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Hook grip
Hook grip
Hook grip
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from Wikipedia
Step one: Place an open hand around the barbell with the thumb on the opposite side
Step two: Wrap the thumb around the barbell
Step three: Wrap remaining fingers over the thumb and around bar

Hook grip is a method of gripping a barbell used in many strength-related sports such as Olympic weightlifting and powerlifting by overlapping the index and middle finger over the thumb. This method of gripping the bar provides a secure bar grip while performing pulling motion with the barbell such as the clean and jerk, snatch, and deadlift. To perform a hook grip one must first wrap their thumb around the bar placing it parallel to the barbell and then wrap their index, and middle finger around the outside of the thumb. The pinky and ring finger typically ends up resting on the barbell.[1] It is important to actively hooking on to the thumb with the index and middle finger while performing Hook grip compared to providing direct pressure on to the thumb.[2]

A hook grip provides the lifter with a secure, tight grip by maintaining a pronated position between the palms and barbell[2] similar to the double over grip. When used in the deadlift, the hook grip has a number of advantages. Traditionally, lifters tend to use an alternated grip when working with heavy loads on the deadlift; that is, one hand being supine and the other prone. This mixed grip creates an imbalance of the shoulders, with one shoulder being externally rotated and the other internally rotated. Having both hands pronated while pulling the barbell provides the lifter with a symmetrical shoulder position which avoids the imbalance caused by the alternated grip.[3] The imbalanced shoulder rotation, particularly in the spine side of the arm, causes a higher bicep flexion, as well as being more likely to result in bicep tears.[3] This difference in rotation between the shoulders can create imbalances in the muscles of the back over time.

Advantages

[edit]
  • Bar stabilization: the lifter has a more symmetrical pull resulting in a more technically sound lift and more even muscle development. The athlete also has more control over the barbell roll.[4]
  • Secure bar grip: with hook grip, athletes can rely less on grip tension and focus more on their strength and technique during their sessions and competitions.[4]

The hook grip is more secure than grips in which the thumb remains outside the other fingers, like the closed grip or the natural grip. During a snatch or clean, the lifter can exert forces up to 2-3 times the weight of the loaded barbell at rest, and the hook grip allows an athlete to maintain a grip on the bar during the phase of highest bar acceleration, the second pull. The hook grip does this by preventing the bar from rolling in the hands, whereas the bar would have a tendency to roll towards the fingertips in a normal overhand grip.[5]

Disadvantages

[edit]
  • Pain: the hook grip may cause pain, especially before the skin and fingers have developed calluses and gotten used to the new pressure they have to endure.[6]
  • Skin tears: although there are some techniques to mitigate tears, it is still likely that the thumb skin will rip while acclimating to hook grip.
  • Difficult with small hands: if the thumb cannot reach around the barbell due to the barbell size, the hook grip will be difficult to use.

The hook grip places a relatively large amount of pressure on the thumb. As a result, it may cause pain or injury to the skin or thumbnail, although this can be overcome by regular training and gradually working with heavier loads. It generally takes up to 2 weeks to grow accustomed to the hook grip.[7] Many Olympic weightlifters tape their thumbs with athletic tape.[5]

Pain reduction

[edit]

The following techniques can reduce pain after lifting using the hook grip:

  • Submerging the hands in a bucket of water after each session for 5–10 minutes.
  • Wrapping elastic tape around the thumbs during training to reduce friction on the skin provides a more secure and less painful grip. Note that traditional athletic tape will hinder the grip's range of motion, so elastic tape is preferable.

Grip strengthening

[edit]

The below tips can aid hook grip strength:

  • Reducing the use of lifting straps by only using them when necessary.[8]
  • Performing slow pulling movements such as deadlifts or rows can help develop key muscles to improve performance during more complex movements.[8]
  • Using hand grippers a couple of times per week and completing wrist strengthening/stretching exercises before training sessions.
  • To train thumb and finger positioning, the hook grip can be practiced using household items such as a broomstick, steering wheel, or bottleneck.
    Hook grip in motion

