Context and mechanisms

Any response to LC/KD may be modulated via multiple mechanistic pathways. For example, LC/KD have been suggested to reduce inflammation, which is increasingly acknowledged to be involved in the development of depression and, in particular, treatment-resistant depression.^{Reference Firth, Marx, Dash, Carney, Teasdale and Solmi79–Reference Nettis, Lombardo, Hastings, Zajkowska, Mariani and Nikkheslat82} A systematic review^{Reference Buyken, Goletzke, Joslowski, Felbick, Cheng and Herder83} showed that low glycaemic index and low glycaemic load diets were associated with reduced inflammatory markers in 5 out of 9 observational studies; 3 of 13 interventional trials showed significant anti-inflammatory effects and 4 suggested beneficial trends. Reduced inflammation correlates with reduced depression in obesity and overweight,^{Reference Perez-Cornago, de la Iglesia, Lopez-Legarrea, Abete, Navas-Carretero and Lacunza84,Reference Baumeister, Russell, Pariante and Mondelli85} which may be related to reduced inflammatory adipokines.^{Reference Mancuso86,Reference Forsythe, Phinney, Fernandez, Quann, Wood and Bibus87}

Mitochondrial energy generation – which can be affected by ketosis – is also important, because mood disorders, especially bipolar disorder, are associated with abnormal mitochondrial energy generation.^{Reference Morris, Puri, Carvalho, Maes, Berk and Ruusunen88,Reference Campbell and Campbell89} Depression is characterised by reduced energy generation, and mania is characterised by increased mitochondrial biogenesis.^{Reference Morris, Walder, McGee, Dean, Tye and Maes90} A ketogenic diet has the potential to increase the efficiency of mitochondrial biogenesis and may target this core pathway.^{Reference Morris, Puri, Carvalho, Maes, Berk and Ruusunen88,Reference Morris, Maes, Berk, Carvalho and Puri91,Reference Morris, Walder, Berk, Marx, Walker and Maes92}

Furthermore, improvements in insulin signalling conferred by LC/KD (as evident in treatment of obesity and type 2 diabetes) may be associated with mood benefits. Calkin et al showed that individuals with bipolar disorder and comorbid type 2 diabetes or insulin resistance had three times higher odds of chronicity and rapid cycling and more than eight times the odds of lithium resistance, even after controlling for antipsychotic use and body mass index (BMI).^{Reference Calkin, Ruzickova, Uher, Hajek, Slaney and Garnham93} Subsequently, in a first RCT, Calkin et al showed that reversing insulin resistance by adding metformin in treatment-resistant bipolar depression had a large effect size on clinician-rated depressive symptoms – but only in participants whose insulin resistance was reversed.^{Reference Calkin, Chengappa, Cairns, Cookey, Gannon and Alda94} Reversing insulin resistance is clearly a plausible outcome of a low carbohydrate diet, not requiring ketogenic diet levels of carbohydrate reduction. In patients at risk, low carbohydrate diets can be advocated for prevention of obesity, metabolic syndrome and type 2 diabetes, with the possible additional benefit of an antidepressant effect in bipolar disorders. Thus, the role of insulin resistance in mood disorders may justify the application of LC/KD interventions in this population.

Ketosis has neuroprotective mechanisms in epilepsy,^{Reference Masino and Rho95} so it is possible that ketosis may also confer positive mood outcomes in non-epileptic disorders. As proof of concept, short-term fasting (generating ketosis) may improve mood and induce mild euphoria in individuals with mood disorders.^{Reference Fond, Macgregor, Leboyer and Michalsen96} Longer-term ketosis-related mood stabilisation in bipolar disorder is reflected in the self-reports analysed by Campbell & Campbell.^{Reference Campbell and Campbell50} Putative mechanisms of ketosis on mood may involve several factors, including increased fatty acid synthesis and oxidation, neurotransmitters, ion channels, mitochondrial genesis, cell signalling, second messengers and reduced oxidative stress.^{Reference Newman and Verdin97,Reference Shimazu, Hirschey, Newman, He, Shirakawa and Le Moan98} Notably, the seizure-reducing effects of ketosis in epilepsy have not been clarified. Ketosis also induces brain-derived neurotrophic factor (BDNF) gene expression;^{Reference Sleiman, Henry, Al-Haddad, El Hayek, Abou Haidar and Stringer99} this is important as a low BDNF level adversely affects neuroplasticity^{Reference Autry and Monteggia100} and BDNF increases with effective treatment.^{Reference Post101} Weight loss associated with a ketogenic diet might also be a relevant mechanism, although reports of significant mood improvement as early as 4 days into a ketogenic diet, which precedes any significant weight loss, is consistent with ketosis-mediated effects on mood rather than weight loss per se. A further factor potentially playing a role in mediating effects of a ketogenic diet on mood is reduced appetite,^{Reference Sumithran, Prendergast, Delbridge, Purcell, Shulkes and Kriketos102} as discussed in more detail below.

