Fatigue is the most common symptom in PBC, affecting nearly 80 % of individuals [89]. Severe fatigue can have a severe negative impact and has been associated with an increased mortality, depression, and poor quality of life [90–97]. Fatigue in PBC does not correlate with disease activity and seems not to respond to therapies, including UDCA [96]. The etiology of fatigue in PBC is poorly understood. It is, however, thought that chronic cholestasis that occurs in PBC causes degenerative changes in areas in the brain that regulate autonomic functions, ultimately resulting in impaired delivery of oxygen to the peripheral tissue which in turn leads to expression of fatigue and its associated cognitive impairment through secondary dysfunction of peripheral muscles [96, 98]. Evidence in favor of an organic central nervous system process in PBC comes from neurophysiological studies which suggest organic brain changes in PBC. Newton et al. [99] found that 53 % of PBC patients had concentration and memory problems, and that they repetitively failed neuropsychiatric testing. These findings progressed over a 2-year follow-up period [99]. Patients with symptomatic PBC have worse outcomes when compared to patients with asymptomatic PBC [100]. Current therapies seem to be ineffective in the treatment of fatigue in PBC, including liver transplantation, as a significant proportion of patients with PBC continue to suffer severe fatigue even a fter liver transplantation [101]. This highlights the need to understand the underlying mechanism(s) of fatigue in PBC, as it will help develop therapies for this debilitating symptom.

Pruritus is a less frequent, but more specific, sympt om than fatigue in patients with PBC [102, 103]. It affects 20–70 % of PBC patients [102–106]. The pruritus of cholestasis tends to be generalized. It leads to scratching, sometimes violent, resulting in excoriations and prurigo nodularis [107]. This type of pruritus can lead to sleep deprivation, depression, and in some patients, to suicidal ideations [107]. A survey was conducted in 239 PBC patients to understand how patients with cholestatic pruritus perceive pruritus [108]. Of these, 69 % reported itching. Seventeen percent reported that itch was “relentless” or so severe that it lead to wanting to “tear the skin off”, and 3.6 % of patients reported that they itched until they bled [108]. Seventy-four percent of the 162 respondents who addressed the qu estion reported that itch affected sleep, 65 % that the itch was worst at night, and 11 % reported that nothing provided relief [108]. The etiology of pruritus in cholestasis is unknown. Accumulation of bile acids in tissues [109, 110], excess of histamine in patients with liver disease and pruritus [111], and excess of substance P [112, 113] (an excitatory neurotransmitter) have been proposed as mechanisms by which pruritus is triggered in patients with liver disease. More recently, lysophosphatidic acid (LPA) and autotaxin, the serum enzyme converting lysophosphatidylcholine into LPA, have been found in higher concentrations in the sera of patients with cholestatic disorders, including PBC, compared to control subjects, suggesting that LPA and autotaxin play a role in the pathogenesis of cholestatic pruritus [114]. The natural history of pruritus in PBC has been inadequately studied and most data is derived from clinical trials of therapies in PBC. Talwalkar et al. [103] examined the natural course of pruritus in PBC patients enrolled in a multicenter, randomized, placebo-controlled clinical trial of UDCA in PBC. They reported that the overall prevalence of pruritus in the placebo group did not differ between study entry and follow-up at 36 months (56 % versus 49 %) [103]. In addition, 30 % of patients in the UDCA group reported symptom improvement compared to 24 % of the placebo-treated patients after 1 year of therapy [103]. Conversely, only 7.9 % of patients in the UDCA group reported development of pruritus compared to 14.5 % patients in the placebo group after 1 year of therapy [103]. Similar to fatigue, pruritus can have a negative impact on the patients’ quality of lives [107].

A number of conditions a re associated with PBC [115]. These include Hashimoto’s thyroiditis (12.5 %), Grave’s disease (1.9 %), Raynaud’s disease (18 %), Sjogren’s syndrome (34.3 %), systemic lupus erythematosus (2.2 %), scleroderma/CREST (6.1 %), rheumatoid arthritis (6.1 %), cutaneous autoimmune diseases (5 %), celiac disease (1.4 %), and vasculitis (2.2 %) [115]. Female patients are more likely to have PBC in association with these conditions than male patients [115]. The presence of these conditions does not reduce the survival in PBC patients [115].

The most commonly used drug in this class is Cholestyramine [198]. It is a resin that is not absorbed from the intestines and binds anions in the small intestines increasing their fecal excretion, including bile acids and cholesterol [199]. The use of cholestyramine has been associated with improvement of pruritus in patients with PBC [198, 200]. The recommended dose in PBC-related pruritus is 4 g per dose and not exceed 16 g/day, given 2–4 h before or after UDCA [11]. The side effects of this resin tend to be minor (mainly bloating and diarrhea) [199]. It is recommended to take cholestyramine immediately before and after breakfast, as the rationale for its use is to bind the pruritogens that accumulate in the gallbladder during the overnight fast and that are secreted into the small intestine after breaking the fast. Coleavalam, also a resin, was tested in a placebo-controlled clinical trial. The effect of this resin was not better than that of placebo [201].

The use of Rifampicin , an antibiotic, has been associated with relief of pruritus in PBC patients [202–205]. The mechanism of action of this antibiotic as an antipruritic agent is poorly understood. The recommended dose ranges between 300 mg daily and 600 mg (in 2 divided doses) daily [11]. It was concluded in a meta-analysis study of several clinical trials that rifampicin is safe [206]; however, there is a risk of hepatotoxicity [207], severe hemolytic anemia and nephrotoxicity [204] with the use of rifampicin, but these are rare events. Serial liver chemistries and renal function tests are recommended in patients using this drug.

Naloxone and Naltrexone are opioid antagonists used for the treatment of the pruritus of cholestasis [208–217]. They act by decreasing the opioidergic tone [112]. To decrease the probability of an opiate withdrawal-like reaction (characterized by tachycardia, abdominal pain, high blood pressure, goose bumps, nightmares, and depersonalization) that some patients experience, it is recommended by some experts to initiate treatment in a controlled environment (surgery suite, specialty clinic, etc.) using intravenous infusions before instituting the oral forms [199]. The dose should be increased gradually to avoid opiate withdrawal-like reactions, until relief of pruritus is achieved. The metabolism of naltrexone is slow in patients with cirrhosis [218], therefore caution should be exercised when using this drug in this population. A rare but serious adverse event associated with using naltrexone is hepatic failure [219], therefore, routine liver chemistries are recommended in patients using this medication.

A transient relief of pruritus has been reported in association with anion adsorption and plasma separation, and the extracorporeal liver support systems [228–230]. This option should be reserved only for patients with intractable pruritus who failed other therapies.

Plasmapheresis seems to be effective in relieving pruritus in PBC patients who have intractable pruritus and failed medical therapy. Old reports have shown that plasmapheresis results in prompt relief of pruritus, decrease in serum bilirubin, and a decrease in the bile acid pool [231, 232]. The duration of clinical response may vary; up to 5 months of pruritus relief following plasmapheresis has been reported by a few patients [232]. Unfortunately, patients reported return of symptom to the pre-plasmapheresis degree 2–3 weeks after the last session of plasmapharesis. The mechanism by which plasmapheresis results in pruritus relief is removal of pruritgens, immune complexes, and bile salts, but this is not clear yet [231]. Most patients with PBC tolerated plasmapheresis quite well, and no adverse events related to plasmapheresis in PBC patients have been reported [233].