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Hook grip

View on Grokipedia
from Grokipedia
The hook grip is a specialized gripping technique primarily employed in , and also used in , in which the lifter wraps their around the bar from the rear in a pronated position and then secures it by wrapping the index and middle fingers (and sometimes the ring finger) over the from the front, creating a secure "hook" that minimizes bar roll and enhances control during heavy lifts. This method contrasts with the more common overhand or mixed grips by forgoing 's oppositional wrap, instead using the fingers to compress against the , which allows for greater force transfer and reduced stress on the forearms and hands during pulling movements such as the snatch, , and . In Olympic competitions, the hook grip is standard for maintaining bar security throughout the lift, particularly in the explosive pull phase, and it enables athletes to handle heavier loads by providing a more stable connection without excessive muscular effort in the grip. Biomechanical research demonstrates that the hook grip significantly enhances performance in exercises like the power clean, increasing (1RM) by approximately 6.6%, peak velocity by 2.9–5.2%, and relative peak power by 5.7–15.1% across heavy loads (75–100% of 1RM), with particular benefits in the transition from pull to catch due to improved catch height and reduced horizontal deviation. These advantages stem from the grip's ability to optimize kinetics and , making it especially valuable for well-trained athletes incorporating into their training regimens. While highly effective, the hook grip can initially cause discomfort or pain in the thumbs due to compression, often leading to temporary soreness or discoloration that resolves with adaptation over weeks of consistent use; lifters with shorter fingers may experience faster fatigue, and alternatives like chalk or tape can mitigate issues during the learning phase. Despite these challenges, it remains a cornerstone technique for elite weightlifters seeking to maximize grip security and lifting efficiency.

Definition and Usage

Definition

The hook grip is a specialized hand position used in , characterized by a pronated grip in which the lifter's is wrapped around the and then secured by the fingers overlapping it, effectively trapping the between the bar and the fingers—typically the index and middle fingers, though this may vary slightly based on hand size. This setup creates a mechanical "hook" that enhances grip security on the . Anatomically, the thumb functions as the primary anchor in this grip, pressing against the bar to prevent slippage without requiring excessive wrist flexion or extension, which distinguishes it from grips reliant on thumb opposition alone. The fingers then clamp down over the thumb's distal , forming a vise-like hold that distributes pressure across the hand. This configuration is particularly adapted for bars of standard Olympic diameter, approximately 28 mm, allowing the hand to wrap sufficiently around the knurled surface while maintaining thumb entrapment. In contrast to basic overhand (pronated) or underhand (supinated) grips, the hook grip's unique thumb entrapment provides superior bar retention under heavy loads, as it minimizes the risk of the bar rolling out of the hand compared to standard pronated grips where the thumb lies parallel to the fingers. Unlike mixed grips that alternate hand orientations for balance, the hook grip maintains full pronation in both hands for symmetrical pulling mechanics. It is commonly employed in movements such as the snatch and clean.

Primary Applications

The hook grip is primarily employed in for the snatch and clean & jerk, where it provides secure bar control during explosive movements that involve bar rotation in the hands. In these lifts, the grip ensures the bar remains stable from the floor pull through the catch position, allowing athletes to handle maximal loads without slippage. In , the hook grip serves as an alternative to the mixed grip for , particularly when lifters seek a symmetrical pull or aim to avoid the and potential risks associated with supinating one hand. Other alternatives to the mixed grip include using lifting straps and building double overhand grip strength, often with the aid of chalk. The hook grip provides symmetry by trapping the thumbs under the fingers, though it can be painful initially, and these options are preferred for higher-rep training to avoid mixed grip risks. It is often used for heavy sets where double-overhand grip fails, enabling lifters to maintain a neutral position and enhance overall pulling efficiency. Secondary applications include competitions, where the hook grip is utilized in events like heavy s to secure thick-handled implements under extreme loads. In workouts incorporating Olympic lifts or heavy pulls, it supports varied movements such as power cleans or variations, promoting consistency across training modalities. General contexts, such as rows or rack pulls, also benefit from the hook grip for building pulling strength without straps, especially in programs emphasizing grip endurance. The hook grip is typically reserved for heavy efforts where standard double-overhand grip becomes insufficient, often exceeding the point at which grip failure occurs in submaximal training. It is most compatible with standard Olympic barbells featuring a 28 mm shaft diameter, as this size allows the thumb to be effectively compressed under the fingers for optimal security; smaller-diameter bars, such as the women's Olympic standard at 25 mm, facilitate hook grip for smaller hands and are standard in women's competitions.