Limitations

There are several limitations to this review, partly related to the low number of studies on this topic and their general poor quality (for example, lack of non-exposed control groups and consideration of confounding factors). The broad inclusion criteria, including lower levels of evidence, may have resulted in heterogeneity between studies and variable data quality.

We pragmatically grouped depression, anxiety, bipolar disorders and schizoaffective disorders together, given some overlapping symptomatology, because of the paucity of LC/KD evidence for individual disorders. A case could also be made against the inclusion of studies with limited information on psychiatric diagnoses,^{Reference Shegelman, Carson, McDonald, Henry-Barron, Diaz-Arias and Cervenka57,Reference Kunin68} as the results of these studies may not be generalisable to individuals with mood disorders without such comorbidities.^{Reference Paoli, Bosco, Camporesi and Mangar103}

The effects of LC/KD on mood disorders might also involve confounding factors, which were rarely assessed in the studies included in this review. These include concurrent pharmacotherapy, reduced alcohol intake (high carbohydrate content), reduced hunger (ketosis effect on appetite hormones),^{Reference Paoli, Bosco, Camporesi and Mangar103} weight loss, improved sleep and (in those on a well-formulated low carbohydrate diet) presumed increased intake of folate, micronutrients, vitamin D and omega-3 fatty acids (LC/KD typically increase intake of leafy green vegetables and fish).

The exclusion of certain foods may also be an important confounder. For example, reduced gluten intake in LC/KD has been suggested to be a confounder in a limited number of studies, as there are reports of anti-gluten antibodies in psychosis^{Reference Lachance and McKenzie104} and bipolar disorder.^{Reference Dickerson, Stallings, Origoni, Vaughan, Khushalani and Alaedini105} Furthermore, an unnecessary gluten-free diet (which LC/KD might entail) might increase the risk of nutritional deficiencies^{Reference Naik, Seidner and Adams106} and gastrointestinal and cardiovascular side-effects.^{Reference Nash and Slutzky107,Reference Lebwohl, Cao, Zong, Hu, Green and Neugut108}

Another potential confounder is the potentially low content of fermentable oligosaccharides, disaccharides, monosaccharides and polyols (FODMAPs) in LC/KD (depending on the dietary formulation). FODMAPs, poorly absorbed short-chain carbohydrates (for example in bread), may cause bloating and fatigue in some individuals and are implicated in the symptomatology of irritable bowel syndrome (IBS): FODMAP reduction or exclusion improves IBS.^{Reference Gibson, Muir and Newnham109} The relevance here is that IBS and various psychiatric disorders (notably, anxiety disorders and, possibly, current major depression) are often comorbid.^{Reference Fadgyas-Stanculete, Buga, Popa-Wagner and Dumitrascu110} Interestingly, the omission of FODMAPs confounds gluten-free diet trials in IBS^{Reference Gibson, Muir and Newnham109} and although there is uncertainty regarding the psychiatric effects of FODMAPs,^{Reference Aranburu, Matias, Simón, Larretxi, Martínez and Bustamante111} it could be argued that omitting FODMAPs might confound any apparent psychiatric effects of LC/KD.

Three of the included studies^{Reference Palmer58,Reference Yaroslavsky, Stahl and Belmaker61,Reference Chmiel64} also report intake of exogenous ketogenic food supplements: medium-chain triglycerides. The role of exogenous ketogenic food supplements is unclear^{Reference Harvey, Schofield and Williden112} and it must be noted that these compounds are high in saturated fatty acids, which may increase the risk of cardiovascular disease.^{Reference Maki, Dicklin and Kirkpatrick113}

Finally, no studies assessed gut microbiota, which may affect mood and/or anxiety.^{Reference Maki, Dicklin and Kirkpatrick113} A ketogenic diet may be associated with changes in alpha diversity and beneficial microbial metabolites such as short-chain fatty acids,^{Reference Attaye, van Oppenraaij, Warmbrunn and Nieuwdorp114} although the data are limited and clinical implications uncertain. Further discussion is beyond the scope of this review.

