovers over a time course of weeks, usually within two months, after cessation of FQ therapy. Early diagnosis based on recognition of symptoms suggestive of tendinopathy, followed by FQ discontinuation and supportive treatment, may prevent tendon rupture and tendinitis. In cases of FQ-induced tendon rupture, orthopedic treatment should proceed, as in other cases of tendon disruption, with consideration given to operative therapy after assessing the potential risks versus anticipated benefits of surgical intervention.

What conclusions can be drawn from the available data on FQ-induced tendinopathy/tendon rupture?

FQs should be used cautiously in patients with risk factors associated with tendinitis, such as advanced age, history of tendon rupture, corticosteroid use, and/or acute or chronic renal dysfunction. A summary of the characteristic features of FQ-induced tendinopathy/tendon rupture is depicted. Tendinitis can be misdiagnosed as a gouty flare, infection, or venous thrombosis (leg region involvement). Since Achilles tendinitis can be debilitating and may lead to rupture, clinicians may need to monitor changes in gait and for symptoms suggestive of tendinopathy in patients on FQ therapy. Although Achilles tendinopathy is generally the result of repetitive injury, it is useful to keep in mind the possibility of unusual causes such as drug-induced tendinosis and tear. The modalities of ultrasound and MRI are valuable in assessing the presence, extent, and severity of tendon involvement if symptoms and signs of tendinopathy develop. From a clinical perspective it can be difficult to prove a cause-and-effect relationship between a medication and a side effect. This is true concerning tendon rupture, which may occur in the absence of a causative medication, particularly since reported cases frequently had coexisting risk factors. However, the multitude of clinical reports, pathological findings, and experimental models collectively support a strong correlation between FQ use and tendinopathy. In conclusion, whether a FQ antibiotic is the appropriate drug to prescribe is ultimately a decision that the clinician must make depending on the cause and type of infection, the presence or absence of patient-specific risk factors, and the clinically relevant alternatives that are available.

Apparently it is a well-known cause of injury for athletes.

Fluoroquinolones and Tendinopathy: A Guide for Athletes and Sports Clinicians and a Systematic Review of the Literature

Trevor Lewis, MSc, MCSP*; Jill Cook, PhD†

*Physiotherapy Department, Aintree University Hospital National Health Service Foundation Trust, University Hospital Aintree, Liverpool, United Kingdom; †Department of Physiotherapy, Monash University–Peninsula Campus, Frankson, Victoria, Australia

Context: Fluoroquinolone antibiotics have been used for several decades and are effective antimicrobials. Despite their usefulness as antibiotics, a growing body of evidence has accumulated in the peer-reviewed literature that shows fluoroquinolones can cause pathologic lesions in tendon tissue (tendinopathy). These adverse effects can occur within hours of commencing treatment and months after discontinuing the use of these drugs. In some cases, fluoroquinolone usage can lead to complete rupture of the tendon and substantial subsequent disability. Objective: To discuss the cause, pharmacology, symptoms, and epidemiology of fluoroquinolone-associated tendinopathy and to discuss the clinical implications with respect to athletes and their subsequent physiotherapy. Data Sources: We searched MEDLINE, Cumulative Index to Nursing and Allied Health (CINAHL), Allied and Complementary Medicine Database (AMED), and SPORTDiscus databases for available reports of fluoroquinolone-related tendinopathy (tendinitis, tendon pain, or rupture) published from 1966 to 2012. Search terms were fluoroquinolones or quinolones and tendinopathy, adverse effects, and tendon rupture.

So now that you understand a whole lot more about what can happen because of these antibiotics, you will protect yourself from taking drugs that could cause more harm than good.

To learn more about this drug and what happened to my daughter, read this blog.  http://www.meshangels.com/tendons-and-fluoroquinolones/

To learn about the latest FDA warning and why you should avoid these drugs, read this blog.  http://www.meshangels.com/fluoroquinolone-warning/


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