Technique

Step-by-Step Application

To apply the hook grip effectively in , begin with proper preparation to ensure comfort and security. If hands feel cold or dry, warm them by rubbing or using to enhance between the skin and , as this reduces slippage during the lift. Position the at mid-thigh height for setups or in a at shoulder level for cleans and snatches, allowing for a natural stance with hands just outside the legs to avoid contact during the pull. For added thumb protection, especially during initial uses, wrap athletic tape around the base of the with two layers to cushion pressure without altering grip mechanics. Step 1: Establish the base grip. Adopt a double-overhand pronated position on the barbell, placing the thumb alongside the bar and wrapping it toward the body and opposing fingertips to initiate the hook formation. This positions the thumb under the bar, ready for compression, while keeping wrists neutral and aligned with the forearms to distribute force evenly. Step 2: Secure the hook. Overlap the index and middle fingers over the thumb, pressing the distal joint of the middle finger directly onto the thumbnail to compress it firmly against the bar; extend the ring and pinky fingers naturally along the bar for additional support if needed. This creates a mechanical lock through friction, with the bar sitting low in the fingers at the palmar digital crease for optimal hold. Step 3: Engage and stabilize. Squeeze the bar tightly with the full hand to activate the muscles, maintaining neutrality to prevent strain while ensuring the grip remains isometric throughout the lift. The compression of the enhances resistance to rolling, allowing a secure hold without excessive force. For beginners, progress gradually by starting with lighter loads, such as an empty or warm-up sets, to build tolerance over several sessions before advancing to working weights. Hand size influences execution; those with smaller hands may need shallower overlap and prefer narrower bar diameters (27-28 mm) for easier compression, while larger hands can deepen the overlap for added security on standard 28-29 mm bars. Short may limit full locking, requiring practice with adjusted positioning to achieve stability.

Common Errors and Corrections

One common error in executing the hook grip is an incomplete thumb wrap, where the thumb does not fully encircle the bar before the fingers overlap, resulting in reduced grip security and potential slippage during the lift. This often occurs when the thumb is merely pinned parallel to the fingers rather than hooked securely. To correct this, position the webbing between the thumb and index finger deeply against the bar, wrap the thumb fully around it, and then secure it by gripping with the index and middle fingers while pulling the thumb farther around the bar for a tighter lock. Excessive wrist flexion represents another frequent mistake, as lifters bend the s forward to compensate for an insecure grip, which causes discomfort and limits force transmission from the s to the bar. This flexion creates a weak structural point in the hand and can exacerbate soreness. The correction involves maintaining straighter s by emphasizing a firm squeeze through the s, aligning the hand more closely with the to minimize bending while preserving grip integrity. Uneven finger pressure across the hand can lead to asymmetrical pulling forces, potentially causing bar deviation or imbalance during the lift, particularly if one side's fingers apply more tension than the other. This error stems from inconsistent thumb-finger coordination. To address it, focus on applying equal force with all fingers when securing the thumb, and alternate the dominant hand periodically in practice sets to promote balanced development and prevent habitual asymmetry. Under conditions of , lifters often rush the grip application, leading to hasty thumb placement and finger overlap that compromises overall stability as muscle endurance wanes. This haste amplifies earlier errors like incomplete wraps. The recommended correction is to incorporate slow-motion repetitions at lighter weights during training sessions to build and ensure deliberate, precise application even when tired. Diagnostic indicators of poor hook grip form include the bar rolling forward in the hands, signaling inadequate thumb security, or temporary thumb numbness, which points to excessive localized pressure or misalignment. These signs warrant immediate technique review, often by revisiting basic hand positioning where the bar rests in the base of the fingers. Consistent monitoring and adjustments based on these cues help prevent progression to injury.