Implications for clinical practice

Clinicians in primary care, mental health services and dietetics/nutrition may increasingly encounter patients who wish to follow LC/KD for depression, anxiety, bipolar disorder or schizoaffective disorder. Shared decision-making and good communication of the current absence of data able to clearly support or refute the efficacy of a ketogenic diet is important. Some of these issues are discussed below and in Table 3.

Low carbohydrate diets – and especially ketogenic diets – are by nature highly restricted diets, whereas ‘whole of diet’ approaches are preferable and more likely to be sustainable in people with mood disorders.^{Reference Opie, Itsiopoulos, Parletta, Sanchez-Villegas, Akbaraly and Ruusunen115} As illustrated in Fig. 2, adherence to these diets, especially ketogenic diets, may be challenging, leading to either premature cessation (before potential benefits) or after therapeutic nutritional ketosis has been reached (which could equally apply to other treatment modalities).

Fig. 2 Schematic illustration of potential impact of low carbohydrate and ketogenic diets (LC/KD) on mood symptoms.

Symptoms may improve as carbohydrate (CHO) intake drops, for example when intake is <25–50 g/day for >4 days, inducing nutritional ketosis, although further evidence is required. Adverse effects may be challenging for some, causing discontinuation of the diet and relapse of mood symptoms. Some individuals may make further attempts at a low carbohydrate (LC) or ketogenic diet (KD). Clinical supervision is required to manage potential adverse effects and adherence problems across all phases of ketogenic dietary interventions.

Adverse effects include (a) early ‘flu-like’ symptoms during induction of ketosis,^{Reference Harvey, Schofield and Williden112,Reference Bostock, Kirkby, Taylor and Hawrelak116} predominantly due to early electrolyte changes (especially sodium diuresis), contributing to fatigue, constipation, cramps, palpitations and postural hypotension, and (b) perhaps renal stones, gout, osteoporosis and cardiovascular and gastrointestinal disease (see below) in the longer term.

The data on longer-term LC/KD adherence in various clinical populations remain uncertain. In epilepsy, a Cochrane review (n = 932 children and adults) found that adults following a ketogenic diet may be up to five times more likely to drop out of studies compared with those receiving usual care.^{Reference Martin-McGill, Bresnahan, Levy and Cooper17} In contrast, an online nutritional ketosis programme for adults with type 2 diabetes (n = 349) reported 74% adherence at 2 years (n = 194/262), compared with 78% adherence for those in usual care (n = 68/87).^{Reference Athinarayanan, Adams, Hallberg, McKenzie, Bhanpuri and Campbell117} The level of support provided to help participants follow the dietary intervention is likely to affect attrition rates, but this factor has not been systematically studied in relation to ketogenic diets. Further, these data have uncertain generalisability to patients with mood disorders, as it is possible that LC/KD adherence may be more challenging for individuals with such disorders. Pertinently, carbohydrate cravings and impulsivity present in many psychiatric disorders^{Reference Kulacaoglu and Kose118} would presumably increase the chance of consumption of high carbohydrate foods, with resultant dietary relapse (as shown in Fig. 2). Furthermore, repeated attempts at LC/KD with initial efficacy but relapse after challenges might exacerbate feelings of guilt and failure. It would therefore be crucial to develop strategies to overcome these challenges in clinical populations.

Several practical aspects, especially of ketogenic diets, warrant consideration. First, daily carbohydrate counting (which may be required to help maintain ketosis) might exacerbate disordered eating and/or obsessive traits. Second, although confirmation of ketosis might be preferable, especially for individuals new to ketogenic diets, this might unnecessarily ‘medicalise’ normal eating patterns.

In addition, measurements of ketosis are temporally variable, may be imprecise (especially in mild nutritional ketosis, in contrast to diabetic ketoacidosis) and may pose logistical challenges. Methods for confirming ketosis include urine (acetoacetate), blood (β-hydroxybutyrate) and breath (acetone) analyses. Urinary ketone testing strips, although popular (they are low cost, non-invasive and easy to use), are unreliable: in mild dietary ketosis sensitivity is 35–76% and specificity 78–100%.^{Reference Gibson, Eroglu, Rooney, Harper, McClintock and Franklin119} Blood ketone monitoring (venous, capillary) is more reliable: depending on the magnitude of ketosis, sensitivity is 98–100% and specificity 85–93.3%;^{Reference Brooke, Stiell and Ojo120} however, it may be impractical in the real world because of the cost and discomfort of blood tests or finger-prick testing (for related reasons, in diabetes, regular finger-prick glucose testing is being replaced by indwelling interstitial glucose devices,^{Reference Bailey, Bode, Christiansen, Klaff and Alva121} but interstitial ketone monitoring devices are not currently available). Breath ketone analysis is a relatively recent technology with uncertain accuracy and some devices are not registered with the Food and Drug Administration.^{Reference Alkedeh and Priefer122}