Benefits

Performance Advantages

The hook grip provides a secure hold on the by trapping the thumb under the fingers, which prevents bar rotation and slippage without relying on lifting straps or a mixed grip, allowing lifters to maintain full during heavy pulls. This mechanical lock enhances grip stability, particularly off the floor and during the second pull, outperforming a standard closed grip in perceived security. In competitions, where straps are prohibited, the hook grip enables consistent performance at maximal loads without grip failure. By maintaining a double-overhand pronated position, the hook grip promotes a pull that ensures an even bar path and balanced muscle recruitment across both sides of the body, reducing deviations common in mixed grips where one hand is supinated. This contributes to more efficient overall lift . The hook grip minimizes energy loss from grip slippage and excessive tension, facilitating superior power transfer from the lower body to the by allowing the arms to remain relaxed and passive. indicates this leads to higher peak (2.9-5.2% increase) and relative peak power (5.7-15.1% increase) across submaximal to maximal loads in the power clean compared to a closed grip. In Olympic lifting, the hook grip supports consistent (1RM) attempts without mid-lift re-gripping, with studies showing a 6.6% greater power clean 1RM ( 0.43) for adapted users compared to closed grip. This advantage is attributed to improved timing in the turnover and catch phases, allowing for higher loads in heavy pulls.

Long-Term Grip Development

Consistent use of the hook grip induces physiological adaptations in the and hand by increasing electromyographic activity in muscles such as the and flexor carpi ulnaris during exercises like the , compared to mixed grip techniques. Over time, these adaptations enhance the structural integrity of the grip, with thickening on to better tolerate . Training progression with the hook grip typically begins at lighter loads, around 50-70% of , to build tolerance before incorporating it into full-weight sets. Adaptation to the grip's demands occurs within 2-4 weeks of regular use in pulling exercises, allowing lifters to transition to consistent application without straps. A gradual approach ensures on the grip while minimizing early discomfort, facilitating long-term incorporation into routines like . Measurable gains from sustained hook grip training include improved grip endurance, enabling prolonged holds during deadlifts at loads up to 2-2.5 times bodyweight for trained individuals. Competitive master weightlifters, who routinely employ the hook grip, demonstrate 20-30% higher than age-matched community adults, with mean values of 46.3 kg for males and 30.7 kg for females. The hook grip's benefits extend to non-specific exercises, enhancing overall crushing and support grip capacity for activities such as farmer's walks or plate pinches, due to generalized flexor strengthening. Evidence from resistance training protocols incorporating support grips like the hook shows 20-40% increases in maximal finger flexion and isometric grip strength after 6-12 weeks, supporting its role in long-term development. Coach observations in programs further indicate 15-25% grip endurance improvements after 3 months of consistent hook grip use in deadlifts and cleans.

Challenges

Drawbacks

The hook grip often causes intense initial pain in the thumbs and palms due to the compression of the thumb against the , which can deter new users from persisting with the technique. This discomfort arises from the thumb being trapped under the fingers, creating pressure on soft tissues that may lead to bruising or soreness during early sessions. This pain is particularly notable in deadlifts, where the hook grip serves as a symmetrical alternative to the mixed grip, but can be especially challenging in higher-repetition training despite its preference for avoiding the asymmetry and potential injury risks associated with the mixed grip. Friction from the barbell's can result in skin tears or breakdown of calluses, particularly on the , increasing vulnerability to abrasions and delaying recovery between lifts. Such issues are exacerbated in high-repetition or heavy-load scenarios, where repeated compression wears down the skin faster than with other grips. Individuals with very small hands or short may find the hook grip less secure, leading to potential slippage or excessive strain on the wrists and fingers to maintain hold. suggests a minimum thumb length of approximately 5.91 cm (±0.15 cm) for optimal hook grip; shorter may require adjustments like or tape. For those with shorter , achieving a firm lock requires awkward adjustments that reduce overall effectiveness and comfort. The hook grip presents a steeper than alternatives like lifting straps, with many beginners experiencing frustration due to the persistent discomfort and technical demands. Acclimation typically requires consistent practice over weeks, during which users must overcome the instinct to release the grip prematurely.