The involvement of dietitians was an important part of clinical trials of dietary interventions in participants with depression such as the SMILES and HELFIMED trials.^{Reference Jacka, O'Neil, Opie, Itsiopoulos, Cotton and Mohebbi8,Reference Parletta, Zarnowiecki, Cho, Wilson, Bogomolova and Villani9} This is also supported by a recent meta-analysis that reported that dietitian-led intervention trials showed a greater improvement in depressive symptoms.^{Reference Firth, Marx, Dash, Carney, Teasdale and Solmi79} This may be resource-intensive in naturalistic settings, but group sessions or internet-based delivery may be acceptable alternatives.^{Reference Saslow, Mason, Kim, Goldman, Ploutz-Snyder and Bayandorian123}

Importantly, a paucity of longitudinal studies has led to uncertainty and debate regarding aspects of long-term LC/KD safety, especially potential cardiovascular disease (CVD) and gastrointestinal risks from increased saturated fatty acid intake and reduced dietary fibre. Increased saturated fatty acid intake has an unpredictable effect on lipids (a surrogate marker for CVD).^{Reference Naude, Schoonees, Senekal, Young, Garner and Volmink124–Reference Norwitz, Mindrum, Giral, Kontush, Soto-Mota and Wood128} Reduced dietary fibre has potentially negative effects on gut metabolites and microbiota, which may increase the risk of CVD, gastrointestinal and other diseases.^{Reference Russell, Gratz, Duncan, Holtrop, Ince and Scobbie129–Reference Aune, Keum, Giovannucci, Fadnes, Boffetta and Greenwood131}

Finally, the potential effect of LC/KD on medications is important. Careful monitoring is essential and medication amendments may be warranted. For example, a ketogenic diet may affect pharmacokinetics and valproate levels.^{Reference Spilioti, Pavlou, Gogou, Katsanika, Papadopoulou-Alataki and Grafakou132,Reference Heo, Kim and Chang133} Ketogenic diet-related diuresis (especially during keto-adaptation) may cause electrolyte changes that could affect lithium levels. These factors might pose additional challenges if individuals have intermittent adherence to LC/KD.

Recommendations for further research

Robust RCTs are required to investigate the effects of low carbohydrate and ketogenic dietary interventions (with cross-over) on short- and longer-term outcomes in dysthymia, generalised anxiety disorder, major depressive disorder, atypical depression, bipolar disorder and schizoaffective disorder. Rating scale subgroup analysis might identify specific LC/KD effects on mood, anxiety, energy and sleep. The comparison of low carbohydrate diets with ketogenic diets is especially pertinent because, if efficacious, the less restrictive nature of low carbohydrate diets could increase generalisability. It would also be important to determine whether comorbid obesity/metabolic syndrome affects efficacy, adherence and relapse rates. Continuous interstitial glucose monitoring, such as in the large (n = 1100) multinational PREDICT I nutrition study,^{Reference Berry, Valdes, Davies, Delahanty, Drew and Chan134} combined with daily self-rated mood measures (for example, the True Colours app¹³⁵) might enable a fine degree of personalisation. This might, for example, show that individuals with impaired carbohydrate metabolism (a larger post-prandial glucose incremental area under the curve^{Reference Allison, Paultre, Maggio, Mezzitis and Pi-Sunyer136}) are more likely to respond to LC/KD, but (perhaps) not those with normal response.

These studies may be informed by the first RCT of a ketogenic diet in psychosis (NCT03873922), an open label trial of a ketogenic diet in euthymic bipolar disorder and schizophrenia (NCT03935854) and a feasibility study of a ketogenic diet in bipolar disorder (ISRCTN61613198). LC/KD effects on pharmacotherapy also require further study.

Neuroimaging may be informative. In people with epilepsy treated with a ketogenic diet, magnetic resonance spectroscopy (MRS) shows an increase in cerebral energy,^{Reference Seymour, Bluml, Sutherling, Sutherling and Ross137,Reference Pan, Bebin, Chu and Hetherington138} which is thought to be a potential mediator of ketogenic diet efficacy. MRS might therefore also be relevant to ketogenic diets in populations with mood disorders, especially bipolar disorder, given the anomalies of mitochondrial biogenesis.^{Reference Morris, Puri, Carvalho, Maes, Berk and Ruusunen88,Reference Morris, Maes, Berk, Carvalho and Puri91,Reference Morris, Walder, Berk, Marx, Walker and Maes92} Positron emission tomography or functional magnetic resonance imaging might also inform any ketosis-mediated neuroplasticity and neuroprotection, including changes in higher cortical function and cognition.^{Reference Fusar-Poli, Cortesi and Veggiotti139} Imaging research could also target the putative anti-inflammatory actions of LC/KD, focusing on changes in microglial activation^{Reference Baumeister, Russell, Pariante and Mondelli85,Reference Valkanova, Ebmeier and Allan140,Reference Mondelli, Vernon, Turkheimer, Dazzan and Pariante141} with translocator protein density^{Reference Setiawan, Wilson, Mizrahi, Rusjan, Miler and Rajkowska142} in the dorsal anterior cingulate cortex and prefrontal cortex (PFC). Functional BDNF imaging (amygdala, hippocampus, PFC) would add further information on potential mechanisms of LC/KD.^{Reference Cole, Weinberger, Mattay, Cheng, Toga and Thompson143,Reference Kuhn, Popovic and Pezawas144} Measurement of lactate might be the simplest biomarker of bioenergetics.^{Reference Kuang, Duong, Jeong, Zachos and Andreazza145}

Further research on LC/KD in mood disorders should include appetite hormones (including insulin, leptin and ghrelin), because of the interplay between LC/KD, appetite, insulin sensitivity and mood disorders.^{Reference Forsythe, Phinney, Fernandez, Quann, Wood and Bibus87,Reference Paz-Filho, Mastronardi, Wong and Licinio146,Reference Zarouna147} These factors might also link with inflammation noted above. Briefly, the role of appetite hormones and mood disorders is complex and may differ between disorders.^{Reference Zarouna147} For example, Cordas et al showed that reduced leptin is present in depression, especially atypical and bipolar depression; additionally, leptin is associated with current depression.^{Reference Cordas, Gazal, Schuch, Spessato, Branco and Jansen148} Conversely, Pasco et al showed that leptin is elevated in women with a history of unipolar major depression and elevated leptin predicts future depressive disorder.^{Reference Pasco, Jacka, Williams, Henry, Nicholson and Kotowicz149}

Notwithstanding this, leptin has multiple roles in glucose homeostasis, including improving insulin sensitivity,^{Reference Paz-Filho, Mastronardi, Wong and Licinio146} which, as noted above, has been shown to be important in treating bipolar depression.^{Reference Calkin, Ruzickova, Uher, Hajek, Slaney and Garnham93,Reference Calkin, Chengappa, Cairns, Cookey, Gannon and Alda94} LC/KD reduces leptin while also improving sensitivity to leptin.^{Reference Volek, Phinney, Forsythe, Quann, Wood and Puglisi150} The role of ghrelin in mood disorders is unclear,^{Reference Zarouna147} but ketosis rapidly suppresses ghrelin, reducing appetite within a few days.^{Reference Sumithran, Prendergast, Delbridge, Purcell, Shulkes and Kriketos102}

Thus, the degree and rate of change of appetite hormones and mood disorder symptoms in various disorders during LC/KD interventions would be instructive. These findings may have important translation potential (Table 3) and might lead to formulation of dietary recommendations for mood disorders (as suggested for those with chronic pain).^{Reference Rondanelli, Faliva, Miccono, Naso, Nichetti and Riva151}

Finally, the effect of LC/KD on overall healthcare costs in mood disorders would also be of interest, as these costs have been shown to be reduced by LC/KD in people with type 2 diabetes.^{Reference Unwin, Delon, Unwin, Tobin and Taylor152}

This review was conducted in the context of debate around many aspects of nutrition, especially ‘low carb’ diets, and mounting scientific and public interest. There is a very limited and low-quality evidence base on the efficacy of KD in mood disorders. Efficacy and adherence are unclear, and there are concerns about potential adverse effects. Nevertheless, some individuals already employ these strategies, and definitive and rigorous trials are needed to clarify safety and efficacy to guide clinical practice.