Mitigation Strategies

To alleviate the initial discomfort associated with the hook grip, particularly around and interphalangeal , athletes can apply flexible athletic tape to the base of for added support and to distribute more evenly during the early stages of adoption. This technique, recommended by coach Greg Everett, helps secure the grip while minimizing direct compression on sensitive areas, and the tape should be elastic to avoid restricting movement. Additionally, progressing gradually by starting with lighter weights or empty bar sets allows the hands to adapt without overwhelming the tissues, as suggested in coaching resources for . Using sparingly is also advised to prevent excessive drying of the skin, which can exacerbate irritation, though specialized chalk-resistant tapes can be used if needed for traction. Protecting the skin from abrasions and tears is essential for sustained use of the hook grip. Post-training moisturization with promotes healing and maintains skin integrity by counteracting the drying effects of sweat and . Rotating the grip between hands during bilateral exercises, where feasible, and incorporating recovery days—typically 1-2 per week—further aids in preventing overuse injuries and allowing minor irritations to subside, as outlined in hand care protocols for strength athletes. Building tolerance through targeted adaptation drills can accelerate comfort with the hook grip. Incorporating the grip into warm-up sets for cleans and snatches, even at reduced loads, conditions the thumbs and fingers over 3-4 weeks, according to coaches. Accessory work, such as plate pinches—holding weight plates between the thumb and fingers for 20-30 seconds—strengthens the pinching mechanism specific to the hook grip and can be added 2-3 times weekly to enhance endurance without full lifts. For those with significant intolerance during the learning phase, temporary use of lifting straps provides an alternative to maintain training volume while building hook grip proficiency, though straps should be phased out to avoid dependency, as noted in beginner guides. Straps can be applied over a loose hook grip for pulls or deadlifts, allowing gradual exposure without complete abandonment of the technique. Individual variations in hand , such as length or finger flexibility, may require personalized adjustments, so consulting a qualified coach is recommended to tailor grip setup and progression. Coaches can assess factors like hand size to optimize placement and ensure safe implementation, drawing from established methodologies.

History and Evolution

Origins

The hook grip has been permitted in competitive since the sport's early formalization in the late 19th and early 20th centuries, though its use remained uncommon at elite levels until the mid-20th century. The exact origins and inventor of the hook grip remain unknown, though it has been permitted in competitions since the sport's early days. Early competitions, governed by emerging international bodies like the (founded in 1905), allowed various grip variations without straps, but lifters predominantly relied on the double overhand grip due to the rudimentary nature of equipment and techniques. The technique emerged alongside the standardization of Olympic-style barbells in the 1920s, which addressed inconsistencies in bar weight and design that had plagued prior events, such as the 1920 Olympics. By , the adoption of revolving-sleeve barbells, like Kaspar Berg's model used at the Games, facilitated smoother rotations during lifts, indirectly highlighting the need for secure grips in explosive movements like . This evolution from basic overhand grips was driven by the challenge of grip failure during heavy cleans and snatches, where the bar's spin could cause slippage without additional security. Post-World War II, the hook grip saw its first widespread adoption in programs during the late 1940s and 1950s, particularly for maintaining control in dynamic lifts. , an eight-time world champion, learned the grip in 1948 from a weightlifting publication and employed it effectively in his presses and Olympic successes in 1952 and 1956. In the United States, early adopters like state champion Walt Gioseffi popularized it among lifters in the , teaching it to coaches such as Jim Schmitz in 1964 and 1966 to enhance thumb security without straps.

Modern Adoption

The hook grip became the predominant technique in during the 1970s, as techniques evolved, leading to its universal adoption among competitors. By the late , it had effectively replaced alternative grips at the elite level, with no Olympic weightlifter employing a non-hook grip in competition over the subsequent decades. Its integration expanded into and communities during the 2000s, as these disciplines increasingly incorporated Olympic-style lifts. In , founded in 2000, the hook grip gained traction through coaching programs emphasizing functional strength, with early adopters like CrossFit Weightlifting seminars promoting it for cleans and snatches. Similarly, in , it emerged as an alternative to mixed grips for deadlifts, particularly among athletes seeking grip security without straps, though adoption remains selective compared to Olympic contexts. Training protocols reflect regional differences in emphasis. In Chinese youth development programs, the hook grip is introduced early alongside foundational lifts, forming a core element of systematic training that contributes to the country's dominance in international competitions. Western coaching typically presents it as optional for beginners but strongly encourages its mastery for advanced performance, often through progressive drills to build tolerance. Modern equipment and tools have enhanced its application. Athletes pair the hook grip with fat grips or axle bars to vary training stimuli and strengthen , simulating thicker bar diameters common in strongman-influenced routines. Video software, widely adopted since the , allows coaches to refine hook grip in real-time, correcting thumb positioning and finger overlap for optimal force transfer during explosive movements. Prominent athletes have exemplified its efficacy. Greek Olympian , a three-time gold medalist in the 1990s, relied on the hook grip for his signature cleans, enabling precise bar control in high-stakes lifts. Contemporary stars like Chinese lifter Lu Xiaojun continue to use it, as seen in his competition lifts. In the 2020s, the hook grip's prevalence has surged in hybrid sports blending with conditioning, such as and functional fitness events, where nearly all elite Olympic competitors employ it exclusively for maximal lifts. This trend underscores its role in sustaining grip integrity under fatigue, with adoption rates approaching universality among top-tier athletes across disciplines.

References

  1. https://weightlifting.org/the-weightlifting-encyclopedia/appendix-3/
  2. https://www.ncsf.org/blog/19-grippingforstrength
  3. https://pmc.ncbi.nlm.nih.gov/articles/PMC9915202/
  4. https://commons.nmu.edu/cgi/viewcontent.cgi?article=1388&context=isbs
  5. https://www.catalystathletics.com/article/2167/The-Hook-Grip-Why-How-to-Do-It-Correctly/
  6. https://iwf.sport/wp-content/plugins/download-monitor/download.php?id=2168
  7. https://ironmind.com/articles/jim-schmitz-on-the-lifts/The-Hook-Grip/
  8. https://store.torokhtiy.com/blogs/guides/hook-grips
  9. https://barbend.com/deadlift-grips-guide/
  10. https://assets.crossfit.com/pdfs/seminars/SMERefs/weight/WeightLiftingCourse_SeminarGuide_V3.pdf
  11. https://barbend.com/how-to-determine-which-deadlift-grip-variation-you-should-use/
  12. https://startingstrength.com/training/deadlift-grip-adjustments
  13. https://www.elitefts.com/education/how-to-perform-the-hook-grip/
  14. https://barbend.com/mark-wood-deadlifts-792-pounds-double-hook-grip/
  15. https://barbend.com/snatch-grip-deadlift-guide/
  16. https://www.testifysc.com/articles/lifters-corner-the-hook-grip-some-clarifications-20240604
  17. https://torokhtiy.com/blogs/guides/olympic-barbell-dimensions
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  19. https://startingstrength.com/article/the_split_snatch_and_clean
  20. https://startingstrength.com/training/the-hook-grip-breakdown
  21. https://www.catalystathletics.com/article/1671/Ask-Greg-Trouble-with-the-Hook-Grip/
  22. https://openrepository.aut.ac.nz/server/api/core/bitstreams/b91b0af1-1f07-40d8-9baa-d58569c7ec94/content
  23. https://www.researchgate.net/publication/327664171_Hook-grip_improves_power_clean_kinetics_and_kinematics
  24. https://pubmed.ncbi.nlm.nih.gov/34592911/
  25. https://www.sciencedirect.com/science/article/pii/S1050641120300705
  26. https://chineseweightlifting.com/hook-grip/
  27. https://www.strongerbyscience.com/grip/
  28. https://www.mdpi.com/1660-4601/20/3/2033
  29. https://barbend.com/pros-cons-hook-grip/
  30. https://startingstrength.com/training/hook-grip-vs-straps
  31. https://www.strongfirst.com/community/threads/mixed-grip-vs-hook-grip.10556/
  32. https://sportsedtv.com/blog/hook-grip-basics
  33. https://physicalculturestudy.com/2018/02/12/the-history-of-the-olympic-barbell/
  34. https://www.performancemenu.com/article/1343/Interview-Jim-Schmitz-Part-1/
  35. https://invictusfitness.com/blog/oly-non-negotiables/
  36. https://www.youtube.com/watch?v=qxndkmGgrZU
  37. https://www.allthingsgym.com/chinese-youth-weightlifting-training/
  38. https://www.garagestrength.com/blogs/news/hook-grip-deadlift
  39. https://www.youtube.com/watch?v=4FXGjhTav9A
  40. https://www.hookgrip.com/
  41. https://invictusfitness.com/blog/why-you-should-use-a-hook-grip/
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